CN220326781U - Donkey-hide gelatin cake compaction device - Google Patents

Abstract

The utility model provides a donkey-hide gelatin cake compaction device, which comprises: the support frame, hold box and depression bar, the support frame is equipped with two identical groups, and two sets of support frames are mirror symmetry, and a set of pivot is installed to two sets of support frame left end inboard, compares with prior art, and the beneficial effect of this utility model has as follows: through setting up holding box, draw runner and support frame, it is fixed with two sets of support frames to make the mode that holds the box through draw runner and spout sliding connection, thereby conveniently hold the dismantlement and the installation of box, convenient to use, through setting up the depression bar, clamp plate and handle, through holding the mode that the handle pressed the depression bar, make the clamp plate press into the indent inside holding the box, thereby accomplish the work of donkey-hide gelatin cake compaction, through setting up the buffer, the swivel ball, ball groove and briquetting, make the briquetting and the inside spring contact of buffer when pushing down of depression bar, play the cushioning effect, prevent that the too big damage of pressing force holds the box, simultaneously after removing pressure, the spring resilience makes the depression bar lift up and become convenient and fast.

Description

Donkey-hide gelatin cake compaction device

Technical Field

The utility model belongs to the technical field of compaction devices, and particularly relates to a donkey-hide gelatin cake compaction device.

Background

The donkey-hide gelatin cake compaction device is a professional equipment for processing donkey-hide gelatin cake, and the main role of donkey-hide gelatin cake compaction device is to mix the raw materials of donkey-hide gelatin cake evenly after, through certain pressure, compact it into solid form to follow-up cutting and packing, if the structure of a donkey-hide gelatin cake compaction device is too complicated, the following problem probably can appear:

the use difficulty is increased: the device with complex structure requires more operation steps and skills, and a user may need to spend more time learning and mastering the use method, which increases the difficulty of use.

Maintenance is difficult: the complex structure of the device often consists of more parts, which may be more difficult to maintain and repair, requiring more time and effort to inspect and repair the various parts, increasing maintenance costs and effort.

The failure rate increases: because of the complex structure, the coordination relationship among the components in the device is more complex, faults are easy to occur, and once the faults occur, more time and energy are required for repairing, so that the normal operation of production is influenced.

In summary, if the structure of the donkey-hide gelatin cake compacting device is too complex, problems such as increased difficulty in use, difficulty in maintenance, and increased failure rate may be caused, and therefore, we want to develop a donkey-hide gelatin cake compacting device for solving the above problems.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide a donkey-hide gelatin cake compacting device which solves the problems in the background art.

The utility model is realized by the following technical scheme: a donkey-hide gelatin cake compaction apparatus comprising: the support frame is provided with two identical groups of support frames, the two groups of support frames are in mirror symmetry, and a group of rotating shafts are arranged on the inner sides of the left ends of the two groups of support frames;

two groups of same supporting feet are respectively arranged at the left and right positions of the bottom of each group of supporting frames, the supporting feet are made of rubber materials, a group of containing boxes are arranged between the two groups of supporting frames, the tops of the containing boxes are inwards recessed to form a group of pressing grooves, and a handle is arranged on the right side of each containing box;

the position is equipped with two sets of the same depression bars around holding the box top, and two sets of depression bars are mirror symmetry, have all seted up a set of the same through-hole on the left end internal surface of two sets of depression bars, and the pivot passes inside two sets of through-holes, and two sets of depression bars right side be by the structure that left to right slope risen, and the pivot is convenient for the depression bar around its rotation, and the handle conveniently pulls out and promotes and hold the box.

As a preferred implementation mode, a group of same sliding grooves are formed below the inner sides of the two groups of supporting frames, and the two groups of sliding grooves are in mirror symmetry.

As a preferred implementation mode, a group of sliding strips are arranged on the front surface and the back surface of the accommodating box, the positions of the sliding strips correspond to the positions of the sliding grooves, the thickness of the sliding strips is smaller than the height of the sliding grooves, the width of the sliding strips is smaller than the depth of the sliding grooves, the sliding strips can be inserted into the sliding grooves and slide in the sliding grooves, and accordingly the accommodating box is driven to move.

As a preferred implementation mode, a group of pressing plates are fixedly connected to the lower positions of the centers of the two groups of pressing rods, the length and the width of the pressing plates are smaller than those of the pressing grooves, a group of handles are mounted on the inner sides of the right ends of the two groups of pressing rods, anti-slip stripes are arranged on the surfaces of the handles, the pressing plates can be completely pressed into the pressing grooves, and the anti-slip stripes play a role in increasing friction.

As a preferred implementation mode, two groups of buffers are arranged below the two groups of compression bars, the tops of the buffers are inwards recessed to form a group of accommodating cavities, pressing holes are formed in the tops of the buffers, and springs are arranged in the accommodating cavities.

As a preferred implementation mode, a group of ball grooves are formed in the bottoms of the left ends of the two groups of compression bars, a group of rotating balls are arranged in the ball grooves, the radius length of each rotating ball is larger than that of each ball groove, and the rotating balls are prevented from falling from the inside of each ball groove.

As a preferred implementation mode, a group of pressing blocks are arranged below the left ends of the two groups of pressing rods, the top of each pressing block is fixedly connected with the bottom of the corresponding rotating ball, the bottom of each pressing block is inserted into the corresponding pressing hole, and the pressing blocks are always kept in a vertical state below the corresponding pressing holes through rotation of the corresponding rotating balls.

After the technical scheme is adopted, the utility model has the beneficial effects that: through setting up holding box, draw runner and support frame, it is fixed with two sets of support frames to make the mode that holds the box through draw runner and spout sliding connection, thereby conveniently hold the dismantlement and the installation of box, convenient to use, through setting up the depression bar, clamp plate and handle, through holding the mode that the handle pressed the depression bar, make the clamp plate press into the indent inside holding the box, thereby accomplish the work of donkey-hide gelatin cake compaction, through setting up the buffer, the swivel ball, ball groove and briquetting, make the briquetting and the inside spring contact of buffer when pushing down of depression bar, play the cushioning effect, prevent that the too big damage of pressing force holds the box, simultaneously after removing pressure, the spring resilience makes the depression bar lift up and become convenient and fast.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic diagram of the internal structure of a compaction device for donkey-hide gelatin cake according to the present utility model.

Fig. 2 is a schematic structural view of a supporting frame in a donkey-hide gelatin cake compacting device according to the present utility model.

Fig. 3 is a schematic structural view of a receiving box in a device for compacting donkey-hide gelatin cake according to the present utility model.

Fig. 4 is a schematic structural diagram of a buffer in a device for compacting donkey-hide gelatin cake according to the present utility model.

In the figure, 100-supporting frames, 110-compression bars, 120-rotating shafts, 130-supporting feet, 140-containing boxes, 150-buffers, 160-sliding grooves, 170-handles, 180-sliding strips, 190-pressing holes, 200-springs, 210-ball grooves, 220-rotating balls, 230-pressing blocks, 240-handles, 250-pressing plates and 260-pressing grooves.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only one end embodiment of the present utility model, not the all-end embodiment. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Please refer to fig. 1-4: a donkey-hide gelatin cake compaction apparatus comprising: the support frame 100, the accommodating box 140 and the compression bar 110 are arranged in the same two groups, the two groups of support frames 100 are in mirror symmetry, and a group of rotating shafts 120 are arranged on the inner sides of the left ends of the two groups of support frames 100;

two groups of same supporting legs 130 are arranged at left and right positions of the bottom of each group of supporting frames 100, the supporting legs 130 are made of rubber, a group of containing boxes 140 are arranged between the two groups of supporting frames 100, the tops of the containing boxes 140 are inwards recessed to form a group of pressing grooves 260, and handles 170 are arranged on the right sides of the containing boxes 140;

the front and back positions above the accommodating box 140 are provided with two groups of identical pressure rods 110, the two groups of pressure rods 110 are in mirror symmetry, the left end inner surfaces of the two groups of pressure rods 110 are provided with a group of identical through holes, the rotating shaft 120 penetrates through the two groups of through holes, the right sides of the two groups of pressure rods 110 are in a structure of ascending from left to right in gradient, the rotating shaft 120 is convenient for the pressure rods 110 to rotate around the rotating shaft, and the handle 170 is convenient for pulling out and pushing the accommodating box 140.

Referring to fig. 1 and 2, a set of identical sliding grooves 160 are disposed below the inner sides of the two sets of supporting frames 100, and the two sets of sliding grooves 160 are in mirror symmetry.

Referring to fig. 2 and 3, a set of sliding strips 180 are disposed on the front and back sides of the accommodating box 140, the positions of the sliding strips 180 correspond to the positions of the sliding grooves 160, the thickness of the sliding strips 180 is smaller than the height of the sliding grooves 160, and the width of the sliding strips 180 is smaller than the depth of the sliding grooves 160, so that the sliding strips 180 can be inserted into the sliding grooves 160 and slide in the sliding grooves 160, and the accommodating box 140 is driven to move.

Referring to fig. 1, a set of pressing plates 250 are fixedly connected to the lower positions of the centers of the two sets of pressing rods 110, the length and width of the pressing plates 250 are smaller than those of the pressing grooves 260, a set of handles 240 are mounted on the inner sides of the right ends of the two sets of pressing rods 110, and anti-slip stripes are arranged on the surfaces of the handles 240, so that the pressing plates 250 can be completely pressed into the pressing grooves 260, and play a role in increasing friction force.

Referring to fig. 2 and 4, two sets of buffers 150 are disposed below the two sets of compression bars 110, the top of the buffers 150 is recessed inward to form a set of accommodating chambers, the top of the buffers 150 is provided with a compression hole 190, and springs 200 are installed in the accommodating chambers.

Referring to fig. 4, a set of ball grooves 210 are formed at the bottoms of the left ends of the two sets of compression bars 110, a set of rotating balls 220 are disposed in the ball grooves 210, and the radius length of the rotating balls 220 is greater than that of the ball grooves 210, so that the rotating balls 220 are prevented from falling from the ball grooves 210.

Referring to fig. 4, a set of pressing blocks 230 are disposed below the left ends of the two sets of pressing rods 110, the top of the pressing block 230 is fixedly connected with the bottom of the rotating ball 220, the bottom of the pressing block 230 is inserted into the pressing hole 190, and the pressing block 230 is always kept in a vertical state below the pressing hole 190 by the rotation of the rotating ball 220.

Please refer to fig. 1, 2 and 3, as a set of embodiments of the present utility model: in actual use, the device is placed on a horizontal table top, firstly, donkey-hide gelatin cake raw materials are poured into the pressing groove 260 in the accommodating box 140, then the accommodating box 140 is lifted, two groups of sliding strips 180 are respectively inserted into two groups of sliding grooves 160 in the inner sides of the two groups of supporting frames 100, the accommodating box 140 is pushed leftwards by holding the handle 170, the sliding strips 180 slide in the sliding grooves 160, so that the accommodating box 140 is fixedly connected with the two groups of supporting frames 100, the bottom of the accommodating box 140 is always in contact with the upper surface of the horizontal table top, meanwhile, the pressing groove 260 is positioned below the pressing plate 250 below the pressing rod 110, then the handle 240 is held, the friction force between the palm of an operator and the handle 240 can be increased by the anti-slip lines on the surface of the handle 240, the handle 240 is pressed downwards, the handle 240 is enabled to move downwards, the two groups of pressing rods 110 are enabled to move downwards, the pressing plate 250 is enabled to move downwards, and the donkey-hide gelatin cake raw materials in the pressing groove 260 are compacted, and the donkey-hide gelatin cake raw materials can be compacted through a simple mechanical structure.

Referring to fig. 1 and 4, as another set of embodiments of the present utility model: based on the further explanation of the above embodiment, when the two sets of compression bars 110 move downwards, the two sets of pressing blocks 230 below the left sides of the two sets of compression bars 110 press the springs 200 inside the buffer 150, and the top of the pressing block 230 is fixed with the rotating ball 220, so that the rotating ball 220 is positioned inside the ball groove 210, and then the pressing block 230 always keeps a vertical state in the process of pressing down the inside of the buffer 150, so that the pressing force is buffered, the holding box 140 is prevented from being damaged by excessive pressing force of the pressing plate 250, after the compaction is completed, the pressing force is removed, the handle 240 is lifted upwards, and at this time, the springs 200 rebound to push the pressing block 230 upwards, so that the lifting of the handle 240 becomes easy and labor-saving, and the final effect is that the lifting of the compression bars 110 becomes convenient and quick, and the difficulty in using the device is reduced.

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, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (7)

1. A donkey-hide gelatin cake compaction apparatus comprising: support frame (100), hold box (140) and depression bar (110), its characterized in that: the two groups of the support frames (100) are identical, the two groups of the support frames (100) are in mirror symmetry, and a group of rotating shafts (120) are arranged on the inner sides of the left ends of the two groups of the support frames (100);

two groups of same supporting legs (130) are arranged at left and right positions of the bottom of each group of supporting frames (100), the supporting legs (130) are made of rubber, a group of containing boxes (140) are arranged between the two groups of supporting frames (100), the tops of the containing boxes (140) are inwards recessed to form a group of pressing grooves (260), and handles (170) are arranged on the right sides of the containing boxes (140);

the device is characterized in that two groups of identical compression bars (110) are arranged at front and rear positions above the containing box (140), the two groups of compression bars (110) are in mirror symmetry, a group of identical through holes are formed in the inner surface of the left end of each compression bar (110), the rotating shaft (120) penetrates through the two groups of through holes, and the right sides of the two groups of compression bars (110) are in a structure with ascending left-to-right gradient.

2. The donkey-hide gelatin cake compaction apparatus according to claim 1, wherein: the two groups of sliding grooves (160) are formed in the lower portion of the inner side of the supporting frame (100), and the two groups of sliding grooves (160) are in mirror symmetry.

3. The donkey-hide gelatin cake compaction apparatus according to claim 2, wherein: the front and the back of the accommodating box (140) are respectively provided with a group of sliding strips (180), the positions of the sliding strips (180) correspond to the positions of the sliding grooves (160), the thickness of the sliding strips (180) is smaller than the height of the sliding grooves (160), and the width of the sliding strips (180) is smaller than the depth of the sliding grooves (160).

4. A donkey-hide gelatin cake compaction apparatus according to claim 3, wherein: a group of pressing plates (250) are fixedly connected to the lower positions of the centers of the two groups of pressing rods (110), the length and the width of the pressing plates (250) are smaller than those of the pressing grooves (260), a group of handles (240) are arranged on the inner sides of the right ends of the two groups of pressing rods (110), and anti-skid stripes are arranged on the surfaces of the handles (240).

5. The donkey-hide gelatin cake compaction apparatus according to claim 4, wherein: two groups of buffers (150) are arranged below the two groups of compression bars (110), the tops of the buffers (150) are inwards recessed to form a group of accommodating cavities, pressing holes (190) are formed in the tops of the buffers (150), and springs (200) are arranged in the accommodating cavities.

6. The donkey-hide gelatin cake compaction apparatus according to claim 5, wherein: a group of ball grooves (210) are formed in the bottoms of the left ends of the two groups of compression bars (110), a group of rotating balls (220) are arranged in the ball grooves (210), and the radius length of each rotating ball (220) is larger than that of each ball groove (210).

7. The donkey-hide gelatin cake compaction apparatus according to claim 1, wherein: a group of pressing blocks (230) are arranged below the left ends of the two groups of pressing rods (110), the tops of the pressing blocks (230) are fixedly connected with the bottoms of the rotating balls (220), and the bottoms of the pressing blocks (230) are inserted into the pressing holes (190).