CN218851750U - Cake pressing and forming device - Google Patents

Abstract

The utility model discloses a press cake forming device relates to food processing technology field. The utility model comprises a top plate, a cylinder, a base block, an outer semi-ring and an inner semi-ring, wherein the two end parts of the bottom edge of the top plate are both fixed with side plates, the insides of the two side plates are both provided with sliding grooves in a penetrating way, sliding blocks are arranged in the two sliding grooves in a sliding way, one sides of the two sliding blocks opposite to each other are both fixed with lifting blocks, the bottom centers of the insides of the two side plates are both fixed with base blocks, and a spring is fixed between each lifting block and the base block; two one side that the elevator block is relative all swing joint has outer semi-ring, all swing joint has interior semi-ring on the relative inside wall of two outer semi-rings. The utility model discloses a set up outer semi-ring, cylinder, elevator, base block, spring, interior semi-ring, shape size, thickness and the position uncontrollable when having solved the pie suppression to and the problem of uncontrollable suppression pie size of dimensions when pressing the cake.

Description

Cake pressing and forming device

Technical Field

The utility model belongs to the technical field of food processing, especially, relate to a press cake forming device.

Background

Pie: the stuffed pancake is made into thin wrapper with flour, wrapped with stuffing of meat, vegetables and the like, and baked on a pot. In the mechanical processing process, mechanical stuffing is mostly wrapped, the stuffing is completely wrapped on the cake crust, the cake crust is pressed again to form a cake shape, and finally the cake is completely cooked in the processing steps of baking, frying and the like.

1. In the pie processing process, when a semi-finished product is pressed into a pie shape, although the size of the pressing plate is larger, the size, the thickness, the size and the like of each pressed pie shape are difficult to be completely consistent, and certain position deviation easily exists, so that the pies on one production line are not in the same straight line, and subsequent processing errors easily occur, such as inconsistent thickness and shape, inconsistent required duration and degree, such as position deviation, and deviation possibly occurs when the pie enters the next procedure for transfer, so that the whole pie is damaged;

2. according to the actual processing requirements, pies with different sizes are usually required, and a single pie pressing device cannot meet the actual requirements, only simply presses downwards to flatten the pies, and the size of the specifically formed pies cannot be controlled.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cake pressing forming device, through setting up outer semi-ring, cylinder, elevator, base block, spring, interior semi-ring, shape size, thickness and the position uncontrollable when having solved the pie suppression to and the problem of uncontrollable suppression pie size of a dimension when pressing the cake.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a cake pressing forming device, which comprises a top plate, a cylinder, a base block, an outer semi-ring and an inner semi-ring, wherein the two end parts of the bottom edge of the top plate are both fixed with side plates, the insides of the two side plates are both provided with sliding grooves in a penetrating way, the two sliding grooves are both provided with sliding blocks in a sliding way, one sides of the two sliding blocks opposite to each other are both fixed with lifting blocks, the bottom centers of the inner sides of the two side plates are both fixed with the base block, and a spring is fixed between each lifting block and the base block;

the top plate and the two side plates form a main body supporting part, the sliding block can slide up and down in the sliding groove and can drive the lifting block on the inner side of the sliding block and a structure arranged on the lifting block to lift and lower for use, and the lifting block can restore to the original position under the action of restoring deformation of the spring after being pressed down and lowered and the upper force is relieved by matching with the arrangement of the base block and the spring, so that the effect of automatic restoration is achieved;

the opposite sides of the two lifting blocks are movably connected with outer half rings, and the opposite inner side walls of the two outer half rings are movably connected with inner half rings; the two outer half rings may form a complete ring, and the two inner half rings may also form a complete ring, for example, a ring structure formed by the two outer half rings, in which a semi-finished pie is placed, and the inner region thereof is the shape of the final pressed pie, and the thickness and shape size of the pressing is directly controlled.

Furthermore, limiting grooves are formed in two sides of the sliding groove, limiting blocks are fixed to two sides of the sliding block, and the limiting blocks are limited in the limiting grooves; the limiting blocks and the limiting grooves are limited, so that the sliding blocks can be sufficiently limited in the sliding grooves, the sliding blocks can only move up and down, horizontal deviation cannot be generated, and the stability of lifting operation is guaranteed.

Further, the height of the base block is lower than that of the sliding chute; when the spring is compressed, a certain compression gap is still formed, and when the spring is compressed to the maximum degree, the bottom surface of the outer half ring just contacts with the working table (such as the upper surface of the conveyor belt).

Furthermore, an air cylinder is fixed at the center of the upper end of the top plate, a piston rod at the telescopic end of the air cylinder penetrates through the top plate and is fixedly connected with a pressing plate, and the pressing plate is positioned right above the outer semi-ring; the working of the cylinder drives the press plate to lift up and down, when the press plate descends, the semi-finished pie in the two outer semi-rings (or the two inner semi-rings) can be pressed until the semi-finished pie contacts the upper ends of the outer semi-rings, so that the semi-finished pie can be fully pressed.

Furthermore, the radius of the pressing plate is larger than the radius of the combined outer half ring and the height of the outer half ring is consistent with that of the inner half ring, and the large-area pressing plate can ensure that the pie in the outer half ring is completely pressed.

Furthermore, a first screw hole is formed in the inner side of the lifting block, a first screw rod is fixed at the center of the outer side wall of the outer half ring, and one end of the first screw rod, which is far away from the outer half ring, is screwed into the first screw hole; the outer semi-ring is screwed into the screw hole I through the screw rod I, so that the outer semi-ring can be assembled and connected with the lifting block, and can be lifted synchronously along with the lifting block.

Furthermore, a second screw hole is formed in the center of the inner wall of the outer half ring, a second screw rod is fixed in the center of the outer wall of the inner half ring, and one end, far away from the inner half ring, of the second screw rod is screwed into the second screw hole; the inner semi-ring is screwed into the screw hole II through the screw rod II, so that the inner semi-ring can be assembled and connected with the outer semi-ring, and the inner semi-ring can be synchronously lifted and lowered along with the outer semi-ring and the lifting block.

The utility model discloses following beneficial effect has:

1. the utility model solves the problem that the shape, the size, the thickness and the position of the pie can not be controlled when being pressed by arranging the outer semi-ring, the cylinder, the lifting block, the base block and the spring; when the semi-finished pie is pressed into a pie shape, if a pie structure consisting of two outer half rings is selected, the semi-finished pie is placed between the two combined outer half rings, the air cylinder is directly started to work, the pressing plate is driven to press downwards until the pressing plate contacts the upper end surfaces of the outer half rings, and the pie is positioned between the two outer half rings, so that the shape and the thickness of the inner areas of the two outer half rings can be formed after final pressing, the position cannot be deviated, the size and the thickness are limited, and the position deviation after pressing is avoided, so that the size and the specification of the pressed pie are accurately controlled, the size of each pie are consistent, and the error rate of subsequent processing is fundamentally reduced.

2. The utility model solves the problem that the size of the pressed pie can not be controlled by arranging the outer half ring and the inner half ring; when pies with different sizes are needed, if pies with smaller sizes are needed, the inner half rings are selected more reasonably, only the inner half rings are assembled in the outer half rings, then semi-finished pies are placed in the two inner half rings, and the operation that the pressing plates are driven by the air cylinders to press pies is repeated, so that the finally formed pies only have the shapes and the sizes of the inner areas of the two inner half rings.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a view showing the top plate and the side plate removed according to the present invention;

FIG. 3 is a schematic diagram of the outer half ring and the inner half ring of the present invention after separation;

FIG. 4 is a view showing the combination of the outer half ring and the inner half ring according to the present invention;

FIG. 5 is a connection diagram of the base block and the lifting block of the present invention;

fig. 6 is a structural diagram of another view angle of the present invention.

Reference numerals:

1. a top plate; 101. a side plate; 1011. a chute; 1012. a limiting groove; 2. a cylinder; 201. pressing a plate; 3. a base block; 301. a spring; 302. a lifting block; 3021. a first screw hole; 303. a slider; 3031. a limiting block; 4. an outer half ring; 401. a first screw rod; 4011. a second screw hole; 5. an inner half ring; 501. and a second screw.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Referring to fig. 1-6, the present invention relates to a cake pressing device, which comprises a top plate 1, a cylinder 2, a base block 3, an outer half ring 4 and an inner half ring 5, wherein two end portions of the bottom edge of the top plate 1 are both fixed with side plates 101, the insides of the two side plates 101 are both provided with sliding grooves 1011 in a penetrating manner, the inside of the two sliding grooves 1011 are both provided with sliding blocks 303 in a sliding manner, one sides of the two sliding blocks 303 opposite to each other are both fixed with lifting blocks 302, the centers of the bottom ends of the insides of the two side plates 101 are both fixed with the base block 3, and a spring 301 is fixed between each lifting block 302 and the base block 3;

the top plate 1 and the two side plates 101 form a main body supporting part, the sliding block 303 can slide up and down in the sliding groove 1011, and can drive the lifting block 302 on the inner side of the sliding block 303 and a structure mounted on the lifting block to lift and lower for use, and the lifting block can restore to the original position under the action of restoring deformation of the spring 301 after the lifting block is pressed down and the force above the lifting block is relieved by matching with the arrangement of the base block 3 and the spring 301, so that the automatic resetting effect is achieved;

the opposite sides of the two lifting blocks 302 are movably connected with outer half rings 4, and the opposite inner side walls of the two outer half rings 4 are movably connected with inner half rings 5;

the two outer half rings 4 may form a complete ring and the two inner half rings 5 may form a complete ring, for example, the ring structure formed by the two outer half rings 4 is a ring structure in which the semi-finished pie is placed, and the inner area is the shape of the final pressed pie, which directly controls the thickness and shape size of the pressing.

As shown in fig. 1-5, two sides of the sliding groove 1011 are provided with a limiting groove 1012, two sides of the slider 303 are fixed with a limiting block 3031, and the limiting block 3031 is limited in the limiting groove 1012;

through the limiting arrangement of the limiting block 3031 and the limiting groove 1012, the sliding block 303 can be fully limited in the sliding groove 1011, so that the sliding block can only move up and down without horizontal deviation, and the stability of the lifting operation is ensured;

the height of the base block 3 is lower than that of the sliding chute 1011; so that when the spring 301 is compressed, there is still a certain compression gap, and when the spring 301 is compressed to the maximum, the bottom surface of the outer half ring 4 just contacts the working table (e.g. the upper surface of the conveyor belt).

As shown in fig. 1-4, an air cylinder 2 is fixed at the center of the upper end of the top plate 1, a piston rod at the telescopic end of the air cylinder 2 penetrates through the top plate 1 and is fixedly connected with a pressure plate 201, and the pressure plate 201 is positioned right above the outer half ring 4;

the operation of the cylinder 2 drives the pressing plate 201 to lift up and down, when the pressing plate descends, the semi-finished pie in the two outer half rings 4 (or in the two inner half rings 5) can be pressed until the semi-finished pie contacts the upper ends of the outer half rings 4, so that the semi-finished pie can be fully pressed, due to the limitation of the two outer half rings 4, the pie can only be in the outer half rings 4, and the size and the thickness of the pressed pie are the size of the inner areas of the two outer half rings 4, so that the size and the thickness are limited, the position deviation generated in pressing is avoided, and the pie can only be limited in the two outer half rings 4 to be pressed;

the radius of the pressure plate 201 is larger than the combined radius of the two outer half rings 4, and the heights of the outer half rings 4 and the inner half rings 5 are consistent; the large area of the pressing plate 201 ensures that the pie inside the outer half ring 4 is completely pressed.

As shown in fig. 3-4, a first screw hole 3021 is formed in the inner side of the lifting block 302, a first screw 401 is fixed at the center of the outer side wall of the outer half ring 4, and one end of the first screw 401, which is far away from the outer half ring 4, is screwed into the first screw hole 3021; the outer half ring 4 is screwed into the screw hole 3021 through the screw rod I401, so that the assembly and the connection with the lifting block 302 can be completed, and the outer half ring can be lifted synchronously with the lifting block 302;

a second screw hole 4011 is formed in the center of the inner wall of the outer half ring 4, a second screw 501 is fixed in the center of the outer wall of the inner half ring 5, and one end, far away from the inner half ring 5, of the second screw 501 is screwed into the second screw hole 4011; the inner half ring 5 is screwed into the screw hole II 4011 through the screw rod II 501, and then can be assembled and connected with the outer half ring 4, and can be synchronously lifted and lowered along with the outer half ring 4 and the lifting block 302.

The utility model discloses a concrete theory of operation does: a pressing working table (such as the upper surface of a conveyor belt) of a semi-finished pie (i.e. the semi-finished pie not pressed into a pie) is positioned between the two base blocks 3, the semi-finished pie not pressed into a pie is sent to the position below the two outer half rings 4 (the inner half ring 5 is detached), then the pressing plate 201 is driven to lift up and down through the work of the air cylinder 2, when the semi-finished pie descends, the semi-finished pie in the two outer half rings 4 can be pressed until the semi-finished pie contacts the upper end of the outer half rings 4, so that the semi-finished pie is fully pressed, due to the limitation of the two outer half rings 4, the pie only can be in the outer half rings 4, the size of the inner areas of the two outer half rings 4 is obtained after the pressing, then the air cylinder 2 drives the pressing plate 201 to lift up, the lifting block 302 and the sliding block 303 restore to the original state under the action of the spring 301 to lift up, so as to drive the outer half rings 4 to lift up, the pressed pie in the two outer half rings 4 leaks out, then the formed pie is sent, and a new semi-finished pie is continuously introduced, and the mode is repeated; if a smaller pie is required, the inner half rings 5 are simply assembled inside the outer half rings 4, the semi-finished pie is transferred into the two inner half rings 5, and the pressing operation is repeated, so that a pie with the same size as the inner area of the two inner half rings 5 is finally formed.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (7)

1. The utility model provides a pressure cake forming device, includes roof (1), cylinder (2), base block (3), outer semi-ring (4) and interior semi-ring (5), its characterized in that: the two end parts of the bottom edge of the top plate (1) are both fixed with side plates (101), sliding grooves (1011) are formed in the two side plates (101) in a penetrating mode, sliding blocks (303) are arranged in the two sliding grooves (1011) in a sliding mode, lifting blocks (302) are fixed on the opposite sides of the two sliding blocks (303), base blocks (3) are fixed at the centers of the bottom ends of the inner sides of the two side plates (101), and springs (301) are fixed between each lifting block (302) and each base block (3);

two one side that elevator block (302) is relative all swing joint has outer semi-ring (4), all swing joint has interior semi-ring (5) on the relative inside wall of two outer semi-rings (4).

2. A press cake forming apparatus as claimed in claim 1, wherein: limiting grooves (1012) are formed in two sides of the sliding groove (1011), limiting blocks (3031) are fixed to two sides of the sliding block (303), and the limiting blocks (3031) are limited in the limiting grooves (1012).

3. A press cake forming apparatus as claimed in claim 1, wherein: the height of the base block (3) is lower than that of the sliding chute (1011).

4. A press cake forming apparatus as claimed in claim 1, wherein: the upper end center department of roof (1) is fixed with cylinder (2), and the piston rod of the flexible end of cylinder (2) runs through roof (1) and fixedly connected with clamp plate (201), and clamp plate (201) are located outer semi-ring (4) directly over.

5. A press cake forming apparatus as claimed in claim 4, wherein: the radius of the pressure plate (201) is larger than the radius of the combined outer half ring (4), and the heights of the outer half ring (4) and the inner half ring (5) are consistent.

6. A press cake forming apparatus as claimed in claim 1, wherein: a first screw hole (3021) is formed in the inner side of the lifting block (302), a first screw rod (401) is fixed at the center of the outer side wall of the outer half ring (4), and one end, far away from the outer half ring (4), of the first screw rod (401) is screwed into the first screw hole (3021).

7. A press cake forming apparatus as claimed in claim 1, wherein: screw hole II (4011) is seted up at the inner wall center of outer semi-ring (4), the outer wall center of interior semi-ring (5) is fixed with screw rod II (501), and screw rod II (501) keep away from the one end screw in screw hole II (4011) of interior semi-ring (5).

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