CN219500806U - Sushi rotary circulation transmission line - Google Patents

Abstract

The utility model discloses a sushi rotary circulating transmission line, which comprises a kitchen transmission belt and a rotary transmission belt, wherein the kitchen transmission belt and the rotary transmission belt are arranged between a kitchen and a dining table, a dinner plate moves from the kitchen transmission belt to the rotary transmission belt, the rotary transmission belt drives the dinner plate to move, and a plurality of rail-changing mechanisms are arranged on the rotary transmission belt; the kitchen conveyor belt is connected with the rotary conveyor belt through a connecting conveyor belt, and is provided with a correlation device which is respectively connected with and controls the kitchen conveyor belt and the connecting conveyor belt. The utility model provides a sushi rotary circulating transmission line, wherein a transmission belt in front of a food passenger is a rotary transmission belt, a special kitchen transmission belt is additionally arranged and used for connecting a chef board and the rotary transmission belt in front of the food passenger, a dinner plate moving channel is constructed, a dinner plate moves from the kitchen transmission belt to the rotary transmission belt through a rail transfer mechanism, and a trigger signal of the rail transfer mechanism is started through induction of a correlation device.

Description

Sushi rotary circulation transmission line

Technical Field

The utility model relates to the technical field of sushi feeding, in particular to a sushi rotary circulating transmission line.

Background

Some dishes are lighter, such as sushi and other dishes, the food content in a single dish/single dish is limited, the whole quality is lighter, the soup proportion in the cuisine is lower, and at present under the big trends of less humanization, intellectualization and the like, a dish feeding mode similar to the rotary sushi through a conveying belt can be adopted, the dinner plate containing dishes is placed on the conveying belt, and the dinner plate is conveyed to the position corresponding to the eater through the conveying belt.

Unlike a rotary sushi, a chef is required to have no self-service dinner, and the distance between the chef and the chef is also delight, so that the distance between the chef and the chef needs to be pulled apart, and the chef returns to the kitchen for making.

In the conventional dinner plate conveying belt, the conveying belt only comprises a conveying belt in front of a food serving surface, after a chef makes food, the chef needs to move to a position, or the conveying belt in front of the food serving surface is moved by a carrying tool, so that the efficiency of the chef in making the food serving surface is reduced, and therefore, the conveying belt special for a kitchen is needed, which can be connected to the conveying belt in front of the food serving surface.

Disclosure of Invention

The utility model provides a sushi rotary circulating transmission line, wherein a transmission belt in front of a food consumer is a rotary transmission belt, so that the rotary sushi characteristic can be realized under the condition that the positions of a cook and the food consumer are changed, a special kitchen transmission belt is additionally arranged and used for connecting a cook chopping board and the rotary transmission belt in front of the food consumer, a dinner plate moving channel is constructed, a dinner plate moves from the kitchen transmission belt to the rotary transmission belt through a rail transfer mechanism, and a trigger signal of the rail transfer mechanism senses the position start of the dinner plate through a correlation device.

The technical scheme of the utility model is as follows:

the sushi rotary circulating transmission line comprises a kitchen transmission belt and a rotary transmission belt, wherein the kitchen transmission belt and the rotary transmission belt are arranged between a kitchen and a dining table, a dinner plate moves from the kitchen transmission belt to the rotary transmission belt, the rotary transmission belt drives the dinner plate to move, and a plurality of rail-changing mechanisms are arranged on the rotary transmission belt;

the kitchen conveyor belt is connected with the rotary conveyor belt through a connecting conveyor belt, the kitchen conveyor belt is provided with a correlation device, and the correlation device is respectively connected with and controls the kitchen conveyor belt and the connecting conveyor belt.

After the chef finishes making the meal, the dinner plate is placed on the kitchen conveyor belt from the kitchen board, the initial end and the tail end of the kitchen conveyor belt are respectively provided with the correlation device, when the dinner plate is placed on the initial end of the kitchen conveyor belt from the kitchen board and shields the correlation device, the correlation device senses the existence of the dinner plate and controls the rotation of the kitchen conveyor belt, the dinner plate moves to the tail end from the initial end along with the kitchen conveyor belt, the tail end is close to the rotary conveyor belt, the dinner plate moving to the tail end of the kitchen conveyor belt shields the correlation device, the correlation device senses and generates a control signal to control the connection conveyor belt, the connection conveyor belt is started, and the dinner plate moves onto the conveyor belt from the kitchen conveyor belt.

The sushi rotary circulating transmission line comprises a receiving device and a transmitting device, wherein the receiving device and the transmitting device are respectively arranged at the head end and the tail end of the kitchen transmission belt, and the height of the correlation device is smaller than or equal to that of the dinner plate.

Foretell a sushi gyration circulation transmission line, kitchen conveyer belt's below sets up first inductor, set up the response label on the dinner plate, first inductor is connected with the control center, the response label gets into the response region of first inductor, first inductor is to the control center sends the response signal.

According to the sushi rotary circulating transmission line, the arc-shaped stop block is arranged at the tail end of the kitchen transmission belt, and the dinner plate is driven by the kitchen transmission belt to move to the connecting transmission belt along the arc surface of the arc-shaped stop block.

According to the sushi rotary circulating transmission line, the connecting transmission belt is formed by a plurality of rollers side by side.

The sushi rotary circulating transmission line is characterized in that the transmission belt of the rotary transmission belt is crescent.

The sushi rotary circulating transmission line comprises the push plate and the stepping motor, wherein the stepping motor is connected with the push plate through the connecting rod structure and the linkage shaft in sequence, and drives the push plate to rotate and pushes the dinner plate to the dining table.

The sushi rotary circulating transmission line comprises a first rail transfer mechanism and a second rail transfer mechanism, wherein the first rail transfer mechanism pushes the dinner plate to move from one side of the rotary transmission belt to the other side of the rotary transmission belt, and the second rail transfer mechanism pushes the dinner plate to move from the rotary transmission belt to the dining table.

Further, along the rotation direction of the rotary conveyor belt, a third correlation device is arranged at the front end of the first track-changing mechanism, and the third correlation device is connected with and controls the first track-changing mechanism.

Further, along the rotation direction of the rotary conveyor belt, a second inductor and a fourth correlation device are arranged at the front end of the second track transfer mechanism, and the second inductor is connected with the fourth correlation device and controls the second track transfer mechanism.

According to the scheme, the utility model has the beneficial effects that,

1. the double-transmission-belt structure is used for separating the kitchen from the customer, the distance between the kitchen and the customer is increased, a certain safety distance is kept between the kitchen and the customer, the path from the dinner plate to the dining table is also in an automatic state due to the arrangement of the rail-changing mechanism, and the manual meal taking action of the customer is reduced;

2. the rail transfer mechanism can change the position of a dinner plate on the rotary conveying belt, reduces the circulation time of the dinner plate at an unnecessary position, improves the rotation frequency presented in front of a customer, enables the customer to get the dinner better, and can utilize the conventional conveying belt for rotary sushi to carry out quick change, so that the cost can be reduced to the greatest extent, and the closing time of the dinner plate due to decoration change is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of the track-changing mechanism.

Fig. 3 is a schematic structural diagram of a track-changing mechanism.

Wherein, each reference sign in the figure:

1. a kitchen conveyor belt; 11. a first correlation device; 12. a first inductor; 13. an arc-shaped stop block; 14. a second correlation device;

2. a rotary conveyor belt; 21. a first rail transfer mechanism; 22. a second track change mechanism; 23. a second inductor; 24. a third correlation device; 25. a fourth correlation device; 201. a stepping motor; 202. a first connecting rod; 203. a linkage shaft; 204. a push plate; 205. a second connecting rod;

3. connecting a transmission belt; 31. a roller;

4. a dinner plate.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The utility model provides a sushi gyration circulation transmission line, as shown in fig. 1, includes kitchen conveyer belt 1 and gyration conveyer belt 2, and kitchen conveyer belt 1 and gyration conveyer belt 2 set up between kitchen and dining table, and dinner plate 4 removes to gyration conveyer belt 2 from kitchen conveyer belt 1, and gyration conveyer belt 2 drives dinner plate 4 and removes, sets up a plurality of track-changing mechanisms on the gyration conveyer belt 2. The kitchen conveyer belt 1 and the rotary conveyer belt 2 widen the interval between chefs and customers, make the two keep certain safe distance, during that, utilize the track change mechanism to reduce the transmission time and the transmission distance of dinner plate 4 on the conveyer belt, improve the frequency that dinner plate 4 appears in front of the customer, make things convenient for the customer to get the meal and eat.

The kitchen conveyor belt 1 is connected with the rotary conveyor belt 2 through a connecting conveyor belt 3, the kitchen conveyor belt 1 is provided with a correlation device, and the correlation device is respectively connected with and controls the kitchen conveyor belt 1 and the kitchen conveyor belt 1. The correlation device comprises a first correlation device 11 and a second correlation device 14, wherein the two correlation devices comprise a receiving device and a transmitting device, the receiving device and the transmitting device of the first correlation device 11 are respectively arranged at the head end and the tail end of the kitchen conveyor belt 1, the receiving device and the transmitting device of the second correlation device 14 are respectively arranged near the kitchen conveyor belt 1 and the rotary conveyor belt 2, and the receiving device and the transmitting device are aligned with the connection point of the connecting conveyor belt 3 and the rotary conveyor belt 2. In addition, the height of the opposite device is smaller than or equal to the height of the dinner plate 4 so as to sense the dinner plate 4 on the conveying belt.

The end of the kitchen conveyer belt 1 is provided with an arc-shaped stop block 13, the dinner plate 4 is driven by the kitchen conveyer belt 1 to move to the connecting conveyer belt 3 along the cambered surface of the arc-shaped stop block 13, and the arc-shaped stop block 13 plays a role in guiding.

In order to save power and cost, considering the high-low frequency of sushi made by chefs, in an initial state, the kitchen conveyor 1 is set to be in a standby state, when the chefs finish sushi making, and the dinner plate 4 is placed on the kitchen conveyor 1, the first correlation device 11 senses that the dinner plate 4 exists, the kitchen conveyor 1 is started to rotate, and the kitchen conveyor 1 drives the dinner plate 4 to move to the arc-shaped stop 13 and move to the initial end of the connecting conveyor 3 along the curved surface of the arc-shaped stop 13. The connection transmission belt 3 is also in a standby state initially, when the first correlation device 11 starts the kitchen transmission belt 1, a control signal is given to the connection transmission belt 3 at the same time, at the moment, the second correlation device 14 senses whether a dinner plate 4 exists at the joint of the rotary transmission belt 2 and the connection transmission belt 3, if not, the control signal is sent to the connection transmission belt 3, and the connection transmission belt 3 can be started after receiving the two control signals of the first correlation device 11 and the second correlation device 14. In order to know in advance whether there is interference of the dinner plate 4 at this position, a second correlation device 14 is provided at the front end of the junction of the connecting conveyor 3 along the direction of rotation of the carousel 2.

In one embodiment, the connecting conveyor belt 3 is formed by a plurality of rollers 31 side by side.

In one embodiment, the carousel shape of carousel 2 is crescent-shaped, which is more suitable for the placement of trays 4.

Preferably, a first inductor 12 is arranged below the kitchen conveyor belt 1, an induction tag is arranged on the dinner plate 4, the first inductor 12 is connected with the control center, and when the induction tag enters an induction area of the first inductor 12, the first inductor 12 sends an induction signal to the control center. Because the rotary sushi shop has the customer electronic ordering condition, when the ordered dishes enter the sensing area of the first sensor 12, the first sensor 12 sends a sensing signal to the control center, and the control center can perform actions such as display screen display or voice prompt in front of the customer when the dishes are finished. The common inductor and the induction label are the RFID label and the inductor thereof, the induction label can be quickly prepared and generated, the induction mode is near field induction, and after a chef inputs information on a corresponding machine, the chef directly prints to form an adhesive RFID label, and the RFID label can be closely non-contact and non-optical induced by the inductor to obtain related information. In this embodiment, the back of the table top below the kitchen conveyor 1 is provided with the first inductor 12, the induction direction is upward, a plurality of ranges above are covered, a chef obtains the printed RFID tag and then pastes the printed RFID tag to the bottom of the dinner plate 4, the RFID tag contains the information such as the name of the food corresponding to the food on the dinner plate 4 and the number of the dining table of the eater, when the dinner plate 4 passes above the first inductor 12 under the transportation of the kitchen conveyor 1, the inductor obtains the information in the RFID tag and sends related information to the control center, so that the information is updated in the electronic catering system in the store, and the eater can know whether the food of the eater is manufactured.

As shown in fig. 2 and 3, the track-changing mechanism comprises a push plate 204 and a stepping motor 201, the stepping motor 201 is connected with the push plate 204 through a connecting rod structure and a linkage shaft 203, and the stepping motor 201 drives the push plate 204 to rotate and pushes the dinner plate 4 to a dining table. The connecting rod structure comprises a first connecting rod 202 and a second connecting rod 205, wherein the first connecting rod 202 is sleeved on an output shaft of the stepping motor 201, so that the first connecting rod 202 rotates along with the rotation of the stepping motor 201, the other end of the first connecting rod 202 is connected with one end of the second connecting rod 205 through a bolt nut, the other end of the second connecting rod 205 is coaxially connected with a linkage shaft 203, the top of the linkage shaft 203 is connected with a push plate 204, when the stepping motor 201 rotates for one circle, the first connecting rod 202 is driven to rotate, the rotation of the first connecting rod moves to the maximum rotation angle from an initial state, then the first connecting rod rotates back to the initial position, the second connecting rod 205 is indirectly driven to rotate, the second connecting rod 205 is connected with the linkage shaft 203, the push plate 204 rotates to the maximum angle from the initial state, and then the initial state is restored.

According to the requirement, the rail transfer mechanism comprises a first rail transfer mechanism 21 and a second rail transfer mechanism 22, wherein the first rail transfer mechanism 21 pushes the dinner plate 4 to move from one side of the rotary conveying belt 2 to the other side of the rotary conveying belt 2, and the second rail transfer mechanism 22 pushes the dinner plate 4 to move from the rotary conveying belt 2 to the dining table. The first rail transfer mechanism 21 is identical in structure to the second rail transfer mechanism 22.

Along the rotation direction of the rotary conveyor belt 2, a third correlation device 24 is arranged at the front end of the first track-changing mechanism 21, and the third correlation device 24 is connected with and controls the first track-changing mechanism 21. When the third correlation device 24 senses both sides of the rotary conveyor belt 2 respectively, and when a plurality of dinner plates 4 are placed continuously on one side, and the other side senses that the position is empty in advance, the third correlation device 24 controls the first rail transfer mechanism 21 to push the dinner plates 4 to move to the other side of the rotary conveyor belt 2, so that the moving distance of the dinner plates 4 is reduced, and even the dinner plates 4 are directly pushed to the front of customers.

In one embodiment, along the rotation direction of the revolving conveyor 2, the front end of the second track-changing mechanism 22 is provided with a second inductor 23 and a fourth correlation device 25, the second inductor 23 is connected with the fourth correlation device 25 and controls the second track-changing mechanism 22, wherein the second track-changing mechanism 22, the second inductor 23 and the fourth correlation device 25 are all in complete sets and are in one-to-one correspondence with the dining table. In combination with the first sensor 12 provided at the front end, the second sensor 23 provided at the position can obtain the home customer/dining table of the dining plate 4, and meanwhile, the fourth correlation device 25 checks whether the corresponding dining table has the interference dining plate 4, if the corresponding dining table does not have the interference dining plate 4 and the second sensor 23 recognizes that the dining plate 4 is the dining plate 4 to which the dining plate belongs, both the first sensor and the second sensor send control signals to the second track-changing mechanism 22, and the second track-changing mechanism 22 pushes the dining plate 4 to the corresponding dining table after receiving the two control signals.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The sushi rotary circulating transmission line is characterized by comprising a kitchen transmission belt and a rotary transmission belt, wherein the kitchen transmission belt and the rotary transmission belt are arranged between a kitchen and a dining table, a dinner plate moves from the kitchen transmission belt to the rotary transmission belt, the rotary transmission belt drives the dinner plate to move, and a plurality of rail-changing mechanisms are arranged on the rotary transmission belt;

the kitchen conveyor belt is connected with the rotary conveyor belt through a connecting conveyor belt, the kitchen conveyor belt is provided with a correlation device, and the correlation device is respectively connected with and controls the kitchen conveyor belt and the connecting conveyor belt.

2. The sushi rotary circulating transmission line according to claim 1, wherein the correlation device comprises a receiving device and a transmitting device, the receiving device and the transmitting device are respectively arranged at the head end and the tail end of the kitchen transmission belt, and the height of the correlation device is smaller than or equal to the height of the dinner plate.

3. The sushi rotary circulation transmission line according to claim 1, wherein a first sensor is disposed below the kitchen transmission belt, an induction tag is disposed on the dinner plate, the first sensor is connected to the control center, the induction tag enters an induction area of the first sensor, and the first sensor sends an induction signal to the control center.

4. The sushi rotary circulation transmission line according to claim 1, wherein an arc-shaped stop is provided at a distal end of the kitchen transmission belt, and the dinner plate is moved to the connection transmission belt along an arc surface of the arc-shaped stop by being driven by the kitchen transmission belt.

5. A sushi-turning endless transmission line as set forth in claim 1, wherein said connecting transmission belt is formed of a plurality of rollers side by side.

6. A sushi-turning endless transmission line as claimed in claim 1, characterized in that the belt shape of said turning belt is crescent-shaped.

7. The sushi rotary circulation transmission line according to claim 1, wherein the track changing mechanism comprises a push plate and a stepping motor, the stepping motor is connected with the push plate through a connecting rod structure and a linkage shaft in sequence, and the stepping motor drives the push plate to rotate and pushes the dinner plate to the dining table.

8. The sushi-turning endless transmission line according to claim 1, wherein said track-changing mechanism comprises a first track-changing mechanism that pushes said dinner plate from one side of said turning transmission belt to the other side of said turning transmission belt, and a second track-changing mechanism that pushes said dinner plate from said turning transmission belt to said dining table.

9. A sushi-turning endless transmission line as set forth in claim 8, characterized in that a third correlation means is provided at a front end of said first derailment means in a direction of rotation of said turning transmission belt, said third correlation means being connected to and controlling said first derailment means.

10. A sushi rotary circulating transmission line according to claim 8, characterized in that a second inductor and a fourth correlation device are provided at the front end of the second track change mechanism along the rotation direction of the rotary transmission belt, and the second inductor is connected to the fourth correlation device and controls the second track change mechanism.