CN216392820U - Flour cake conveying device and hamburger machine - Google Patents

Abstract

The utility model relates to a flour cake conveyor and hamburger machine, flour cake conveyor includes: the dough cake feeding mechanism (11000) comprises a storage bin (11100) for containing the dough cake, a pushing assembly (11200) arranged at the bin opening of the storage bin, and a conveying piece (11300) for conveying the dough cake towards the direction of the bin opening; a baking mechanism (12000) for heating the dough cake entering the baking mechanism and having a feed opening (12100) capable of interfacing with the dough cake feeding mechanism and a discharge opening (12200) at the bottom; and a conveying mechanism (13000) arranged below the discharge port, wherein the flour cake conveying device is configured to: the flour cake in the bin is pushed into the feeding port through the pushing assembly, falls onto the conveying mechanism from the discharging port and is conveyed forwards. Therefore, an operator only needs to put a plurality of flour cakes into the storage bin in sequence to finish the heating operation of the flour cakes, and the flour cakes are automatically sent to the next working procedure, so that the automatic and production line type operation is realized, the working efficiency is improved, and the labor intensity of the operator is reduced.

Description

Flour cake conveying device and hamburger machine

Technical Field

The utility model relates to a food processing technology field specifically relates to a flour cake conveyor and hamburg machine.

Background

At present, hamburgers are manufactured and packaged manually, particularly, flour cakes serving as hamburger content carriers need to be heated, tiled, placed and the like when being processed, the degree of automation is low, assembly line type operation cannot be achieved, time and labor are consumed, and labor cost is high. With the acceleration of the pace of life, people have more and more demand for fast food of hamburgers, and particularly in the rush hours of getting on and off duty in the morning and evening, the efficiency of manually making hamburgers is extremely low, and the demand of users cannot be met in a short time. Therefore, in order to improve the hamburger making efficiency, reduce the labor cost and optimize the sanitary conditions in the hamburger making, a hamburger machine with higher automation degree needs to be provided urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a flour cake conveyor and hamburger machine to solve and to realize pipelined automation mechanized operations, influence transmission efficiency scheduling problem.

In order to achieve the above object, the present disclosure provides a dough cake conveying device comprising: the dough cake feeding mechanism comprises a bin for containing dough cakes, a pushing assembly arranged at a bin opening of the bin, and a conveying piece for conveying the dough cakes towards the direction of the bin opening; the baking mechanism is used for heating the flour cakes entering the baking mechanism and is provided with a feeding port which can be butted with the flour cake feeding mechanism and a discharging port positioned at the bottom; and a conveying mechanism arranged below the discharge port, wherein the flour cake conveying device is configured to: the flour cakes in the bin are pushed into the feed opening through the pushing assembly, fall onto the conveying mechanism from the discharge opening and are conveyed forwards.

Optionally, the baking mechanism has a plurality of feeding ports with different widths arranged side by side, and the dough cake feeding mechanism is movably arranged along the side by side direction of the plurality of feeding ports so as to be capable of being butted with each feeding port.

Optionally, a plurality of the material feeding ports are respectively communicated with the material discharging ports, the material discharging ports are formed into arc-shaped guide surfaces for the flour cakes to slide, and the tail ends of the guide surfaces are positioned above the conveying mechanism.

Optionally, the cake conveying device comprises a support, a sliding rail extending in the horizontal direction is arranged on the support, a sliding block matched with the sliding rail is arranged on the cake feeding mechanism, and a power part for driving the cake feeding mechanism to move along the sliding rail is arranged on the support.

Optionally, the dough cake feeding mechanisms and the baking mechanisms are respectively multiple groups arranged at intervals along the conveying direction of the conveying mechanism, and the positions of the dough cake feeding mechanisms and the positions of the baking mechanisms of each group correspond to each other.

Optionally, the flour cake in the bin and the conveying member are arranged obliquely upwards in the conveying direction of the flour cake, and the conveying direction of the conveying member is perpendicular to the pushing direction of the pushing assembly.

Optionally, the conveying member is the hold-in range, and a plurality of face cakes set up side by side on the conveying face of hold-in range, bin mouth department is connected with the baffle that can overturn and elasticity bulldozes the baffle is in order to restrict the face cake the elastic component in the feed bin.

Optionally, the pushing assembly comprises a top plate and a driving mechanism for driving the top plate to move towards the bin opening, and an edge of the top plate, which is used for being in contact with the flour cake, is configured as an arc-shaped surface.

Optionally, the dough cake feeding mechanism further comprises a material guide plate located downstream of the pushing assembly in the pushing direction and used for being abutted to the feeding port.

According to a second aspect of the present disclosure, there is also provided a hamburger machine comprising the above-mentioned pancake conveying device.

Through the technical scheme, the flour cakes in the bin are conveyed to the bin opening by the conveying part, the flour cakes positioned at the bin opening are pushed into the baking mechanism by the pushing assembly to be heated, the heated flour cakes drop to the conveying mechanism from the discharge opening and are conveyed to the designated position, and in the flour cake conveying device provided by the disclosure, an operator only needs to put a plurality of flour cakes into the bin in sequence, so that the heating operation of the flour cakes can be completed, and the flour cakes are automatically conveyed to the next procedure, so that the automatic and assembly line type operation is realized, the working efficiency is improved, and the labor intensity of the operator is reduced.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

fig. 1 and 2 are schematic structural views of a dough cake conveying apparatus according to an exemplary embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a dough piece placing mechanism in the dough piece conveying device provided by an exemplary embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a movable structure of a dough piece throwing mechanism in the dough piece conveying device provided by the exemplary embodiment of the disclosure;

fig. 5 to 7 are schematic structural views of an ejection assembly in a dough cake conveying device according to an exemplary embodiment of the present disclosure;

fig. 8 is a schematic structural view of a conveying member in a dough cake conveying apparatus according to an exemplary embodiment of the present disclosure.

Description of the reference numerals

11000-a cake feeding mechanism, 11100-a storage bin, 11110-a baffle, 11120-an elastic piece, 11200-a pushing component, 11210-a top plate, 11220-a driving mechanism, 11300-a conveying piece, 11310-a stop block, 11400-a material guide plate, 12000-a baking mechanism, 12100-a feeding port, 12200-a discharging port, 13000-a conveying mechanism, 13100-a feeding port, 14000-a support, 14100-a slide rail, 14200-a slide block and 15000-a power distribution cabinet.

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

In the present disclosure, without being stated to the contrary, the use of the directional terms such as "upper" and "lower" is generally defined in the case of normal installation of the device for conveying the tortillas, and in particular with reference to the directions of the drawings of fig. 1 and 2, "front" and "rear" are with respect to the conveying direction of the tortillas by the conveying member and the conveying mechanism, and "inner" and "outer" are with respect to the profile of the respective component. Furthermore, in the following description, when referring to the drawings, the same reference numerals in different drawings denote the same or corresponding elements.

As shown in fig. 1 to 3, the present disclosure provides a cake conveying apparatus including a cake dispensing mechanism 11000, a baking mechanism 12000, and a conveying mechanism 13000, wherein the cake dispensing mechanism 11000 includes a bin 11100 for accommodating a cake, an ejector assembly 11200 disposed at a bin opening of the bin 11100, and a conveying member 11300 conveying the cake toward the bin opening; the baking mechanism 12000 is used for heating the flour cakes entering the baking mechanism and is provided with a feeding port 12100 which can be butted with the flour cake feeding mechanism 11000 and a discharging port 12200 which is positioned at the bottom; the conveying mechanism 13000 is arranged below the discharging port 12200, wherein the whole conveying device for the flour cakes provided by the present disclosure is configured as follows: the flour cakes in the bin 11100 are pushed into the feeding port 12100 through the pushing assembly 11200, fall onto the conveying mechanism 13000 from the discharging port 12200 and are conveyed forwards. Here, it should be noted that the "bread cake" may be a slice of bread, a slice of steamed bread, etc., and may be an outermost layer of the hamburger for holding the hamburger contents. The top and bottom of the bread can be cut in advance by an operator, and the bread cake can be manually placed into the bin 11100 one by one, and the conveying member 11300 can be conveyed forward at a certain speed, so that the plurality of bread cakes in the bin 11100 can be positioned on the conveying member 11300 in an orderly manner and conveyed forward. The flour cake conveying device provided by the disclosure is not only applied to the production of hamburgers, but also can be applied to the production process flow of flour cakes. In addition, by designing the arrangement angles and the relative positions of the conveying piece 11300 and the feeding port 12100, the flour cakes conveyed to the bin port can automatically fall into the feeding port 12100 under the action of gravity, and for the flour cakes, the arrangement of the pushing component 11200 is particularly important for ensuring the feeding efficiency due to the possible adhesion between the sheets.

According to the technical scheme, the conveying piece 11300 conveys flour cakes in the bin 11100 forwards to the bin opening, the pushing assembly 11200 pushes the flour cakes positioned at the bin opening into the baking mechanism 12000 to be heated, and the heated flour cakes drop to the conveying mechanism 13000 through the discharge opening 12200 and are conveyed to a specified position.

In the hamburger making process, the bread top and the bread bottom can adopt different thickness designs, accordingly, in the present disclosure, as shown in fig. 3 and 4, the baking mechanism 12000 has a plurality of material inlets 12100 with different widths arranged side by side, and the pancake dispensing mechanism 11000 is movably arranged along the side by side direction of the plurality of material inlets 12100 so as to be capable of interfacing with each material inlet 12100. The width of the feeding port 12100 of the baking mechanism 12000 is designed according to the thickness of the bread top and the bread bottom, and the bread enters different heating channels in the baking mechanism 12000, and the taste of the prepared cake is better by designing the heating temperature of the channels. The direction that a plurality of dog-house 12100 set up side by side can be arranged with the direction of delivery of conveying mechanism 13000 is perpendicular, in other embodiments, a plurality of dog-house 12100 can also be arranged side by side along the direction of delivery of conveying mechanism 13000, cake input mechanism 11000 can move along the direction of delivery, all belong to the protection scope of this disclosure, in the arrangement of this disclosure, the displacement stroke of cake input mechanism 11000 is short, toast mechanism 12000 occupation space is little, the convenient arrangement. In addition, when the cake discharge mechanism 11000 moves backward to abut against another discharge port 12100, the cake entering from the first discharge port 12100 is already transferred forward by a certain distance, so that the cakes entering from the two discharge ports 12100, although falling from the same discharge port 12200, do not overlap on the conveying mechanism 13000.

The discharging port 12200 may be provided directly below the conveying mechanism 13000, the cakes in the heating path directly fall on the conveying mechanism 13000 under the action of gravity, in this embodiment, as shown in fig. 2, the discharging port 12200 is provided on a side wall of the baking mechanism 12000, a plurality of feeding ports 12100 are respectively communicated with the discharging ports 12200, the discharging ports 12200 are formed as arc-shaped guide surfaces for the cakes to slide, and the end of the guide surface is located above the conveying mechanism 13000. The conveying mechanism 13000 can be a conveying belt, a feeding port 13100 is formed in a shell of the closed conveying belt, and the arc-shaped guide surface can guide the flour cakes into the feeding port 13100 and play a certain buffering role at the same time so as to prevent impact on the conveying mechanism 13000 caused by the gravity action of the flour cakes.

The cake feeding mechanism 11000 can move backwards to be abutted with another feeding port 12100, specifically, as shown in fig. 4, the cake conveying device comprises a support 14000, a sliding rail 14100 extending along the horizontal direction is arranged on the support 14000, a sliding block 14200 matched with the sliding rail 14100 is arranged on the cake feeding mechanism 11000, and a power part (not shown in the figure) for driving the cake feeding mechanism 11000 to move along the sliding rail 14100 is arranged on the support 14000. The power part can be a linear motor, an air cylinder, a screw nut, a gear rack mechanism and the like, in addition, the conveying part 11300 is arranged in the inner cavity of the storage bin 11100, the power part, the sliding rail 14100 and the sliding block 14200 are arranged at the bottom of the storage bin 11100, and the motion of the power part, the sliding rail 14100 and the sliding block 14200 does not influence or interfere with each other.

As shown in fig. 1 and 2, in the cake conveying apparatus provided by the present disclosure, the cake discharge mechanisms 11000 and the baking mechanisms 12000 are respectively a plurality of groups arranged at intervals in the conveying direction of the conveying mechanism 13000, and the positions of the cake discharge mechanisms 11000 and the baking mechanisms 12000 of each group correspond to each other. The multiple groups of flour cake feeding mechanisms 11000 and the baking mechanism 12000 operate simultaneously, and the conveying mechanism 13000 drops multiple flour cakes simultaneously and conveys the flour cakes forward in a neat arrangement mode, so that the conveying efficiency of the flour cakes is improved. Further, as shown in fig. 2 and 3, a plurality of rows of dough cakes may be arranged in the bin 11100 of each group of dough cake feeding mechanism 11000, each row of dough cakes is correspondingly provided with a conveying member 11300 and a pushing member 11200, for example, as shown in the figure, three rows of dough cakes are arranged in each bin 11100 and share the same feeding port 12100, one row of dough cakes may be selected to be conveyed forward to the bin port for feeding operation, or three rows of dough cakes may be simultaneously fed under the condition that the size of the feeding port 12100 meets the requirement, and the feeding operation may be designed and controlled according to the process requirement.

Further, in the present disclosure, as shown in fig. 3, the tortillas and the conveyance member 11300 within the bin 11100 are arranged obliquely upward in the conveyance direction along the tortillas, and the conveyance direction of the conveyance member 11300 is perpendicular to the urging direction of the urging assembly 11200. The flour cakes and the conveying piece 11300 are arranged in an inclined upward mode, so that the flour cakes can be concentrated at one end far away from the bin opening under the action of gravity, the flour cakes are prevented from falling from the bin opening, the conveying piece 11300 conveys the flour cakes to the bin opening in an inclined upward mode, and the pushing assembly 11200 pushes the flour cakes into the feeding opening 12100 in an inclined downward mode at the bin opening.

The conveying member 11300 may have any suitable structure, and in the present disclosure, as shown in fig. 3 and 8, the conveying member 11300 may be a synchronous belt, a plurality of dough cakes are arranged side by side on a conveying surface of the synchronous belt, a stopper 11310 is arranged at an end away from the bin opening, and in a case where the conveying member 11300 is arranged obliquely upward, the weight of each row of dough cakes acts on the stopper 11310. In addition, as shown in fig. 6 and 7, a reversible baffle 11110 and an elastic member 11120 elastically pressing the baffle 11110 to confine the tortillas in the bin 11100 are connected to the bin opening. The conveying member 11300 conveys the flour cakes forwards to the bin opening and pushes the lower end of the baffle 11110 to turn outwards, the pushing assembly 11200 can push the flour cakes into the feeding opening 12100 from an opening between the lower end of the baffle 11110 and the conveying member 11300, after the feeding action is completed, the baffle 11110 can return to the initial position under the action of the elastic member 11120, and the lower end of the baffle 111abuts against the end of the conveying member 11300 to play a role of stopping.

In an exemplary embodiment of the present disclosure, as shown in fig. 5, the pushing assembly 11200 includes a top plate 11210 and a driving mechanism 11220 for driving the top plate 11210 to move toward the bin opening, the driving mechanism 11220 may be an air cylinder, a linear motor, or the like, the top plate 11210 is connected to an output end of the driving mechanism 11220, and can vertically push the cakes into the feeding opening 12100, as shown in fig. 7, an edge of the top plate 11210 for contacting the cakes is configured as an arc-shaped surface, and can better contact with the surface of the cakes, thereby ensuring smoothness when performing the pushing action.

In the present disclosure, as shown in fig. 5, the dough cake feeding mechanism 11000 further includes a material guiding plate 11400 located downstream of the pushing direction of the pushing assembly 11200 and used for abutting against the material feeding port 12100, so as to guide the dough cake dropping above the material feeding port 12100 and ensure smooth feeding into the material feeding port 12100.

As shown in fig. 1, the dough cake feeding mechanism 11000, the baking mechanism 12000 and the conveying mechanism 13000 are all arranged above the support 14000, the dough cake conveying device provided by the present disclosure further comprises a power distribution cabinet 15000 arranged below the support 14000, which can realize the power supply and control of the movement of the conveying piece 11300, the pushing component 11200 and the baking mechanism 12000, and realize the automatic control of the feeding, the material loading and other actions in the dough cake conveying device.

According to a second aspect of the present disclosure, there is also provided a hamburger machine comprising the above-described tortilla conveyor. The hamburger machine provided by the disclosure has all the beneficial effects of the dough cake conveying device, and redundant description is not repeated here.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. A device for conveying a dough piece, comprising:

the dough cake feeding mechanism (11000) comprises a storage bin (11100) for containing the dough cake, a pushing assembly (11200) arranged at the bin opening of the storage bin (11100), and a conveying member (11300) for conveying the dough cake towards the direction of the bin opening;

a baking mechanism (12000) for heating the flour cake entering the baking mechanism and provided with a feeding port (12100) which can be connected with the flour cake feeding mechanism (11000) and a discharging port (12200) positioned at the bottom; and

a conveying mechanism (13000) arranged below the discharge port (12200),

wherein the dough cake conveying device is configured to:

the flour cakes in the bin (11100) are pushed into the feeding port (12100) through the pushing assembly (11200), and fall onto the conveying mechanism (13000) from the discharging port (12200) and are conveyed forwards.

2. A cake conveyor according to claim 1, wherein said baking mechanism (12000) has a plurality of outlets (12100) of unequal widths arranged side by side, and said cake discharge mechanism (11000) is movably arranged in the side by side direction of said plurality of outlets (12100) so as to be able to abut each of said outlets (12100).

3. The cake conveying apparatus according to claim 2, wherein a plurality of said feed ports (12100) are respectively communicated with said discharge ports (12200), said discharge ports (12200) being formed as arc-shaped guide surfaces on which the cake slides, the end of said guide surfaces being located above said conveying mechanism (13000).

4. The cake conveying device according to claim 2, comprising a support (14000), wherein a sliding rail (14100) extending along the horizontal direction is arranged on the support (14000), a sliding block (14200) matched with the sliding rail (14100) is arranged on the cake releasing mechanism (11000), and a power part for driving the cake releasing mechanism (11000) to move along the sliding rail (14100) is arranged on the support (14000).

5. The cake conveyor according to claim 1, wherein the cake feeding mechanism (11000) and the baking mechanism (12000) are respectively provided in plural sets at intervals in the conveying direction of the conveyor (13000), and the positions of the cake feeding mechanism (11000) and the baking mechanism (12000) of each set correspond to each other.

6. The dough cake conveying apparatus according to claim 1, wherein the dough cake in the hopper (11100) and the conveying member (11300) are arranged obliquely upward in a conveying direction along the dough cake, and the conveying direction of the conveying member (11300) is perpendicular to the ejecting direction of the ejecting assembly (11200).

7. The apparatus according to claim 1, wherein the conveyor (11300) is a timing belt, a plurality of dough cakes are arranged side by side on a conveying surface of the timing belt, a reversible baffle (11110) is connected to the hopper, and an elastic member (11120) elastically presses the baffle (11110) to confine the dough cakes in the hopper (11100).

8. The dough cake conveying apparatus according to any one of claims 1 to 7, wherein the ejector assembly (11200) comprises a top plate (11210) and a driving mechanism (11220) for driving the top plate (11210) to move toward the direction of the bin opening, and an edge of the top plate (11210) for contacting the dough cake is configured as an arc-shaped face.

9. The dough cake conveying apparatus according to claim 1, wherein the dough cake feeding mechanism (11000) further comprises a material guide plate (11400) located downstream of the pushing direction of the pushing assembly (11200) for abutting against the feeding port (12100).

10. A hamburger machine comprising a tortilla conveyor according to any one of claims 1-9.

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