1. A flow channel switching valve comprising:
a housing that has an internal space, the housing including a housing top having a plurality of connection ports connecting flow channel piping in an outer surface thereof, and having, on a side of the internal space, a flow channel connection portion where connection holes respectively leading to the connection ports are arranged on one plane, and a housing body that has a depressed portion with a top open inside thereof and detachably holds the housing top on an open portion of the depressed portion;
a stator that is arranged inside the internal space of the housing, has through-holes corresponding to the connection holes of the flow channel connection portion, respectively, and is attached to a side of the housing top while keeping liquid tightness to the flow channel connection portion in a state where the through-holes are positioned at the connection holes;
a rotor that is arranged inside the internal space of the housing, has a plane in contact with a surface of the stator on an opposing side of the flow channel connection portion, and is provided with a groove in the plane, the groove forming a flow channel selectively connecting between any one pair of the through-holes of the stator;
a rotor drive portion that is provided on a side of the housing body, includes a rotor drive shaft extending from the side of the housing body toward the side of the housing top to hold the rotor at a forefront portion of the rotor drive shaft, on the side of the housing top, and rotates the rotor by rotating the rotor drive shaft with an axial center thereof as a rotation center;
an elastic member that is contained in the housing body so as to be extendable in an axial direction of the rotor drive shaft, is in a compressed state when the rotor drive shaft is at a normal position, which is a position when the housing top is attached to the housing body, and biases the rotor drive shaft at the normal position to the side of the housing top; and
a drive shaft stopper that is made up of a first engagement portion provided in the rotor drive shaft, and a second engagement portion provided in the housing body, and limits movement of the rotor drive shaft to the side of the housing top by engaging the first engagement portion and the second engagement portion to each other when the rotor drive shaft moves to the side of the housing top from the normal position.
2. The flow channel switching valve according to claim 1, wherein the first engagement portion is a projected portion that is projected from an outer circumferential surface of the rotor drive shaft to the side of the housing body, and the second engagement portion is a projected portion that is projected from an inner circumferential surface of the housing body to a side of the rotor drive shaft.
3. The flow channel switching valve according to claim 2, wherein the first engagement portion is a flange-shaped projected portion provided along the outer circumferential surface of the rotor drive shaft, and the second engagement portion is a ring-shaped projected portion provided along the inner circumferential surface of the housing body.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
What is claimed is:
1. A head lamp attached to a bicycle, comprising:
a casing holding a light source and provided with an opening allowing light from said light source t to be emitted ahead;
a plurality of light emitting diodes adjacently arranged as said light source; and
a condenser lens arranged adjacent to said opening for each said light emitting diode to condense light received from said light emitting diode.
2. The head lamp of claim 1 having more than two said light emitting diodes each arranged adjacent to at least two other light emitting diodes.
3. The head lamp of claim 1, wherein a light emitting diode arranged at an end of an arrangement of said plurality of light emitting diodes provides an optical axis inclined to approach or be farther away from a front of a center of said head lamp as said optical axis extends farther ahead, so that a distribution of light is satisfied a predetermined distance ahead.
4. The head lamp of claim 1, wherein said plurality of light emitting diodes are arranged in multiple rows.
5. The head lamp of claim 1, wherein five said light emitting diodes are arranged in two rows.