CN114158997A - High-efficient belt cleaning device of cup dish for dining room - Google Patents

Abstract

The invention relates to the field of cup and tray cleaning devices, and discloses a high-efficiency cup and tray cleaning device for a restaurant, which comprises a shell and a cleaning mechanism positioned in the shell, wherein the outer surface of the shell is provided with an inlet and an outlet for the inlet and the outlet of a cup in a penetrating way, a partition plate for supporting the cup is fixedly arranged in the shell, a discharging assembly for driving the cup to move is arranged in the shell, and the discharging assembly comprises a sleeve, a motor fixedly connected with the sleeve, a support rotatably arranged with the sleeve and two guide pillars which are fixedly connected with the support and symmetrically arranged; according to the invention, through the matching among the adjusting component, the clamping component, the bracket, the guide pillar and the like, the cup can be driven to reciprocate back and forth relative to the bracket in a state that the bottom of the cup is upward, so that the cleaning mechanism can clean a plurality of positions outside the cup, the washing force of the cleaning mechanism on the cup can be changed, and the outer surface of the cup can be effectively cleaned through multi-stage matching.

Description

High-efficient belt cleaning device of cup dish for dining room

Technical Field

The invention relates to the technical field of cup and tray cleaning devices, in particular to a high-efficiency cup and tray cleaning device for a restaurant.

Background

The cup is a vessel used for containing water, drinking wine or drinking tea, a flat-bottom cup is mostly adopted in a restaurant at present to provide tea water and beverage for customers, and the cups are collected for centralized cleaning after the customers finish using the cup, so that the cup is prepared for subsequent use.

Chinese patent publication No. CN111589823A discloses a medical cup cleaning and sterilizing machine, which comprises a device body with a cleaning cavity in the right side end face, wherein the right side wall of the cleaning cavity is communicated with the right side end face of the device body and is provided with a cleaning inlet, and the right side end face of the device body is correspondingly and fixedly provided with a supporting seat at the front and the back below the cleaning inlet; has the advantages of high-efficiency cleaning of the medical cup and the like.

However, when the device is used for cleaning the cup, the whole outer surface of the cup cannot be effectively cleaned; the device adopts clamp ring and spring to carry on spacingly to the cup, outside clamping surface and cup diapire when spacing so also can't be effectively cleaned, and in the use of actual dining room, the customer picks up the cup with the hand, and the cup often moves on the desk for the surface and the diapire of cup all have more bacterium, so also need provide effective washing to the surface and the diapire of cup.

Therefore, there is a need to provide a high-efficiency cup and tray cleaning device for restaurants, which solves the above technical problems.

Disclosure of Invention

The invention aims to provide a high-efficiency cup and tray cleaning device for a restaurant, which aims to solve the problems that the whole outer surface of a cup cannot be effectively cleaned in the background technology, the outer clamping surface and the bottom wall of the cup cannot be effectively cleaned during limiting, and the like.

In order to achieve the purpose, the cup is washed in a state that the bottom of the cup faces upwards, and meanwhile the cup is set to be dynamic rather than fixed, so that the cup does not need to be limited when the outer surface of the cup is washed, the contact surface generated during limiting cannot be cleaned, and a plurality of positions outside the cup can be washed by the washing mechanism.

Based on the above thought, the invention provides the following technical scheme: a cup tray efficient cleaning device for a restaurant comprises a shell and a cleaning mechanism located in the shell, wherein an inlet and an outlet for a cup to enter and exit are formed in the outer surface of the shell in a penetrating mode, a partition plate for supporting the cup is fixedly installed inside the shell, a discharging assembly for driving the cup to move is arranged inside the shell, the discharging assembly comprises a sleeve, a motor fixedly connected with the sleeve, a support rotatably installed with the sleeve and two guide pillars which are fixedly connected with the support and symmetrically arranged, a clamping assembly for limiting the cup is arranged inside the support, and an adjusting assembly movably attached to the two guide pillars and movably attached to the clamping assembly is fixedly installed inside the shell;

the motor drives the support to rotate along the partition plate through the sleeve, the support is matched with the partition plate to drive the cup to move, and the clamping assembly reciprocates front and back relative to the adjusting assembly to drive the cup to reciprocate front and back along the support.

As a further scheme of the invention: the adjusting component comprises a base fixedly connected with the shell, two guide pillars are movably attached to the base, two guide grooves are formed in the surface of the base in a penetrating mode, two guide blocks are fixedly mounted on the surface of the base and correspond to the two guide grooves in position and are matched with the two guide grooves in size, and wave strips and convex strips are fixedly mounted on the outer surface of the base.

As a further scheme of the invention: wave strip and sand grip are the symmetry setting with the guide way that is close to the entry as the center, the guide block is for the outside protrusion of base, and the size looks adaptation of convex distance and sand grip.

As a further scheme of the invention: the motor is fixedly connected with the inner wall of the shell, a placing groove is formed in the surface of the support in a penetrating mode, and the two guide columns are all cylinders.

As a further scheme of the invention: the centre gripping subassembly includes and is sliding fit and is located the slide bar in the middle of two guide pillars with the support, the slide bar is close to telescopic one end fixed mounting has the arc piece, the surface fixed mounting of slide bar has the curb plate, and the surface cover of slide bar is equipped with the spring that is used for the slide bar to reset, the other end fixed mounting of slide bar has two stay cords, and the stay cord is kept away from the fixed book of activity end of slide bar and is equipped with the round bar, and round bar movable mounting is equipped with the torsional spring on the surface of support and outside cover, the surface fixed mounting of round bar has the clamp splice.

As a further scheme of the invention: the wave strips and the raised strips are matched with the size of the arc-shaped block.

As a further scheme of the invention: the outer surface of baffle and the position that corresponds the support run through and the rotation installs a plurality of runner assembly, a plurality of runner assembly is annular array along the baffle arranges, the outer fixed surface of support installs the annular rack that corresponds with the runner assembly position.

As a further scheme of the invention: the inlet corresponds to the starting point of the wave strip, the outlet is arranged between the wave strip and the second guide groove, and the outlet is arranged into an inclined plane.

As a further scheme of the invention: the rotating assembly comprises a short rod which runs through the partition plate and is connected with the partition plate in a rotating mode, a disc is fixedly mounted at one end, close to the support, of the short rod, and a gear corresponding to the rack is fixedly mounted at the other end of the short rod.

Compared with the prior art, the invention has the beneficial effects that: through the matching among the adjusting component, the clamping component, the bracket, the guide post and the like, the cup can be driven to reciprocate back and forth relative to the bracket in a state that the bottom of the cup is upward, so that the cleaning mechanism can clean a plurality of positions outside the cup; meanwhile, on the basis of ensuring that a plurality of positions of the cup are cleaned, a large amount of cleaning resources are not required to be consumed, the washing force of the cleaning mechanism on the cup is changed along with the change of the washing force in the moving process of the cup, and the outer surface of the cup can be effectively cleaned through multi-stage matching.

Drawings

The invention is further illustrated with reference to the following figures and examples:

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

FIG. 2 is a top perspective view of the internal structure of the housing of the present invention;

FIG. 3 is a top perspective view of the baffle and sleeve of the present invention;

FIG. 4 is a bottom perspective view of the baffle and sleeve of the present invention;

FIG. 5 is a schematic view of the adjustment assembly of the present invention;

FIG. 6 is a schematic view of the bracket and guide post structure of the present invention;

FIG. 7 is a schematic view of a clamping assembly of the present invention;

FIG. 8 is an enlarged view of the structure at A in FIG. 4;

FIG. 9 is an enlarged view of the structure at B in FIG. 4;

fig. 10 is an enlarged view of the structure at C in fig. 5.

In the figure: 1. a housing; 2. a cleaning mechanism; 3. a partition plate; 4. a rotating assembly; 5. an adjustment assembly; 6. an outlet; 7. a discharging component; 8. a clamping assembly; 9. an inlet; 401. a short bar; 402. a disc; 403. a gear; 501. a base; 502. a guide groove; 503. a guide block; 504. a wave strip; 505. a convex strip; 701. a support; 702. a guide post; 703. a placement groove; 704. a rack; 705. a sleeve; 706. a motor; 801. a slide bar; 802. an arc-shaped block; 803. a side plate; 804. a spring; 805. pulling a rope; 806. a round bar; 807. and (5) clamping blocks.

Detailed Description

The first embodiment is as follows:

referring to fig. 1 to 3, an embodiment of the present invention provides a high-efficiency cup and tray cleaning device for a restaurant: comprising a shell 1 and a cleaning mechanism 2 arranged in the shell 1, wherein the cleaning mechanism 2 is the existing mature technology and is not described in detail, the cleaning mechanism 2 is provided with two parts which respectively correspond to the outer surface cleaning and the inner wall cleaning of a cup, the cleaning mechanism 2 is preferably washed by water and can also be mixed with cleaning liquid.

An inlet 9 and an outlet 6 for the inlet and the outlet of a cup are formed in the outer surface of the shell 1 in a penetrating mode, the cup is in a state that the cup bottom faces upwards when entering from the inlet 9, an intermittent cup conveying mechanism is correspondingly arranged at the inlet 9 and used for conveying the cup to the inlet 9 in a state that the cup bottom faces upwards in an intermittent mode, the intermittent cup conveying mechanism is the existing mature technology and is not described in detail herein; in order to facilitate the discharge of the cup moving to the outlet 6, the outlet 6 may be provided as an inclined surface so that the cup can automatically slide out after reaching the outlet 6.

A partition plate 3 for supporting a cup is fixedly arranged in the shell 1, the partition plate 3 is arranged in a ring shape and corresponds to the inlet 9 and the outlet 6, and the cup can be prevented from falling after entering the shell 1; the inside of casing 1 is provided with the blowing subassembly 7 that is used for driving the cup removal, and blowing subassembly 7 includes sleeve 705, motor 706 with sleeve 705 fixed connection, with sleeve 705 rotation installation's support 701 and with two guide pillars 702 of support 701 fixed connection, leave the clearance between sleeve 705 and the baffle 3 to be convenient for the rivers circulation of wiper mechanism 2, support 701 runs through sleeve 705 and is the rotation with sleeve 705 and be connected, and two guide pillars 702 are the symmetry setting on support 701.

A clamping assembly 8 for limiting a cup is arranged in the bracket 701, and an adjusting assembly 5 movably attached to the two guide posts 702 and the clamping assembly 8 is fixedly arranged in the shell 1; when the motor 706 is started, the support 701 is driven to rotate along the partition plate 3 through the sleeve 705, the support 701 is matched with the partition plate 3 to drive the cup to move, the cup reciprocates back and forth along the support 701 under the action of the clamping assembly 8 and the adjusting assembly 5, and a better cleaning effect can be obtained along with the work of the cleaning mechanism 2; then under the effect of guide pillar 702 and adjusting part 5, clamping part 8 presss from both sides tightly the cup and support 701 drives the cup upset 180 degrees simultaneously and makes the rim of a cup up, along with the continuation removal of cup, wiper mechanism 2 washs the inner wall of cup.

In the present embodiment, it is preferable that: when the cup holder is used, a cup enters the shell 1 from the inlet 9 in a state that the bottom of the cup is upward, is supported by the partition plate 3 and is framed by the support 701, then the motor 706 is started to drive the sleeve 705 to rotate, the sleeve 705 drives the support 701 to rotate, the support 701 drives the cup to move along the partition plate 3, and at the moment, the clamping assembly 8 does not clamp the cup; in the moving process, the clamping component 8 and the adjusting component 5 are mutually matched to drive the cup to do reciprocating movement back and forth on the clapboard 3 along the bracket 701, meanwhile, the cleaning mechanism 2 is started to effectively clean the outer surface of the cup, compared with the state that the cup is fixed on the clapboard 3, can change the washing surface of the cup by the washing mechanism 2, obtain better washing effect, simultaneously reduce the water yield of the washing mechanism 2 on the basis of ensuring the washing effect, namely, the water yield does not need to be set to be matched with the size of the cup, because the cup can move forwards and backwards, the reduced water output still allows for effective cleaning of other locations outside the cup, and because the cup moves back and forth, the cup washing force of the washing mechanism 2 is changed, the washing effect on the outer surface of the cup is effectively guaranteed, and the washing effect is better; compare in the cup through the spacing washing of centre gripping, can wash the position that the cup was by the centre gripping, can also wash the diapire of cup for it is more comprehensive to the washing of cup surface.

After the outer surface of the cup is cleaned, the clamping assembly 8 clamps the cup under the matching of the structures of the adjusting assembly 5, the bracket 701, the guide post 702, the clamping assembly 8 and the like, and then the bracket 701 is turned over for 180 degrees, so that the cup is changed from a state that the bottom of the cup is upward to a state that the mouth of the cup is upward; as the motor 706 drives the sleeve 705 to rotate continuously, the clamping assembly 8 keeps clamping the cup, the bracket 701 drives the cup to move along the partition plate 3, and the cleaning mechanism 2 is started to clean the inner wall of the cup.

After the inner wall of the cup is cleaned, under the matching of the structures of the adjusting assembly 5, the bracket 701, the guide pillar 702, the clamping assembly 8 and the like, the clamping assembly 8 continues to keep a clamping state on the cup, and then the bracket 701 finishes 180-degree turnover again, so that the cup is reset upwards from the cup opening to be in a state that the cup bottom is upwards; as the motor 706 drives the support 701 to continue rotating through the sleeve 705, the cup moves to the outlet 6 and flows out of the outlet 6; because the cup has reset and the bottom of cup is down under the state up, so the staff can directly hold the bottom of cup and get the cup, flow up for the rim of a cup, can significantly reduce the staff and get and put the secondary pollution of in-process to the rim of a cup, the bottom of a cup flows up moreover, can also avoid debris such as dust to fall into the cup from the rim of a cup again, has effectively continued the clean state of washing back cup, and holistic practicality is higher.

Example two:

referring to fig. 1 to 10, on the basis of the first embodiment, the adjusting assembly 5 includes a base 501 fixedly connected to the housing 1, the base 501 is U-shaped and has a U-shaped opening facing downward, two guide posts 702 both slide along a bottom wall of the base 501, two guide slots 502 are formed through a surface of the base 501, two guide blocks 503 are fixedly mounted on the surface of the base 501, the two guide blocks 503 respectively correspond to the two guide slots 502 and are adaptive in size, when the guide posts 702 slide along the base 501 and meet the guide slots 502 and the guide blocks 503, the first guide post 702 enters the guide slot 502, the second guide post 702 turns over from the guide block 503 (i.e., when turning over, the guide block 503 is located between the two guide posts 702, and the first guide post 702 is located in the guide slot 502); the outer surface of the base 501 is located between the two guide grooves 502, and is fixedly provided with a wave strip 504 and a convex strip 505 respectively, the wave strip 504 and the convex strip 505 are symmetrically arranged with the first guide groove 502 as the center (for convenience of description, referring to fig. 5, the lower left guide groove 502 is the first guide groove 502, the second guide groove 502 is obtained from the counterclockwise direction, and the first guide block 503 and the second guide block 503 are respectively corresponding to the first guide groove 502 and the second guide groove 502).

The inlet 9 corresponds to the start of the wave bar 504, and the outlet 6 is arranged between the wave bar 504 and the second guide groove 502; when the cup enters the shell 1 from the inlet 9, the cup is framed by the bracket 701 and enters the range of the wave strips 504, then the cup is turned over through the first guide groove 502, enters the range of the convex strips 505, and finally is turned over again through the second guide groove 502 to be in the original state; the guide block 503 protrudes outwards relative to the base 501, the protruding size is matched with the size of the protruding strip 505, chamfers are arranged on two sides of the guide block 503, and the arc block 802 is in contact with the protruding portion of the guide block 503 when the support 701 is turned over.

The motor 706 is fixedly connected with the inner wall of the housing 1 and is used for positioning the sleeve 705, the placing groove 703 is formed in the surface of the support 701 in a penetrating mode and used for containing a cup, the two guide columns 702 are all cylindrical, and sliding between the guide columns 702 and the base 501 and overturning when the guide grooves 502 are met can be facilitated.

The clamping assembly 8 comprises a sliding rod 801 in sliding fit with the bracket 701, the sliding rod 801 is positioned between the two guide columns 702, an arc-shaped block 802 is fixedly installed at one end, close to the sleeve 705, of the sliding rod 801, the upper and lower sizes of the arc-shaped block 802 are large, and the arc-shaped block 802 can be in contact with the wavy strips 504 and the convex strips 505; a side plate 803 is fixedly installed on the outer surface of the sliding rod 801, a spring 804 for resetting the sliding rod 801 is sleeved on the outer surface of the sliding rod 801, and when the sliding rod 801 moves towards the direction of the support 701, the spring 804 is extruded by the side plate 803; in an initial state, under the action of the spring 804, the slide bar 801 drives the arc-shaped block 802 to be always attached to the outer surface of the base 501; the other end fixed mounting of slide bar 801 has two stay cords 805, the fixed book of the expansion end that slide bar 801 was kept away from to stay cord 805 is equipped with round bar 806, round bar 806 movable mounting is equipped with the torsional spring (the torsional spring is not shown in the figure) on the surface of support 701 and outside cover, the outer fixed surface of round bar 806 installs clamp splice 807, clamp splice 807 is the design of arc pole, two round bar 806 correspond and set up two clamp splice 807, when initial condition, two clamp splice 807 are the V-arrangement (as shown in figure 7), when arc piece 802 meets wave strip 504 or sand grip 505, can drive slide bar 801 and remove to support 701, support 701 drives stay cord 805 and removes, round bar 806 is under the torsional spring effect this moment, it has the trend that is the motion of falling V-arrangement to drive two clamp splice 807.

In the present embodiment, it is preferable that: when in use, the cup enters the shell 1 from the inlet 9 in a state that the bottom of the cup is upward, moves onto the partition plate 3 and enters the placing groove 703 of the bracket 701; then starter motor 706 drives support 701 through sleeve 705 and rotates, and support 701 drives the cup and removes along baffle 3, and support 701 drives guide pillar 702 simultaneously and slides along the diapire of base 501, and arc piece 802 and the surface laminating of base 501 this moment, two clamp splice 807 are the V-arrangement, do not produce the influence in getting into the standing groove 703 to the cup.

In the moving process, the cleaning mechanism 2 is started to clean the outer surface of the cup, meanwhile, the arc-shaped block 802 is in contact with the wave strip 504, the arc-shaped block 802 and the sliding rod 801 are driven by the matching side plate 803 and the spring 804 to do reciprocating motion back and forth relative to the support 701, the sliding rod 801 drives the pull rope 805 to synchronously move, under the matching of structures such as a torsion spring and a cylinder, the two clamping blocks 807 alternate back and forth between the V-shaped shape and the inverted V-shaped shape, when the two clamping blocks 807 are in the V-shaped shape, the outer surface of the cup is attached to the inner wall, close to the sliding rod 801, of the two clamping blocks 807, when the two clamping blocks 807 are in the inverted V-shaped shape, the inner wall, far away from the sliding rod 801, of the clamping blocks 807 is in contact with the outer surface of the cup and drives the inner wall of the cup to be attached to the groove wall of the placing groove 703, further, the cup can be capable of reciprocating motion back and forth relative to the support 701, and forth along with the cleaning of the cleaning mechanism 2, and effective cleaning can be realized. In the process of reciprocating the cup back and forth, the cleaning mechanism 2 can clean a plurality of positions outside the cup, so that the cleaning effect on the outer surface of the cup is ensured; meanwhile, the water yield of the cleaning mechanism 2 can be reduced, because if the cup cannot move, the water yield of the cleaning mechanism 2 needs to be equal to or larger than the size of the cup, and the cleaning of multiple positions outside the cup can be realized; and because the cup is removing, so make wiper mechanism 2 obtain changing the washing dynamics of cup, multistage cooperation has guaranteed the effective washing to the cup surface.

After the outer surface of the cup is cleaned, the arc-shaped block 802 is separated from the wavy strip 504, at this time, the first guide post 702 enters the guide groove 502 under the action of the guide block 503, the second guide post 702 turns over from the upper side of the guide block 503, then the second guide post 702 is firstly attached to the bottom wall of the base 501, and then the first guide post 702 slides out from the guide groove 502, namely the bracket 701 finishes 180-degree turning when passing through the first guide groove 502; at this time, the guide block 503 is located between the two guide posts 702 and abuts against the arc block 802 to drive the arc block 802 to move towards the support 701, the arc block 802 drives the sliding rod 801 and the side plate 803 to move synchronously, the side plate 803 cooperates with the support 701 to press the spring 804, the sliding rod 801 drives the two pull ropes 805 to move synchronously, and cooperates with the cylinder and the torsion spring to enable the two clamping blocks 807 to be arranged in an inverted V shape, the clamping blocks 807 cooperate with the groove wall of the placing groove 703 to effectively clamp the cup, that is, in the overturning process of the support 701, the clamping limit of the cup can be overturned 180 degrees along with the support 701, and the state that the cup bottom faces upwards is converted into the state that the cup mouth faces upwards; along with motor 706 drives sleeve 705 and continues to rotate, drive the cup under the cooperation of support 701 and baffle 3 and continue to remove to cooperation wiper mechanism 2 can realize the effective cleanness to the cup inner wall, and at this in-process, arc piece 802 separates with guide block 503 and offsets with sand grip 505, because guide block 503's protrusion size and sand grip 505 looks adaptation, so two clamp splice 807 remain the clamping state to the cup all the time.

After the inner wall of the cup is cleaned, the arc-shaped block 802 is separated from the convex strip 505 and abuts against the second guide block 503, at the moment, the cup is still kept in a state that the cup opening faces upwards for limiting, the second guide column 702 enters the second guide groove 502, the first guide column 702 turns over from the upper side of the second guide block 503, then the first guide column 702 is firstly attached to the bottom wall of the base 501, and then the second guide column 702 slides out from the second guide groove 502, namely the support 701 finishes 180-degree turning reset when passing through the second guide groove 502, so that the cup is also turned over synchronously, and the cup is turned upwards from the state that the cup opening faces upwards; then the cup is continuously driven to move to the outlet 6 and flow out from the outlet 6 through the matching of structures such as the motor 706, the sleeve 705, the bracket 701, the partition plate 3 and the like; the cup flows down in the state that the bottom of the cup is upward, so that a worker can directly hold the bottom of the cup to take and place the cup, secondary pollution to the cup opening in the process of taking and placing the cup by the worker can be greatly reduced, impurities such as dust can be prevented from falling into the cup from the cup opening, and long-term cleaning of the cup is guaranteed.

Through the matching of the structures such as the wave strips 504, the arc-shaped blocks 802, the clamping blocks 807, the placing grooves 703 and the like, the cup can be driven to reciprocate back and forth relative to the bracket 701, so that the cleaning mechanism 2 can clean a plurality of positions outside the cup, and the cleaning effect on the outer surface and the bottom wall of the cup is improved; meanwhile, on the basis of ensuring that a plurality of positions of the cup are cleaned, a large amount of cleaning resources are not required to be consumed; and along with the removal of cup, can change the washing dynamics of wiper mechanism 2 to the cup, multistage cooperation realizes the effective washing to cup surface and diapire. Through the cooperation of structures such as guide way 502, guide block 503, sand grip 505 and arc piece 802, can realize the 180 degrees upsets of support 701 and cup, on the basis of realizing high-efficient washing cup surface, can also realize the effective washing of cup inner wall, accomplish the whole cleanness to the cup. Through the cooperation of structures such as guide way 502, guide block 503, guide pillar 702 and support 701, after the whole washing of cup finishes, can adjust the cup into the bottom of cup state up and flow, both made things convenient for the staff to get and put, also reduced the secondary pollution to the cup, guaranteed the long-term clean state of cup after the cleanness, satisfied more demands in the in-service use.

As a further improvement of the present embodiment: in actual use, the convex strip 505 can be eliminated, and the same wavy strip 504 can be installed at the position of the convex strip 505, so that the same cleaning effect as the outer surface of the cup can be obtained in the process of cleaning the inner wall of the cup.

Example three:

referring to fig. 1 to 10, on the basis of the second embodiment, a plurality of rotating assemblies 4 are rotatably mounted on the outer surface of the partition plate 3 at positions corresponding to the supports 701, and the plurality of rotating assemblies 4 are arranged in an annular array along the partition plate 3; a rack 704 corresponding to the rotating assembly 4 is fixedly arranged on the outer surface of the bracket 701, the rack 704 is positioned in a gap between the sleeve 705 and the partition plate 3, and the rack 704 is also arranged in a ring shape; thus, when the rack 701 rotates to drive the rack 704 to rotate, the rack 704 and the rotating component 4 are meshed to drive the rotating component 4 to rotate.

The rotating assembly 4 comprises a short rod 401 which penetrates through the partition plate 3 and is rotatably connected with the partition plate 3, a disc 402 is fixedly mounted at one end of the short rod 401 close to the support 701, the disc 402 is arranged in the middle of the partition plate 3 and corresponds to a cup, and the area of the disc 402 can be set to be larger than the size of the cup, so that the cup can be stably driven to rotate when the disc 402 rotates, and the cup can rotate more smoothly; the other end of the short rod 401 is fixedly provided with a gear 403 corresponding to the position of the rack 704, and when the rack 704 rotates along with the bracket 701, the rack 704 can be meshed with the gear 403 for transmission.

In the present embodiment, it is preferable that: when a motor 706 is started, and the cup is driven to move by a sleeve 705, a support 701 and a partition plate 3, an arc-shaped block 802 is in contact with a wave strip 504, and the cup is driven to reciprocate back and forth relative to the support 701 by the matching of structures such as a side plate 803, a sliding rod 801, a spring 804, a clamping block 807 and the like; in the process, the rack 701 drives the rack 704 to move synchronously, the rack 704 and the plurality of gears 403 are sequentially in meshed transmission, the gears 403 drive the short rods 401 and the disc 402 to rotate, and the disc 402 rotates the cup to rotate synchronously, so that the cup can reciprocate front and back relative to the rack 701, can also rotate along with the disc 402, is washed along with the washing mechanism 2, and has a better washing effect. In the process of reciprocating and rotating the cup, the cleaning mechanism 2 can clean a plurality of positions outside the cup, and the positions can be switched back and forth, so that the cleaning effect of the outer surface of the cup is further improved.

Through the cooperation of structures such as rack 704, gear 403, disc 402 and baffle 3, when driving the cup and do reciprocating motion back and forth, can also realize the rotation of cup, further change the position of cup in order to change the dynamics that the cup was washed for wiper mechanism 2 can carry out more efficient washing to a plurality of positions of cup outside, and the suitability is stronger.

As a further improvement of the present embodiment: during the in-service use, can establish the torsional spring (not shown in the figure) at the surface cover of quarter butt 401, when rack 704 drives quarter butt 401 and disc 402 and rotates, can make the rotatory atress of torsional spring, after rack 704 separates with gear 403, under the effect of torsional spring, quarter butt 401 drives disc 402 antiport, can realize the many times switching of cup washing face for the cleaning performance is better.

Meanwhile, the rotating assembly 4 can be applied to the cleaning process of the inner wall of the cup, the effect of enhancing the cleaning effect of the inner wall of the cup can be achieved, the rack 704 does not need to be changed, only the number of the rotating assemblies 4 needs to be increased, and the increased rotating assemblies 4 are arranged in the cleaning process of the inner wall of the cup.

The working principle of the invention is as follows: when the cup is used, the cup enters the shell 1 from the inlet 9 in a state that the bottom of the cup faces upwards, then the motor 706 is started, the cup is driven to move along the partition plate 3 through the sleeve 705, the support 701 and the partition plate 3, and meanwhile the support 701 drives the guide column 702 to slide along the bottom wall of the base 501; in the moving process, the cleaning mechanism 2 is started to clean the outer surface of the cup, meanwhile, the arc-shaped block 802 starts to contact with the wave strip 504, and the cup is driven to reciprocate back and forth relative to the support 701 by matching with structures such as the side plate 803, the spring 804, the arc-shaped block 802, the sliding rod 801 and the like; meanwhile, the rack 704 is driven by the support 701 to move synchronously, the rack 704 and the plurality of gears 403 are sequentially meshed for transmission, and the cup is driven to rotate synchronously through the matching of the gears 403, the short rods 401, the disc 402 and the like, so that the cup can reciprocate front and back relative to the support 701 and can also rotate along with the disc 402 along with the cleaning of the cleaning mechanism 2, a plurality of positions outside the cup can be cleaned, and meanwhile, the cleaning positions are switched back and forth, and the cleaning effect is effectively improved.

After the outer surface of the cup is cleaned, the arc-shaped block 802 is separated from the wave strip 504 and abuts against the first guide block 503, and the bracket 701 is turned over by 180 degrees when passing through the first guide groove 502 under the matching of the structures such as the guide pillar 702, the first guide block 503, the first guide groove 502, the base 501 and the like; at this time, the guide block 503 drives the arc-shaped block 802 to move towards the support 701, and the arc-shaped block 802 effectively clamps the cup through the cooperation of the slide bar 801, the side plate 803, the spring 804, the cylinder, the torsion spring and other structures, that is, in the turning process of the support 701, the cup can be turned 180 degrees by the clamping limit along with the support 701, and the cup is turned from the state that the bottom of the cup faces upwards to the state that the mouth of the cup faces upwards; along with the continuous movement of the cup, the arc-shaped block 802 is separated from the first guide block 503 and abuts against the convex strip 505, at the moment, the clamping block 807 keeps the clamping state of the cup, and the effective cleaning of the inner wall of the cup can be realized by matching with the cleaning mechanism 2.

After the inner wall of the cup is cleaned, the arc-shaped block 802 is separated from the convex strip 505 and abuts against the second guide block 503, the cup is still kept in a state that the cup opening faces upwards for limiting, and through the matching of structures such as the guide pillar 702, the second guide groove 502, the second guide block 503 and the base 501, the support 701 finishes 180-degree turnover reset when passing through the second guide groove 502, so that the cup is turned from a state that the cup opening faces upwards to a state that the cup bottom faces upwards; along with the continuous removal of cup, flow from export 6, make things convenient for the staff to get and put, also prevent the secondary pollution to the cup after wasing.

Claims (8)

1. A cup tray efficient cleaning device for a restaurant comprises a shell and a cleaning mechanism located in the shell, wherein an inlet and an outlet for a cup to enter and exit are formed in the outer surface of the shell in a penetrating mode;

the motor drives the support to rotate along the partition plate through the sleeve, the support is matched with the partition plate to drive the cup to move, and the clamping assembly reciprocates front and back relative to the adjusting assembly to drive the cup to reciprocate front and back along the support.

2. The efficient cup and tray cleaning device for the restaurant as claimed in claim 1, wherein the adjusting assembly comprises a base fixedly connected with the housing, two guide posts movably attached to the base, two guide grooves formed in the surface of the base, two guide blocks fixedly installed on the surface of the base, two guide blocks corresponding to the two guide grooves respectively and having a size suitable for the two guide grooves, and a wave strip and a convex strip fixedly installed on the outer surface of the base.

3. The efficient cup and tray cleaning device for the restaurant as claimed in claim 2, wherein the wavy strip and the protruding strip are symmetrically arranged around the guide slot near the entrance, the guide block protrudes outwards relative to the base, and the protruding distance is matched with the size of the protruding strip.

4. The efficient cleaning device for the cup and the dish in the restaurant according to any one of claims 1 to 3, wherein the motor is fixedly connected with the inner wall of the shell, a placing groove is formed in the surface of the bracket in a penetrating manner, and both the guide posts are cylindrical.

5. The efficient cup and tray cleaning device for the restaurants as claimed in claim 2, wherein the clamping assembly comprises a sliding rod which is in sliding fit with the support and is positioned between the two guide posts, an arc-shaped block is fixedly mounted at one end of the sliding rod close to the sleeve, a side plate is fixedly mounted on the outer surface of the sliding rod, a spring for resetting the sliding rod is sleeved on the outer surface of the sliding rod, two pull ropes are fixedly mounted at the other end of the sliding rod, a round rod is fixedly coiled at the movable end of the pull rope far away from the sliding rod, the round rod is movably mounted on the surface of the support, a torsion spring is sleeved outside the round rod, and a clamping block is fixedly mounted on the outer surface of the round rod.

6. The efficient cleaning device for the cup and the dish for the restaurant as claimed in claim 5, wherein the wavy strip and the convex strip are matched with the size of the arc-shaped block.

7. The efficient cup and tray cleaning device for the restaurant as claimed in claim 1, wherein a plurality of rotating assemblies penetrate through and are rotatably mounted on the outer surface of the partition plate and correspond to the positions of the support, the plurality of rotating assemblies are arranged along the partition plate in an annular array, and an annular rack corresponding to the positions of the rotating assemblies is fixedly mounted on the outer surface of the support.

8. The efficient washing device for cup and plate in restaurant according to claim 2, characterized in that said inlet corresponds to the beginning of the wave strip, said outlet is set between the wave strip and the second guiding groove, said outlet is set as an inclined plane.

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