CN216602812U - Anti-reverse device of anti-static sole cleaning machine - Google Patents

Abstract

The utility model discloses an anti-reverse device of an anti-static sole cleaning machine, which comprises a box body, a cleaning mechanism, a suction drying mechanism, a circuit control mechanism, an infrared sensing mechanism and a static elimination assembly, wherein the cleaning mechanism is arranged on the box body; the infrared sensing mechanism comprises at least one first infrared sensor positioned in front of the cleaning mechanism and a second infrared sensing component positioned in front of the sucking and drying mechanism; the second infrared sensing assembly comprises at least one second infrared sensor arranged on the box body and positioned at the front end of the sucking and drying mechanism and at least one third infrared sensor arranged on the box body and positioned at the front end of the second infrared sensor. The utility model can automatically detect whether the passing personnel is in forward motion or not, if the passing personnel is in reverse motion, the machine does not operate, thereby effectively reducing the excessive abrasion of the personnel caused by the reverse motion, preventing static from remaining on the sole, avoiding unnecessary influence of the remaining static on indoor machinery, and further meeting the environmental requirements of the modern scientific and technological research or production process on dust and static.

Description

Anti-reverse device of anti-static sole cleaning machine

Technical Field

The utility model relates to the technical field of sole cleaning, in particular to an anti-retrograde device of an anti-static sole cleaning machine.

Background

In the rapid development of modern industry, whether industrial production or scientific research and development, the requirement on the indoor environment of a workshop or a working room is more and more strict, and a dust-free and static-free indoor environment needs to be managed and controlled from the source. For example, shoes are replaced or shoes are taken off and immersed before entering a workshop or a working room, but the mode of replacing shoes or taking off and immersing shoes inevitably brings risks of peculiar smell or germ infection and the like. Therefore, the sole cleaning machine for solving the secondary problems appears in the market at present, but the sole cleaning agent commonly used in the market at present has defects: 1. the brush on the sole and the sole cleaning machine generates static electricity, and the static electricity influences the normal operation of indoor working machinery after being brought into a workshop or a working room, so that the machinery has faults, false operations or operation errors, and the working efficiency is further influenced; 2. the sole cleaning machine is generally installed on the passageway that gets into the workshop, and this passageway generally can not be used for personnel to leave, but the sole cleaning machine of general circulation on the market still can sense personnel when personnel reverse the line and pass through, automatic operation, and the inside wearing and tearing of sole cleaning machine can be accelerated to this kind of reverse action, lead to sole cleaning machine's life not high.

Therefore, prime needs a sole cleaning machine which can prevent static electricity and can prevent itself from being damaged by retrograde motion to adapt to the modern sole cleaning requirement.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned shortcomings, an object of the present invention is to provide an anti-reverse device of an anti-static shoe sole cleaning machine, which can automatically detect whether a passing person is moving forward or not, and if the passing person is moving backward, the machine is not operated, thereby effectively reducing excessive wear of the passing person due to backward movement, preventing static electricity from remaining on the shoe sole, avoiding unnecessary influence of the remaining static electricity on indoor machinery, and further meeting the environmental requirements of modern scientific and technological research and development or production processes for being free of dust and static electricity.

The technical scheme adopted by the utility model to achieve the aim is as follows:

the anti-reverse device of the anti-static shoe sole cleaning machine comprises a shoe sole cleaning machine body, wherein the shoe sole cleaning machine body comprises a box body, a cleaning mechanism arranged on the box body, a drying mechanism arranged on the box body and positioned behind the cleaning mechanism, a circuit control mechanism arranged in the box body, an infrared sensing mechanism arranged on the box body and electrically connected with the circuit control mechanism, and an electrostatic elimination assembly arranged between the cleaning mechanism and the drying mechanism and electrically connected with the circuit control mechanism; the infrared sensing mechanism comprises at least one first infrared sensor arranged on the box body and positioned in front of the cleaning mechanism and a second infrared sensing assembly arranged on the box body and positioned in front of the drying mechanism; the second infrared sensing assembly comprises at least one second infrared sensor arranged on the box body and positioned at the front end of the drying mechanism and at least one third infrared sensor arranged on the box body and positioned at the front end of the second infrared sensor.

Furthermore, two sides of the box body are respectively provided with a handrail, and the second infrared sensor and the third infrared sensor are arranged on the handrails.

Further, the height of the handrail should be 800-1150 mm.

Further, the height of the second infrared sensor and the third infrared sensor should be set between 900 and 1100 mm.

Furthermore, the static electricity eliminating assembly comprises a static electricity eliminating bracket arranged between the cleaning mechanism and the suction mechanism and at least one static electricity eliminator arranged on the static electricity eliminating bracket and electrically connected with the circuit control mechanism.

Furthermore, the cleaning mechanism comprises a water tank arranged in the box body, a plurality of driving rollers arranged above the water tank and electrically connected with the circuit control mechanism, a detachable belt brush covering the surface of the driving rollers, at least one water spraying pipe arranged in the box body and connected with the outside, and a plurality of water spraying holes arranged on the water pipe and spraying towards the lower part of the belt brush.

Furthermore, the drying mechanism comprises a filtering screen plate arranged on the water tank and a water absorbing sponge detachably arranged on the filtering screen plate.

The heating mechanism comprises a heating pipe arranged in the box body, a fan arranged in the box body and positioned on one side of the heating pipe, and a plurality of air blowing openings annularly arranged on the periphery of the water absorption sponge, wherein the fan is electrically connected with the circuit control mechanism; after the fan blows air, the heating pipe heats the air, and the heated air is blown to the water absorption sponge through the air blowing port.

Further, still include the exhaust pipe that sets up in the box outside and be connected with the basin.

The utility model has the beneficial effects that:

(1) through set up an electrostatic elimination subassembly between wiper mechanism and suction dry mechanism, when personnel walked away from wiper mechanism, the static elimination that produces between belt brush and the sole in the wiper mechanism can effectively be eliminated through the electrostatic elimination subassembly to effectively prevent that static from remaining in the sole and then being brought into workshop or studio and influence indoor work machine's normal operating, lead to machinery to break down, malfunction or operation mistake, further influence work efficiency. Through set up an infrared induction mechanism on the box, first infrared inductor sets up in wiper mechanism the place ahead, and when personnel moved in the same direction as the line and got into this device, first infrared inductor sensed personnel and passed through to signal transmission that passes through personnel gives circuit control mechanism, and circuit control mechanism is after receiving the signal of first infrared inductor feedback, controls wiper mechanism and suction dry mechanism and begins the function, thereby reaches the purpose that automated inspection personnel moved in the same direction as the line and effectively cleared up the personnel sole through this device. When a person moves forwards, the person firstly passes through the second infrared sensor and then passes through the third infrared sensor, the second infrared sensor and the third infrared sensor feed back sequential detection sequence signals to the circuit control mechanism, and the circuit control mechanism judges that the person moves forwards after receiving the signals fed back by the second infrared sensor and the third infrared sensor, and controls the cleaning mechanism and the drying mechanism to normally operate; when personnel move in the wrong direction, the personnel pass through the third infrared inductor earlier, later pass through the second infrared inductor, second infrared inductor and third infrared inductor will be successively detected the order signal and feed back circuit control mechanism, circuit control mechanism is after receiving second infrared inductor and third infrared inductor feedback signal, judge that the personnel are the move in the wrong direction, then stop the cleaning mechanism, inhale the operation of doing mechanism and first infrared inductor, effectively reduce personnel and move in the wrong direction and lead to this device automatic operation and cause excessive wear, infrared induction mechanism and static elimination component's combined use, make this device further satisfy the dustless no static environmental requirement of contemporary scientific and technological research and development or production technology.

(2) Through setting up 800 and giving rise to the height of 1150mm to more accord with the habit of adult's handrail, make personnel when passing through this device, accessible handrail stabilizes self in the cleaning process of wiper mechanism, has improved the security of this device.

(3) Highly setting up through setting up second infrared inductor and third infrared inductor setting up to between 900 and the 1100mm to make near waist position that second infrared inductor and third infrared inductor can effectively aim at through personnel, make the accuracy that detects improve, effectively prevent that the second infrared induction subassembly from crossing because of setting up highly low and can't detect through personnel or detect the condition that has the mistake, and then reach the purpose that improves this device and detect the precision, further improve the practicality of this device.

The above is an overview of the technical solution of the present invention, and the present invention is further explained with reference to the accompanying drawings and the detailed description.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the inside of the case;

FIG. 3 is a schematic structural view of the inner side of the case;

in the figure: 1. a box body; 11. a handrail; 2. a cleaning mechanism; 21. a water tank; 22. a driving roller; 23. a belt brush; 24. a water spray pipe; 25. a water spray hole; 3. a suction drying mechanism; 31. filtering the screen printing plate; 32. a water-absorbing sponge; 4. a circuit control mechanism; 5. an infrared sensing mechanism; 51. a first infrared sensor; 52. a second infrared sensing assembly; 521. a second infrared sensor; 522. a third infrared sensor; 6. a static elimination component; 61. a static elimination support; 62. a static eliminator; 7. a heating mechanism; 71. heating a tube; 72. a fan; 73. an air blowing port; 8. and a water discharge pipe.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the predetermined purposes, the following detailed description of the embodiments of the present invention is provided with the accompanying drawings and the preferred embodiments.

Referring to fig. 1 to 3, an embodiment of the present invention provides an anti-reverse device of an anti-static shoe sole cleaning machine, including a shoe sole cleaning machine body, where the shoe sole cleaning machine body includes a box 1, a cleaning mechanism 2 disposed on the box 1, a drying mechanism 3 disposed on the box 1 and behind the cleaning mechanism 2, a circuit control mechanism 4 disposed inside the box 1, an infrared sensing mechanism 5 disposed on the box 1 and electrically connected to the circuit control mechanism 4, and a static electricity eliminating assembly 6 disposed between the cleaning mechanism 2 and the drying mechanism 3 and electrically connected to the circuit control mechanism 4; the infrared sensing mechanism 5 comprises at least one first infrared sensor 51 arranged on the box body 1 and positioned in front of the cleaning mechanism 2, and a second infrared sensing assembly 52 arranged on the box body 1 and positioned in front of the drying mechanism 3; the second infrared sensing assembly 52 includes at least one second infrared sensor 521 disposed on the box 1 and located at the front end of the drying mechanism 3, and at least one third infrared sensor 522 disposed on the box 1 and located at the front end of the second infrared sensor 521.

Through set up an electrostatic elimination subassembly 6 between wiper mechanism 2 and suction dry mechanism 3, when personnel walked out from wiper mechanism 2, the static elimination subassembly 6 can effectively be with the belt brush 23 that the following said in wiper mechanism 2 between the sole produces to prevent effectively that static from remaining at the sole and then being brought into workshop or studio and influence indoor work machine's normal operating, lead to machinery to break down, malfunction or operation mistake, further influence work efficiency.

Through set up an infrared induction mechanism 5 on the box 1, first infrared inductor 51 sets up in 2 the place ahead of wiper mechanism, when personnel are in the same direction as the line and get into this device, first infrared inductor 51 senses personnel and passes through to signal transmission that passes through personnel gives circuit control mechanism 4, circuit control mechanism 4 is after receiving the signal of first infrared inductor 51 feedback, control wiper mechanism 2 and inhale dry mechanism 3 and begin the function, thereby reach the purpose that automatic detection personnel are in the same direction as the line and carry out effective clearance to the personnel sole through this device.

By arranging the second infrared sensing assembly 52 in front of the drying mechanism 3, the second infrared sensor 521 and the third infrared sensor 522 are arranged in front of and behind the drying mechanism 3, when a person moves forward, the person firstly passes through the second infrared sensor 521 and then passes through the third infrared sensor 522, the second infrared sensor 521 and the third infrared sensor 522 feed back sequential detection sequence signals to the circuit control mechanism 4, and the circuit control mechanism 4 judges that the person moves forward after receiving the signals fed back by the second infrared sensor 521 and the third infrared sensor 522, and then controls the cleaning mechanism 2 and the drying mechanism 3 to normally operate; when a person runs in the wrong direction, the person firstly passes through the third infrared sensor 522 and then passes through the second infrared sensor 521, the second infrared sensor 521 and the third infrared sensor 522 to feed back a detection sequence signal to the circuit control mechanism 4, the circuit control mechanism 4 judges that the person runs in the wrong direction after receiving the feedback signals of the second infrared sensor 521 and the third infrared sensor 522, the operation of the cleaning mechanism 2, the suction drying mechanism 3 and the first infrared sensor 51 is stopped, the excessive abrasion caused by the automatic running of the device due to the reverse running of the person is effectively reduced, and the infrared sensing mechanism 5 and the static eliminating component 6 are used in combination, so that the device further meets the environmental requirements of the modern scientific and technological research and development or the production process of dust and static electricity.

As to a specific installation manner of the second infrared sensor 521 and the third infrared sensor 522, as shown in fig. 1, two armrests 11 are respectively installed at two sides of the box body, and the second infrared sensor 521 and the third infrared sensor 522 are installed on the armrests 11.

Preferably, the height of the armrest 11 should be 800-1150 mm. Through setting up handrail 11 to 800-.

For specific height setting of the second infrared sensor 521 and the third infrared sensor 522, as shown in fig. 1, the height setting of the second infrared sensor 521 and the third infrared sensor 522 should be between 900 mm and 1100 mm. Set up to between 900 and 1100mm through highly setting up second infrared inductor 521 and third infrared inductor 522 to make near waist position that second infrared inductor 521 and third infrared inductor 522 can effectively aim at through personnel, make the accuracy that detects improve, effectively prevent that the second infrared induction subassembly from crossing because of setting up highly too low and can't detect through personnel or detect the condition that has the mistake, and then reach the mesh that improves this device and detect the precision, further improve the practicality of this device.

As to the specific structure of the static electricity eliminating assembly 6, as shown in fig. 1 and 3, the static electricity eliminating assembly 6 includes a static electricity eliminating bracket 61 disposed between the cleaning mechanism 2 and the blotting mechanism 3, and at least one static electricity eliminator 62 disposed on the static electricity eliminating bracket 61 and electrically connected to the circuit control mechanism 4. Through set up a static elimination support 61 between wiper mechanism 2 and suction dry mechanism 3 to guarantee that static eliminator 62 can not too much contact the water in wiper mechanism 2, make static eliminator 62 excessively erode by water, effectively improved static eliminator 62's life. Through set up a static eliminator 62 between wiper mechanism 2 and suction dry mechanism 3, when personnel move in the same direction through static eliminator 62, its sole contact surface contacts with static eliminator 62, and then let static eliminator 62 eliminate the static elimination that remains and produce between the belt brush 23 that the following said of sole and the sole, thereby prevent effectively that static from remaining in the sole and then being brought into workshop or studio and influence indoor work machine's normal operating, lead to machinery to break down, malfunction or operation mistake, further influence work efficiency.

Preferably, the static eliminator 62 should be a static eliminator usable in contact with a human body and be waterproof.

As for the specific structure of the cleaning mechanism 2, as shown in fig. 1 to 3, the cleaning mechanism 2 includes a water tank 21 disposed in the box 1, a plurality of driving rollers 22 disposed above the water tank 21 and electrically connected to the circuit control mechanism 4, a detachable belt brush 23 covering the surface of the driving rollers 22, at least one water spraying pipe 24 disposed in the box 1 and connected to the outside, and a plurality of water spraying holes 25 disposed on the water spraying pipe 24 and spraying toward the lower side of the belt brush 23. The spout pipe 24 is connected to an external water inlet pipe and delivers externally supplied water into the spout hole 25 to be sprayed from the spout hole 25. When personnel are in the same direction as going on this device, circuit control mechanism 4 control driving roller 22 rotates, covers and rotates in step along with driving roller 22 in driving roller 22 on the surface belt brush 23, lets the hair on the belt brush 23 scrub dust, the stain etc. of sole to reach the purpose of clearance sole. The belt brush 23 is sprayed by water on the water spray holes 25 while rotating, so that the belt brush 23 can brush the sole more easily through the contact of water with dust and stains, and the efficiency of cleaning the sole is further accelerated. Through setting up belt brush 23 into detachable, when belt brush 23 was too dirty, can dismantle belt brush 23 and get off and wash, perhaps more renew, further improved the life of this device, improved the practicality of this device.

Preferably, the water spraying pipe 24 is connected with an external water inlet pipe, and the water filled in the external water inlet pipe can also be sterilized water or other more clean solvents, so as to further accelerate the brushing efficiency of the belt brush 23.

As shown in fig. 1 and 3, the blotting mechanism 3 includes a filtering screen 31 disposed on the water tank 21, and a water-absorbing sponge 32 detachably mounted on the filtering screen 31. When a person walks from the cleaning mechanism 2 to the drying mechanism 3, the water stain remained on the sole of the cleaning mechanism 2 is dried by the water absorption sponge 32, and the dust, residue and the like on the sole pass through the water absorption sponge 32 to reach the filtering screen 31, the larger dust, residue and the like are received by the filtering screen 31, and the smaller dust, residue and the like pass through the filtering screen 31 to reach the water tank 21 and are discharged by the water discharge pipe 8 which is described below along with the waste water in the water tank 21. Through inciting somebody to action the sponge 32 that absorbs water sets up to detachable, when the sponge 32 that absorbs water is too dirty, can dismantle the sponge 32 that absorbs water, washs or changes, further improves the life of this device, improves the practicality of this device.

Preferably, the filtering screen 31 is also detachable, and when the amount of dust and residues contained in the filtering screen 31 is too large, the filtering screen 31 can be detached from the water tank 21 and cleaned or replaced, thereby further prolonging the service life of the device and improving the practicability of the device.

In order to better dry the water absorbing sponge 32, as shown in fig. 3, the device further includes a heating mechanism 7 disposed on the box body 1 and located around the water absorbing sponge 32, wherein the heating mechanism 7 includes a heating pipe 71 disposed in the box body 1, a blower 72 disposed in the box body 1 and located at one side of the heating pipe 71, and a plurality of blowing ports 73 annularly disposed around the water absorbing sponge 32, and the blower 72 is electrically connected to the circuit control mechanism 4; after the air is blown out by the blower 72, the air is heated by the heating pipe 71, and the heated air is blown toward the absorbent sponge 32 through the air blowing port 73. When the personnel walk to on the mechanism 3 of blotting, heating mechanism 7 operates in step, specifically is: the circuit control mechanism 4 controls the heating pipe 71 and the fan 72 to synchronously operate, after the fan 72 blows air, the air is heated by the heating pipe 71, the heated air is blown to the water absorption sponge 32 through the air blowing port 73, so that the air drying speed of water on the water absorption sponge 32 is accelerated, the water absorption sponge 32 can absorb more water on the sole, and the water absorption efficiency of the water absorption sponge 32 is further improved.

As shown in fig. 1, the device further includes a drain pipe 8 disposed outside the case 1 and connected to the water tank 21. When the waste water in the water tank 21 needs to be replaced, the drain pipe 8 is opened to allow the waste water to be discharged from the water tank 21 through the drain pipe 8.

As for the specific structure of the circuit control mechanism 4, as shown in fig. 3, the circuit control mechanism 4 includes at least one motor disposed on the box body, and at least one circuit board electrically connected to the motor. The circuit control structure 4 may be adjusted according to specific actual requirements, and other control components may be added, which is not limited to this.

It should be noted that the anti-reverse device of the anti-static sole cleaning machine disclosed by the utility model is an improvement on a specific structure, and a specific control mode is not an innovative point of the utility model. The motor, the infrared inductor, the static eliminator and other components involved in the present invention can be general standard components or components known to those skilled in the art, and the structure, principle and control method thereof are known to those skilled in the art through technical manuals or through routine experiments.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that other structures obtained by using the same or similar technical features as the above-described embodiments of the present invention are within the protection scope of the present invention.

Claims (9)

1. Anti-static sole cleaning machine prevents reverse device, including a sole cleaning machine body, the sole cleaning machine body includes a box, sets up a wiper mechanism on the box, sets up on the box and is located a dry mechanism, its characterized in that at wiper mechanism rear: the cleaning device also comprises a circuit control mechanism arranged in the box body, an infrared sensing mechanism arranged on the box body and electrically connected with the circuit control mechanism, and a static elimination assembly arranged between the cleaning mechanism and the suction mechanism and electrically connected with the circuit control mechanism; the infrared sensing mechanism comprises at least one first infrared sensor arranged on the box body and positioned in front of the cleaning mechanism and a second infrared sensing assembly arranged on the box body and positioned in front of the drying mechanism; the second infrared sensing assembly comprises at least one second infrared sensor arranged on the box body and positioned at the front end of the drying mechanism and at least one third infrared sensor arranged on the box body and positioned at the front end of the second infrared sensor.

2. The anti-static shoe sole cleaning machine anti-reverse device according to claim 1, characterized in that: two sides of the box body are respectively provided with a handrail, and the second infrared sensor and the third infrared sensor are arranged on the handrails.

3. The anti-static shoe sole cleaning machine anti-reverse device according to claim 2, characterized in that: the height of the handrail should be 800-1150 mm.

4. The anti-static shoe sole cleaning machine anti-rollback apparatus according to claim 3, wherein: the height of the second infrared sensor and the third infrared sensor is set to be between 900 mm and 1100 mm.

5. The anti-static shoe sole cleaning machine anti-reverse device according to claim 1, characterized in that: the static elimination component comprises a static elimination support arranged between the cleaning mechanism and the suction mechanism and at least one static eliminator arranged on the static elimination support and electrically connected with the circuit control mechanism.

6. The anti-static shoe sole cleaning machine anti-reverse device according to claim 1, characterized in that: the cleaning mechanism comprises a water tank arranged in the box body, a plurality of driving rollers arranged above the water tank and electrically connected with the circuit control mechanism, a detachable belt brush covering the surface of the driving rollers, at least one water spraying pipe arranged in the box body and connected with the outside, and a plurality of water spraying holes arranged on the water pipe and spraying towards the lower part of the belt brush.

7. The anti-reverse device of the anti-static shoe sole cleaning machine according to claim 6, characterized in that: the sucking and drying mechanism comprises a filtering screen plate arranged on the water tank and a water sucking sponge detachably arranged on the filtering screen plate.

8. The anti-static shoe sole cleaning machine anti-rollback apparatus according to claim 7, wherein: the heating mechanism comprises a heating pipe arranged in the box body, a fan arranged in the box body and positioned on one side of the heating pipe, and a plurality of blowing openings annularly arranged on the periphery of the water absorption sponge, wherein the fan is electrically connected with the circuit control mechanism; after the fan blows air, the heating pipe heats the air, and the heated air is blown to the water absorption sponge through the air blowing port.

9. The anti-reverse device of the anti-static shoe sole cleaning machine according to claim 6, characterized in that: the water tank also comprises a water drainage pipe which is arranged outside the tank body and is connected with the water tank.

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