CN111869689A - Frying and roasting mechanism - Google Patents

Abstract

The invention provides a frying and roasting mechanism, which comprises: a first heating plate; the second heating plate is arranged on the side of the first heating plate, the second heating plate and the first heating plate are movably arranged along the direction relatively close to or far away from each other so as to form a heating cavity for frying and roasting food materials between the first heating plate and the second heating plate, and a discharge hole is formed in the bottom of the heating cavity; the gate assembly, the at least part setting of gate assembly is in discharge gate department, and the gate assembly has shelters from the position and dodges the position, and the gate assembly shelters from the position and dodges movably setting between the position to be used for sheltering from or dodge the discharge gate, in order to solve the problem that the edible material machining efficiency among the prior art is low.

Description

Frying and roasting mechanism

Technical Field

The invention relates to the field of food material processing, in particular to a frying and roasting mechanism.

Background

Currently, in the field of food processing and making, with the increasing demand, more and more food material processing is controlled through pipeline automation.

However, in the automatic hamburger production process, independent ovens or ovens are generally used for pancake baking, electromagnetic heating or heating plate heating is used for keeping away from the hamburger, extrusion and turnover baking are completed manually, then the food materials which are baked are placed to the next station manually, the food materials can not fall into the next station directly after being baked, the time for food material processing is wasted by utilizing a manual operation mode, the food materials are moved manually, the situation that the food materials fall off in the moving process can be caused, and the processing efficiency of the food materials is reduced while the food materials are wasted.

Disclosure of Invention

The invention mainly aims to provide a frying and roasting mechanism to solve the problem of low food material processing efficiency in the prior art.

In order to achieve the above object, the present invention provides a frying and roasting mechanism, comprising: a first heating plate; the second heating plate is arranged on the side of the first heating plate, the second heating plate and the first heating plate are movably arranged along the direction relatively close to or far away from each other so as to form a heating cavity for frying and roasting food materials between the first heating plate and the second heating plate, and a discharge hole is formed in the bottom of the heating cavity; the gate assembly, at least part setting of gate assembly is in discharge gate department, and the gate assembly has shelters from the position and dodges the position, and the gate assembly shelters from the position and dodges movably setting between the position to be used for sheltering from or dodge the discharge gate.

Further, the gate assembly includes: a shielding plate rotatably disposed about a predetermined axis to move between a shielding position and an avoidance position; and the driving part is in driving connection with the shielding plate so as to drive the shielding plate to rotate.

Further, the shielding plate includes: the first plate body is connected with the driving part; a second plate body; the third plate body, at least part of third plate body is relative with the discharge gate, and the third plate body passes through the second plate body to be connected with the first plate body, has first predetermined contained angle between first plate body and the second plate body, has the predetermined contained angle of second between the second plate body and the third plate body to constitute the stair structure between messenger's first plate body, second plate body and the third plate body.

Further, the driving part includes: the shielding plate is arranged on the rotating shaft so as to drive the shielding plate to move through the rotating shaft; and the rotating cylinder is in driving connection with the rotating shaft so as to drive the rotating shaft to rotate through the rotating cylinder.

Furthermore, a mounting plane is arranged on the rotating shaft, and at least part of the shielding plate is connected with the rotating shaft through the mounting plane.

Further, fry roast mechanism still includes: a mounting seat; the mounting seat and the fixing plate are arranged oppositely, and the first heating plate and the second heating plate are both arranged between the mounting seat and the fixing plate; the fixed plate includes: the first heating plate is connected with the first fixing plate, at least part of the gate assembly is connected with the second fixing plate, and the first fixing plate is perpendicular to the second fixing plate.

Furthermore, two second heating plates are arranged on two sides of the first heating plate respectively so as to form two heating cavities on two sides of the first heating plate; the gate assemblies are two groups, and the two groups of gate assemblies are arranged in one-to-one correspondence with the two heating cavities.

Further, be provided with the direction space on the side of second hot plate, fry in shallow oil roast mechanism still includes: the guide part is fixedly arranged on the first heating plate, and at least part of the free end of the guide part penetrates through the guide space and then is connected with the second heating plate so as to guide the second heating plate in the moving process of the second heating plate.

Further, fry roast mechanism still includes: the driving assembly is at least partially arranged on the mounting seat and is in driving connection with the second heating plate so as to drive the second heating plate to move; the buffer assembly is provided with a buffer part in a telescopic arrangement, and the buffer end of the buffer part is connected with the second heating plate.

Further, the side of mount pad is provided with dodges the opening, and the at least part of buffering subassembly is connected with the second hot plate through dodging the opening.

By applying the technical scheme, the frying and baking mechanism comprises a first heating plate, a second heating plate and a gate assembly, wherein the second heating plate is arranged on the side of the first heating plate, the second heating plate and the first heating plate are movably arranged along the direction close to or far away from each other so as to form a heating cavity used for frying and baking food materials between the first heating plate and the second heating plate, a discharge hole is formed in the bottom of the heating cavity, at least part of the gate assembly is arranged at the discharge hole, the gate assembly is provided with a shielding position and an avoiding position, and the gate assembly is movably arranged between the shielding position and the avoiding position and used for shielding or avoiding the discharge hole. Through setting up the gate assembly, can shelter from the discharge gate when eating material man-hour, avoid eating the material and fall out by heating the intracavity, eat material processing and accomplish the back, open the gate assembly in order to dodge the discharge gate, the messenger eats the automatic discharging after material processing is accomplished, need not artifical manual operation, has improved the machining efficiency who eats the material.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 shows a schematic structural diagram of an embodiment of a broiling mechanism according to the invention;

FIG. 2 shows a schematic view of a first perspective of an embodiment of a grilling mechanism according to the present invention;

FIG. 3 is a schematic view showing a blocking position of a gate assembly of the grilling mechanism according to the present invention;

FIG. 4 is a schematic view of an escape position of a gate assembly of the fry baking mechanism according to the present invention;

FIG. 5 is a schematic diagram of the heating chamber of the grilling mechanism according to the present invention;

FIG. 6 shows a schematic structural view of an embodiment of a second heating plate of the broiling mechanism according to the invention; and

fig. 7 shows a schematic structural view of an embodiment of a first heating plate of the broiling mechanism according to the invention.

Wherein the figures include the following reference numerals:

2. a frying and baking mechanism; 20. a heating cavity; 201. a discharge port; 21. a first heating plate; 22. a second heating plate; 23. a mounting seat; 230. avoiding the opening; 24. a drive assembly; 25. a buffer assembly; 240. a telescopic cylinder; 241. connecting blocks; 26. a sliding assembly; 260. a slide rail; 261. a slider; 27. a gate assembly; 270. a shielding plate; 2701. a first plate body; 2702. a second plate body; 2703. a third plate body; 271. a rotating shaft; 272. rotating the cylinder; 220. a heating element; 221. a heat insulating member; 210. a guide member; 250. a buffer head; 28. and (7) fixing the plate.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

The present invention provides a frying and roasting mechanism, please refer to fig. 1 to 7, comprising: a first heating plate 21; the second heating plate 22 is arranged on the side of the first heating plate 21, the second heating plate 22 and the first heating plate 21 are movably arranged along the direction relatively close to or far away from each other, so that a heating cavity 20 for frying and roasting food materials is formed between the first heating plate 21 and the second heating plate 22, and a discharge hole 201 is formed in the bottom of the heating cavity 20; the gate assembly 27, at least part of the gate assembly 27 is arranged at the discharge port 201, the gate assembly 27 has a shielding position and an avoiding position, and the gate assembly 27 is movably arranged between the shielding position and the avoiding position so as to shield or avoid the discharge port 201.

According to the frying and roasting mechanism 2 provided by the invention, the frying and roasting mechanism comprises a first heating plate 21, a second heating plate 22 and a gate assembly 27, wherein the second heating plate 22 is arranged on the side of the first heating plate 21, the second heating plate 22 and the first heating plate 21 are movably arranged along the relatively approaching or separating direction so as to form a heating cavity 20 used for frying and roasting food materials between the first heating plate 21 and the second heating plate 22, a discharging hole 201 is arranged at the bottom of the heating cavity 20, at least part of the gate assembly 27 is arranged at the discharging hole 201, the gate assembly 27 has a shielding position and an avoiding position, and the gate assembly 27 is movably arranged between the shielding position and the avoiding position so as to shield or avoid the discharging hole 201. Through setting up gate assembly 27, can shelter from discharge gate 201 when eating material man-hour, avoid eating the material and fall out in heating chamber 20, eat material processing and accomplish the back, open gate assembly 27 in order to dodge discharge gate 201, make and eat material processing and accomplish back automatic discharging, need not artifical manually operation, improved the machining efficiency who eats the material.

Specifically, fry in shallow oil roast mechanism 2 still includes control system, and control system has time-recorder and infrared inductor, and infrared inductor installs on shutter 270 of gate subassembly 27, and the time-recorder has the timing function, and the time to eating material processing is timed, and after eating material heating to scheduled time, control system control gate subassembly 27 opened, and gate subassembly 27 utilizes infrared inductor to sense to have the material of eating to pass through, with signal transmission to control system, control system control gate subassembly 27 closes.

In the course of the specific implementation, the shutter assembly 27 comprises: a shielding plate 270, the shielding plate 270 being rotatably provided about a predetermined axis to move between a shielding position and an avoidance position; and the driving part is in driving connection with the shielding plate 270 so as to drive the shielding plate 270 to rotate. Simple structure that sets up like this can realize sheltering from or dodging discharge gate 201 through shielding plate 270, is convenient for install and maintain.

In the embodiment provided by the present invention, the shielding plate 270 includes: the first plate body 2701, the first plate body 2701 is connected with the driving part; the second plate 2702; at least part of the third plate body 2703 is opposite to the discharge hole 201, the third plate body 2703 is connected with the first plate body 2701 through the second plate body 2702, a first predetermined included angle is formed between the first plate body 2701 and the second plate body 2702, and a second predetermined included angle is formed between the second plate body 2702 and the third plate body 2703, so that a step structure is formed among the first plate body 2701, the second plate body 2702 and the third plate body 2703. The arrangement enables the first heating plate 21 or the second heating plate 22 to be avoided by the stepped structure, so that the shielding plate 270 can completely shield the discharge port 201.

The drive part includes: a rotating shaft 271, on which the shielding plate 270 is mounted, to drive the shielding plate 270 to move through the rotating shaft 271; and a rotating cylinder 272, wherein the rotating cylinder 272 is in driving connection with the rotating shaft 271, so that the rotating shaft 271 is driven to rotate through the rotating cylinder 272. Wherein the rotation shaft 271 is preferably disposed below the second heating plate 22, interference of the rotation shaft 271 with the second heating plate 22 during movement of the second heating plate 22 is prevented by the stepped structure of the shielding plate 270.

In the embodiment provided by the present invention, the rotating shaft 271 is provided with a mounting plane, and at least a portion of the shielding plate 270 is connected to the rotating shaft 271 through the mounting plane. Since the shielding plate 270 is a plate structure and the outer surface of the rotating shaft 271 is a circular arc surface, the shielding plate 270 is directly connected with the rotating shaft 271, so that the connecting area is small, and the connection is unstable; by arranging the installation plane on the rotating shaft 271, the connection area between the rotating shaft 271 and the shielding plate 270 is increased, the connection strength between the shielding plate and the rotating shaft 271 is ensured, and the control precision of the rotating shaft 271 on the shielding plate 270 is increased.

The frying and roasting mechanism 2 further comprises: a mount 23; the fixing plate 28, the mounting seat 23 is arranged opposite to the fixing plate 28, and the first heating plate 21 and the second heating plate 22 are both mounted between the mounting seat 23 and the fixing plate 28; the fixing plate 28 includes: the first heating plate 21 is connected to the first fixing plate, and at least a portion of the gate assembly 27 is connected to the second fixing plate, which are perpendicular to each other. Specifically, a first end of the rotation shaft 271 is mounted on the mounting seat 23, a second end of the rotation shaft 271 is mounted on a second fixing plate of the fixing plate 28, and at least a portion of the rotation cylinder 272 is mounted on the second fixing plate, so that the connection of the first heating plate 21 can be more stably made through the fixing plate 28, and the installation of the shutter assembly 27 is also facilitated.

Further, there are two second heating plates 22, and the two second heating plates 22 are respectively disposed at two sides of the first heating plate 21 to form two heating cavities 20 at two sides of the first heating plate 21; the gate assemblies 27 are provided in two sets, and the two sets of gate assemblies 27 are disposed in one-to-one correspondence with the two heating cavities 20.

Be provided with the guide space on the side of second hot plate 22, fry in shallow oil roast mechanism and still include: and a guide unit 210, the guide unit 210 being fixedly installed on the first heating plate 21, at least a portion of a free end of the guide unit 210 being connected to the second heating plate 22 after passing through the guide space, to guide the second heating plate 22 during the movement of the second heating plate 22. The second heating plate 22 can be guided through the guide part 210 by the arrangement, the second heating plate can be supported through the guide part 210, preferably, the guide part 210 is a guide plate, a sliding groove is formed in the guide plate, a guide rod is arranged on one side of the second heating plate 22, inserted into the sliding groove and moved in the sliding groove, and the second heating plate 22 can be supported while being guided through the mutual matching between the guide rod and the sliding groove. Preferably, the second heating plate has a heating element 220 and a heat insulating member 221, the heat insulating member 221 being disposed around the heating element 220, wherein the guide bar is disposed between the heating element and the heat insulating member.

The frying and roasting mechanism further comprises: a driving assembly 24, at least part of the driving assembly 24 is mounted on the mounting seat 23, and the driving assembly 24 is in driving connection with the second heating plate 22 to drive the second heating plate 22 to move; and the buffering component 25 is provided with a buffering part which can be arranged in a telescopic way, and the buffering end of the buffering part is connected with the second heating plate 22. Make second hot plate 22 more stable at the removal in-process through setting up buffering subassembly 25, avoid second hot plate 22 to shake and then produce the abnormal sound at the removal in-process, improved the operating stability who fries roast mechanism 2.

Further, an escape opening 230 is provided at a side of the mounting seat 23, and at least a portion of the cushion member 25 is connected to the second heating plate 22 through the escape opening 230. The buffer member 25 has a buffer head 250, and the buffer head 250 is connected to the second heating plate 22. Preferably, the buffer member 25 is a hydraulic buffer, and a piston rod of the hydraulic buffer is connected to the second heating plate.

In a specific implementation, the drive assembly 24 includes: a telescopic cylinder 240, the telescopic cylinder 240 having a telescopic rod; the connecting block 241, the pushing end of the telescopic rod is connected with the connecting block 241, and the connecting block 241 is connected with the second heating plate 22. Preferably, the connection block 241 includes a first portion and a second portion, the first portion of the connection block 241 is connected to the telescopic rod, and the second portion of the connection block 241 is connected to the second heating plate 22 through the escape opening.

Further, the frying and roasting mechanism 2 further comprises: a slide assembly 26, at least a portion of slide assembly 26 being mounted on mount 23, slide assembly 26 comprising: the slide rail 260, the slide rail 260 is installed on the mount 23, be provided with the slider 261 on the slide rail 260, the at least part of connecting block 241 is connected with slider 261. Through setting up sliding assembly 26, make second hot plate 22 more stable in the removal process, through mutually supporting with guide part 210, guide second hot plate 22. Through the telescopic link, can real time control second hot plate 22's removal stroke to the size in heating chamber is eaten material adjustment to different.

Sliding assembly 26 is two sets of, and two sets of sliding assembly 26 all set up on the mount pad, and two sets of sliding assembly 26 set up along the extending direction looks interval of mount pad 23, and two sets of sliding assembly 26 include first sliding assembly and second sliding assembly, and the first end of connecting block is connected with first sliding assembly's slider 261, and the second end of connecting block 241 is connected with second sliding assembly's slider 261. This arrangement can improve the stability of the second heating plate 22 during sliding.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:

the frying and baking mechanism 2 provided by the invention comprises a first heating plate 21, a second heating plate 22 and a gate assembly 27, wherein the second heating plate 22 is arranged on the side of the first heating plate 21, the second heating plate 22 and the first heating plate 21 are movably arranged along the direction close to or away from each other so as to form a heating cavity 20 for frying and baking food materials between the first heating plate 21 and the second heating plate 22, a discharge hole 201 is arranged at the bottom of the heating cavity 20, at least part of the gate assembly 27 is arranged at the discharge hole 201, the gate assembly 27 has a shielding position and an avoiding position, and the gate assembly 27 is movably arranged between the shielding position and the avoiding position so as to shield or avoid the discharge hole 201. Through setting up gate assembly 27, can shelter from discharge gate 201 when eating material man-hour, avoid eating the material and fall out in heating chamber 20, eat material processing and accomplish the back, open gate assembly 27 in order to dodge discharge gate 201, make and eat material processing and accomplish back automatic discharging, need not artifical manually operation, improved the machining efficiency who eats the material.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A frying and roasting mechanism, comprising:

a first heating plate (21);

the second heating plate (22), the second heating plate (22) is arranged on the side of the first heating plate (21), the second heating plate (22) and the first heating plate (21) are movably arranged along the direction relatively close to or far away from each other, so that a heating cavity (20) for frying and roasting food materials is formed between the first heating plate (21) and the second heating plate (22), and a discharge hole (201) is formed in the bottom of the heating cavity (20);

the gate assembly (27), at least part of gate assembly (27) sets up in discharge gate (201), gate assembly (27) have shelters from the position and dodge the position, gate assembly (27) shelters from the position and dodge the position between movably to be set up for sheltering from or dodge discharge gate (201).

2. The grilling mechanism as recited in claim 1, wherein said gate assembly (27) comprises:

a shutter (270), the shutter (270) being rotatably provided about a predetermined axis to move between the shielding position and the avoidance position;

the driving component is in driving connection with the shielding plate (270) to drive the shielding plate (270) to rotate.

3. The grilling mechanism as recited in claim 2, wherein said shutter (270) comprises:

a first plate body (2701), wherein the first plate body (2701) is connected with the driving part;

a second plate body (2702);

the discharge hole (201) is formed in the first plate body (2701), at least part of the third plate body (2703) is opposite to the discharge hole (201), the third plate body (2703) is connected with the first plate body (2701) through the second plate body (2702), a first preset included angle is formed between the first plate body (2701) and the second plate body (2702), and a second preset included angle is formed between the second plate body (2702) and the third plate body (2703), so that a step structure is formed among the first plate body (2701), the second plate body (2702) and the third plate body (2703).

4. The grilling mechanism as recited in claim 2 wherein said drive component comprises:

the rotating shaft (271) is used for mounting the shielding plate (270) on the rotating shaft (271) so as to drive the shielding plate (270) to move through the rotating shaft (271);

the rotating cylinder (272) is in driving connection with the rotating shaft (271), so that the rotating shaft (271) is driven to rotate through the rotating cylinder (272).

5. Frying and roasting mechanism according to claim 4, characterized in that the rotating shaft (271) is provided with a mounting plane, through which at least part of the shielding plate (270) is connected to the rotating shaft (271).

6. The grilling mechanism as recited in any one of claims 1-5 further comprising:

a mounting seat (23);

the fixing plate (28), the mounting seat (23) and the fixing plate (28) are arranged oppositely, and the first heating plate (21) and the second heating plate (22) are both mounted between the mounting seat (23) and the fixing plate (28); the fixing plate (28) includes: the heating device comprises a first fixing plate and a second fixing plate, wherein the first heating plate (21) is connected with the first fixing plate, at least part of the gate assembly (27) is connected with the second fixing plate, and the first fixing plate and the second fixing plate are perpendicular to each other.

7. The grilling mechanism according to any of claims 1 to 5, characterized in that said second heating plates (22) are two, two of said second heating plates (22) being respectively arranged on both sides of said first heating plate (21) to form two of said heating cavities (20) on both sides of said first heating plate (21);

the two gate assemblies (27) are arranged in two groups, and the two gate assemblies (27) are arranged in one-to-one correspondence with the two heating cavities (20).

8. The frying and roasting mechanism according to claim 7, wherein a guide space is provided on a side surface of the second heating plate (22), the frying and roasting mechanism further comprising:

the guide part (210) is fixedly arranged on the first heating plate (21), at least part of the free end of the guide part (210) penetrates through the guide space and then is connected with the second heating plate (22) so as to guide the second heating plate (22) in the moving process of the second heating plate (22).

9. The grilling mechanism as recited in claim 6 further comprising:

a driving assembly (24), at least part of the driving assembly (24) is mounted on the mounting seat (23), and the driving assembly (24) is in driving connection with the second heating plate (22) to drive the second heating plate (22) to move;

buffer assembly (25), buffer assembly (25) have the buffer portion of scalable setting, the buffering end of buffer portion with second hot plate (22) are connected.

10. The frying and roasting mechanism according to claim 9, wherein an escape opening (230) is provided at a side of the mounting seat (23), and at least a portion of the buffer assembly (25) is connected to the second heating plate (22) through the escape opening (230).

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