CN221104638U - Die holder for toe shearing machine, toe shearing machine and toe shearing equipment - Google Patents

Abstract

The utility model provides a die holder for a toe shearing machine, the toe shearing machine and toe shearing equipment, and belongs to the field of food processing. A die holder for cutting toe machine includes: the die holder comprises a die holder body, a cutting mechanism and a cutting mechanism, wherein the die holder body is provided with a working surface for placing a claw part to be cut; the accommodating grooves are arranged on the working surface of the die holder body and are used for accommodating the front toes of the claw parts to be sheared; and the accommodating hole penetrates through the working surface of the die holder body and is used for accommodating the rear toe of the claw to be sheared.

Description

Die holder for toe shearing machine, toe shearing machine and toe shearing equipment

Technical Field

The utility model relates to the field of food processing, in particular to a die holder for a toe shearing machine, the toe shearing machine and toe shearing equipment.

Background

The claw to be sheared is food which is popular with consumers at present, so that the claw to be sheared is convenient for the consumers to eat, and toenails of the claw to be sheared can be sheared when the claw to be sheared is processed.

In the related art, the claw to be sheared can be sheared by the toe shearing machine, the claw to be sheared is fixed on the die holder of the toe shearing machine in the toe shearing process of the claw to be sheared, and then the claw to be sheared is sheared by the toe shearing mechanism of the toe shearing machine. The claw to be sheared has a unique physiological structure, and the sizes and the forms of the claw to be sheared are different, so that the quality of the toe shearing of the claw to be sheared is poor, and the efficiency is low.

Disclosure of utility model

The utility model provides a die holder for a toe shearing machine, the toe shearing machine and toe shearing equipment, which can improve the toe shearing quality of a claw to be sheared.

According to an aspect of the present utility model, there is provided a shoe for a toe shearing machine, comprising: the die holder body is provided with a working surface for placing the claw to be sheared; the accommodating grooves are arranged on the working surface of the die holder body and are used for accommodating the front toes of the claw to be sheared; and the accommodating hole penetrates through the working surface of the die holder body and is used for accommodating the rear toe of the claw to be sheared.

According to one or more embodiments of the present utility model, by individually accommodating the rear toe of the claw portion to be cut into the accommodating hole while the front toe of the claw portion to be cut is located in the accommodating groove, the rear toe of the claw portion to be cut is not coplanar with the front toe. Therefore, the form of the claw to be sheared, which is placed in the die holder for the toe shearing machine, is more in accordance with the unique physiological structure of the claw to be sheared, the toes of the claw to be sheared can be straightened in the die holder as much as possible, and the toe shearing precision is not affected by the deformation of the toes when the toes are flattened by pressure. Therefore, the quality of the toe shearing of the claw to be sheared is improved.

According to another aspect of the present utility model, there is provided a toe cutter comprising: the die holder for the toe shearing machine according to the above aspect; a positioning mechanism configured to fix the claw portion to be sheared on the working surface of the die holder, and wherein the rear toe of the claw portion to be sheared is located in the accommodation hole; and a toe shearing mechanism for shearing toe of the claw to be sheared positioned on the working surface.

According to another aspect of the present utility model, there is provided a toe cutting apparatus comprising: according to the toe shearing machine; and a transmission mechanism.

According to one or more embodiments of the present utility model, the quality and efficiency of the toe cut of the jaw portion to be cut can be improved.

It should be understood that the description in this section is not intended to identify key or critical features of the embodiments of the utility model or to delineate the scope of the utility model. Other features of the present utility model will become apparent from the description that follows.

Drawings

The accompanying drawings illustrate embodiments and, together with the description, serve to explain the implementations of the embodiments. The illustrated embodiments are for exemplary purposes only and do not limit the scope of the claims. Throughout the drawings, identical reference numerals designate similar, but not necessarily identical, elements.

FIG. 1 shows a schematic structural view of a shoe for a toe clipper in accordance with an embodiment of the present utility model;

FIG. 2 illustrates a top view of a shoe for a toe clipper in accordance with an embodiment of the present utility model;

FIG. 3 illustrates a side view of a shoe for a toe clipper in accordance with an embodiment of the present utility model;

FIG. 4 is a schematic view showing a part of the construction of a toe cutter according to an embodiment of the present utility model; and

Fig. 5 shows a schematic structural view of a toe shearing apparatus according to an exemplary embodiment of the present utility model.

Reference numerals:

1. A toe cutter;

10. The die holder is used for the toe shearing machine;

11. A die holder body;

111. A work surface;

12. A receiving groove;

13. An accommodation hole;

14. A boss;

15. a guide plate;

16. A tarsometatarsal portion accommodation groove;

17. an ejection hole;

20. A positioning mechanism;

21. tabletting;

212. A support;

2112. a through hole;

22. A pressurizing member;

30. A toe cutting mechanism;

31. a toe cutter;

32. A slide block;

33. A guide rail;

40. A motor;

51. An ejection cylinder;

52. An ejector rod;

100. A working box;

110. And a protective cover.

Detailed Description

Exemplary embodiments of the present utility model will now be described with reference to the accompanying drawings, in which various details of the embodiments of the present utility model are included to facilitate understanding, and are to be considered merely exemplary. Accordingly, one of ordinary skill in the art will recognize that various changes and modifications of the embodiments described herein can be made without departing from the scope of the utility model. Also, descriptions of well-known functions and constructions are omitted in the following description for clarity and conciseness.

In the present utility model, the use of the terms "first," "second," etc. to describe various elements is not intended to limit the positional relationship, timing relationship, or importance relationship of these elements unless otherwise indicated, and such terms are merely used to distinguish one element from another. In some examples, a first element and a second element may refer to the same instance of the element, and in some cases, they may also refer to different instances based on the description of the context. In some examples, "connected" may include "directly connected" or "indirectly connected".

The terminology used in the description of the various illustrated examples in this disclosure is for the purpose of describing particular examples only and is not intended to be limiting. Unless the context clearly indicates otherwise, the elements may be one or more if the number of the elements is not specifically limited. Furthermore, the term "and/or" as used in the present utility model encompasses any and all possible combinations of the listed items.

In the related art, the toe shearing machine comprises a die holder and a toe shearing mechanism, when the claw to be sheared (for example, chicken claw) is sheared, a worker can fix the claw to be sheared on the die holder, and then the toe shearing mechanism shears the toe of the claw to be sheared according to a set program. The die holder is typically a five-toe flat die holder, i.e. an area for placing the jaw to be cut is typically provided in the plate, which area may be, for example, a hollowed-out area for accommodating the jaw to be cut. Since most of the eating-to-be-cut claw portions (e.g., chicken claws) have four toes, in order to save time and effort spent distinguishing the left and right to-be-cut claw portions when the to-be-cut claw portions are placed in the die holder, the region of the die holder in which the to-be-cut claw portions are placed is generally set to have a shape substantially corresponding to five toes, for example, including a toe region in the middle and 4 toe regions (2 toe regions each side) symmetrical with respect to the middle toe region. However, the left and right claw portions to be cut are not completely symmetrical, and the claw portions to be cut (for example, chicken claws) are affected by the unique physiological structure (three toes forward, one toe backward) and deformation caused by the relative position change between bones when the claw portions to be cut are positioned in the die holder, and the toes of the claw portions to be cut cannot be completely straightened in the five-toe tiled die holder, so that the problems of inaccurate toe cutting, excessive toe cutting amount or insufficient toe cutting amount easily occur, and the quality of the toe portions to be cut is poor.

In order to solve the problems, the utility model provides a die holder for a toe shearing machine and the toe shearing machine with the die holder.

According to the die holder for the toe shearing machine, provided by the embodiment of the utility model, the accommodating hole for accommodating the rear toe of the claw to be sheared is formed in the die holder. By arranging the accommodating holes, the rear toes of the claw parts to be sheared can be independently accommodated in the accommodating holes, and the front toes of the claw parts to be sheared are positioned in the accommodating grooves, so that the rear toes and the front toes of the claw parts to be sheared are not coplanar. Therefore, the form of the claw to be sheared, which is placed in the die holder, is more in line with the unique physiological structure of the claw to be sheared, the toes of the claw to be sheared can be straightened in the die holder as much as possible, and the toe shearing precision is not affected due to the deformation of the toes when the claw to be sheared is flattened by pressure. Therefore, the quality of the toe shearing of the claw to be sheared is improved.

Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.

FIG. 1 shows a schematic structural view of a shoe for a toe clipper in accordance with an embodiment of the present utility model; FIG. 2 illustrates a top view of a shoe for a toe clipper in accordance with an embodiment of the present utility model; fig. 3 illustrates a side view of a shoe for a toe clipper in accordance with an embodiment of the present utility model.

Referring to fig. 1 to 3, a shoe 10 for a toe clipper includes:

A die holder body 11, the die holder body 11 having a working surface 111 for placing a claw portion to be sheared;

A plurality of accommodating grooves 12 arranged on the working surface 111 of the die holder body 11, wherein the accommodating grooves 12 are used for accommodating a plurality of front toes of the claw to be sheared; and

And a receiving hole 13, wherein the receiving hole 13 penetrates through the working surface 111 of the die holder body 11 and is used for receiving the rear toe of the claw to be sheared.

In the embodiment of the present utility model, in consideration of the unique physiological structure of the claw portion to be cut (three toes forward, one toe backward), and the possible influence of deformation caused by the relative positional change between bones when the claw portion to be cut is positioned in the die holder, the receiving hole for receiving the rear toe of the claw portion to be cut is provided in the die holder. The receiving hole 13 may extend downward from the working surface 111 of the die holder body 11, for example, i.e., the receiving hole 13 is not coplanar with the plurality of receiving grooves 12.

By providing the accommodation hole 13, the rear toe of the claw portion to be sheared can be accommodated in the accommodation hole 13 alone, while the front toe of the claw portion to be sheared is located in the accommodation groove 12, the rear toe of the claw portion to be sheared is not coplanar with the front toe, for example, the rear toe of the claw portion to be sheared is inserted into the accommodation hole 13 to be placed downward, and is not coplanar with the front toe which is laid flat in the accommodation groove 12. Therefore, the form of the claw to be sheared, which is placed in the die holder 10 for the toe shearing machine, is more consistent with the unique physiological structure, the toes of the claw to be sheared can be straightened in the die holder as much as possible, and the toe shearing precision is not affected by the deformation of the toes when the toes are flattened by pressure. Therefore, the quality of the toe shearing of the claw to be sheared is improved.

In an example, the die holder 10 for a toe-cutting machine may have 3 receiving slots 12 for receiving 3 front toes of the jaw portion to be cut.

In an example, the receiving bore 13 may extend from the work surface 111 to a bottom surface of the die holder body 11 opposite the work surface 111.

According to some embodiments, with continued reference to fig. 2, the plurality of receiving grooves 12 may be arranged radially about the receiving hole 13, and the plurality of receiving grooves 12 include a middle receiving groove and two lateral receiving grooves symmetrically disposed with respect to the middle receiving groove.

The plurality of radially arranged accommodating grooves 12 help the front toe of the claw to be sheared to smoothly flatten along the radial extending direction when being pressed, so that the front toe of the claw to be sheared is further straightened to improve toe shearing precision. In an example, the middle receiving groove may be used to receive a middle front toe of the jaw portion to be cut, and the two lateral receiving grooves may be used to receive the other two front toes of the jaw portion to be cut.

In addition, since the two lateral accommodating grooves are symmetrical with respect to the middle accommodating groove, and the rear toes of the left to-be-sheared claw or the right to-be-sheared claw can be accommodated in the accommodating hole 13, the die holder 10 for the toe shearing machine can be compatible with the left to-be-sheared claw, the time and effort for distinguishing the left to-be-sheared claw from the right to-be-sheared claw are reduced, and the toe shearing efficiency of the to-be-sheared claw is improved.

According to some embodiments, the shoe 10 for a toe clipper may further include a plurality of bosses 14 provided on the working surface 111 of the shoe body 11, wherein each of the plurality of receiving slots 12 is defined by two adjacent bosses 14 of the plurality of bosses.

The accommodating groove 12 is defined by two adjacent bosses, and the structure is simple. In addition, due to the presence of the boss 14, when pressure is applied to the claw portion to be sheared placed in the die holder 10 for the toe shearing machine by using the pressing member 22 shown in fig. 4 (described later), for example, the boss 14 can exert a certain limit function on the pressing member 22, reducing or avoiding the pressing of the claw portion to be sheared to deformation by the pressing member 22.

According to some embodiments, the direction of extension of the receiving hole 13 may be substantially perpendicular to the working surface 111, for example, the direction of extension of the receiving hole 13 may be perpendicular to the working surface 111.

The accommodation hole 13 provided perpendicular to the working surface 111 can provide a certain force to the rear toe when the rear toe of the claw to be sheared is accommodated therein, so that the fixing of the rear toe is further enhanced, thereby further improving the toe shearing accuracy.

According to some embodiments, with further reference to fig. 2, the width of the side of the receiving hole 13 close to the working surface 111 is greater than the width of the side thereof remote from the working surface 111. In other words, the receiving hole 13 may have a shape with a wide upper portion and a narrow lower portion. In an example, the receiving hole 13 may have a tapered sectional shape.

Thereby, the width of the side of the accommodating hole 13 close to the working surface 111 is larger, so that the moving tolerance is provided when the rear toe of the claw to be sheared is inserted into the accommodating hole 13, the rear toe of the claw to be sheared is more easily inserted into the accommodating hole 13, and the operation is facilitated; also, the smaller width of the side of the receiving hole 13 away from the working surface 111 facilitates more accurate fixation of the rear toes of the claw to be cut at that side.

With continued reference to fig. 2 and 3, according to some embodiments, the shoe 10 for a toe clipper may further include a guide plate 15 disposed on a bottom surface of the shoe body 11 opposite the working surface 111, the guide plate 15 being proximate the receiving hole 13, the guide plate 15 for positioning the rear toe received in the receiving hole 13.

After the rear toe is inserted into the receiving hole 13, a portion of the rear toe may protrude from the bottom surface by a long distance, and may be caused to shake when, for example, the toe-cutting blade 31 touches the portion of the rear toe during the toe-cutting process. The guide plate 15 can position the rear toe of the part, so that the rear toe can be prevented or reduced from shaking when the toe shearing knife touches the rear toe, and the toe shearing precision of the claw to be sheared can be further improved.

According to some embodiments, referring to fig. 2, the die holder 10 for the toe-cutting machine may further include a tarsometatarsal portion accommodating groove 16 for accommodating a tarsometatarsal portion of the claw portion to be cut, the tarsometatarsal portion accommodating groove 16 being provided at the working surface 111 of the die holder body 11, the two lateral accommodating grooves being symmetrical with respect to the tarsometatarsal portion accommodating groove 16, and the accommodating hole 13 being located between the tarsometatarsal portion accommodating groove 16 and the intermediate accommodating groove.

Thus, the whole of the jaw to be cut can be restricted in more degrees of freedom by accommodating the tarsometatarsal portion of the jaw to be cut in the tarsometatarsal portion accommodating groove 16, so that the jaw to be cut can be kept stable when the toe is cut.

According to another aspect of the present utility model, there is provided a toe cutter 1 including: a die holder 10 for a toe clipper in accordance with an embodiment of the present utility model; a positioning mechanism 20 configured to fix the claw portion to be sheared on the working surface of the die holder 10, and rear toes of the claw portion to be sheared are located in the accommodation hole 13; and a toe-cutting mechanism 30, the toe-cutting mechanism 30 being for cutting a toe of a claw portion to be cut positioned on a work surface.

Fig. 4 is a schematic view showing a part of the construction of the toe cutter according to the embodiment of the present utility model. Referring to fig. 4, the toe clipper 1 includes a die holder 10 for the toe clipper, a positioning mechanism 20, and a toe clipping mechanism 30.

The die holder 10 for the toe shearing machine is used for placing the claw to be sheared, the positioning mechanism 20 is configured for fixing the claw to be sheared on the working surface of the die holder 10 for the toe shearing machine, and the toe shearing mechanism 30 is used for shearing the toe of the claw to be sheared.

In an example, the positioning mechanism 20 may include a plurality of tabs 21 disposed side by side, the plurality of tabs 21 configured to apply pressure to the toes of the jaw portion to be cut to secure and flatten the toes. It will be appreciated that since the lengths of the toes of the jaws to be cut are different, the length of positioning the jaws to be cut can be adjusted by changing the number of the presser pieces 21, thereby adapting to different jaws to be cut. The number of the pressing pieces 21 may be set according to the need, for example, the number of the pressing pieces 21 may be 5 or more and 15 or less.

In an example, the positioning mechanism 20 may further include a pressure applying member 22, and the pressure applying member 22 may be driven to apply pressure to a jaw portion to be sheared placed in the die holder 10 for the toe shearing machine, thereby fixing the jaw portion to be sheared in the die holder 10 for the toe shearing machine. Illustratively, the pressure applicator 22 may include a platen.

In an example, the positioning mechanism 20 includes a plurality of toe positioning assemblies in one-to-one correspondence with a plurality of toes of the chicken feet, each toe positioning assembly configured to apply pressure to a corresponding toe via a plurality of press tabs 21. The plurality of toes of the chicken feet are respectively positioned by the corresponding toe positioning components, and each toe is respectively positioned and controlled without mutual influence, so that the chicken feet are more convenient to control.

The toe positioning assembly may include a support 212 having a plurality of tabs 21 with through holes 2112, the support 212 passing through the through holes 2112 of the plurality of tabs 21, the plurality of tabs 21 passing through the support 212. Illustratively, the support 212 may include a support bar.

The pressing piece 21 penetrating the support 212 may be moved in a direction away from or close to the chicken feet by controlling the support 212 to be moved in a direction away from or close to the chicken feet. When the pressing sheet 21 moves in a direction away from the chicken feet, the toe positioning assembly 21 releases the positioning of the toes; when the pressing piece 21 moves towards the direction approaching the chicken feet, the pressing piece 21 is pressed on the toes of the chicken feet, and the toe positioning assembly 21 positions the toes. The plurality of press pieces 21 are configured to apply pressure to the toes of the chicken feet under the action of self gravity.

Because a plurality of preforming 21 wear to locate on the support piece 212, can be through setting up the suitable position of support piece 212 for preforming 21 is pressed on the toe of chicken feet under the effect of self gravity, does not need additionally to increase pressure device, and is more convenient. While the support 212 passes through the through holes 2112 of the plurality of pressing pieces 21 so that the pressing pieces 21 do not fall over.

In the course of moving the toe cutter 31 in the direction of the toenail of the chicken claw fixed at the preset position, the pressing piece 21 is pressed against the toe of the chicken claw at this time, and in order to enable the toe cutter 31 to contact the toe of the chicken claw, the toenail on the toe is cut, and it is necessary to avoid the pressing piece 21 from affecting the movement of the toe cutter 31. At this time, the supporting rod 212 can be controlled to move in a direction away from the chicken feet, the supporting rod 212 drives the pressing pieces 21 to move in a direction away from the chicken feet, and the lengths of the through holes 2112 on the pressing pieces 21 are sequentially increased in a direction that the toe shearing blade 31 moves towards the toenails of the chicken feet fixed at the preset position 111, and at this time, the pressing pieces 21 facing the toe shearing blade 31 move in a direction away from the chicken feet first, so that the pressing pieces 21 are prevented from affecting the movement of the toe shearing blade 31, and meanwhile, part of the pressing pieces 21 are pressed on the toes of the chicken feet to fix the chicken feet, so that the toe shearing blade 31 is prevented from pushing the chicken feet to move. When the toe-cutting blade 31 continues to move toward the chicken feet, the support rod support 212 continues to drive the pressing pieces 21 to move away from the chicken feet, so that the pressing pieces 21 sequentially move away from the chicken feet in the direction in which the toe-cutting blade 31 moves toward the toenails of the chicken feet fixed at the preset positions 111 until the toe-cutting blade 31 contacts with the toenails to finish toe-cutting. After finishing toe cutting, the plurality of pressing pieces 21 release the positioning of the toes, and the chicken feet with finished toe cutting can be taken down.

In an example, the support bar support 212 is further configured to move in a direction away from the working surface of the die holder 10 to move the presser bar 21 having a distance from the toe cutter 31 smaller than a preset distance value among the plurality of presser bars 21 in response to the distance between the toe cutter 31 and the presser bar 21 being smaller than a preset distance value, thereby releasing the pressing of the toes of the claw portion to be cut.

In the embodiment of the present utility model, when the distance between the toe cutter 31 and the presser 21 is smaller than the preset distance value, it is indicated that the toe cutter 31 is about to contact with the presser 21 at this time, and it is required to lift the presser 21 to avoid the presser 21 from affecting the movement of the toe cutter 31. By controlling the support bar support 212 to move to a side far from the die holder 10, the plurality of pressing pieces 21 are sequentially lifted, and the toe shearing blade 31 can continue to move forward until the toe shearing blade 31 contacts with the toenails of the chicken feet, so that the toe shearing blade 31 can shear the chicken feet more accurately.

For example, when the toe shearing machine does not shear the toe, the distance between the toe shearing blade 31 and the pressing piece 21 is constant, and the total moving distance of the toe shearing blade 31 and thus the distance between the toe shearing blade 31 and the pressing piece 21 during the moving process can be determined according to the moving speed and time of the toe shearing blade 31. Illustratively, the moving speed of the toe clipper 31 and the support 212 may be controlled such that the toe clipper 31 is not always in contact with the presser piece 21 during the movement of the toe clipper 31 toward the toenail of the chicken feet.

In addition, the toe cutting mechanism 30 may further include a slider 32 and a guide rail 33, the toe cutting blade 31 for cutting the toenail of the three front toes of the claw to be cut may be fixed on the slider 32, the slider 32 is slidably connected with the guide rail 33, and the motor 40 may control the slider 32 to move on the guide rail 33, thereby controlling the movement of the toe cutting blade 31.

The toe shearing machine provided by the embodiment of the utility model improves the quality and efficiency of toe shearing of the claw to be sheared.

According to some embodiments, the toe clipper 1 may further include a jacking mechanism configured to drive the die holder 10 to move toward the positioning mechanism 20 with the die holder 10 positioned below the positioning mechanism 20, and to control the die holder 10 to move away from the positioning mechanism 20 after the claw to be cut completes cutting the toe.

The lifting mechanism is located inside the toe clipper 1, and in an example, the lifting mechanism may include a lifting cylinder.

In the toe shearing process, the die holder 10 and the positioning mechanism 20 can be mutually close to each other, so that the positioning mechanism 20 can be pressed on the chicken feet positioned on the die holder 10 to position the chicken feet, and after the toe shearing is finished, the die holder 10 and the positioning mechanism 20 are mutually far away from each other, so that the chicken feet can be conveniently taken out. In an example, the positioning mechanism 20 may be larger in volume and weight than the die holder 10. When cutting the toe, the jacking mechanism controls the die holder 10 to move towards the positioning mechanism 20, namely, controls the die holder 10 with smaller volume and weight to move more conveniently.

In the embodiment of the present utility model, during the toe shearing process, three front toes of the chicken feet can be fixed by the positioning mechanism 20, and rear toes of the chicken feet can be fixed by the accommodating holes.

According to some embodiments of the present utility model, the toe-cutting machine 1 may comprise an ejector mechanism configured to release the fixed positioning of the jaw portion to be cut on the work surface after the toe-cutting is completed.

After finishing toe shearing of the chicken feet, the chicken feet are required to be taken out, so that the next chicken feet can be convenient to cut the toes. In the embodiment of the utility model, the ejection mechanism releases the fixed positioning of the chicken feet after finishing toe shearing, so that the chicken feet after finishing toe shearing can be taken out more easily.

According to some embodiments of the present utility model, the die holder 10 may also have an ejector hole 17 through the working surface; the ejection mechanism comprises an ejection cylinder and an ejection rod, wherein the ejection cylinder is positioned on one side of the die holder, which is far away from the positioning mechanism, and the ejection cylinder is configured to extend the ejection rod into the ejection hole 17 and act on a claw to be sheared, which is fixed on the working surface, after the toe shearing is completed, so as to release the fixed positioning of the claw to be sheared on the working surface.

In the embodiment of the utility model, since the chicken feet are fixed on the working surface 11 of the die holder 10, if the chicken feet are clamped in the accommodating groove 12, the chicken feet are not easy to directly take out. When the toe shearing of the chicken feet is completed, the ejection cylinder 51 controls the ejection rod 52 to move from the ejection hole to the chicken feet and acts on the chicken feet fixed at the preset position 111, and thrust is applied to the chicken feet, so that the chicken feet clamped in the accommodating groove 12 are pushed out, and the chicken feet are taken out more easily.

According to another aspect of the present utility model, there is provided a toe cutting apparatus including the toe cutting machine 1 described above.

According to some embodiments, the toe shearing machine 1 may include a plurality of die holders 10, and the toe shearing machine 1 may further include a driving mechanism configured to drive the plurality of die holders 10 to sequentially move to a position opposite to the toe shearing mechanism, so as to shear the toe to be sheared from the claw portions placed on the plurality of die holders 10 by the toe shearing mechanism.

In an example, the toe clipping device may include a plurality of die holders 10, a positioning mechanism 20 and a toe clipping mechanism 30, in the toe clipping process, the plurality of die holders 10 sequentially move to a position opposite to the positioning mechanism 20, the positioning mechanism 20 fixes the chicken feet on the die holders 10 moving below the die holders, then the toe clipping mechanism 30 clips the chicken feet, after the chicken feet finish the toe clipping, the die holders 10 move to wait for the toe clipping to be performed at a position opposite to the positioning mechanism 20 when one die holder 10 moves, so that the chicken feet on the next die holder 10 can clip the toe while the chicken feet on the previous die holder 10 are removed, and the working efficiency is higher.

Fig. 5 shows a schematic structural view of a toe shearing apparatus according to an exemplary embodiment of the present utility model.

According to some embodiments, the toe cutting apparatus may further include an endless track on which the plurality of die holders 10 are disposed at intervals, and the driving mechanism may be configured to drive the plurality of die holders to sequentially move along the endless track to a position opposite to the toe cutting mechanism.

According to some embodiments, referring to fig. 5, the toe clipping device may further include: the working box 100, a part of an endless track is provided in the working box 100, the endless track including two opposite straight tracks and a connecting track connecting both ends of the two straight tracks on the same side. The work box 100 has a work table with a work window to expose at least a portion of one of the linear rails.

According to some embodiments, the work box 100 may have a receiving cavity for receiving the sheared claw, a portion of the annular track being disposed within the receiving cavity, and the work window being in communication with the receiving cavity.

In the example, after the chicken feet with the cut toe are ejected by the ejection mechanism, the die holder 10 can be rotated to the lower side, and the chicken feet directly fall from the die holder 10 by means of gravity, so that continuous toe cutting of the chicken feet can be realized, and the efficiency is higher. The chicken feet can fall into the material collecting cavity.

According to some embodiments, the positioning mechanism 20 and the toe cutting mechanism 30 may be provided on a table.

According to some embodiments, the toe device may further comprise a protective cover 110. The positioning mechanism 20 and the toe cutting mechanism 30 are both covered in the protective cover 110.

It should be understood that in this specification, terms such as "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc., refer to an orientation or positional relationship or dimension based on that shown in the drawings, which are used for convenience of description only, and do not indicate or imply that the device or element referred to must have a particular orientation, be configured and operated in a particular orientation, and thus should not be construed as limiting the scope of protection of the present application.

Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", or a third "may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; the device can be mechanically connected, electrically connected and communicated; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present application, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

Although embodiments or examples of the present utility model have been described with reference to the accompanying drawings, it is to be understood that the foregoing methods, systems and apparatus are merely embodiments or examples, and that the scope of the present utility model is not limited by these embodiments or examples but only by the claims and their equivalents after authorization. Various elements of the embodiments or examples may be omitted or replaced with equivalent elements thereof. Furthermore, the steps may be performed in a different order than described in the present utility model. Further, various elements of the embodiments or examples may be combined in various ways. It is important that as technology evolves, many of the elements described herein may be replaced by equivalent elements that appear after the utility model.

Claims (18)

1. A die holder for a toe cutting machine, comprising:

the die holder comprises a die holder body, a cutting mechanism and a cutting mechanism, wherein the die holder body is provided with a working surface for placing a claw part to be cut;

The accommodating grooves are arranged on the working surface of the die holder body and are used for accommodating the front toes of the claw parts to be sheared; and

The accommodating hole penetrates through the working surface of the die holder body and is used for accommodating the rear toe of the claw to be sheared.

2. The die holder for a toe clipper of claim 1, wherein the extending direction of the receiving hole is perpendicular to the working surface.

3. The die holder for a toe shearing machine according to claim 1 or 2, wherein the plurality of receiving grooves are arranged radially centering on the receiving hole, and the plurality of receiving grooves include a middle receiving groove and two lateral receiving grooves symmetrically disposed with respect to the middle receiving groove.

4. The die holder for a toe clipper of claim 1 or 2, further comprising a plurality of bosses disposed on a working surface of the die holder body, wherein each of the plurality of receiving slots is defined by two adjacent ones of the plurality of bosses.

5. The shoe for a toe clipper of claim 1 or 2, wherein a width of a side of the receiving hole near the working surface is larger than a width of a side thereof away from the working surface.

6. The shoe for a toe clipper of claim 1 or 2, further comprising a guide plate provided to a bottom surface of the shoe body opposite to the working surface, and the guide plate being adjacent to the accommodation hole, the guide plate being for positioning a rear toe accommodated in the accommodation hole.

7. The die holder for a toe shearing machine according to claim 3, further comprising a tarsometatarsal portion accommodation groove for accommodating a tarsometatarsal portion of a claw portion to be sheared, the tarsometatarsal portion accommodation groove being provided to a working surface of the die holder body, the two lateral accommodation grooves being symmetrical with respect to the tarsometatarsal portion accommodation groove, and the accommodation hole being located between the tarsometatarsal portion accommodation groove and the intermediate accommodation groove.

8. A toe cutting machine, comprising:

A shoe for a toe clipper of any one of claims 1-7;

a positioning mechanism for fixing a claw to be sheared on a working surface of the die holder, and wherein rear toes of the claw to be sheared are positioned in the accommodating hole; and

And the toe shearing mechanism is used for shearing the toe of the claw to be sheared positioned on the working surface.

9. The toe clipper of claim 8, further comprising:

And the jacking mechanism is used for driving the die holder to move towards the positioning mechanism under the condition that the die holder is positioned below the positioning mechanism, and controlling the die holder to move towards the direction away from the positioning mechanism after the claw to be sheared is sheared.

10. The toe clipper of claim 8, further comprising:

And the ejection mechanism is configured to release the fixed positioning of the claw to be sheared on the working surface after the toe shearing is completed.

11. The toe clipper of claim 10 wherein the die holder further has an ejector aperture through the working surface;

The ejection mechanism comprises an ejection cylinder and an ejection rod, wherein the ejection cylinder and the ejection rod are positioned on one side, far away from the positioning mechanism, of the die holder, and the ejection cylinder is used for extending the ejection rod into the ejection hole and acting on a claw to be sheared, which is fixed on the working surface, after the toe shearing is completed, so that the fixed positioning of the claw to be sheared on the working surface is relieved.

12. A toe cutting apparatus, comprising:

The toe clipper of any one of claims 8-11.

13. The toe cutting apparatus according to claim 12, wherein the toe cutting machine includes a plurality of die holders, the toe cutting machine further including a driving mechanism configured to drive the plurality of die holders to sequentially move to positions opposite to the toe cutting mechanism to cut the toe of the claw portions to be cut placed on the plurality of die holders by the toe cutting mechanism.

14. The toe cutting apparatus according to claim 13, further comprising:

the plurality of die holders are arranged on the annular track at intervals,

The driving mechanism is configured to drive the plurality of die holders to sequentially move along the annular track to a position opposite to the toe shearing mechanism.

15. The toe cutting apparatus according to claim 14, further comprising:

the annular track is arranged in the working box,

The annular track comprises two opposite linear tracks and connecting tracks which are connected with two ends of the two linear tracks and are positioned on the same side; and

The work box has a work table with a work window to expose at least a portion of one of the linear rails.

16. The toe cutting apparatus according to claim 15, wherein the work box has a receiving cavity for receiving the claw portion of which the toe cutting is completed, a portion of the annular rail is provided in the receiving cavity, and the work window communicates with the receiving cavity.

17. The toe cutting apparatus of claim 15, wherein the positioning mechanism and toe cutting mechanism are disposed on the table.

18. The toe cutting apparatus according to claim 17, further comprising:

and the positioning mechanism and the toe shearing mechanism are both covered in the protective cover.