JP3854198B2 - Cleaning device and circuit box fixing method of cleaning device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is configured by attaching a pump device and a circuit box electrically connected to the pump device to a tank that stores the cleaning solution. For example, the cleaning solution is applied to an injection nozzle of a vehicle washer device, a headlamp cleaner device, or the like. The present invention relates to a cleaning device for supplying.
[0002]
The present invention also relates to a circuit box fixing method for a cleaning device for mounting the circuit box on a tank in the cleaning device.
[0003]
[Prior art]
In a cleaning device applied to a washer device or a headlamp cleaner device mounted on a vehicle (which constitutes a part thereof), a pump device is attached to a resin tank that stores cleaning liquid, and the pump device operates. Then, the cleaning liquid is pumped and the cleaning liquid is supplied to a washer nozzle for injecting the cleaning liquid, an injection nozzle of the headlamp cleaner device, and the like.
[0004]
In addition, in a cleaning device, for example, a configuration is known in which a circuit box containing an electric circuit electrically connected to a pump device such as a control circuit or a noise preventer is attached to a tank.
[0005]
As a structure for attaching the circuit box to the tank, a structure as shown in FIG. 10 is generally used. That is, the tank 100 has an accommodation recess 104 that accommodates the circuit box 102, and the accommodation recess 104 is provided with an attachment piece 106 having a through hole 106 </ b> A. On the other hand, the circuit box 102 is also provided with a through hole 102A. The circuit box 102 is accommodated in the through hole 102A and the bolt 108 inserted into the through hole 106A in the state of being accommodated in the accommodating recess 104. It is the structure fixed to the tank 100 by the nut 110 to screw.
[0006]
The tank 100 is mounted by holding and holding the pump device in a separately provided storage recess, and the electric circuit in the circuit box 102 is electrically connected to the pump device. Accordingly, the cleaning device can handle the tank 100, the circuit box 102, and the pump device as an integral assembly, and each of the circuit box 102 and the pump device housed in the housing recess 104 of the tank 100, etc. Since it does not protrude from the outer edge or the amount of protrusion is small, it can be mounted on the vehicle.
[0007]
[Problems to be solved by the invention]
However, in the conventional cleaning apparatus as described above, since the fastening means using the bolts 108 and the nuts 110 are used to attach the circuit box 102 to the tank 100, the installation work is complicated, the workability is poor, and the cost is high. It has become. Further, since the through hole 106A serves as an undercut portion of the tank 100, a mold slide (slide core) is used to form the through hole 106A in the tank 100 formed by resin molding, or machining is performed after molding. This also causes a high cost.
[0008]
Therefore, a structure described in Japanese Utility Model Laid-Open No. 6-37026 is known as a structure for attaching a circuit box (noise prevention device) to a tank without using fastening means such as bolts 108 and nuts 110. This structure will be described with reference to FIG.
[0009]
The tank 120 described in the above publication is made of an elastic synthetic resin and has a housing recess 122 that opens upward and laterally. A circuit box 124 is press-fitted and fitted into the housing recess 122 by the elasticity of the tank 120. Since the opening width W4 of the side opening 122A of the housing recess 122 is set to be narrower than the width W5 of the circuit box 124, the circuit box 124 is fixed to the tank 120 without dropping from the housing recess 122. This is a configuration. That is, in this configuration, the circuit box 124 is fixed to the tank 120 simply by press-fitting the circuit box 124 into the housing recess 122, and the work of attaching the circuit box 124 to the tank 120 is simple.
[0010]
However, in the configuration shown in FIG. 11, when the cleaning liquid in the tank 120 freezes in a cold district or the like, the housing recess 122 swells due to the volume expansion of the cleaning liquid due to the freezing, and the circuit box 124 housed and held in the housing recess 122. May be pushed out of the housing recess 122 and fall off.
[0011]
In consideration of the above-mentioned facts, the present invention provides a cleaning device and a circuit box fixing method for the cleaning device in which the circuit box can be easily attached to the tank and the circuit box can be reliably prevented from dropping from the tank. Is the purpose.
[0012]
[Means for Solving the Problems]
In order to achieve the above object, a cleaning apparatus according to a first aspect of the present invention includes a tank for storing cleaning liquid and a first storage recess formed by recessing the surface of the tank inside the tank. A cleaning apparatus comprising: a pump device attached and capable of pumping the cleaning liquid; and a circuit box attached to the tank and containing at least an electric circuit electrically connected to the pump device via a wiring. The tank is formed with an inwardly recessed surface and has an insertion opening into which the circuit box is inserted, a second accommodation recess having an accommodation opening that opens in a direction intersecting the insertion direction of the circuit box, and the accommodation A bridge portion that bridges the opening, and the circuit box is provided in a part located on the opposite side of the insertion port with respect to the bridge portion in a state of being accommodated in the second accommodation recess. Has a connector portion, the said connector portion external connector provided at an end portion of the wiring is connected from the housing opening, it is characterized in that.
[0013]
In the cleaning device according to the first aspect, the pump device and the circuit box are attached to the tank, and the pump device and the circuit box are electrically connected to each other through wiring, and can be handled as an integral assembly.
[0014]
When the circuit box is attached to the tank, the circuit box is inserted into the second storage recess from the insertion port and stored. In this state, a part of the circuit box is located on the opposite side to the insertion port with respect to the bridge part that bridges the accommodation opening of the second accommodation recess, and the connector part provided in the part is exposed from the accommodation opening. Yes. When an external connector provided at least at the end of the wiring connected to the pump device is connected to the connector portion from the accommodation opening, the external connector is disposed so as to be able to engage with the bridge portion.
[0015]
As a result, even if the circuit box is to be extracted from the insertion port, the external connector engages with the bridge portion, so that the extraction from the second accommodation recess of the circuit box via the insertion port is prevented. In addition, the circuit box is disposed so as to be able to engage with the bridge portion, with a part of the circuit box being located on the side opposite to the insertion port with respect to the bridge portion and the remaining portion being located on the insertion port side with respect to the bridge portion. Therefore, dropping off from the second accommodation recess via the accommodation opening is also prevented. That is, the circuit box is attached (fixed) to the tank in a state in which the circuit box is prevented from being pulled out and dropped off from the second housing recess without using fastening means such as bolts and nuts.
[0016]
For this reason, even if the cleaning liquid in the tank expands with freezing and the second housing recess bulges out in a cold district or the like, the circuit box is prevented from dropping or coming out of the second housing recess. That is, the simple structure without using the fastening means can prevent the circuit box from coming off the tank due to the deformation of the tank, and the connection of the external connector to the circuit box itself can surely connect the circuit box to the tank. Fixed support can be obtained.
[0017]
Thus, in the cleaning apparatus according to the first aspect, the circuit box can be easily attached to the tank, and the circuit box can be reliably prevented from dropping from the tank.
[0018]
In addition, when the external connector is removed (pulled out) from the connector portion of the circuit box, the bridge portion can be engaged with the bridge portion so that the bridge portion functions as a presser that receives the pulling force. Is possible.
[0019]
The cleaning device according to a second aspect of the present invention is the cleaning device according to the first aspect, wherein the circuit box has a protrusion protruding from the surface and is accommodated in the second accommodating recess. A protrusion is engaged with the bridge and temporarily held in the tank.
[0020]
In the cleaning device according to claim 2, the circuit box is protruded from the surface in a state where the circuit box is accommodated in the second accommodating recess, that is, in a state where the connector portion is located on the opposite side of the insertion port with respect to the bridge portion. The raised protrusions are temporarily held in the tank by engaging the tank bridge. For this reason, in the temporary holding state until the external connector is connected to the connector part, it is not necessary to hold the circuit box so that it does not come out of the insertion port even before the external connector is connected. Handling, such as mounting and transporting, becomes even easier.
[0021]
The cleaning device according to a third aspect of the present invention is the cleaning device according to the first or second aspect, wherein the second housing recess is a first wall surface located on the opposite side of the insertion port in the insertion direction; It has the 2nd wall surface located on the opposite side to the said accommodation opening in the said crossing direction, It is characterized by the above-mentioned.
[0022]
In the cleaning device according to claim 3, the first wall surface receives the insertion force as a receiving surface when inserting from the insertion opening of the circuit box into the second receiving recess, and restricts insertion (prevents further insertion). When the external connector is connected (inserted) to the circuit box accommodated in the second accommodating recess, the second wall surface firmly receives the insertion force as a receiving surface. This eliminates the need to support the circuit box in order to limit the insertion or resist the insertion force, and makes it easier to attach the circuit box to the tank.
[0023]
In addition, by providing the first wall surface and the second wall surface, in particular, in the configuration in which the circuit box has the protrusions according to claim 2, the circuit box is formed in the second receiving recess by the first wall surface and the bridge portion. The backlash in the insertion direction is restricted and the movement of the second wall surface is restricted, so that the engagement of the protruding portion with the bridge portion is not inadvertently released.
[0024]
The cleaning apparatus according to a fourth aspect of the present invention is the cleaning apparatus according to the third aspect, wherein the tank is provided with the first accommodating recess and mainly stores the cleaning liquid and an inlet for injecting the cleaning liquid. And the lower tank and the upper tank are joined to each other at joints extending outward from the respective opening ends, and the first wall surface or the second wall surface is formed of the welded portion. It is characterized by being formed.
[0025]
In the cleaning device according to the fourth aspect, since the first wall surface or the second wall surface is configured to include the joint portion extending outward from the tank in order to join the upper tank and the lower tank, the concave portion is formed in the upper tank or the lower tank. The depth of the second accommodating recess provided (depth in the extending direction from the opening end of the joint portion) can be reduced. That is, it is possible to suppress a decrease in the tank capacity due to the provision of the second accommodating recess. In the case where the tank is made of a resin material, it is desirable that the joining be performed by welding. In this case, the joining part is a welding part.
[0026]
The cleaning apparatus according to a fifth aspect of the present invention is the cleaning apparatus according to any one of the first to third aspects, wherein the lower tank and the upper tank made of resin are welded to each other at the open ends. The second receiving recess is formed so that the insertion direction of the circuit box coincides with the mold drawing direction of the lower tank or the upper tank during resin molding, and the receiving opening is opened in a direction orthogonal to the inserting direction. In addition, the bridge portion is connected to the insertion port, and the bridge portion projects outward from the opening surface of the accommodation opening and bridges over the accommodation opening.
[0027]
6. The cleaning device according to claim 5, wherein the second storage recess provided in the lower tank or the upper tank is such that the circuit box insertion direction from the insertion port (not necessarily the direction in which the opening surface of the insertion port faces) is the die removal of the upper tank. The opening direction of the accommodation opening (direction facing the opening surface) connected to the insertion port is perpendicular to the insertion direction, and the bridge portion is outward from the opening surface of the accommodation opening. Therefore, at least the second accommodation recess and the bridge portion do not become an undercut portion when the lower tank or the upper tank is resin-molded.
[0028]
For this reason, the tank (lower tank or upper tank) having the second accommodating recess and the bridge portion can be configured so as not to use a mold slide for the resin molding, and the circuit to the tank has a simple and inexpensive structure. The box can be easily attached, and the function of reliably preventing the circuit box from falling off the tank can be obtained. In particular, this configuration is suitably applied when the first wall surface according to claim 3 (the wall surface closing the side opposite to the insertion opening of the second housing recess) is provided.
[0029]
In addition, in this structure, it cannot be overemphasized that the junction part (welding part) of Claim 4 may be provided in a lower tank and an upper tank, respectively. In this case, in order to eliminate the undercut portion, it is necessary to make the opening surface of the accommodation opening coincide with or protrude from the outer end surface of the joint portion. It is desirable to make the opening surface of the opening coincide with the outer end surface of the joint.
[0030]
In order to achieve the above object, a circuit box fixing method for a cleaning apparatus according to a sixth aspect of the present invention includes: a tank that stores cleaning liquid; and a first storage recess that is recessed in the tank. A pump device that is attached and capable of pumping the cleaning liquid, a circuit box that contains at least an electric circuit electrically connected to the pump device via wiring, and a surface of the tank that is recessed inwardly, A circuit box fixing method for a cleaning apparatus, comprising: an insertion port into which the circuit box is inserted; and a second housing recess having a housing opening that opens in a direction intersecting with the direction in which the circuit box is inserted. Is inserted into the second receiving recess from the insertion port, and a part of the circuit box provided with the connector part is provided on the tank and bridges the receiving opening. The external connector provided at the end of the wiring is connected from the accommodation opening to the connector portion located on the opposite side of the insertion port with respect to the bridge portion. It is characterized by that.
[0031]
In the circuit box fixing method of the cleaning apparatus according to the sixth aspect, first, the circuit box is inserted into the second receiving recess from the insertion port of the tank. Then, a part of the circuit box provided with the connector portion is positioned on the opposite side of the insertion port with respect to the bridge portion that bridges the accommodation opening of the second accommodation recess. Next, an external connector is connected to the connector portion located on the opposite side of the insertion port with respect to the bridge portion from a direction intersecting the insertion direction of the circuit box into the second housing recess. Thereby, an external connector is arrange | positioned so that engagement to a bridge part is possible.
[0032]
As a result, even if the circuit box is to be extracted from the insertion port, the external connector engages with the bridge portion, so that the extraction from the second accommodation recess via the insertion port of the circuit box is prevented. In addition, the circuit box is disposed so as to be able to engage with the bridge portion, with a part of the circuit box being located on the side opposite to the insertion port with respect to the bridge portion and the remaining portion being located on the insertion port side with respect to the bridge portion. Therefore, dropping off from the second accommodation recess via the accommodation opening is also prevented. That is, the circuit box is attached (fixed) to the tank in a state in which the circuit box is prevented from being pulled out and dropped off from the second housing recess without using fastening means such as bolts and nuts.
[0033]
For this reason, even if the cleaning liquid in the tank expands with freezing and the second housing recess bulges out in a cold district or the like, the circuit box is prevented from dropping or coming out of the second housing recess. That is, the simple structure without using the fastening means can prevent the circuit box from coming off the tank due to the deformation of the tank, and the connection of the external connector to the circuit box itself can surely connect the circuit box to the tank. Fixed support can be obtained.
[0034]
Thus, in the circuit box fixing method of the cleaning device according to the sixth aspect, the circuit box can be easily attached to the tank, and the circuit box can be reliably prevented from dropping from the tank.
[0035]
According to a seventh aspect of the present invention, there is provided the circuit box fixing method of the cleaning apparatus according to the sixth aspect of the invention, wherein the circuit box is inserted into the second receiving recess from the insertion port in the circuit box fixing method of the cleaning apparatus. When the connector portion is positioned on the opposite side of the insertion port with respect to the bridge portion, the projection portion protruding from the surface of the circuit box is engaged with the bridge portion, and the circuit box is attached to the tank. It is characterized by temporary holding.
[0036]
8. The circuit box fixing method for a cleaning apparatus according to claim 7, wherein when the circuit box is inserted into the second receiving recess from the insertion port, the connector part (a part of the circuit box provided with the part) is inserted into the bridge part. When located on the side opposite to the mouth, the protrusion protruding from the surface of the circuit box engages the bridge. Thereby, the circuit box is temporarily held with respect to the tank in the second accommodating recess. That is, the circuit box can be temporarily held in the tank without increasing the number of processes by simply inserting (accommodating) the circuit box into the second accommodation recess from the insertion opening.
[0037]
For this reason, in the temporary holding state until the external connector is connected to the connector part, it is not necessary to hold the circuit box so that it does not come out of the insertion port even before the external connector is connected. Handling, such as mounting and transporting, becomes even easier.
[0038]
DETAILED DESCRIPTION OF THE INVENTION
A cleaning apparatus 10 according to an embodiment of the present invention will be described with reference to FIGS.
[0039]
FIG. 1 shows an exploded perspective view of a cleaning device 10 applied to a headlamp cleaner device. As shown in this figure, the cleaning device 10 includes a pump device 12 for pumping the cleaning liquid. As described above, the pump device 12 is a pump device for a headlamp cleaner device, and is larger and heavier than a pump device for a washer device.
[0040]
The pump device 12 includes a motor unit 14 and a pump unit 16 disposed coaxially with the motor unit 14, and the pump unit 16 is positioned below the motor unit 14 (see FIG. It is arranged so as to be located on the lower side in the vertical direction. Hereinafter, when it demonstrates using an up-down direction, it shall say the up-down direction in this attachment state.
[0041]
As shown in FIG. 2, the motor unit 14 is housed in a yoke housing 14A whose outer shape is formed in a substantially cylindrical shape with the armature 14B rotatably supported, and the armature shaft of the armature 14B. 14C protrudes into the pump portion 16.
[0042]
Further, the motor unit 14 is provided with a breathing hole 18 for preventing a pressure difference due to a difference between the outside air temperature and the inside temperature in the yoke housing 14A. The breathing hole 18 includes an opening 18A that opens downward in the lower portion of the yoke housing 14A, and a joint portion 18B that communicates with the inside of the yoke housing 14A through the opening 18A. The joint portion 18B is opened in the horizontal direction in the attached state, and a flexible tube 52 described later is connected thereto.
[0043]
Further, a connector portion 20 is provided at the upper end portion of the motor portion 14, and a power supply terminal 20 </ b> A to the motor portion 14 is accommodated in the connector portion 20. The power feeding terminal 20A is electrically connected to a relay box 62 described later.
[0044]
On the other hand, as shown in FIG. 3, the pump unit 16 is connected to the inlet 16A as a suction unit for sucking the cleaning liquid, the outlet 16B as a discharging unit for discharging the cleaning liquid, and the armature shaft 14C and is rotated integrally therewith. Impeller 16C. The inlet 16A is in communication with the inside of the tank 24, and the outlet 16B is connected to an injection nozzle (not shown) of the headlamp cleaner via a piping hose 22.
[0045]
As a result, when the motor unit 14 is operated and the impeller 16C rotates, the pump device 12 is configured to suck the cleaning liquid in the tank 24 from the outlet 16B while discharging the cleaning liquid from the inlet 16A, and pump (supply) the cleaning liquid to the injection nozzle. It is.
[0046]
In the present embodiment, the inlet 16A and the outlet 16B are disposed along a direction orthogonal to each other, the inlet 16A is disposed on the side opposite to the connector portion 20, and the outlet 16B is connected to the breathing hole 18 ( It is arranged on the opposite side to the joint part 18B).
[0047]
Moreover, the cleaning apparatus 10 includes a synthetic resin tank 24 for storing the cleaning liquid. The tank 24 is configured by joining an upper tank 26 and a lower tank 28 each formed by injection molding by welding or the like. Specifically, welded portions 26A and 28A as joint portions are extended outwardly at the respective open ends of the upper tank 26 and the lower tank 28, and the welded portions 26A and 28A protrude from each other. They are welded together.
[0048]
The upper tank 26 has a height lower than that of the lower tank 28 and constitutes only the vicinity of the upper end of the tank 24. That is, the tank 24 is configured such that the lower tank 28 mainly stores the cleaning liquid. The top plate portion 26B of the upper tank 26 is provided with an inlet 30 for injecting (supplying) cleaning liquid into the tank 24. The inlet 30 is prevented from overflowing the cleaning liquid by fitting a cap (not shown). Further, the lower tank 28 is configured such that the lower part 28B is recessed from the upper part 28C (part corresponding to the upper tank 26).
[0049]
The tank 24 is configured such that the pump device 12 is attached to a lower portion 28 </ b> B of the lower tank 28. Specifically, in the lower portion 28B of the lower tank 28, there is located a pump housing recess 32 as a first housing recess formed (concave) with a tank wall (side wall) 28D recessed inward. The pump accommodating recess 32 accommodates the pump device 12.
[0050]
A fitting portion 34 that protrudes inward (outward of the tank 24) and fits the motor portion 14 of the pump device 12 is provided at an intermediate portion in the height direction of the pump housing recess 32. As shown in FIG. 4A, the tank wall 28D that defines the fitting portion 34 is formed in an arc shape that substantially corresponds to the outer shape of the motor portion 14 (yoke housing 14A) and is slightly larger than a semicircle. . As a result, a gripping portion 34 </ b> B is formed at the edge of the opening 34 </ b> A of the fitting portion 34 (pump housing recess 32) as a lap margin C (> 0) when the motor portion 14 is gripped and gripped.
[0051]
A tank wall 28 </ b> D in the vicinity of the lowermost portion of the pump housing recess 32 is provided with a tank through hole 36 (see FIG. 3) for inserting the inlet 16 </ b> A of the pump device 12 into the tank 24.
[0052]
Further, at the lowermost part of the lower tank 28, there is located a pipe recess 38 that is connected to the lower part of the pump housing recess 32 and serves as a laying part (interference prevention part) of the outlet 16B and the pipe hose 22 connected to the outlet 16B. Yes. Further, the tube recess 40 for leading the flexible tube 52 connected to the breathing hole 18 to the outside of the outer surface of the lower tank 28 is the opposite side (the right side in FIG. 2) of the pipe recess 38 below the pump housing recess 32. Are connected. In addition, the necessity or a shape of installation of the piping recessed part 38 and the tube recessed part 40 is determined according to the shape, arrangement | positioning, etc. of the outlet 16B of the pump apparatus 12, and the respiratory hole 18. FIG.
[0053]
As described above, the pump device 12 has the connector portion in a state where the inlet 16A is fitted into the tank through hole 36 via the grommet 42 and the motor portion 14 is fitted into the fitting portion 34 and is held by the holding portion 34B. The part excluding a part on the installation side is accommodated in the pump accommodating recess 32.
[0054]
As described above, the pump device 12 is attached to the lower portion of the tank 24, but the breathing hole 18 of the pump device 12 is connected to the moisture prevention portion 44 provided at the upper portion of the tank 24 so as to communicate with the outside. It has become.
[0055]
Specifically, as shown in FIG. 1 and FIG. 2, the water prevention unit 44 is provided further outward from the welded portions 26A, 28A of the upper tank 26 and the lower tank 28, and the inside of the tank 24 (with the cleaning liquid). It is isolated from the storage part). This water prevention part 44 includes a box part 46 provided in the weld part 28A.
[0056]
The box portion 46 is provided with a cylindrical portion 48 that penetrates the bottom portion 46A. The cylindrical portion 48 has an upper end protruding upward from the upper opening of the box portion 46, and a portion protruding downward from the bottom portion 46A is a joint portion 48A. In addition, a communication hole 46B that opens downward is provided in a radially outer portion of the cylindrical portion 48 in the bottom portion 46A.
[0057]
Furthermore, each upper opening of the box part 46 and the cylindrical part 48 is covered with a cover part 50 extending from the weld part 26A. The cover part 50 is spaced apart from the upper end of the cylindrical part 48, and forms a space R between the cylindrical part 48 and the box part 46. The water-preventing portion 44 is configured to communicate with the breathing hole 18 by connecting the joint portion 48 </ b> A to the joint portion 18 </ b> B of the pump device 12 via the flexible tube 52. That is, the breathing hole 18 communicates with the outside through the flexible tube 52, the cylindrical portion 48, the space R, the box portion 46, and the communication hole 46B.
[0058]
Thus, even if the pump device 12 is flooded, the breathing hole 18 is not blocked by the water, and water is taken into the motor portion 14 (yoke housing 14A) by the breathing action of the motor portion 14. Is prevented. Further, since the water-preventing portion 44 is provided in the tank 24, the flexible tube 52 can be laid before the cleaning device 10 is mounted on the vehicle, and workability is improved.
[0059]
On the other hand, above the pump housing recess 32 in the upper portion 28C of the lower tank 28 (that is, in the vicinity of the pump device 12), a circuit as a second housing recess formed by recessing (indented) the tank wall 28D. The housing recess 54 is located. The circuit accommodating recess 54 is formed in a rectangular (cuboid) shape substantially corresponding to the outer shape of a relay box 62 described later, and accommodates the relay box 62 therein.
[0060]
As shown in FIG. 5, the circuit accommodating recess 54 has an upper edge defined by the welded portion 28 </ b> A and a lower edge serving as an insertion port 54 </ b> A that opens downward at the lower end of the upper portion 28 </ b> C of the lower tank 28. . That is, the circuit accommodating recess 54 is configured such that the relay box 62 is inserted along the vertical direction from the insertion port 54A, and the opening direction of the insertion port 54A coincides with the insertion direction (vertical direction) of the relay box 62. ing. This insertion direction also coincides with the die-cutting direction of the lower tank 28 whose upper end having the welded portion 28A is an open end.
[0061]
A portion that is continuous with the insertion port 54A of the circuit accommodating recess 54 and that opens laterally from the continuous portion to the welded portion 28A is an accommodating opening 54B. That is, the accommodation opening 54B opens in a direction intersecting (substantially orthogonal in the present embodiment) with respect to the opening direction of the insertion port 54A (the insertion direction of the relay box 62).
[0062]
Further, as shown in FIG. 3, in the lower tank 28, the tank wall 28D defining the circuit housing recess 54 is opposed to the insertion port 54A (located on the opposite side of the insertion port 54A in the vertical direction) and welded. An upper end portion (including the welded portion 28A) continuing from 28A is an upper wall 55 as a first wall surface, and an inner portion of the tank 24 facing the accommodation opening 54B (located on the opposite side of the accommodation opening 54B) is The inner wall 56 is a second wall surface.
[0063]
Further, the lower tank 28 is provided with a pair of ribs 58 extending continuously downward from the welded portion 28A so as to project outward, and these ribs 58 are formed on both side edges of the accommodation opening 54B (longitudinal in the vertical direction). Edge). The interval between the ribs 58, that is, the opening width W1 of the accommodation opening 54B is set smaller than the width W2 of the relay box 62 described later (see FIG. 5).
[0064]
That is, the opening width W1 of the receiving opening 54B is narrower than the inner width (> W2) of the circuit receiving recess 54 that houses the relay box 62 by the pair of ribs 58. However, the opening width W1 is set as a width at which the connector portion 70 is exposed from the accommodation opening 54B. As a result, as shown in FIG. 4B, each rib 58 normally engages with the relay box 62 housed in the circuit housing recess 54 to prevent the relay box 62 from falling off from the housing opening 54B. It is the structure which functions also as an engaging part. Further, the facing distance between each rib 58 and the back wall 56 is slightly larger than the thickness t of the relay box 62.
[0065]
Furthermore, the lower tank 28 is provided with a bridge portion 60 that bridges the pair of ribs 58 in the central portion in the longitudinal direction. The bridge portion 60 is positioned further outward than the ribs 58 as a whole by projecting both end portions from the outer end surfaces of the ribs 58, and straddles the accommodation openings 54 </ b> B (between the accommodation openings 54 </ b> B). ) Some of them are bridged.
[0066]
Each rib 58 has an upper portion including the bridge portion 60 installation portion flush with the welded portion 28A and a lower portion lower than the bridge portion 60 continuously downwards in an upper portion 28C of the lower tank 28. Is inclined or curved in a taper shape so that the protruding height from the surface S is low. The lowest end of each rib 58 is substantially flush with the surface S. As a result, the bridge portion 60 is located outward from the weld portion 28A, has no portion facing the vertical direction, which is the die-cutting direction of the lower tank 28, and forms an undercut portion when the lower tank 28 is formed. There is nothing.
[0067]
In addition, the cleaning device 10 includes a relay box 62 as a circuit box in the present embodiment, and the relay box 62 is accommodated in the circuit accommodating recess 54 and fixed to the tank 24.
[0068]
The relay box 62 is configured by connecting a base plate portion 66 to a box portion 64 in which an electric circuit including a relay (not shown) is housed, and is formed in a substantially rectangular shape as a whole. The thickness t of the relay box 62 is the sum of the thicknesses of the box portion 64 and the base plate portion 66, and the width W <b> 2 is the width of the box portion 64. On the main surface 64 </ b> A side of the box portion 64, a protruding portion 68 that protrudes from a substantially central portion in the vertical direction and a connector portion 70 that is recessed above the protruding portion 68 are located. A plurality of terminals 70 </ b> A (signal terminals, power supply terminals, power supply terminals, etc.) are accommodated in the connector portion 70.
[0069]
The relay box 62 is inserted from the insertion port 54 </ b> A and is accommodated in the circuit accommodating recess 54. When the relay box 62 is housed in the circuit housing recess 54, the projection 68 engages with the bridge portion 60 of the lower tank 28 to prevent the relay box 62 from being pulled out from the insertion port 54A. In this state, the relay box 62 is configured such that the connector portion 70 is exposed from the upper portion of the bridge portion 60 of the accommodation opening 54B.
[0070]
In this state, a connector 72 as an external connector is connected to the connector portion 70 of the relay box 62 from a direction intersecting the insertion direction of the relay box 62 into the circuit housing recess 54. The connector 72 is provided at the other end portion of the power supply wirings 76 </ b> A and 76 </ b> B having a connector 74 connected to the connector portion 20 of the pump device 12 at one end portion. When the connector 72 is connected to the connector portion 70, the connector 72 is positioned above the bridge portion 60 so as to protrude outward of the tank 24 from the bridge portion 60.
[0071]
Accordingly, the connector 72 is positioned so as to be able to engage with the bridge portion 60, and is not temporarily held by the engagement between the bridge portion 60 and the protrusion 68, but is engaged with the bridge portion 60 so as to be a relay box. Thus, a reliable fixing support that prevents the circuit housing recess 54 from being pulled out via the 62 insertion port 54A is configured. The connector 72 is also connected to the other ends of the signal wirings 80A and 80B having a connector 78 connected to a control circuit 84 described later at one end.
[0072]
On the other hand, the dropout via the accommodation opening 54B of the relay box 62 is normally prevented by the fact that the opening width W1 of the accommodation opening 54B is smaller than the width W2 of the relay box 62 (box portion 64) as described above. Even when the opening width W <b> 1 is larger than the width W <b> 2 due to deformation of the tank 24 or the like, the relay box 62 is blocked by engaging with the bridge portion 60.
[0073]
As described above, the relay box 62 is fixed to the tank 24 in the vicinity (directly above) the pump device. The relay box 62 is electrically connected as shown in FIG.
[0074]
That is, the power supply wirings 76 </ b> A and 76 </ b> B are connected to the motor unit 14 via the power supply terminal 20 </ b> A so that power can be supplied when the connector 74 is connected to the connector unit 20. On the other hand, the signal wirings 80A and 80B are connected to the control circuit 84 via the vehicle-side connector 82 and the signal wirings 80C and 80D to which the connector 78 is connected. The control circuit 84 is connected to a power source 88 via an operation switch 86 for starting the headlamp cleaner device.
[0075]
For example, the operation switch 86 is arranged in the vicinity of the driver's seat of the vehicle and is appropriately operated by the driver. When the operation switch 86 is closed, the control circuit 84 is connected to the relay box 62 (the relay in the relay box 62). ) Output an operation signal. For example, the relay is connected to a power supply 88 via a power supply wiring (not shown) connected to the connector 72, and when the operation signal is input, the power supply 88 and the power supply wiring are input for the input time. Power is supplied to the motor unit 14 by closing the contact point between 76A and 76B.
[0076]
As described above, in the cleaning device 10, the pump device 12 and the relay box 62 are attached to the tank 24, the breathing hole 18 of the pump device 12 is connected to the water prevention unit 44 of the tank 24, and the pump device 12 The relay box 62 is configured to be connected via power supply wirings 76A and 76B having connectors 72 and 74 at both ends, and can be handled as an integral assembly.
[0077]
And the washing | cleaning apparatus 10 accommodates the pump apparatus 12 and the relay box 62 in the pump accommodation recessed part 32 and the circuit accommodation recessed part 54, respectively, and has the pump accommodation recessed part 32 in which a part of pump device 12 protrudes and is attached rather than the upper part 28C. By providing in the recessed lower part 28B, the part which protrudes rather than the tank 24 outer edge (especially outer edge in planar view) of this pump apparatus 12 and the relay box 62 is made very small. Thereby, the mounting of the assembly on the vehicle (usually mounting with the lower side of the tank 24 at the head) is easy. 1 and 2, for convenience of explanation, the lower part 28B of the lower tank 28 is generally recessed, but for example, the mounting portion of the pump device 12 in the lower part 28B of the lower tank 28 is set according to the required tank capacity. Needless to say, the removed portion may be formed to be flush with the surface S of the upper portion 28C.
[0078]
Next, the operation of the present embodiment will be described.
[0079]
In the cleaning device 10 having the above-described configuration, the pump device 12 and the relay box 62 are attached to the tank 24 in which the upper tank 26 and the lower tank 28 are welded in a state where the welded portions 26A and 28A face each other. Install. Any of the mounting order of the pump device 12 and the relay box 62 to the tank 24 may be first, but in this embodiment, the relay box 62 is described as being mounted first.
[0080]
In attaching the relay box 62 to the tank 24, first, as shown in FIG. 6A, the relay box 62 is inserted while the relay box 62 is directed in the direction in which the main surface 64A is exposed from the accommodation opening 54B. It is inserted into the circuit accommodating recess 54 from the port 54A. With this insertion, the protrusion 68 engages with the lower end of the bridge portion 60, but the protrusion 68 gets over (passes) the bridge portion 60 by the elastic deformation of the resin tank 24 as appropriate.
[0081]
When the upper end surface (surface on the leading side in the insertion direction) of the relay box 62 comes into contact with the upper wall 55, the upper wall 55 receives insertion force of the relay box 62 and restricts insertion (prevents further insertion). As shown in FIG. 6B, the relay box 62 is housed in the circuit housing recess 54 (in this state, the relay box 62 may be separated from the upper wall 55). In this state, the protrusion 68 of the relay box 62 engages with the bridge 60 of the tank 24. Thereby, the relay box 62 is temporarily held with respect to the tank 24.
[0082]
That is, the relay box 62 is prevented from being pulled out from the insertion port 54 </ b> A by the protrusion 68 being engaged with the bridge 60, and the both ends of the box 64 can be engaged with the inner surfaces of the pair of ribs 58. By being positioned, it is prevented from falling off from the housing opening 54B, and is not normally removed from the circuit housing recess 54 (in this state, the pump device 12 may be attached to the tank 24). In this state, the connector part 70 of the relay box 62 is located above the bridge part 60 (on the opposite side of the insertion part 54A with respect to the bridge part 60) and exposed from the accommodation opening 54B.
[0083]
Next, as shown in FIG. 6C, the connector 72 is brought close to the connector part 70 exposed from the upper part of the bridge part 60 of the accommodation opening 54B, and the connector 72 is inserted into the connector part 70 and connected. . At this time, the relay box 62 is pressed against the back wall 56, and the back wall 56 (that is, the tank 24) firmly receives the insertion force accompanying the insertion. As a result, the connector 72 is securely connected to the connector portion 70 as shown in FIG.
[0084]
The connector 72 connected to the connector part 70 is located above the bridge part 60 so as to protrude from the accommodation opening 54B. That is, the connector 72 is positioned so as to be engageable with the bridge portion 60 of the tank 24 in a state where the connector 72 is connected to the connector portion 70 of the relay box 62. As described above, the relay box 62 is fixed to the tank 24 without using fastening means such as bolts and nuts.
[0085]
On the other hand, when the pump device 12 is attached to the tank 24, the motor unit 14 of the pump device 12 is pressed to the back of the pump housing recess 32 (fitting portion 34) while being brought into contact with each gripping portion 34B. Then, the tank 24 is elastically deformed as appropriate, and the opening width of the opening 34A of the fitting portion 34 is increased.
[0086]
When the motor portion 14 is further pushed in the above direction, the motor portion 14 is fitted into the fitting portion 34 and the inlet 16A is fitted into the grommet 42 attached to the tank through hole 36. That is, in the pump device 12, the motor unit 14 is gripped by the pair of gripping portions 34B (with the lap allowance C), and the pump portion 16 is held in the tank through hole 36 (grommet 42) in the inlet 16A. As described above, the pump device 12 is fixed to the tank 24.
[0087]
In this state, the connector 74 is connected to the connector portion 20 of the pump device 12. Thereby, the relay box 62 and the pump apparatus 12 are electrically connected. In this state, one end portion of the flexible tube 52 is connected to the joint portion 18B of the breathing hole 18, and the other end portion of the flexible tube 52 is connected to the joint portion 48A of the water-preventing portion 44.
[0088]
As a result, the assembly of the cleaning device 10 is completed, and the cleaning device 10 includes the pump device 12 and the relay box 62 (including power supply wirings 76A and 76B having connectors 72 and 74 and the flexible tube 52) in the tank 24. It can be handled as an integrated tank assembly. Further, since the relay box 62 is disposed near (directly above) the pump device 12, not only the power supply wirings 76A and 76B can be shortened, but also, for example, when a noise preventer is disposed in the relay box 62. Noise prevention performance is improved.
[0089]
And the washing | cleaning apparatus 10 is shipped or mounted in a vehicle (as a tank assembly) in this state. Further, after mounting on the vehicle, the connector 78 is connected to the vehicle-side connector 82, and the piping hose 22 (via the injection nozzle) is connected to the outlet 16B.
[0090]
Here, the relay box 62 attached to the tank 24 is inserted because the connector 72 connected to the connector portion 70 is located on the opposite side of the insertion port 54A of the bridge portion 60 of the tank 24. Even if the connector 72 is pulled out from the port 54A, the connector 72 is engaged with the bridge portion 60, so that the connector 72 is prevented from being pulled out through the insertion port 54A. The relay box 62 is housed in a circuit housing recess 54 substantially corresponding to the outer shape thereof, so that a part of the connector part 70 side is located on the opposite side of the insertion port 54A with respect to the bridge part 60 and the remaining part. Is positioned on the insertion port 54A side of the bridge portion 60 and is disposed so as to be able to engage with the bridge portion 60. Therefore, the drop-off from the circuit accommodating recess 54 via the accommodation opening 54B is also prevented.
[0091]
For this reason, even if the cleaning liquid in the tank 24 expands due to freezing and the circuit accommodating recess 54 swells in a cold region or the like, the relay box 62 is prevented from dropping or coming out of the circuit accommodating recess 54. That is, with the deformation of the tank 24, the engagement state of the protrusion 68 with the bridge portion 60 is released, or the opening width W1 of the housing opening 54B is wider than the width W2 of the relay box 62 (a pair of ribs). 58), the relay box 62 can be removed from the circuit receiving recess 54 by engagement between the connector 72 and the bridge portion 60 or the bridge portion 60 of the relay box 62 itself. Dropout is surely prevented.
[0092]
And, as described above, a reliable fixing support (function to securely attach the relay box 62 to the tank 24) that prevents the relay box 62 from being detached from the tank 24 uses fastening means such as bolts and nuts. Obtained by simple structure without. Further, the function of preventing the relay box 62 from being extracted from the insertion port 54A, which is a part of the function, simply connects the connector 72, which is an external connector, to the connector portion 70 of the relay box 62 and the pump device. 12 is obtained without increasing the number of assembling steps of the cleaning apparatus 10 by an operation (process) essential for electrical connection with the apparatus 12.
[0093]
Thus, in the cleaning device 10 according to the present embodiment and the circuit box fixing method applied to the cleaning device 10 (that is, the manufacturing method of the cleaning device 10), it is easy to attach the relay box 62 to the tank 24. Further, the dropout of the relay box 62 from the tank 24 is reliably prevented.
[0094]
Further, since the relay box 62 accommodated in the circuit accommodating recess 54 engages the protrusion 68 with the bridge portion 60 and is temporarily held in the tank 24, the temporary connection until the connector 72 is connected to the connector portion 70. In the holding state, it is not necessary to hold the relay box 62 so as not to come out of the insertion port 54A even before the connector 72 is connected, and the attachment of the relay box 62 to the tank 24 is easier.
[0095]
Further, in the circuit accommodating recess 54, the upper wall 55 receives the insertion force of the relay box 62 as a receiving surface and restricts the insertion, and the rear wall 56 provides the insertion force of the connector 72 to the connector portion 70 of the relay box 62. In other words, the relay box 62 is positioned in the circuit housing recess 54 by the upper wall 55 and the back wall 56, so that the relay box 62 is limited in order to prevent the insertion force and resist the insertion force. Therefore, the relay box 62 can be more easily attached to the tank 24.
[0096]
Further, the relay box 62 has a portion between the upper end surface thereof and the protrusion 68 positioned between the upper wall 55 of the tank 24 and the bridge portion 60, thereby suppressing backlash in the vertical (insertion) direction. Since the facing interval is located between the rib 58 and the back wall 56, which is slightly larger than the thickness t of the relay box 62, the protrusion 68 is inadvertently engaged with the bridge portion 60. It will not be released.
[0097]
Furthermore, in the lower tank 28 formed by injection molding and die-cut in the vertical direction, the opening direction of the insertion port 54A of the circuit accommodating recess 54 (that is, the insertion direction of the relay box 62) is coincident with the die-cutting direction. The insertion opening 54A and the accommodation opening 54B are connected to each other, so that an undercut portion is not formed in the circuit accommodation recess 54 at the time of molding. Further, the bridge portion 60 projecting from the outer end surface of the rib 58 flush with the welded portion 28A has no portion facing the vertical direction that is the die-cutting direction of the lower tank 28, and therefore the undercut portion at the time of molding the lower tank 28 Will not form. Therefore, it is not necessary to use a mold slide (slide core) for forming the lower tank 28, and the relay box 62 can be easily mounted on the tank 24 with a simple and inexpensive structure. It is possible to obtain a function for reliably preventing the drop-off of.
[0098]
Next, the circuit accommodation recessed part 90 which concerns on a modification is demonstrated based on FIG.8 and FIG.9. Note that parts and portions that are basically the same as those in the above embodiment are denoted by the same reference numerals as those in the above embodiment, and description thereof is omitted.
[0099]
As shown in FIG. 8, the circuit housing recess 90 is formed in a substantially rectangular (cuboid) shape substantially corresponding to the outer shape of the relay box 62 and is provided in the upper portion 28 </ b> C of the lower tank 28. This is common with the circuit housing recess 54 in that it has a housing opening 90B that opens in a direction orthogonal to the insertion direction (vertical direction) of the relay box 62 from the insertion port 90A. On the other hand, the circuit housing recess 90 is different from the circuit housing recess 54 in that the opening width W3 of the housing opening 90B defined by the pair of ribs 92 is slightly larger than the width W2 of the relay box 62. This will be described in detail below.
[0100]
As shown in FIGS. 9A and 9B, the pair of ribs 92 are formed in the same shape as the ribs 58 and continuously extend downward from the welded portion 28A. Are configured to be flush with the pair of side walls 94 that constitute the circuit accommodating recess 90 and face each other. A rail groove 96 that is elongated in the vertical direction is provided in the innermost portion of each side wall 94 over the entire height of the circuit accommodating recess 90. That is, each rail groove 96 opens downward in the insertion port 90A. The groove width of each rail groove 96 corresponds to the plate thickness of the base plate portion 66 constituting the relay box 62.
[0101]
In the circuit housing recess 90, the tank wall 28D is located on the opposite side to the insertion port 90A, and the upper end portion including the welded portion 28A serves as the upper wall 97 as the first wall surface, and is opposite to the housing opening 90B. An inward portion of the tank 24 located at a rear wall 98 serves as a second wall surface. The depth from the accommodation opening 90B of the circuit accommodation recess 90 to the back wall 98 (that is, the depth dimension of the upper wall 97 including the welded portion 28A continuous with the rib 92) is the thickness t of the relay box 62. Is equivalent to or slightly smaller.
[0102]
The accommodation opening 90 </ b> B of the circuit accommodation recess 90 is bridged by the bridge portion 60 by the same structure as the accommodation opening 54 </ b> B of the circuit accommodation recess 54. Also with this configuration, the undercut portion during molding is not formed in the lower tank 28 as in the above embodiment.
[0103]
Further, the bridge portion 60 has the depth of the circuit accommodating recess 90 equal to or slightly smaller than the thickness t of the relay box 62, so that the distance to the back wall 98 is smaller than the distance to the back wall 56. It has become. Correspondingly, the protruding portion 68 protruding from the main surface 64A of the box portion 64 constituting the relay box 62 has a protruding height smaller than that of the protruding portion 68 in the above embodiment.
[0104]
The relay box 62 has exactly the same shape and dimensions as the above-described embodiment except for the protrusion 68, but in this modification, the relay box 62 is located on the side of the both sides of the box 64 in the base plate 66. The protruding portion will be described as a rail portion 66A.
[0105]
The relay box 62 is attached to the tank 24 having the circuit accommodating recess 90 according to the present modification by inserting the rail portions 66A into the different rail grooves 96, and connecting the relay box 62 from the insertion port 90A to the circuit accommodating recess 90. Except for the point of insertion, it is exactly the same as the above embodiment. The relay box 62 is prevented from being pulled out from the insertion port 90A by the engagement between the projection 68 and the bridge 60 in the temporary holding state where the projection 68 is engaged with the bridge 60, and the rail 66A. Due to the engagement with the rail groove 96, the housing opening 90 </ b> B is prevented from falling off and is not normally removed from the circuit housing recess 90.
[0106]
Further, when the connector 72 is inserted into the connector portion 70 from the temporarily held state, the projection portion 68 is deformed by the deformation of the tank 24 (the swelling of the circuit accommodating recess 54 caused by the freezing of the cleaning liquid) as in the above embodiment. Even if the engagement between the bridge portion 60 and the bridge portion 60 is released, the relay box 62 is prevented from being pulled out from the circuit accommodating recess 90 via the insertion port 90A. Further, since the bridge portion 60 bridges the accommodation opening 90B of the circuit accommodation recess 90, even if the rail portion 66A is detached from the rail groove 96 due to the deformation of the tank 24, the circuit opening recess 90 can be separated from the circuit accommodation recess 90B. The relay box 62 is prevented from falling off.
[0107]
Thus, the configuration having the circuit accommodating recess 90 according to the present modification can provide the same effect as the above embodiment. Further, the circuit accommodating recess 90 according to the present modification is configured so that the upper wall 97 includes the welded portion 28A over the entire length in the depth direction, or at least the upper part is flush with the welded portion 28A. Since the pair of ribs 92 protruding from S constitute the side walls 94 of the circuit housing recess 90, the depth from the surface S to the back wall 98 in the circuit housing recess 90 can be reduced. That is, the circuit accommodating recess 90 (upper wall 97, both side walls 94 is utilized by using the welded portion 28A necessary for forming (joining) the tank 24 or the rib 92 for providing the bridge portion 60 without forming the undercut portion. ), It is possible to suppress a decrease in the capacity of the tank 24 due to the provision of the circuit accommodating recess 90.
[0108]
In the embodiment and the modification described above, the rib 58 or the rail groove 96 is configured to prevent the relay box 62 from dropping out from the accommodation openings 54B and 90B. However, the present invention is not limited to this, and the normal Even when the relay box 62 is engaged with the bridge portion 60, it is possible to prevent the dropout from the receiving openings 54B and 90B. In this case, the bridge portion 60 also has a function as a presser that is engaged with the relay box 62 and receives the pulling force when the connector 72 is removed (pulled out) from the connector portion 70 of the relay box 62.
[0109]
Further, in the above-described embodiment and modification, the relay box 62 is temporarily held with respect to the tank 24 by engaging the protrusion 68 of the relay box 62 with the bridge portion 60 of the tank 24. The present invention is not limited to this. For example, the relay box 62 may be temporarily held in the tank 24 by being press-fitted into and fitted into the circuit housing recesses 54 and 90. Needless to say, the present invention includes a configuration that does not include such a temporary holding means.
[0110]
Furthermore, in the above-described embodiment and modification, the circuit housing recesses 54 and 90 each have a preferable configuration having both the upper walls 55 and 97 and the back walls 56 and 98, but the present invention is not limited to this. The circuit accommodating recesses 54 and the like may be formed so as to open together in the vertical direction. Further, the present invention is not limited to a preferred configuration in which the insertion direction of the relay box 62 into the circuit housing recess 54 or the like is the vertical direction that coincides with the mold release direction of the lower tank 28. Furthermore, the present invention is not limited to the configuration in which the circuit accommodating recess 54 and the like are provided in the lower tank 28. For example, the circuit accommodating recess 54 may be provided in the upper tank 26, and straddles the upper tank 26 and the lower tank 28. A circuit housing recess 54 may be provided. That is, the present invention is not limited to a preferable configuration in which the upper wall 55 and the like include the welded portion 28A.
[0111]
Furthermore, in the said embodiment and modification, it was set as the preferable structure which the bridge part 60 bridge | crossed the accommodation opening 54B, 90B from the outer side, but this invention is not limited to this, For example, the bridge part 60 is both sides. It is good also as a structure located between the walls 94. FIG. Even in this case, the bridge portion 60 can be obtained without forming the undercut portion in the configuration in which the circuit accommodating concave portions 54 and 90 are opened in both the vertical directions as described above. Further, the present invention is not limited to the preferable configuration in which the bridge portion 60, the circuit accommodating recess 54, and the like do not form the undercut portion in the lower tank 28. For example, the bridge portion 60 is not provided from the surface S without the rib 58 or the like. You may project.
[0112]
Moreover, in the said embodiment and modification, although the washing | cleaning apparatus 10 showed the example applied to the headlamp cleaner apparatus, this invention is not limited to this, For example, in order to wash | clean the windshield glass of a vehicle The cleaning device 10 may be applied to a washer device that injects the cleaning liquid.
[0113]
Further, in the above-described embodiment and modification, the circuit housing recesses 54 and 90 are formed so as to correspond to the substantially rectangular relay box 62. However, the present invention is not limited to the relay box 62 (that is, the circuit housing recess). 54) and the like. Further, the present invention is not limited to the configuration in which the relay is accommodated in the relay box 62. For example, instead of the relay or together with the relay, the noise preventer is accommodated in the relay box 62 as described above. Alternatively, the control circuit of the pump device 12 (for example, part or all of the control circuit 84) may be accommodated.
[0114]
As described above, the present invention is not limited to the above-described embodiments and modifications, and various modifications can be made without departing from the scope of the present invention.
[Brief description of the drawings]
FIG. 1 is a schematic exploded perspective view of a cleaning apparatus according to an embodiment of the present invention.
FIG. 2 is an enlarged front view showing a main part of the cleaning apparatus according to the embodiment of the present invention.
FIG. 3 is an enlarged side sectional view showing a main part of the cleaning apparatus according to the embodiment of the present invention.
4A is a cross-sectional view taken along line 4A-4A in FIG. 3, and FIG. 4B is a cross-sectional view taken along line 4B-4B in FIG.
FIG. 5 is a perspective view showing a circuit housing recess and a relay box constituting the cleaning apparatus according to the embodiment of the present invention.
6A and 6B are diagrams showing a process of attaching the relay box to the tank constituting the cleaning apparatus according to the embodiment of the present invention, in which FIG. 6A is a state before the relay box is inserted into the circuit housing recess; B) is the relay box temporary holding state in the circuit housing recess, (C) is the state when the connector is connected to the relay box from the temporary holding state, and (D) is the mounting completion state where the connector is connected to the relay box. It is side surface sectional drawing shown.
FIG. 7 is a block diagram showing a schematic electrical connection state of a relay box constituting the cleaning apparatus according to the embodiment of the present invention.
FIG. 8 is a perspective view showing a circuit housing recess according to a modified example of the cleaning device according to the embodiment of the present invention.
FIGS. 9A and 9B are views showing a state in which a relay box is housed in a circuit housing recess according to a modification of the cleaning device according to the embodiment of the present invention, where FIG. 9A is a side cross-sectional view, and FIG. It is sectional drawing.
FIG. 10 is a perspective view showing a mounting structure of a circuit box to a tank in a conventional cleaning apparatus.
FIG. 11 is a perspective view showing another example of a structure for attaching a circuit box to a tank in a conventional cleaning apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Cleaning apparatus, 12 ... Pump apparatus, 24 ... Tank, 26 ... Upper tank, 26A ... Welding part, 28 ... Lower tank, 28A ... Welding part, 32 ... Pump accommodation recessed part (1st accommodation recessed part), 54 ... Circuit accommodation recessed part ( (Second housing recess), 54A ... insertion port, 54B ... housing opening, 55 ... upper wall (first wall surface), 56 ... back wall (second wall surface), 60 ... bridge portion, 62 ... relay box (circuit box), 64A ... main surface (surface of the circuit box), 68 ... projection, 70 ... connector, 72 ... connector (external connector), 76A and 76B ... feed wiring (wiring), 90 ... circuit housing recess (second housing recess) , 90A ... insertion port, 90B ... accommodation opening, 97 ... upper wall (first wall surface), 98 ... back wall (second wall surface)

Claims (7)

A tank for storing cleaning liquid;
A pump device that is accommodated and attached to a first accommodating recess formed by recessing the surface of the tank inside the tank, and capable of pumping the cleaning liquid;
A circuit box that is attached to the tank and contains at least an electric circuit electrically connected to the pump device via wiring;
A cleaning device comprising:
The tank is formed with an indented surface inside, a second receiving recess having an insertion opening into which the circuit box is inserted, a receiving opening that opens in a direction intersecting the insertion direction of the circuit box, and the receiving opening. Having a bridge part to bridge,
The circuit box has a connector portion provided in a part positioned on the opposite side of the insertion port with respect to the bridge portion in a state of being accommodated in the second accommodation recess, and the connector portion includes the wiring. An external connector provided at an end is connected from the accommodation opening,
A cleaning apparatus characterized by that. The circuit box has a protrusion protruding from the surface, and the protrusion is engaged with the bridge and temporarily held in the tank while being accommodated in the second accommodation recess. The cleaning apparatus according to claim 1, characterized in that: The second housing recess has a first wall surface located on the opposite side to the insertion port in the insertion direction, and a second wall surface located on the opposite side to the housing opening in the intersecting direction. The cleaning apparatus according to claim 1 or 2. The tank includes a lower tank provided with the first receiving recess and mainly storing the cleaning liquid, and an upper tank provided with an inlet for injecting the cleaning liquid, and the lower tank and the upper tank are provided from respective opening ends. Formed by joining at the joint extending outward,
The first wall surface or the second wall surface is formed including the joint portion.
The cleaning apparatus according to claim 3. Each of the tanks is formed by welding a lower tank and an upper tank made of resin molding to each other at the opening ends,
The second housing recess has an insertion direction of the circuit box coincident with a mold drawing direction when resin molding of the lower tank or the upper tank, and opens the housing opening in a direction perpendicular to the insertion direction, and the insertion port Connected,
The bridge portion protrudes outward from the opening surface of the accommodation opening and bridges over the accommodation opening.
The cleaning apparatus according to any one of claims 1 to 3, wherein: A tank for storing cleaning liquid;
A pump device that is accommodated and attached to a first accommodating recess recessed in the tank, and capable of pumping the cleaning liquid;
A circuit box containing at least an electric circuit electrically connected to the pump device via wiring;
A second housing recess formed by recessing the surface of the tank inward, and having an insertion opening into which the circuit box is inserted and a housing opening that opens in a direction intersecting the insertion direction of the circuit box;
A circuit box fixing method for a cleaning device comprising:
The circuit box is inserted into the second receiving recess from the insertion port, and a part of the circuit box provided with a connector portion is connected to the insertion port with respect to a bridge portion provided in the tank and bridging the receiving opening. On the other side,
Next, an external connector provided at an end of the wiring is connected to the connector located on the opposite side of the insertion port with respect to the bridge from the accommodation opening.
A circuit box fixing method for a cleaning apparatus. Along with the operation of inserting the circuit box from the insertion port into the second receiving recess, the connector portion protrudes from the surface of the circuit box when positioned on the side opposite to the insertion port with respect to the bridge portion. Engaging the protruding portion with the bridge portion and temporarily holding the circuit box in the tank;
A circuit box fixing method for a cleaning apparatus according to claim 6.

Images