CN210943800U - Meal delivery conveying system, butt joint device of conveying belt and pushing mechanism - Google Patents

Abstract

The utility model discloses a meal delivery system, interfacing apparatus and push mechanism of conveyer belt, this push mechanism includes the plectrum, be annular first flexible drive spare, first drive wheel, the second drive wheel, first power supply and mounting bracket, first flexible drive spare cover is located on first drive wheel and fourth drive wheel, and cooperate with first drive wheel and second drive wheel transmission, first drive wheel and second drive wheel horizontal separation, and rotatable the setting on the mounting bracket, first power supply is used for driving first drive wheel rotatory or/and the second drive wheel is rotatory, make first flexible drive spare rotate around first drive wheel and second drive wheel, the plectrum sets firmly on first flexible drive spare. The butt joint device and the pushing mechanism of the meal delivery system and the conveyor belt can continuously push dinner plates, and the dinner plate delivery efficiency is improved.

Description

Meal delivery conveying system, butt joint device of conveying belt and pushing mechanism

Technical Field

The utility model relates to an automatic go out meal technical field, especially relate to a butt joint device and push mechanism of delivery system, conveyer belt.

Background

Although the life rhythm of people is diversified, the development of the catering industry is faster and faster, more and more foods are combed in order to save the ordering time of customers, and people also more and more accept the combed foods; at the same time, more and more meals have been standardized in order to increase the efficiency of cooking food.

Traditional push mechanism can influence dinner plate transport efficiency because of structural defect, is unfavorable for improving meal delivery efficiency.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a meal delivery conveying system, a butt joint device of a conveying belt and a pushing mechanism. The pushing mechanism can continuously push the dinner plate, does not interfere the operation of the conveying belt, and is beneficial to improving the conveying efficiency of the dinner plate. The butt joint device of the conveying belts can butt joint the conveying belts with different horizontal heights together to form a dinner plate conveying channel. The meal delivery conveying system adopts the butt joint device of the conveying belt, and meal delivery efficiency is improved.

The technical scheme is as follows:

on the one hand, this application provides a push mechanism, include the plectrum, be annular first flexible drive spare, first drive wheel, second drive wheel, first power supply and mounting bracket, first flexible drive spare cover is located first drive wheel reaches on the second drive wheel, and with first drive wheel reaches the cooperation of second drive wheel transmission, first drive wheel reaches second drive wheel lateral separation, and rotatable set up in on the mounting bracket, first power supply is used for driving the rotation of first drive wheel or/and the second drive wheel is rotatory, makes first flexible drive spare winds first drive wheel reaches the second drive wheel rotates, the plectrum set firmly in on the first flexible drive spare.

When the pushing mechanism is used, the pushing mechanism is arranged between the lifting mechanism or other mechanisms and the conveying belt through the mounting frame, the first power source is utilized to drive the first driving wheel to rotate or the second driving wheel or the first driving wheel and the second driving wheel to rotate, so that the first flexible transmission part rotates around the first driving wheel and the second driving wheel, the poking piece can be driven by the first flexible transmission part to circularly reciprocate, and further, the food containing piece can be continuously and stably pushed into the conveying belt from the pressure bearing piece of the lifting mechanism or other mechanisms, and the conveying efficiency is favorably improved; and the movement of the plectrum does not interfere with the movement of the conveying belt, so that the control of the conveying belt or the lifting mechanism is more flexible.

The technical solution is further explained below:

in one embodiment, the number of the poking sheets is at least two, and the poking sheets are arranged at intervals along the length direction of the first flexible transmission piece.

In one embodiment, the first driving wheel is disposed away from an end of the conveyor belt, and the second driving wheel is disposed above the conveyor belt.

In one embodiment, the shifting piece is arranged above the conveying belt on the upper layer, and the moving track of the shifting piece comprises a first moving track which can be parallel to the conveying direction of the conveying belt on the upper layer.

In one embodiment, the first flexible drive comprises one of a belt, track, or chain.

The application still provides a interfacing apparatus of conveyer belt, including the push mechanism in above-mentioned arbitrary embodiment, still include elevating system, elevating system is equipped with the pressure-bearing spare that can move between two at least conveyer belts that longitudinal separation set up, the pressure-bearing spare is equipped with the pressure-bearing part that is used for holding flourishing meal spare.

When the butt joint device of the conveying belts is used, the butt joint device is arranged between the conveying belts with different horizontal heights, the food containing pieces of the conveying belts on the lower layer can be conveyed to the conveying belts on the upper layer through the lifting mechanism, and the food containing pieces placed on the pressure bearing part are pushed into the conveying belts on the upper layer through the pushing mechanism. The butt joint device of the conveying belt can butt joint the conveying belts with different horizontal heights together to form a food containing piece conveying channel, is favorable for reducing the labor intensity of food service staff, and is also favorable for conveying food more stably and orderly.

The technical solution is further explained below:

in one embodiment, the lift mechanism comprises a bracket; the transmission assembly comprises a second flexible rotating part, a third driving wheel and a fourth driving wheel which are annular, the support is fixedly connected with the mounting frame, the second flexible rotating part is sleeved on the third driving wheel and the fourth driving wheel and is in transmission fit with the third driving wheel and the fourth driving wheel, and the third driving wheel and the fourth driving wheel are longitudinally spaced and can be rotatably arranged on the support; the second power source is used for driving the third driving wheel to rotate or/and the fourth driving wheel to rotate, so that the second flexible rotating part rotates around the third driving wheel and the fourth driving wheel; the second flexible rotation piece sets firmly at least two the bearing spare, and all the bearing spare is followed the length direction interval of second flexible rotation piece sets up.

In one embodiment, the pressure-bearing members are multiple and are uniformly spaced along the outer circumference of the second flexible rotating member, so that part of the pressure-bearing members rise along the second flexible rotating member and part of the pressure-bearing members fall along the second flexible rotating member synchronously. Therefore, the ascending conveying line and the descending conveying line which move synchronously are formed by matching the second flexible rotating piece and the pressure bearing piece, and synchronous ascending and synchronous descending of the food containing piece can be realized. Particularly, when the device is applied to the catering industry, food can be conveyed and used food containing pieces can be recovered on the same floor, so that the labor intensity of catering service personnel is reduced, and the conveying time is saved.

In one embodiment, a synchronous transmission unit is arranged between the two transmission assemblies, and the second power source drives the third driving wheel or the fourth driving wheel of the two transmission assemblies to synchronously rotate through the synchronous transmission unit.

In one embodiment, when the bearing portion of the bearing member is located between the third driving wheel and the fourth driving wheel, the bearing portion is in a horizontal state.

In one embodiment, the second flexible rotating member comprises one of a belt, a track, or a chain.

On the other hand, the application also provides a meal delivery system, which comprises the butt joint device of the conveying belts in any embodiment, and at least two conveying belts arranged at intervals in the longitudinal direction. The meal delivery conveying system adopts the butt joint device of the conveying belt, can utilize the longitudinal space to carry out food delivery, and is favorable for reducing the labor intensity of food and beverage service personnel.

Drawings

FIG. 1 is a schematic diagram of a pushing mechanism shown in one embodiment;

FIG. 2 is an enlarged, fragmentary schematic view of the meal delivery system shown in one embodiment;

FIG. 3 is a schematic view of the docking assembly of the conveyor belt shown in FIG. 2;

FIG. 4 is a side view of the docking assembly of the conveyor belt of FIG. 3;

FIG. 5 is a schematic structural view of the lifting mechanism shown in FIG. 4;

fig. 6 is a schematic top view of the lifting mechanism shown in fig. 5.

Description of reference numerals:

20. a food holding piece; 30. a butt joint device of the conveying belt; 300. a lifting mechanism; 310. a support; 320. a transmission assembly; 322. a second flexible rotating member; 324. a third drive wheel; 326. a fourth drive sheave; 302. avoiding a space; 330. a second power source; 340. the pressure-bearing part 342, the pressure-bearing part 350 and the synchronous transmission unit; 400. a pushing mechanism; 410. a shifting sheet; 420. a first flexible drive member; 430. a first drive wheel; 440. A second drive wheel; 450. a first power source 460, a mounting bracket; 40. and (5) conveying the belt.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and the following detailed description. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "secured to," "disposed on," "secured to," or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. Further, when one element is considered to be "fixedly connected" to another element, the two elements may be fixed by way of detachable connection, or may be fixed by way of non-detachable connection, such as socket connection, snap connection, integrally formed fixation, welding, etc., which can be realized in the prior art, and thus are not cumbersome. When an element is perpendicular or nearly perpendicular to another element, it is desirable that the two elements are perpendicular, but some vertical error may exist due to manufacturing and assembly effects. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The references to "first", "second", "third" and "fourth" in the present application do not denote any particular quantity or order, but rather are merely used to distinguish one name from another.

As shown in fig. 1, in an embodiment, a pushing mechanism 400 is provided, the pushing mechanism 400 includes a driving plate 410, a first flexible transmission member 420 having a ring shape, a first driving wheel 430, a second driving wheel 440, a first power source 450, and a mounting frame 460, the first flexible transmission member 420 is sleeved on the first driving wheel 430 and the second driving wheel 440 and is in transmission fit with the first driving wheel 430 and the second driving wheel 440, the first driving wheel 430 and the second driving wheel 440 are laterally spaced and rotatably disposed on the mounting frame 460, the first power source 450 is configured to drive the first driving wheel 430 to rotate or/and the second driving wheel 440 to rotate, so that the first flexible transmission member 420 rotates around the first driving wheel 430 and the second driving wheel 440, and the driving plate 410 is fixedly disposed on the first flexible transmission member 420.

When the pushing mechanism is used, the pushing mechanism 400 is arranged between the lifting mechanism or other mechanisms and the conveying belt through the mounting frame 460, the first power source 450 is utilized to drive the first driving wheel 430 to rotate or the second driving wheel 440 or the first driving wheel 430 and the second driving wheel 440 to rotate, so that the first flexible transmission member 420 rotates around the first driving wheel 430 and the second driving wheel 440, the first flexible transmission member 420 can drive the plectrum 410 to do circular reciprocating motion, and the meal containing member 20 can be continuously pushed into the conveying belt 40 from other mechanisms, which is beneficial to improving the conveying efficiency; and the movement of the paddle 410 does not interfere with the movement of the conveyor belt 40, making the control of the conveyor belt 40 or other mechanism more flexible. The pushing mechanism 400 can be modularly assembled into other devices or lifting mechanisms using the mounting bracket 460.

It should be noted that the "lateral arrangement" includes a lateral inclined arrangement or a lateral horizontal arrangement.

It should be noted that the "meal holding member 20" is a container capable of holding food, and the specific shape thereof may be various, such as a disc-shaped structure, a box-shaped structure, a cup-shaped structure, and the like.

To further illustrate the pushing mechanism 400, it is applied to the butt-joint device 30 of the conveyor belt, and the butt-joint device 30 of the conveyor belt is disposed between the two conveyor belts 40.

As shown in fig. 2 to 4, in an embodiment, a meal delivery conveying system is provided, which includes at least two conveying belts 40 arranged at intervals in a longitudinal direction, and a docking device 30 for the conveying belts, where the docking device 30 for the conveying belts includes a pushing mechanism 400 in the above embodiment, and further includes a lifting mechanism 300, where the lifting mechanism 300 includes a pressure-bearing part 340 capable of reciprocating between the at least two conveying belts 40 arranged at intervals in the longitudinal direction, the pressure-bearing part is provided with a pressure-bearing part for containing meal containing parts 20, and the docking device 30 for the conveying belts can realize continuous conveying of meal containing parts 20 between the conveying belts 40 arranged in the longitudinal direction.

Specifically, the conveyor belt docking device 30 is disposed between the conveyor belts 40 with different levels, and can transport the meal containers 20 of the conveyor belt 40 on the lower layer to the conveyor belt 40 on the upper layer through the lifting mechanism 300, and push the meal containers 20 placed on the pressure-bearing portion 342 into the conveyor belt 40 on the upper layer by the pushing mechanism 400. Therefore, the meal delivery conveying system can utilize the longitudinal space to deliver food, is favorable for reducing the labor intensity of food service staff, and is convenient for realizing automatic multi-layer conveying of food.

As shown in fig. 1 and 2, in one embodiment, there are at least two shifting sheets 410, and the shifting sheets are disposed at intervals along the length direction of the first flexible transmission member 420. Therefore, the pushing efficiency is accelerated, and continuous pushing is realized.

In addition to any of the above embodiments, as shown in fig. 2 to 3, in one embodiment, the pressure-receiving portion 342 is provided with a first end disposed away from the conveying belt 40, the first driving wheel 430 is disposed outside the first end (i.e., disposed away from one end of the conveying belt 40), and the second driving wheel 440 is disposed above the upper conveying belt 40. Due to the arrangement, the poking piece 410 can push the meal containing piece 20 placed on the pressure bearing piece 340 into the conveying belt 40 without dead angles, and the lifting mechanism 300 is favorable for connecting the upper and lower conveying belts 40 in a seamless manner.

Further, as shown in fig. 2 to fig. 3, in an embodiment, the pick 410 is disposed above the upper layer of the conveyor belt 40, and the moving track of the pick 410 includes a first moving track that can be parallel to the conveying direction of the upper layer of the conveyor belt 40. Therefore, in the moving process of the poking piece 410, the food containing part 20 can be smoothly pushed to the conveying belt 40 from the pressure bearing part 340.

In addition to any of the embodiments described above, as shown in fig. 1, in one embodiment, the first flexible drive member 420 comprises one of a belt, a track, or a chain. Correspondingly, a belt conveyor, a caterpillar conveyor or a chain conveyor is formed. Specifically in this embodiment, the cyclic reciprocating motion of paddle 410 is achieved using a chain transfer mechanism.

This elevating system 400 can be realized by a manipulator, a ceiling mechanism, and the like.

As shown in fig. 4 and 5, in one embodiment, a lifting mechanism 300 different from the prior art is provided, the lifting mechanism 300 includes a transmission assembly 320, the transmission assembly 320 includes a second flexible rotating member 322, a third driving wheel 324 and a fourth driving wheel 326, the second flexible rotating member 322 is sleeved on the third driving wheel 324 and the fourth driving wheel 326 and is in transmission fit with the third driving wheel 324 and the fourth driving wheel 326, the third driving wheel 324 and the fourth driving wheel 326 are longitudinally spaced and are rotatably disposed on the bracket 310; a second power source 330, wherein the second power source 330 is used for driving the third driving wheel 324 to rotate or/and the fourth driving wheel 326 to rotate, so that the second flexible rotating member 322 rotates around the third driving wheel 324 and the fourth driving wheel 326; and at least two pressure-bearing pieces 340 fixedly arranged on the second flexible rotating member 322, and all the pressure-bearing pieces 340 are arranged at intervals along the length direction of the second flexible rotating member 322; the number of the transmission assemblies 320 is two, the pressure-bearing parts 340 of the two transmission assemblies 320 are transversely arranged at intervals to form an avoidance space 302 for the plectrum 410 to reciprocate, and the pressure-bearing parts 340 of the two transmission assemblies 320 are in one-to-one correspondence to form a pressure-bearing structure with synchronous motion. In this way, the second power source 330 is used to drive the third driving wheel 324 to rotate, or the fourth driving wheel 326 to rotate, or the third driving wheel 324 and the fourth driving wheel 326 to rotate, so that the second flexible rotating member 322 rotates around the third driving wheel 324 and the fourth driving wheel 326, and thus the pressure-bearing member 340 can be driven by the second flexible rotating member 322 to perform a circular reciprocating motion, and further the pressure-bearing part 342 of the pressure-bearing member 340 can be used to continuously lift and transport the meal containing members 20, which is beneficial to improving the conveying efficiency; and does not interfere with the movement of paddle 410.

It should be noted that the term "longitudinally disposed" includes longitudinally obliquely disposed or longitudinally vertically disposed. The support 310 may be a fixed member such as a wall of a hoistway, a frame, or the like.

On the basis of the above-mentioned embodiment, as shown in fig. 5, in an embodiment, the pressure-bearing member 340 is plural and is uniformly spaced along the outer circumference of the second flexible rotating member 322, so that part of the pressure-bearing member 340 ascends along the second flexible rotating member 322 and part of the pressure-bearing member 340 descends along the second flexible rotating member 322 synchronously. In this way, the ascending conveyor line and the descending conveyor line which move synchronously are formed by matching the second flexible rotating part with the pressure-bearing part 340, so that the synchronous ascending and descending of the meal containing part 20 can be realized. Particularly, when the food conveying device is applied to the catering industry, food conveying and recovery of the used food containing pieces 20 can be simultaneously carried out on the same floor, so that the labor intensity of catering service personnel is reduced, and the conveying time is saved.

Based on any of the above embodiments, as shown in fig. 6, in an embodiment, a synchronous transmission unit 350 is disposed between the two transmission assemblies 320, and the second power source 330 drives the third driving wheel 324 or the fourth driving wheel 326 of the two transmission assemblies 320 to rotate synchronously through the synchronous transmission unit 350. The synchronous transmission unit 350 may be a mechanical synchronous transmission or an electrical synchronous transmission, as long as the second power source 330 can drive the third driving wheel 324 or the fourth driving wheel 326 of the two transmission assemblies 320 to rotate synchronously.

Specifically, in the present embodiment, the synchronous transmission unit 350 is a mechanical synchronous transmission, and the synchronous transmission unit 350 is a gear transmission unit, a synchronous belt mechanism, or a synchronous chain mechanism. The specific implementation mode can be various, and can be realized by referring to any one existing driving structure capable of outputting at least two rotating powers.

In addition to any of the above embodiments, as shown in fig. 5, in an embodiment, when the pressure receiving portion 342 of the pressure receiving member 340 is located between the third driving wheel 324 and the fourth driving wheel 326, the pressure receiving portion 342 is in a horizontal state. This is favorable to keeping food containing member 20 to carry out ascending transportation or descending transportation smoothly, avoids the food in food containing member 20 to take place to topple over.

In addition to any of the above embodiments, in one embodiment, the second flexible rotating member 322 includes one of a belt, a track, or a chain. Correspondingly, the driving assembly 320 is a belt conveyor, a track conveyor, or a chain conveyor. In the embodiment, the driving assembly 320 is a chain transmission mechanism.

In addition to any of the above embodiments, in an embodiment, the pressure-bearing member 340 is further provided with a limiting protrusion (not shown), and the limiting protrusion is disposed on the pressure-bearing portion 342. Thus, the meal holding member 20 can be prevented from sliding off the pressure receiving portion 342 by the stopper projection.

Further, the limiting protrusion is telescopically arranged on the bearing portion 342.

The "second power source 330" and the "first power source 450" may be any conventional power equipment capable of outputting rotational power, such as a motor or a rotary hydraulic cylinder that directly provides rotational power, a linear motor + conversion mechanism or a cylinder + conversion mechanism that indirectly provides rotational power, and the like.

The lower layer of the conveyor belt 40 may convey the food containing member 20 to the pressure receiving member 340 by using the forward power of the conveyor belt 40 itself, or may push the food containing member 20 from the lower layer of the conveyor belt 40 into the pressure receiving member 340 by using other auxiliary mechanisms.

In this embodiment, the pressure-bearing member 340 and the shifting piece 410 are driven by dual flexible transmission members, specifically, dual chains.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a pushing mechanism, its characterized in that includes the plectrum, is annular first flexible transmission spare, first drive wheel, second drive wheel, first power supply and mounting bracket, first flexible transmission spare cover is located first drive wheel reaches on the second drive wheel, and with first drive wheel reaches second drive wheel transmission cooperation, first drive wheel reaches second drive wheel lateral separation, and rotatable set up in on the mounting bracket, first power supply is used for driving the rotation of first drive wheel or/and the second drive wheel is rotatory, makes first flexible transmission spare winds first drive wheel reaches the second drive wheel rotates, the plectrum set firmly in on the first flexible transmission spare.

2. The pushing mechanism of claim 1, wherein the number of the at least two paddles is spaced apart along the length of the first flexible drive member.

3. The pushing mechanism according to claim 1, wherein the paddle is disposed above the upper layer of the conveyor belt, and a moving track of the paddle includes a first moving track that can be parallel to a conveying direction of the conveyor belt.

4. The pushing mechanism of claim 3, wherein the first drive wheel is disposed distal from an end of the conveyor belt and the second drive wheel is disposed above the conveyor belt.

5. The push mechanism of any of claims 1 to 4, wherein the first flexible drive comprises one of a belt, a track, or a chain.

6. A conveyor belt butt-joint device, comprising the pushing mechanism as claimed in any one of claims 1 to 5, and further comprising a lifting mechanism, wherein the lifting mechanism is provided with a pressure-bearing part capable of moving between at least two conveyor belts arranged at a longitudinal interval, and the pressure-bearing part is provided with a pressure-bearing part for containing meal-containing parts.

7. The conveyor belt docking device of claim 6, wherein the lifting mechanism comprises a bracket; the transmission assembly comprises a second flexible rotating part, a third driving wheel and a fourth driving wheel which are annular, the support is fixedly connected with the mounting frame, the second flexible rotating part is sleeved on the third driving wheel and the fourth driving wheel and is in transmission fit with the third driving wheel and the fourth driving wheel, and the third driving wheel and the fourth driving wheel are longitudinally spaced and can be rotatably arranged on the support; the second power source is used for driving the third driving wheel to rotate or/and the fourth driving wheel to rotate, so that the second flexible rotating part rotates around the third driving wheel and the fourth driving wheel; the second flexible rotating part is fixedly provided with at least two pressure bearing pieces, and all the pressure bearing pieces are arranged at intervals along the length direction of the second flexible rotating part; the two transmission assemblies are provided, the pressure-bearing parts of the two transmission assemblies are transversely arranged at intervals to form an avoidance space for the reciprocating movement of the shifting piece, and the pressure-bearing parts of the two transmission assemblies correspond to one another to form a pressure-bearing structure which moves synchronously.

8. The butt joint device of the conveying belt according to claim 7, wherein a synchronous transmission unit is disposed between the two transmission assemblies, and the second power source drives the third driving wheel or the fourth driving wheel of the two transmission assemblies to rotate synchronously through the synchronous transmission unit.

9. The butt joint device for the conveyor belt according to claim 7 or 8, wherein when the pressure receiving portion of the pressure receiving member is located between the third driving wheel and the fourth driving wheel, the pressure receiving portion is in a horizontal state.

10. A meal delivery conveyor system comprising a docking assembly of conveyor belts as claimed in any one of claims 6 to 9, further comprising at least two conveyor belts disposed in longitudinally spaced apart relation.

Images