All The Claims

1. A door hinge for heavy equipment, comprising: a first plate and a second plate that are disposed on a hinge shaft of a door of heavy equipment and are hinge-coupled to each other to open and close the door; the first plate having a first face parallel to the hinge shaft and the second plate having a second face parallel to the hinge shaft; and
a stay unit that is rotatably disposed on the first plate and supports the second plate when the door is opened to prevent the door from being closed;
wherein the stay unit comprises: a stay bar that is rotated on a plane parallel to the first face of the first plate; a rotating axis perpendicular to the hinge shaft; the rotating axis is disposed at one end of the stay bar and is connected to the first face of the first plate; and a guide boss that is disposed on one surface of the stay bar to guide or restrict a rotating orbit of the stay bar.
2. The door hinge of claim 1, wherein a bearing is interposed into a coupling portion between the guide boss and the stay bar.
3. The door hinge of claim 1, wherein a guide groove for guiding or restricting an orbit of the guide boss is formed in the first plate.
4. The door hinge of claim 1, further comprising a fixing unit disposed on the first plate and configured to fix the stay unit by which support for the second plate is released.
5. The door hinge of claim 4, wherein the stay unit is disposed adjacent to the guide boss and is detachably attached to the fixing unit, thereby further comprising a fixing boss for fixing the stay bar at a predetermined position.
6. The door hinge of claim 5, wherein a bearing is interposed into a coupling portion between the fixing boss and the stay bar.
7. The door hinge of claim 5, wherein the fixing unit comprises: a support portion that protrudes from one end of the first plate and is formed to be bent to one surface of the first plate; and a snap-fit attachingdetaching portion that is disposed at the support portion to be snap-fit coupled to the fixing boss.
8. The door hinge of claim 7, wherein the snap-fit attachingdetaching portion is made of an elastic material.
9. The door hinge of claim 7, wherein a surface of the snap-fit attachingdetaching portion is coated with a synthetic resin.

The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. Apparatus comprising:
a banking system comprising:
at least one automated banking machine,
wherein the at least one automated banking machine is operative to cause financial transfers responsive at least in part to data read from user cards,
wherein the at least one automated banking machine includes:
at least one card reader,
\u2003wherein the at least one card reader is operative to read from a card of a machine user, card data corresponding to user identification data,
at least one cash dispenser,
\u2003wherein the at least one cash dispenser is operative to cause stored cash to be dispensed,
at least one computer,
\u2003wherein the at least one computer is in operative connection with the at least one card reader and the at least one cash dispenser,
\u2003wherein the at least one computer is operative during a transaction to
\u2003cause card data to be read from a user card through operation of the at least one card reader, and
\u2003cause cash to be dispensed from the machine through operation of the at least one cash dispenser,
\u2003wherein the at least one computer is operative to cause a financial account to be assessed a value associated with cash dispensed,

wherein the at least one automated banking machine is operative to receive from a machine user, at least one user input including
a secret code,
data corresponding to a customer phone number, and
a request for a cash dispense transaction associated with a particular amount of cash,
a server,
wherein the server is located remotely from the at least one automated banking machine,
wherein the server is operative to receive from the at least one automated banking machine, at least one message associated with the request,
wherein the server is operative to generate a transaction security code associated with the cash dispense transaction,
wherein the server is operative cause at least one message associated with the cash dispense transaction to be sent to a customer phone having the customer phone number,
wherein the at least one message includes
\u2003customer notification of the cash dispense transaction, and
\u2003the transaction security code,

wherein the at least one automated banking machine is operative to receive from a machine user, at least one user input including the transaction security code,
wherein the at least one automated banking machine is operative to cause the particular amount of cash to be dispensed through operation of the at least one cash dispenser, responsive at least in part to the transaction security code being received by the at least one automated banking machine within a predetermined time period in which the security code is required to be received to allow the cash dispense transaction to proceed.
2. The apparatus according to claim 1
wherein the at least one automated banking machine includes at least one biometric reader,
wherein the at least one computer is operative to cause card data read by the at least one card reader to be compared with card information stored in a user identification data store,
wherein the at least one computer is operative to cause customer biometric data read by the at least one biometric reader to be compared with biometric information in the user identification data store,

wherein a customer is authorized to request the cash dispense transaction responsive at least in part to at least one of
computer-determined correspondence between read card data and stored card information, and
computer-determined correspondence between read biometric data and stored biometric information.
3. The apparatus according to claim 2
wherein a customer is authorized to request the cash dispense transaction responsive at least in part to both
computer-determined correspondence between read card data and stored card information, and
computer-determined correspondence between read biometric data and stored biometric information.
4. The apparatus according to claim 1 wherein the at least one automated banking machine is in operative connection with at least one transaction host operative to authorized the cash dispense transaction, and wherein the server differs from the at least one transaction host.
5. The apparatus according to claim 1 wherein the at least one automated banking machine is a sole self-service automated banking machine,
wherein the sole self-service automated banking machine is operative to receive the secret code, the data corresponding to a customer phone number, the request for the cash dispense transaction, and the transaction security code,
wherein the sole self-service automated banking machine is operative to dispense the particular amount of cash.
6. The apparatus according to claim 1 wherein the transaction security code is time sensitive, wherein the transaction security code is required to be received by the at least one automated banking machine within the predetermined time period to prevent cancellation of the cash dispense transaction.
7. A method comprising:
(a) carrying out automated banking machine-receiving of user input of a secret code;
(b) carrying out automated banking machine-receiving of user input of a request for automated banking machine-dispensing of a particular amount of cash;
(c) subsequent to (b), carrying out automated banking machine-notifying of a remote server of a transaction corresponding to the request;
(d) subsequent to (c), carrying out through operation of the server, generation of a security code for the transaction;
(e) subsequent to (d), carrying out through operation of the server, a sending of a message to a customer mobile phone associated with the request, wherein the message includes
customer notification of the transaction, and
the security code generated in (d), wherein the security code is associated with a predetermined time period in which the security code is required to be automated banking machine-received to allow the transaction to proceed;

(f) subsequent to (e), carrying out automated banking machine-receiving of user input of the security code; and
(g) carrying out automated banking machine-dispensing of the particular amount of cash through operation of at least one cash dispenser, responsive at least in part to the user input in (f) being received within the predetermined time period.
8. The method according to claim 7
wherein steps (a), (b), (c), (f), and (g) are carried out in a banking system including a plurality of automated banking machines,
wherein each automated banking machine includes at least one computer, a card reader, a biometric reader, and a cash dispenser,

wherein steps (a), (b), (c), (f), and (g) include operation of at least one automated banking machine in operative connection with at least one transaction host operative to authorized the transaction,
wherein in steps (d), and (e) the server differs from the at least one transaction host

and further comprising:
(h) operating the at least one computer to control at least one of
the card reader to read user card data; and
the biometric reader to read user biometric data,

(i) authorizing a machine user to request the transaction responsive at least in part to at least one of
computer-determined correspondence between read card data and stored card information, and
computer-determined correspondence between read biometric data and stored biometric information.
9. The method according to claim 7 and further comprising
(h) prior to (d), carrying out automated banking machine-receiving of at least one user input of data corresponding to a customer phone number affiliated with the customer mobile phone;
wherein (e) includes operating the server to cause the at least one message to be sent to the customer mobile phone through use of the customer phone number.
10. The method according to claim 7 wherein steps (a), (b), (c), (f), and (g) are carried out through operation of the same automated banking machine.
11. Apparatus comprising:
a system,
wherein the system includes at least one automated banking machine,
wherein the at least one automated banking machine includes at least one cash dispenser,
wherein the at least one automated banking machine is operative to receive at least one machine user input including:
a secret code,
data corresponding to a customer phone number,
a request for a cash dispense transaction associated with a particular amount of cash, and
a time-sensitive transaction security code being:
\u2003associated with the cash dispense transaction request,
\u2003different from the secret code,
\u2003server-generated,
\u2003server-sent using the customer phone number, and
\u2003automated banking machine-receivable within a predetermined time period to prevent cancellation of the cash dispense transaction;

wherein the at least one automated banking machine is operative to cause the particular amount of cash to be dispensed through operation of the at least one cash dispenser, responsive at least in part to the transaction security code being received by the at least one automated banking machine from a machine user within the predetermined time period.
12. The apparatus according to claim 11 wherein the customer phone number is affiliated with a customer mobile phone,
and further comprising a server located remotely from the at least one automated banking machine,
wherein the server is operative to generate the transaction security code,
wherein the server is operative to cause the transaction security code to be sent to the customer mobile phone through use of the customer phone number.
13. The apparatus according to claim 12 wherein the at least one automated banking machine is in operative connection with at least one transaction host operative to authorized the cash dispense transaction and wherein the server differs from the at least one transaction host.
14. The apparatus according to claim 12 wherein the transaction security code comprises a randomly-generated security code, wherein the secret code comprises a user-selected code.
15. The apparatus according to claim 11 wherein the at least one automated banking machine is a sole self-service automated banking machine, wherein the cash dispenser is operative to physically dispense currency notes from the machine.
16. The apparatus according to claim 11 wherein the predetermined time period comprises a time period in which the security code is required to be automated banking machine-received to allow the cash dispense transaction to proceed.
17. A method comprising:
(a) carrying out automated banking machine-receiving of at least one user input including a secret code;
(b) carrying out automated banking machine-receiving of at least one user input including data corresponding to a customer phone number;
(c) carrying out automated banking machine-receiving of at least one user input including a request for a cash dispense transaction associated with a particular amount of cash;
(d) subsequent to (a), (b), and (c), carrying out automated banking machine-receiving of at least one user input including a time-sensitive transaction security code being:
associated with the cash dispense transaction request,
different from the secret code,
server-generated,
server-sent using the customer phone number, and
automated banking machine-receivable within a predetermined time period to prevent cancellation of the cash dispense transaction; and

(e) carrying out automated banking machine-dispensing of the particular amount of cash through operation of at least one cash dispenser, responsive at least in part to the transaction security code being received in (d) within the predetermined time period.
18. The method according to claim 17
wherein (a), (b), and (c) are carried out with a first automated banking machine,
wherein (d) and (e) are carried out with a second automated banking machine,
wherein the second automated banking machine differs from the first automated banking machine.
19. The method according to claim 17 wherein the customer phone number is affiliated with a customer mobile phone, and further comprising
(f) operating a server to cause the transaction security code to be sent to the customer mobile phone through use of the customer phone number.
20. The method according to claim 19 and further comprising
(g) prior to (f), operating the server to generate the transaction security code.

1. A color filter substrate, comprising:
a base substrate having a black matrix pattern thereon, the black matrix pattern having a plurality of openings; and
a plurality of color filter layers in different colors, disposed on the base substrate and located at the openings of the black matrix pattern, the color filter layers being glass layers in different colors.
2. The color filter substrate of claim 1, wherein the base substrate is a glass substrate.
3. The color filter substrate of claim 1, wherein the color filter layers are glass layers which are formed by firing glass raw materials mixed with colorants in different colors.
4. The color filter substrate of claim 2, wherein the color filter layers are glass layers which are formed by firing glass raw materials mixed with colorants in different colors.
5. The color filter substrate of any of claims 1, wherein the color filter layers have three different colors, respectively, and the color filter layers in different colors are sequentially arranged at the plurality of openings of the black matrix pattern.
6. The color filter substrate of any of claims 1, wherein the color filter layers have three different colors of red, green and blue, respectively, and the colorants in different colors are a red colorant, a green colorant and a blue colorant, respectively.
7. The color filter substrate of claim 6, wherein the red colorant is copper oxide, the green colorant is chromium oxide, and the blue colorant is cobalt oxide.
8. The color filter substrate of any of claims 1, wherein the base substrate having the black matrix pattern is a glass plate which is formed by encapsulating a matrix shaped macromolecular osmosis film which has absorbed carbon powder grains with the use of a molten glass liquid.
9. The color filter substrate of any of claims 2, wherein the base substrate having the black matrix pattern is a glass plate which is formed by encapsulating a matrix shaped macromolecular osmosis film which has absorbed carbon powder grains with the use of a molten glass liquid.
10. The color filter substrate of any of claims 3, wherein the base substrate having the black matrix pattern is a glass plate which is formed by encapsulating a matrix shaped macromolecular osmosis film which has absorbed carbon powder grains with the use of a molten glass liquid.
11. A method of manufacturing a color filter substrate, comprising:
forming a matrix shaped macromolecular osmosis film which has absorbed carbon powder grains;
encapsulating the matrix shaped macromolecular osmosis film which has absorbed carbon powder grains by using a molten glass liquid, so as to form a glass plate having a black matrix pattern, the black matrix pattern having a plurality of openings;
filling glass raw materials, which are mixed with colorants in different colors, onto the glass plate at the openings of the black matrix pattern sequentially; and
firing the glass plate, so as to fire the glass raw materials mixed with different colorants into color filter layers in different colors.
12. The method of claim 11, wherein forming the matrix shaped macromolecular osmosis film which has absorbed carbon powder grains comprises:
solving a macromolecular material in a solvent;
depositing the macromolecular material which is solved in the solvent on a support material, so as to form a matrix shaped macromolecular wet film;
evaporating the solvent in the matrix shaped wet film, so as to form the matrix shaped macromolecular osmosis film; and
placing the macromolecular osmosis film in a carbon powder solution to make carbon powder grains absorbed on the macromolecular osmosis film, so as to form the matrix shaped macromolecular osmosis film which has absorbed carbon powder grains.
13. The method of claim 12, wherein depositing the macromolecular material on the support material comprises depositing the macromolecular material on the support material by a reduced pressure method.
14. The method of claim 13, wherein the support material is a polyester cloth.
15. The method of any of claims 11, wherein the colorants in different colors are a red colorant, a green colorant and a blue colorant, respectively.
16. The method of any of claims 11, wherein,
the step of filling the glass raw materials onto the glass plate at the openings of the black matrix pattern comprises filling the glass raw materials at each of the openings, respectively, and then performing a scrapping process on the glass plate filled with the glass raw materials.
17. The method of claims 11, wherein, after the glass plate being fired, further comprises:
maintaining the temperature for 80 to 230 minutes, then, placing the glass plate into silicone oil at 200 to 300\xb0 C. for 15 to 20 minutes; next, placing the glass plate in a drying room to be cooled to a room temperature; and finally, cleaning the glass plate by using carbon tetrachloride, acetone and water sequentially.
18. The method of claim 15, wherein the red colorant is copper oxide, the green colorant is chromium oxide, and the blue colorant is cobalt oxide.

The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. A lavatory system comprising:
a first integrated hand washing station including a first basin, a first faucet, a first solenoid valve configured to control water flow to the first faucet, and a first electric hand dryer located adjacent the first basin and the first faucet so that the user of the first washing station may use the first faucet and the first electric hand dryer without leaving the first washing station;
a control system configured to control activation of the first solenoid valve and the first electric hand dryer, wherein the control system is configured to inhibit simultaneous activation of the first solenoid valve and the first hand dryer.
2. The lavatory system of claim 1, wherein the control system prevents activation of the first solenoid valve when the first electric hand dryer has been activated.
3. The lavatory system of claim 1, wherein the control system prevents activation of the first electric hand dryer when the first solenoid valve has been activated.
4. The lavatory system of claim 1, wherein the control system activates the first solenoid valve and the first electric hand dryer according to a predetermined timing and sequence.
5. The lavatory system of claim 1, wherein the control system:
prevents activation of the first electric hand dryer when the first solenoid valve has been activated; and
prevents activation of the first solenoid valve when the first electric hand dryer has been activated.
6. The lavatory system of claim 1, further comprising a single sensor in communication with the control system and configured to sense the presence of the user’s hands near the first hand washing station.
7. The lavatory system of claim 1, further comprising a first sensor to detect the presence of a hand of the user proximate the first faucet, and a second sensor to detect the presence of a hand of the user proximate the first electric hand dryer.
8. The lavatory system of claim 7, wherein the control system activates the first solenoid valve and the first hand dryer based on signals received from the first sensor and second sensor according to a predetermined timing and sequence.
9. The lavatory system of claim 7, further comprising a second integrated hand washing station including a second basin, a second faucet, a second solenoid valve configured to control water flow to the second faucet, and a second electric hand dryer located adjacent the second basin and the second faucet so that the user of the second hand washing station may use the second faucet and the second electric hand dryer without leaving the second washing station;
wherein the control system prevents activation of the second solenoid valve when the second electric hand dryer has been activated;
wherein the control system prevents activation of the second electric hand dryer when the second solenoid valve has been activated.
10. The lavatory system of claim 9, further comprising a third sensor to detect the presence of a hand of the user proximate the second faucet, and a fourth sensor to detect the presence of a hand of the user proximate the second electric hand dryer.
11. The lavatory system of claim 1, further comprising a first soap dispenser located at the first hand washing station and a second soap dispenser located at the second hand washing station, wherein the control system is configured to prevent activation of the first or second soap dispensers when the associated first or second electric hand dryer is activated.
12. The lavatory system of claim 1, wherein the first electric hand dryer includes an outlet to direct air across the first basin so that any water that drips from the user’s hands will fall within the first basin, and wherein the second electric hand dryer includes an outlet to direct air across the second basin so that any water that drips from the user’s hands will fall within the second basin.
13. A lavatory system powered by renewable energy to provide hand washing functionality to a plurality of users, the lavatory system comprising:
(a) a base configured to at least partially enclose plumbing;
(b) a panel configured to articulate coupled to the base and movable between a closed position and an opened position, wherein the panel prevents access to the interior portion of the base in the closed position and permits access to the interior portion of the base in the opened position;
(c) a photovoltaic system having an energy storage element and an array of photovoltaic cells coupled to the panel and coupled to the energy storage element;
(d) a first hand washing station comprising:
(i) a first basin positioned at a first height;
(ii) a first faucet;
(iii) a first solenoid valve configured to control water flow to the first faucet;
(iv) a first electric hand dryer located adjacent the first basin and the first faucet so that the user of the first washing station may use the first faucet and the first electric hand dryer without leaving the first washing station;

(e) a second hand washing station comprising:
(i) a second basin positioned at a second height different from the first height of the first basin;
(ii) a second faucet;
(iii) a second solenoid valve configured to control water flow to the second faucet;
(iv) a second electric hand dryer located adjacent the second basin and the second faucet so that the user of the second hand washing station may use the second faucet and the second electric hand dryer without leaving the second washing station;

(f) wherein the photovoltaic system provides power to the first valve and the second valve.
14. The lavatory system of claim 13, further comprising a towel dispenser having a housing with a generally upwardly facing top surface, wherein a roll of paper towel located within the housing has an end that projects upward out of an opening in the upwardly facing top surface of the dispenser to be accessed by the user.
15. The lavatory system of claim 13, wherein the towel dispenser is located between the first hand washing station and the second hand washing station.
16. The lavatory system of claim 14, wherein the housing of the towel dispenser includes a front panel that is angled such that the top portion of the front panel extends further away from the base and a bottom portion of the front panel to accommodate users in a wheelchair.
17. The lavatory system of claim 14, wherein the generally upwardly facing top surface forms a recess configured to collect water that may drip from the user’s hand when accessing the end of the paper towel.
18. The lavatory system of claim 13, wherein the first electric hand dryer and the second electric hand dryer are powered by the photovoltaic system.
19. The lavatory system of claim 13, wherein the first electric hand dryer includes an outlet to direct air across the first basin so that any water that drips from the user’s hands will fall within the first basin, and wherein the second electric hand dryer includes an outlet to direct air across the second basin so that any water that drips from the user’s hands will fall within the second basin.
20. The lavatory system of claim 13, further comprising a control system configured to control activation of the first solenoid valve, the second solenoid valve, the first electric hand dryer, and the second electric hand dryer, wherein the control system is configured to inhibit simultaneous activation of two or more of the first solenoid valve, second solenoid valve, first hand dryer, and second hand dryer.
21. The lavatory system of claim 20, wherein the control system
prevents activation of the first electric hand dryer when the first solenoid valve has been activated;
prevents activation of the first electric hand dryer when the first solenoid valve has been activated;
prevents activation of the second electric hand dryer when the second solenoid valve has been activated; and
prevents activation of the second solenoid valve when the second hand dryer has been activated.
22. The lavatory system of claim 20, further comprising a single sensor configured to sense the presence of the user’s hands near the first hand washing station, and a single sensor configured to sense the presence of the user’s hands near the second hand washing station, wherein the control system activates the associated first or second solenoid valve and associated first or second hand dryer according to a predetermined timing and sequence.
23. The lavatory system of claim 20, wherein the control system activates the associated first or second solenoid valve and associated first or second hand dryer according to a predetermined timing and sequence.
24. The lavatory system of claim 20, further comprising a first sensor to detect the presence of a hand of the user proximate the first faucet, a second sensor to detect the presence of a hand of the user proximate the first electric hand dryer, a third sensor to detect the presence of a hand of the user proximate the second faucet, and a fourth sensor to detect the presence of a hand of the user proximate the second electric hand dryer.
25. The lavatory system of claim 24, further comprising a first soap dispenser located at the first hand washing station and a second soap dispenser located at the second hand washing station, wherein the control system is configured to time the activation of the first or second soap dispensers based on the signal from the first or second sensors.
26. The lavatory system of claim 13, wherein the panel is substantially horizontal in the closed position and is substantially vertical in the open position.
27. The lavatory system of claim 13, further comprising a hinge coupling the panel to the base.
28. The lavatory system of claim 13, wherein the hinge includes a release mechanism accessible from a bottom portion of the base.
29. A lavatory system capable of providing simultaneous hand washing functionality to a plurality of users, the lavatory system comprising:
(a) a base at least partially enclosing plumbing and configured to be coupled to a wall when installed;
(b) a first integrated hand washing station coupled to the base, the first integrated hand washing station comprising:
(i) a first basin having a front top edge located at a first height above the floor;
(ii) a first faucet configured to direct water into the first basin;
(iii) a first soap dispenser;
(iv) a first electric hand dryer, wherein the first faucet, the first soap dispenser, and the first electric hand dryer are located adjacent the first basin so that a user of the first washing station may use the first faucet, the first soap dispenser, andor the first electric hand dryer without leaving the first washing station;

(c) a second integrated hand washing station coupled to the base and spaced apart from the first integrated hand washing station, the second integrated hand washing station comprising:
(i) a second basin having a front top edge located at a second height above the floor, the second height of the second basin being different from the first height of the first basin;
(ii) a second faucet configured to direct water into the second basin;
(iii) a second soap dispenser;
(iv) a second electric hand dryer, wherein the second faucet, the second soap dispenser, and the second electric hand dryer are located adjacent the second basin so that a user of the second washing station may use the second faucet, the second soap dispenser, andor the second electric hand dryer without leaving the second washing station.
30. The lavatory system of claim 29, wherein the first height is about 34 inches above the floor and the second height is about 31 inches above the floor.
31. The lavatory system of claim 29, further comprising a third integrated hand washing station comprising:
a third basin having a front top edge located at a third height above the floor;
a third faucet configured to direct water into the third basin;
a third soap dispenser;
a third electric hand dryer;
wherein the third faucet, the third soap dispenser, and the third electric hand dryer are located adjacent the third basin so that a user of the third washing station may use the third faucet, the third soap dispenser, andor the third electric hand dryer without leaving the third washing station.
32. The lavatory system of claim 31, wherein the third height is approximately the same as either the first height or the second height.
33. The lavatory system of claim 31, wherein the first height is about 34 inches above the floor, the second height is about 31 inches above the floor, and the third height is about less than 30 inches above the floor.
34. A modular lavatory system configured to be coupled to a wall, the lavatory system comprising:
a first hand washing station;
a second hand washing station;
a mounting system configured to couple the first hand washing station and the second hand washing station to the wall, the mounting system comprising:
a first track mountable to the wall;
a first mounting frame coupled to the first hand washing station and configured to engage the first track to mount the first hand washing station at a first height; and
a second mounting frame coupled to the second hand washing station and configured to engage the first track to mount the second hand washing station at a second height different than the first height.
35. The modular lavatory system of claim 34, wherein the first washing station and the second washing station each includes a basin, and further wherein the first track is configured to engage the first mounting frame and the second mounting frame at a plurality of different positions allowing the basin of the first washing station to be located at a plurality of different heights relative to the second hand washing station.
36. The modular lavatory system of claim 35, wherein the first mounting frame includes a pair of spaced apart vertical members, each having a first recess and a second recess positioned above the first recess.
37. The modular lavatory system of claim 36, wherein the first track includes a plurality of recesses spaced apart along a longitudinal axis of the first track, wherein the first mounting frame is coupled to the first track in a first position by engaging the first recesses of the vertical members with recesses on the first track, and further wherein the first mounting frame is coupled to the first track in a second position by engaging the second recesses of the vertical members with recesses on the first track.
38. The modular lavatory system of claim 37, wherein the height of the first washing station supported by the first mounting frame in the first position is greater than the height of the wash station supported by the first mounting frame in the second position.
39. The modular lavatory system of claim 37, wherein each vertical member of the first mounting frame also includes a third recess positioned above the second recess wherein the first mounting frame may be coupled to the track in a third position by the third recess of the vertical members engaging the recesses on the first track.
40. The modular lavatory system of claim 34, further comprising a second track mountable to the wall and spaced apart below the first track.
41. The modular lavatory system of claim 40, wherein the first mounting frame and the second mounting frame each includes a pair of spaced apart basin support arms, a pair of spaced apart vertical members, and a backsplash support member connecting the vertical members.
42. The modular lavatory system of claim 41, wherein a pair of recesses in the first track engage recesses on the vertical members to fix the mounting frame in position at the desired height.
43. The modular lavatory system of claim 42, wherein the vertical members include a plurality of vertically spaced apart recesses to allow the mounting frame to engage the first track at a plurality of different heights.
44. The modular lavatory system of claim 43, wherein the first track includes a plurality of horizontally spaced apart recesses to allow the mounting frame to engage the first track at a plurality of horizontal positions.