CN219397154U - Bowl disc rotating type dish washing machine - Google Patents

Abstract

According to the bowl disc rotating type dish washing machine, the bowl disc clamping mechanism drives the support to move in the directions close to the central axis and far from the central axis, the bowl disc positioning mechanism drives the shifting fork to move up and down, the bowl disc washing mechanism drives the brush rotating device to move in the directions close to the central axis and far from the central axis, the brush rotating device drives the strip brush to rotate, the bowl disc horizontal rotating mechanism drives the bowl disc to horizontally rotate, and the bowl disc reset mechanism drives the bowl disc bracket to move upwards to support the bowl disc and then move downwards to the bowl disc initial placing position. The bowl and the dish to be cleaned are placed on the nylon strips of the multi-stage support at equal intervals, the three bevel gear long shafts provided with the rubber tubes drive the bowl and the dish to horizontally rotate, the long hairbrushes capable of rotating in and out are arranged between the two rotating bowl and dish to wrap the bowl and dish to be closely scrubbed, meanwhile, the water outlet nozzle is used for water flushing, a rotating scrubbing state is formed, the degreasing capability is strong, the phenomenon of residual greasy dirt can not occur, the bowl and the dish with different specifications can be cleaned, and quick cleaning and slow cleaning can be selected according to requirements.

Description

Bowl disc rotating type dish washing machine

Technical Field

The utility model relates to the technical field of kitchen appliances, in particular to a bowl disc rotating type dish washing machine.

Background

Currently, dish washers used in China include a desk type dish washer, a cabinet type dish washer, a water tank integrated dish washer and an integrated dish washer. Because the bowl and the dish are placed in the fixed cabinet groove in the washing process, the bowl and the dish are not rotated and are washed only by water flow, the greasy dirt on the bowl and the dish is not thoroughly washed, the water consumption is large, the time is long, the bowl and the dish are required to be placed in different groove lattices, the manual action is tedious, the efficiency is low, and in view of the defects of the equipment, a plurality of merchants feel unrepeatable after using the equipment. And in case of large bowl and dish cleaning amount, the occurrence of faults is unavoidable.

Therefore, it is necessary to provide a bowl and dish rotary dish washer, based on the business enterprise, the great demand of washing bowl and dish volume, on the basis of traditional dish washer principle, through structural style's improvement, when reaching the big washing volume, save manual time, reduce the consumption, improve productivity, accord with the principle of hand washing more, guarantee that the cleaning rate of bowl and dish is higher, maintain simpler purpose.

Disclosure of Invention

In view of the above, the present utility model aims to provide a dish-rotating dish-washing machine, in which dishes to be washed are placed horizontally at intervals, and the dishes can be driven to horizontally rotate, and the dish is rotated and brushed by using a long-strip brush and a water outlet nozzle, so that the washing efficiency is improved.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the bowl disc rotating type dish washing machine comprises a vertical column shell and a cabin door arranged on the shell, wherein steel frames uniformly distributed along a central axis are arranged in the shell, and a bowl disc clamping mechanism, a bowl disc positioning mechanism, a bowl disc washing mechanism, a brush driving mechanism, a bowl disc horizontal rotating mechanism and a bowl disc resetting mechanism are also arranged in the shell.

The bowl and disk clamping mechanism comprises a bowl and disk clamping driving device, a support and a bowl and disk bracket, wherein the bowl and disk bracket is arranged at the bottom of the support, and the bowl and disk clamping driving device drives the support to move towards the direction close to the central axis and away from the central axis.

The bowl and disk positioning mechanism comprises a bowl and disk positioning driving device, a third screw rod, a first nut, a shifting fork and nylon strips, wherein the nylon strips are arranged on a support at equal intervals, the first nut is connected to the third screw rod in a threaded mode, the shifting fork is fixedly arranged on the first nut, and the bowl and disk positioning driving device drives the third screw rod to rotate so as to drive the first nut and the shifting fork to move up and down.

The bowl and dish cleaning mechanism is fixedly arranged on the steel frame, the bowl and dish cleaning mechanism comprises a cleaning mechanism driving device, a brush rotating device and a water outlet nozzle, the cleaning mechanism driving device drives the brush rotating device to move towards the direction close to the central axis and away from the central axis, the brush rotating device comprises a brush rotating driving device, a pinion, an optical axis, a large gear and a strip brush, the large gear is fixedly sleeved on the optical axis at equal intervals, the strip brush is fixedly arranged on the large gear, the brush rotating driving device drives the pinion to horizontally rotate and to move up and down and separate from the large gear after being meshed with the large gear respectively, the large gear and the strip brush are driven to rotate, and the water outlet nozzle is arranged on the support and the water outlet direction points to the strip brush.

The bowl plate horizontal rotating mechanism comprises a bowl plate rotating driving device and a bevel gear long shaft, wherein the bevel gear long shaft is arranged at the edge of a bowl plate, the bowl plate rotating driving device drives the vertically arranged bevel gear long shaft to rotate, and the bevel gear long shaft rotates to drive the bowl plate to horizontally rotate.

The bowl and dish reset mechanism comprises a sixth motor, a seventh screw rod and a fourth nut, wherein the fourth nut is in threaded connection with the seventh screw rod which is vertically arranged, the bowl and dish bracket is fixedly arranged on the fourth nut, and the sixth motor drives the seventh screw rod to rotate so as to drive the fourth nut and the bowl and dish bracket to move up and down.

Preferably, the bowl and disk clamping driving device of the bowl and disk clamping mechanism comprises a first motor, a toothed belt, a first belt pulley, a first bevel gear shaft sleeve, a first bevel gear, a first screw rod, a bevel gear linkage rod and a second screw rod, wherein the output end of the first motor is connected with the first belt pulley through the toothed belt, the first belt pulley is arranged on the first bevel gear shaft sleeve, the first bevel gear is fixedly arranged at one end of the first screw rod, the first bevel gear is vertically meshed with the first bevel gear shaft sleeve, the bevel gear vertically meshed with the top end of the bevel gear linkage rod is fixedly arranged at the other end of the first screw rod, and the bevel gear vertically meshed with the bottom end of the bevel gear linkage rod is fixedly arranged at the other end of the second screw rod; the support is respectively connected between the first screw rod and the second screw rod through nuts in a threaded mode. The operation starts, the bowl and the dish are placed on the bowl and dish bracket from the cabin door, the cabin door is closed, the dish washer is started, and the bowl and the dish are clamped by the three bowl and dish clamping mechanisms. The first motor drives the first belt pulley to rotate through the toothed belt, then drives the first bevel gear through the first bevel gear shaft sleeve, the first bevel gear drives the first lead screw to rotate, the first lead screw drives the second lead screw to rotate through the bevel gear linkage rod with bevel gears at two ends, and the three supports synchronously move on the first lead screw and the second lead screw towards the direction close to the central axis to clamp the bowl and the dish on the bowl and dish bracket.

Preferably, the bowl disc positioning driving device of the bowl disc positioning mechanism comprises a second motor, a second belt pulley, a second bevel gear shaft sleeve, a first bevel gear sleeve rod, a third bevel gear shaft sleeve and a second bevel gear, wherein the output end of the second motor is connected with the second belt pulley through a toothed belt, the second belt pulley is arranged on the second bevel gear shaft sleeve, one end of the third bevel gear shaft sleeve is connected with the second bevel gear shaft sleeve synchronously through the first bevel gear sleeve rod, the other end of the third bevel gear shaft sleeve is provided with a bevel gear vertically meshed with the second bevel gear, and the second bevel gear is fixedly arranged at the top end of the third screw rod. The bowl and disk positioning driving device drives the shifting fork to move downwards, picks up the bowl and disk placed on the uppermost part of the bowl and disk bracket and then moves upwards to the nylon strip on the bracket until all the bowl and disk are placed on the nylon strip. The working principle of the device is that the second motor drives the second belt pulley to be transmitted to the second bevel gear shaft sleeve, then the second belt pulley is transmitted to the third bevel gear shaft sleeve through the first bevel gear sleeve rod, the second bevel gear and the third screw rod are driven to synchronously rotate, the rotation of the third screw rod drives the first nut and the shifting fork to move downwards, the second motor rotates reversely after the bowl and the dish are picked up, the shifting fork drives the bowl and the dish upwards to be placed on the nylon strip, and the bowl and the dish are circulated until all the bowl and the dish are placed on the nylon strip.

Preferably, the cleaning mechanism driving device of the bowl and dish cleaning mechanism comprises a third motor, a third belt pulley, a fourth screw rod, a fourth belt pulley, a fifth screw rod and a fifth belt pulley, wherein the output end of the third motor is connected with the third belt pulley through a toothed belt, the third belt pulley and the fourth belt pulley are both sleeved on the fourth screw rod, the fourth belt pulley is connected with the fifth belt pulley through a toothed belt, and the fifth belt pulley is sleeved on the fifth screw rod; the brush rotating device is connected between the fourth screw rod and the fifth screw rod through nuts in a threaded mode. The cleaning mechanism driving device drives the brush rotating device to move towards the direction close to the central axis and away from the central axis, and the working principle is that the third motor drives the third belt pulley, and the third belt pulley, the fourth screw and the fourth belt pulley synchronously rotate because the third belt pulley and the fourth belt pulley are sleeved on the fourth screw, the fourth belt pulley drives the fifth belt pulley and the fifth screw to synchronously rotate, and the fourth screw and the fifth screw synchronously rotate to drive the brush rotating device to move towards the direction close to the central axis and away from the central axis, namely, to advance or retreat towards the position where the bowl and the dish are located.

Preferably, the cleaning mechanism driving device of the bowl and dish cleaning mechanism further comprises a fixing seat and a bearing seat, one ends of the fourth screw rod and the fifth screw rod are respectively in clearance fit with the bowl and dish clamping mechanism through the fixing seat, the other ends of the fourth screw rod and the fifth screw rod are fixed with the steel frame through the bearing seat, and the bearing seat plays a role in supporting and fixing.

Preferably, the brush rotating device of the bowl and dish cleaning mechanism comprises a fourth motor, a sixth screw rod, a second nut, a nut connecting piece and a third nut, wherein the output end of the fourth motor is connected with the top end of the sixth screw rod, the second nut is in threaded connection with the sixth screw rod, the third nut is connected and synchronous with the second nut through the nut connecting piece, and the pinion is fixedly arranged on the third nut. The brush rotation driving device drives the large gear and the long brush to rotate to the center of the bowl and dish. The working principle of the self-locking nut is that the fourth motor drives the second nut on the sixth screw rod to move downwards, the nut connecting piece drives the third nut to synchronously move downwards, the pinion is fixed on the third nut, and the third nut is a large-pitch nut and cannot be self-locked, so that the pinion can move up and down and rotate. The big gears are sleeved on the optical axis and meshed with the small gears, and the small gears sequentially drive the long hairbrushes on each big gear to rotate to the center of the bowl and dish through downward movement and rotation.

Preferably, the bowl disc rotation driving device of the bowl disc horizontal rotation mechanism comprises a fifth motor, a sixth belt pulley, a fourth bevel gear sleeve and a second bevel gear sleeve rod, wherein the output end of the fifth motor is connected with the sixth belt pulley through a toothed belt, the sixth belt pulley is arranged on the fourth bevel gear sleeve, and one end of the fourth bevel gear sleeve is connected and synchronized with the long shaft of the bevel gear through the second bevel gear sleeve rod. The bowl and dish horizontal rotating mechanism has the working principle that a fifth motor drives a sixth belt pulley to drive a fourth bevel gear shaft sleeve, then drives a second bevel gear sleeve rod to rotate, the second bevel gear sleeve rod drives bevel gear long shafts distributed in three directions to rotate, the bevel gear long shafts in the three directions simultaneously rotate in the needle direction to drive bowls and dishes to horizontally rotate, a group of water outlets on a bracket spray water, the water spray direction points to a strip brush, and the strip brush can clean the bowls and dishes while the bowls and dishes rotate.

Preferably, the bowl and plate horizontal rotating mechanism further comprises a rubber tube, the rubber tube is sleeved outside the long shaft of the bevel gear, and the long shaft of the bevel gear drives the bowl and plate to horizontally rotate along with the rotation of the rubber tube. The rubber tube has the characteristics of softness and wear resistance, and plays roles of soft friction with the edges of the bowl and the dish and driving the bowl and the dish to rotate.

After the cleaning is finished, the fourth motor rotates reversely to drive the pinion to rotate and move upwards from the lowest position, the bull gear is driven to rotate in sequence to enable the long-strip hairbrush to leave the bowl plate, the pinion moves upwards to the highest position and is disengaged with the bull gear, and the long-strip hairbrush rotates to a work station. And then the third motor is reversed to drive the brush rotating device to move backwards and away from the bowl and the bowl clamping mechanism is slightly retreated to loosen, and the bowl and bowl resetting mechanism drives the bowl and bowl bracket to move upwards to hold the bowl and the bowl downwards to the initial placement position. The working principle is that the three sixth motors drive the bowl and dish brackets on the fourth nut to move upwards to support the bowl and dish through the rotation of the seventh screw rod, and after all the bowl and dish are supported, the sixth motors rotate reversely to drive the bowl and dish brackets to move downwards to the initial position. The first motor of the dish clamping mechanism is reversed to drive the bracket to move in the direction away from the central axis to loosen the dishes, at the moment, one cleaning procedure is completed, the cabin door is opened to take out the clean dishes, and the dishes with different sizes and dimensions can be cleaned.

The beneficial effects of the utility model are as follows:

according to the technical scheme, the bowl to be cleaned is placed on the nylon strip of the multi-stage bracket at equal intervals, the three bevel gear long shafts provided with the rubber tubes drive the bowl to horizontally rotate, the long hairbrushes capable of rotating in and out are arranged between the two rotating bowls to wrap the bowl to be closely scrubbed, meanwhile, the water outlet nozzles are used for flushing, a rotating scrubbing state is formed, the degreasing capability is high, the phenomenon of residual greasy dirt cannot occur, the bowl with different specifications can be cleaned, and fast cleaning and slow cleaning can be selected according to requirements.

The dish-washing machine steel frame structure is based, welding is mainly, the structure is stable, the installation is convenient, after the whole machine is installed, the dish-washing machine can be started to operate as long as the dish-washing machine is placed beside a water tank, and the operation is stable and noise-free in the washing process. The equipment has long service life, easy maintenance and low cost. The dish washer has the advantages of low power consumption, high cleaning efficiency, high cleanliness, good washing effect and convenient maintenance. The whole assembly power is 800-1000 watts, the production capacity is high, 100-200 dishes can be processed per hour, the rotary cleaning saves electricity, water and more than 50% of labor.

The foregoing description is only an overview of the present utility model, and it is to be understood that it is intended to provide a more clear understanding of the technical means of the present utility model and to enable the technical means to be carried out in accordance with the contents of the specification, while at the same time providing a more complete understanding of the above and other objects, features and advantages of the present utility model, and one or more preferred embodiments thereof are set forth below, together with the detailed description given below, along with the accompanying drawings.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which the figures of the drawings are not to be taken in a limiting sense, unless otherwise indicated.

Fig. 1 shows a schematic overall front view of a bowl-rotating dishwasher according to the utility model.

Fig. 2 shows a schematic view of the overall top view of a bowl-rotating dishwasher according to the utility model.

Fig. 3 shows a schematic view of the A-A cross-sectional structure of fig. 2 according to the present utility model.

Fig. 4 shows a schematic diagram of the B-directed side view of fig. 2 of the present utility model.

Fig. 5 shows a schematic view of a front view of a dish washing mechanism of a dish plate rotary dishwasher of the present utility model.

Fig. 6 shows a schematic top view of a dish washing mechanism of a dish plate rotary dishwasher of the present utility model.

The main reference numerals illustrate:

1-bowl and dish clamping mechanism, 2-first motor, 3-toothed belt, 4-first belt pulley, 5-first bevel gear shaft sleeve, 6-first bevel gear, 7-first screw, 8-bevel gear linkage rod, 9-second screw, 10-bowl and dish bracket, 11-shift fork, 12-bowl and dish, 13-bracket, 14-nylon strip, 15-second motor, 16-second belt pulley, 17-second bevel gear shaft sleeve, 18-first bevel gear shaft sleeve, 19-third bevel gear shaft sleeve, 20-second bevel gear, 21-third screw, 22-first nut, 23-bowl and dish cleaning mechanism, 24-strip brush, 25-third motor, 26-third belt pulley, 27-fourth screw, 28-fourth belt pulley, 29-fifth screw, 30-fifth belt pulley, 31-fixed seat, 32-steel frame, 33-bearing seat, 34-fourth motor, 35-sixth screw, 36-second nut, 37-nut connector, 38-third nut, 39-pinion, 40-optical axis, 41-large gear, 42-fifth motor, 43-sixth belt pulley, 44-fourth bevel gear sleeve, 45-second bevel gear sleeve rod, 46-bevel gear long shaft, 47-rubber tube, 48-water outlet nozzle, 49-sixth motor, 50-seventh screw, 51-fourth nut.

Detailed Description

The following detailed description of embodiments of the utility model is, therefore, to be taken in conjunction with the accompanying drawings, and it is to be understood that the scope of the utility model is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the term "comprise" or variations thereof such as "comprises" or "comprising", etc. will be understood to include the stated element or component without excluding other elements or other components.

Spatially relative terms, such as "below," "beneath," "lower," "above," "upper," and the like, may be used herein for ease of description to describe one element's or feature's relationship to another element's or feature's in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the article in use or operation in addition to the orientation depicted in the figures. For example, if the article in the figures is turned over, elements described as "below" or "beneath" other elements or features would then be oriented "above" the elements or features. Thus, the exemplary term "below" may encompass both a direction of below and a direction of above. The article may have other orientations (rotated 90 degrees or other orientations) and the spatially relative descriptors used herein interpreted accordingly.

As shown in fig. 1-6, the bowl and dish rotary dish washing machine comprises a vertical column shell and a cabin door arranged on the shell, wherein steel frames 32 uniformly distributed along a central axis are arranged in the shell, and a bowl and dish clamping mechanism 1, a bowl and dish positioning mechanism, a bowl and dish washing mechanism 23, a brush driving mechanism, a bowl and dish horizontal rotating mechanism and a bowl and dish resetting mechanism are also arranged in the shell.

The dish clamping mechanism 1 includes a dish clamping driving device, a support 13, and a dish rack 10, the dish rack 10 being disposed at the bottom of the support 13, the dish clamping driving device driving the support 13 to move in directions toward and away from the central axis.

The bowl and disk clamping driving device of the bowl and disk clamping mechanism 1 comprises a first motor 2, a toothed belt 3, a first belt pulley 4, a first bevel gear shaft sleeve 5, a first bevel gear 6, a first lead screw 7, a bevel gear linkage rod 8 and a second lead screw 9, wherein the output end of the first motor 2 is connected with the first belt pulley 4 through the toothed belt 3, the first belt pulley 4 is arranged on the first bevel gear shaft sleeve 5, the first bevel gear 6 is fixedly arranged at one end of the first lead screw 7, the first bevel gear 6 is vertically meshed with the first bevel gear shaft sleeve 5, a bevel gear vertically meshed with the top end of the bevel gear linkage rod 8 is fixedly arranged at the other end of the first lead screw 7, and a bevel gear vertically meshed with the bottom end of the bevel gear linkage rod 8 is fixedly arranged at the other end of the second lead screw 9; the brackets 13 are respectively connected between the first screw rod 7 and the second screw rod 9 by nuts in a threaded manner. At the beginning of the operation, the dishes 12 are placed on the dish rack 10 from the hatch and the hatch is closed, the dishwasher is started, and the three dish clamping mechanisms 1 clamp the dishes 12. The working principle is that the first motor 2 drives the first belt pulley 4 to rotate through the toothed belt 3, then drives the first bevel gear 6 through the first bevel gear shaft sleeve 5, the first bevel gear 6 drives the first lead screw 7 to rotate, the first lead screw 7 drives the second lead screw 9 to rotate through the bevel gear linkage rod 8 with bevel gears at two ends, and the three supports 13 are enabled to synchronously move on the first lead screw 7 and the second lead screw 9 towards the direction close to the central axis to clamp the bowl and dish 12 on the bowl and dish bracket 10.

The bowl and disk positioning mechanism comprises a bowl and disk positioning driving device, a third screw rod 21, a first nut 22, a shifting fork 11 and nylon strips 14, wherein the nylon strips 14 are arranged on the support 13 at equal intervals, the first nut 22 is in threaded connection with the third screw rod 21 which is vertically arranged, the shifting fork 11 is fixedly arranged on the first nut 22, and the bowl and disk positioning driving device drives the third screw rod 21 to rotate so as to drive the first nut 22 and the shifting fork 11 to move up and down.

The bowl positioning driving device of the bowl positioning mechanism comprises a second motor 15, a second belt pulley 16, a second bevel gear shaft sleeve 17, a first bevel gear sleeve rod 18, a third bevel gear shaft sleeve 19 and a second bevel gear 20, wherein the output end of the second motor 15 is connected with the second belt pulley 16 through a toothed belt, the second belt pulley 16 is arranged on the second bevel gear shaft sleeve 17, one end of the third bevel gear shaft sleeve 19 is connected and synchronous with the second bevel gear shaft sleeve 17 through the first bevel gear sleeve rod 18, a bevel gear vertically meshed with the second bevel gear 20 is arranged at the other end of the third bevel gear shaft sleeve 19, and the second bevel gear 20 is fixedly arranged at the top end of a third screw 21. The bowl positioning driving means drives the fork 11 downward, picks up the uppermost bowl 12 placed on the bowl carrier 10, and then moves upward onto the nylon strip 14 on the support 13 until all the bowls 12 are placed on the nylon strip 14. The working principle is that the second motor 15 drives the second belt pulley 16 to be transmitted to the second bevel gear shaft sleeve 17, then the second belt pulley is transmitted to the third bevel gear shaft sleeve 19 through the first bevel gear sleeve rod 18, the second bevel gear 20 and the third lead screw 21 are driven to synchronously rotate, the rotation of the third lead screw 21 drives the first nut 22 and the shifting fork 11 to move downwards, the second motor 15 is reversed after the bowl plates 12 are picked up, the shifting fork 11 drives the bowl plates 12 upwards to be placed on the nylon strips 14, and the bowl plates 12 are cycled until all the bowl plates 12 are placed on the nylon strips 14.

The bowl and dish cleaning mechanism 23 is fixedly arranged on the steel frame 32, the bowl and dish cleaning mechanism 23 comprises a cleaning mechanism driving device, a brush rotating device and a water outlet nozzle 48, the cleaning mechanism driving device drives the brush rotating device to move towards the direction close to the central axis and away from the central axis, the brush rotating device comprises a brush rotating driving device, a pinion 39, an optical axis 40, a large gear 41 and a strip brush 24, the large gear 41 is fixedly sleeved on the optical axis 40 at equal intervals, the strip brush 24 is fixedly arranged on the large gear 41, the brush rotating driving device drives the pinion 39 to move up and down while horizontally rotating and separate after being meshed with the large gear 41 respectively, the large gear 41 and the strip brush 24 are driven to rotate, and the water outlet nozzle 48 is arranged on the support 13 and the water outlet direction points to the strip brush 24.

The cleaning mechanism driving device of the bowl and dish cleaning mechanism 23 comprises a third motor 25, a third belt pulley 26, a fourth lead screw 27, a fourth belt pulley 28, a fifth lead screw 29 and a fifth belt pulley 30, wherein the output end of the third motor 25 is connected with the third belt pulley 26 through a toothed belt, the third belt pulley 26 and the fourth belt pulley 28 are sleeved on the fourth lead screw 27, the fourth belt pulley 28 is connected with the fifth belt pulley 30 through a toothed belt, and the fifth belt pulley 30 is sleeved on the fifth lead screw 29; the brush rotation means is screwed between the fourth screw 27 and the fifth screw 29 by nuts. The cleaning mechanism driving device drives the brush rotating device to move towards the direction close to the central axis and away from the central axis, and the working principle is that the third motor 25 drives the third belt pulley 26, and the third belt pulley 26 and the fourth belt pulley 28 are sleeved on the fourth lead screw 27, so that the third belt pulley 26, the fourth lead screw 27 and the fourth belt pulley 28 synchronously rotate, the fourth belt pulley 28 drives the fifth belt pulley 30 and the fifth lead screw 29 to synchronously rotate, and the fourth lead screw 27 and the fifth lead screw 29 synchronously rotate to drive the brush rotating device to move towards the direction close to the central axis and away from the central axis, namely, the brush rotating device advances or retreats towards the position where the bowl 12 is located.

The cleaning mechanism driving device of the bowl and dish cleaning mechanism 23 further comprises a fixing seat 31 and a bearing seat 33, one ends of the fourth screw rod 27 and the fifth screw rod 29 are respectively in clearance fit with the bowl and dish clamping mechanism 1 through the fixing seat 31, the other ends of the fourth screw rod 27 and the fifth screw rod 29 are fixed with a steel frame 32 through the bearing seat 33, and the bearing seat 33 plays a role in supporting and fixing.

The brush rotating device of the bowl and dish washing mechanism 23 comprises a fourth motor 34, a sixth screw rod 35, a second nut 36, a nut connecting piece 37 and a third nut 38, wherein the output end of the fourth motor 34 is connected with the top end of the sixth screw rod 35, the second nut 36 is screwed on the sixth screw rod 35, the third nut 38 is connected and synchronized with the second nut 36 through the nut connecting piece 37, and the pinion 39 is fixedly arranged on the third nut 38. The brush rotation driving means drives the large gear 41 and the long brush 24 to rotate to a position of the center of the bowl 12. The working principle is that the fourth motor 34 drives the second nut 36 on the sixth screw 35 to move downwards, the third nut 38 is driven by the nut connector 37 to synchronously move downwards, the pinion 39 is fixed on the third nut 38, and the third nut 38 is a large-pitch nut and cannot be self-locked, so that the pinion 39 can move up and down and rotate. The large gears 41 are fitted over the optical axis 40 and engaged with the small gears 39, and the small gears 39 sequentially drive the long brushes 24 on each large gear 41 to rotate to a position at the center of the bowl 12 by moving downward to rotate.

The bowl and disk horizontal rotation mechanism comprises a bowl and disk rotation driving device and a bevel gear long shaft 46, wherein the bevel gear long shaft 46 is arranged at the edge of the bowl and disk 12, the bowl and disk rotation driving device drives the vertically arranged bevel gear long shaft 46 to rotate, and the bevel gear long shaft 46 rotates to drive the bowl and disk 12 to horizontally rotate.

The bowl disc rotation driving device of the bowl disc horizontal rotation mechanism comprises a fifth motor 42, a sixth belt pulley 43, a fourth bevel gear sleeve 44 and a second bevel gear sleeve rod 45, wherein the output end of the fifth motor 42 is connected with the sixth belt pulley 43 through a toothed belt, the sixth belt pulley 43 is arranged on the fourth bevel gear sleeve 44, and one end of the fourth bevel gear sleeve 44 is connected and synchronous with a bevel gear long shaft 46 through the second bevel gear sleeve rod 45. The bowl and dish horizontal rotating mechanism works in the principle that the fifth motor 42 drives the sixth belt pulley 43 to drive the fourth bevel gear shaft sleeve 44, then drives the second bevel gear sleeve rod 45 to rotate, the second bevel gear sleeve rod 45 drives bevel gear long shafts 46 distributed in three directions to rotate, the bevel gear long shafts 46 in the three directions simultaneously rotate in the needle direction to drive the bowl and dish 12 to horizontally rotate, a group of water nozzles 48 on the bracket 13 spray water, the water spray direction points to the long hairbrush 24, the long hairbrush 24 can clean the bowl and dish 12 while the bowl and dish 12 rotates, and greasy dirt is separated and removed in the state.

The bowl and dish horizontal rotating mechanism further comprises a rubber tube 47, the rubber tube 47 is sleeved outside the bevel gear long shaft 46, and the bevel gear long shaft 46 is connected with the rubber tube 47 to rotate so as to drive the bowl and dish 12 to horizontally rotate. The rubber tube 47 has soft and wear-resistant properties, and functions to soft rub against the edges of the bowl 12 and to drive the bowl 12 to rotate.

The bowl and dish resetting mechanism comprises a sixth motor 49, a seventh screw rod 50 and a fourth nut 51, wherein the fourth nut 51 is in threaded connection with the seventh screw rod 50 which is vertically arranged, the bowl and dish bracket 10 is fixedly arranged on the fourth nut 51, and the sixth motor 49 drives the seventh screw rod 50 to rotate so as to drive the fourth nut 51 and the bowl and dish bracket 10 to move up and down.

After the cleaning is finished, the fourth motor 34 rotates reversely to drive the pinion 39 to rotate and move upwards from the lowest position, and drives the bull gear 41 to rotate in sequence to enable the long-strip hairbrush 24 to leave the bowl 12, the pinion 39 moves upwards to the highest position and is disengaged with the bull gear 41, and the long-strip hairbrush 24 rotates to the work station. Then the third motor 25 is reversed to drive the brush rotating means to move backward away from the dishes 12, the dish clamping mechanism is slightly retreated to loosen, and the dish resetting mechanism drives the dish rack 10 to move upward to hold the dishes 12 and then move downward to the initial placement position of the dishes 12. The working principle is that three sixth motors 49 rotate through a seventh screw rod 50 to drive the bowl and dish brackets 10 on the fourth nuts 51 to move upwards to support the bowl and dish 12, and after all the bowl and dish 12 are supported, the sixth motors 49 rotate reversely to drive the bowl and dish brackets 10 to move downwards to the initial position. The first motor 2 of the dish clamping mechanism 1 rotates reversely to drive the bracket 13 to move in a direction away from the central axis to loosen the dishes 12, at the moment, one cleaning procedure is completed, the cabin door is opened to take out the clean dishes 12, and the dishes 12 with different sizes and dimensions can be cleaned.

The foregoing descriptions of specific exemplary embodiments of the present utility model are presented for purposes of illustration and description. It is not intended to limit the utility model to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain the specific principles of the utility model and its practical application to thereby enable one skilled in the art to make and utilize the utility model in various exemplary embodiments and with various modifications as are suited to the particular use contemplated. Any simple modifications, equivalent variations and modifications of the above-described exemplary embodiments should fall within the scope of the present utility model.

Claims (8)

1. The bowl disc rotating type dish washing machine comprises a vertical column shell and a cabin door arranged on the shell, wherein steel frames (32) uniformly distributed along a central axis are arranged in the shell, and the bowl disc rotating type dish washing machine is characterized in that a bowl disc clamping mechanism (1), a bowl disc positioning mechanism, a bowl disc washing mechanism (23), a bowl disc horizontal rotating mechanism and a bowl disc reset mechanism are also arranged in the shell;

the bowl and disk clamping mechanism (1) comprises a bowl and disk clamping driving device, a bracket (13) and a bowl and disk bracket (10), wherein the bowl and disk bracket (10) is arranged at the bottom of the bracket (13), and the bowl and disk clamping driving device drives the bracket (13) to move towards a direction close to a central axis and away from the central axis;

the bowl and disk positioning mechanism comprises a bowl and disk positioning driving device, a third screw rod (21), a first nut (22), a shifting fork (11) and nylon strips (14), wherein the nylon strips (14) are arranged on a bracket (13) at equal intervals, the first nut (22) is in threaded connection with the third screw rod (21) which is vertically arranged, the shifting fork (11) is fixedly arranged on the first nut (22), and the bowl and disk positioning driving device drives the third screw rod (21) to rotate so as to drive the first nut (22) and the shifting fork (11) to move up and down;

the bowl and dish cleaning mechanism (23) is fixedly arranged on the steel frame (32), the bowl and dish cleaning mechanism (23) comprises a cleaning mechanism driving device, a brush rotating device and a water outlet nozzle (48), the cleaning mechanism driving device drives the brush rotating device to move towards the direction close to the central axis and away from the central axis, the brush rotating device comprises a brush rotating driving device, a pinion (39), an optical axis (40), a large gear (41) and a strip brush (24), the large gear (41) is fixedly sleeved on the optical axis (40) at equal intervals, the strip brush (24) is fixedly arranged on the large gear (41), the brush rotating driving device drives the pinion (39) to move up and down while being horizontally rotated and separated from the large gear (41) respectively after being meshed, the large gear (41) and the strip brush (24) is driven to rotate, and the water outlet nozzle (48) is arranged on the support (13) and the water outlet direction points to the strip brush (24);

the bowl and disk horizontal rotation mechanism comprises a bowl and disk rotation driving device and a bevel gear long shaft (46), wherein the bevel gear long shaft (46) is arranged at the edge of a bowl and disk (12), the bowl and disk rotation driving device drives the vertically arranged bevel gear long shaft (46) to rotate, and the bevel gear long shaft (46) rotates to drive the bowl and disk (12) to horizontally rotate;

the bowl and dish reset mechanism comprises a sixth motor (49), a seventh screw (50) and a fourth nut (51), wherein the fourth nut (51) is in threaded connection with the seventh screw (50) which is vertically arranged, the bowl and dish bracket (10) is fixedly arranged on the fourth nut (51), and the sixth motor (49) drives the seventh screw (50) to rotate so as to drive the fourth nut (51) and the bowl and dish bracket (10) to move up and down.

2. The bowl disc rotating dish washing machine according to claim 1, wherein the bowl disc clamping driving device of the bowl disc clamping mechanism (1) comprises a first motor (2), a toothed belt (3), a first belt pulley (4), a first bevel gear shaft sleeve (5), a first bevel gear (6), a first lead screw (7), a bevel gear linkage rod (8) and a second lead screw (9), an output end of the first motor (2) is connected with the first belt pulley (4) through the toothed belt (3), the first belt pulley (4) is arranged on the first bevel gear shaft sleeve (5), the first bevel gear (6) is fixedly arranged at one end of the first lead screw (7), the first bevel gear (6) is vertically meshed with the first bevel gear shaft sleeve (5), a bevel gear vertically meshed with the top end of the bevel gear linkage rod (8) is fixedly arranged at the other end of the first lead screw (7), and a bevel gear vertically meshed with the bottom end of the bevel gear linkage rod (8) is fixedly arranged at the other end of the second lead screw (9);

the support (13) is respectively connected between the first screw (7) and the second screw (9) through nuts in a threaded manner.

3. The bowl dish rotating dish washing machine according to claim 2, wherein the bowl dish positioning driving device of the bowl dish positioning mechanism comprises a second motor (15), a second belt pulley (16), a second bevel gear shaft sleeve (17), a first bevel gear sleeve rod (18), a third bevel gear shaft sleeve (19) and a second bevel gear (20), an output end of the second motor (15) is connected with the second belt pulley (16) through a toothed belt, the second belt pulley (16) is arranged on the second bevel gear shaft sleeve (17), one end of the third bevel gear shaft sleeve (19) is connected and synchronous with the second bevel gear shaft sleeve (17) through the first bevel gear sleeve rod (18), a bevel gear vertically meshed with the second bevel gear (20) is arranged at the other end of the third bevel gear shaft sleeve (19), and the second bevel gear (20) is fixedly arranged at the top end of the third screw (21).

4. A bowl dish washing machine according to claim 3, characterized in that the washing mechanism driving device of the bowl and dish washing mechanism (23) comprises a third motor (25), a third belt pulley (26), a fourth screw (27), a fourth belt pulley (28), a fifth screw (29) and a fifth belt pulley (30), wherein the output end of the third motor (25) is connected with the third belt pulley (26) through a toothed belt, the third belt pulley (26) and the fourth belt pulley (28) are both sleeved on the fourth screw (27), the fourth belt pulley (28) is connected with the fifth belt pulley (30) through a toothed belt, and the fifth belt pulley (30) is sleeved on the fifth screw (29);

the brush rotating device is in threaded connection between the fourth lead screw (27) and the fifth lead screw (29) through nuts.

5. A bowl dish washing machine according to claim 4, characterized in that the washing mechanism driving device of the bowl and dish washing mechanism (23) further comprises a fixing seat (31) and a bearing seat (33), one end of the fourth screw (27) and one end of the fifth screw (29) are respectively in clearance fit with the bowl and dish clamping mechanism (1) through the fixing seat (31), and the other end of the fourth screw (27) and the other end of the fifth screw (29) are fixed with the steel frame (32) through the bearing seat (33).

6. A bowl dish washing machine according to claim 5, characterized in that the brush rotating means of the bowl and dish washing mechanism (23) comprises a fourth motor (34), a sixth screw (35), a second nut (36), a nut coupling (37) and a third nut (38), the output end of the fourth motor (34) is connected with the top end of the sixth screw (35), the second nut (36) is screwed onto the sixth screw (35), the third nut (38) is connected with the second nut (36) synchronously through the nut coupling (37), and the pinion (39) is fixedly arranged on the third nut (38).

7. The bowl rotating dishwasher according to claim 6, characterized in that the bowl rotating driving means of the bowl rotating mechanism comprises a fifth motor (42), a sixth pulley (43), a fourth bevel gear sleeve (44) and a second bevel gear sleeve (45), the output end of the fifth motor (42) is connected with the sixth pulley (43) through a toothed belt, the sixth pulley (43) is arranged on the fourth bevel gear sleeve (44), and one end of the fourth bevel gear sleeve (44) is connected with the bevel gear long shaft (46) through the second bevel gear sleeve (45) synchronously.

8. The bowl dish rotating dishwasher of claim 7, characterized in that the bowl dish horizontal rotating mechanism further comprises a rubber tube (47), the rubber tube (47) is sleeved outside a bevel gear long shaft (46), and the bevel gear long shaft (46) rotates together with the rubber tube (47) to drive the bowl dish (12) to horizontally rotate.