1. A block system, comprising:
a plurality of blocks connected side by side into a configuration, each block including a front, a rear, sides, lips, and fastener accommodating spaces;
a plurality of adjacent fasteners connecting side by side blocks together;
wherein each fastener is disposed in the fastener accommodating spaces of side by side blocks without overlapping adjacent fasteners.
2. The block system of claim 1, wherein the block is made of at least one of a wood material and a plastic material.
3. The block system of claim 2, wherein the block is made of a wood material and milled from at least one of a wooden blank and a plywood blank in which a circular inner recess, a rectangular outer recess, and edge recesses are created from a subtractive process on a CNC machine.
4. The block system of claim 1, wherein the fasteners are binder clips that clip together adjacent lips of adjacent blocks for clipping the plurality of blocks together in the side by side configuration.
5. The block system of claim 4, wherein each binder clip include a clip an elongated clip member with a substantially triangular cross section and terminal ends, and a pair of key-hole shaped handles pivotally connected to terminal ends of the clip member.
6. The block system of claim 5, wherein the fastener accommodating spaces receive the key-hole shaped handles of the binder clips without overlapping adjacent key-hole shaped handles of adjacent fasteners.
7. The block system of claim 6, wherein the block system includes perpendicularly disposed blocks, and the fastener accommodating spaces receive the key-hole shaped handles of the binder clips without overlapping adjacent key-hole shaped handles of adjacent fasteners and so that the key-hole shaped handles of binder clips connecting perpendicularly disposed blocks are perpendicularly disposed relative to each other without contacting each other.
8. The block system of claim 1, further including a wall cleat with a flange and a cleat portion having an angled wall and a hole for receiving a threaded fastener for mounting the wall cleat to a wall, each block including an angled wall that defines a circular inner recess that operatively corresponds with the angled wall of the circular inner recess block to lock the block and wall cleat together by the combined forces of gravity and friction.
9. The block system of claim 8, wherein the cleat portion is circular and the hole is centrally disposed in the cleat portion.
10. The block system of claim 8, wherein the cleat portion is elliptical and the hole is offset from center in the cleat portion.
11. The block system of claim 1, wherein the front of each block includes at least one of images, numbers, letters, symbols, logos, characters, and indicia adhered to the front by at least one of transfer sheeting and direct printing.
12. The block system of claim 1, wherein the front of each block is solid and the rear of each block includes the fastener accommodating spaces.
13. The block system of claim 1, wherein the blocks include rectangular blocks.
14. The block system of claim 13, wherein the blocks include square blocks.
15. A method of using the block system of claim 1, comprising:
aligning a plurality of the blocks rear face up side by side into the configuration;
connecting the side by side blocks together with the plurality of adjacent fasteners so that the fasteners are disposed in the fastener accommodating spaces of side by side blocks without overlapping adjacent fasteners.
16. The method of claim 15, wherein the block system includes at least one wall cleat with a flange and a cleat portion having an angled wall and a hole for receiving a threaded fastener for mounting the at least one wall cleat to a wall, each block includes an angled wall that defines a circular inner recess that operatively corresponds with the angled wall of the circular inner recess block, the method further including:
mounting the at least one wall cleat to the wall with the threaded fastener;
mounting the block system to the wall by disposing the wall cleat in the circular inner recess of the block so that the angled wall defining the circular inner recess locks the block and wall cleat together by the combined forces of gravity and friction.
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 computer-implemented method of identifying an optical character recognition (OCR) font to assist an operator in setting up a bank remittance coupon application, the computer-implemented method comprising:
electronically on a processor reading an OCR font in a zone of the bank remittance coupon;
electronically on a processor comparing the read OCR font with an OCR font stored in a look-up table to determine if the read OCR font meets predetermined criteria; and
storing the read OCR font into a configuration file to setup at least a portion of the bank remittance coupon application when the read OCR font meets the predetermined criteria.
2. A computer-method according to claim 1, wherein comparing comprises (i) comparing a number of valid characters between the read OCR font and the OCR font stored in the look-up table, and (ii) comparing a number of invalid characters between the OCR font and the OCR font stored in the look-up table.
3. A computer-method according to claim 2, wherein the predetermined criteria comprises the number of valid characters being greater than the number of invalid characters.
4. A computer-implemented method of identifying an optical character recognition (OCR) font to assist an operator in setting up a bank remittance coupon application, the computer-implemented method comprising:
electronically on a processor reading an OCR font in a zone of the bank remittance coupon;
electronically on a processor comparing the read OCR font with at least one reference OCR font to determine if at least a certain number of characters from the read OCR font are valid characters; and
storing the read OCR font into a configuration file to setup at least a portion of the bank remittance coupon application when at least a certain number of characters from the read OCR font are determined to be valid characters.
5. A computer-method according to claim 4, further comprising electronically on a processor determining a number of invalid characters from the read OCR font.
6. A computer-method according to claim 5, wherein comparing comprises determining if the number of characters from the read OCR font is greater than the number of invalid characters from the read OCR font.
7. A computer-method according to claim 4, wherein the at least one OCR font is stored in a look-up table of an electronic scanning device.