CN217722531U - Material blocking linkage system for ravioli overlapping - Google Patents

Abstract

The utility model provides a wonton overlap limit keep off linkage system, the linkage transmits the rotation of drive shaft for interior dog and marginal dog, make interior dog can remove between shrinkage position and overlap limit position, half-and-half shaping wonton has certain compression, be favorable to the deformation of bending of follow-up face skin, and when the dog is in the shrinkage position including marginal dog, remove to the machined surface top, half-and-half shaping wonton carries out preliminary fixed, and marginal dog removes to the machined surface below when adding interior dog to overlap limit position removal, avoid the cooperation of fifty percent discount and interior dog and the removal of shaping wonton to cause the interference, drive interior dog and marginal dog along setting for removal orbit reciprocating motion through the linkage, degree of automation is high, be convenient for large-scale production.

Description

Material blocking linkage system for ravioli overlapping

Technical Field

The application belongs to the technical field of food processing, and particularly relates to a material blocking linkage system for ravioli folding.

Background

Wontons and dumplings are Chinese traditional foods and play an important role in quick-frozen foods, particularly the Yuanbao wontons are mellow and beautiful in shape, exactly like Yuanbao and are well popular with consumers. The dumpling processing steps are simple, the automatic processing is completely realized, a series of technical problems exist in the aspect of the automatic processing of the wonton, most of the existing wonton automatic processing equipment adopts a direct compression molding mode, although the forming speed is high, the processing efficiency is higher, the shape of the wonton cannot be processed, and the market needs cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model provides a wonton overlap limit keep off linkage system, the linkage transmits the rotation of drive shaft for interior dog and marginal dog, make interior dog can remove between shrinkage position and overlap limit position, half-and-half shaping wonton has certain compression, be favorable to the deformation of bending of follow-up face skin, and when the dog is in the shrinkage position including marginal dog, remove to the machined surface top, half-and-half shaping wonton carries out preliminary fixed, and marginal dog removes to the machined surface below when adding interior dog to overlap limit position removal, avoid the cooperation of fifty percent discount folded piece and interior dog and the removal of shaping wonton to cause the interference, drive interior dog and marginal dog along setting for removal orbit reciprocating motion through the linkage, degree of automation is high, the transmission is accurate.

In order to solve the problem, the utility model provides a material blocking linkage system of wonton overlap limit, include: the upper surface of the base is provided with a processing surface for placing the semi-formed wonton; the folding pieces are symmetrically arranged and arranged above the base, each folding piece is provided with an initial position and a folding position, the initial positions are that the two folding pieces are relatively opened, the folding positions are that the two folding pieces are relatively close to or abutted against each other, the folding pieces rotate between the initial positions and the folding positions in a reciprocating mode, and when the folding pieces are located at the folding positions, an accommodating space is formed between the two folding pieces; the inner stop block is provided with a contraction position arranged outside the accommodating space and a folding position arranged inside the accommodating space relative to the processing surface, the inner stop block moves between the contraction position and the folding position, when the folding piece is positioned at the folding position, the inner stop block is arranged in the accommodating space, the two folding pieces are positioned at the folding position in front of the inner stop block, and a folding area is formed between the folding piece and the inner stop block; the edge stop blocks are arranged on two sides of the inner stop block and move up and down relative to the processing surface; the driving shaft assembly comprises a driving shaft and a linkage piece connected to the driving shaft in a matched mode, and the linkage piece is connected with the inner stop block and the edge stop block in a transmission mode.

Further, the linkage piece is reciprocal linkage piece, and reciprocal linkage piece is provided with the link with interior dog or marginal dog complex, and drive shaft and reciprocal linkage piece so the cooperation sets up to make the drive shaft rotate and drive link reciprocating motion.

Furthermore, the reciprocating linkage piece comprises a first transmission rod, the first transmission rod is provided with a connecting end, a driving end and a hinged portion, the first transmission rod is hinged to the external rack at the hinged portion, the driving end is in sliding fit with the side face of the driving shaft along a set track, and at least part of the set track extends obliquely along the side face of the driving shaft, so that when the driving shaft rotates, the first transmission rod is driven to swing around the hinged portion in a reciprocating mode, and the connecting end moves in a reciprocating mode.

Furthermore, the set track is provided with at least two obliquely extending driving sections and guiding sections arranged between the driving sections at intervals along the circumferential direction of the driving shaft, and the guiding sections are perpendicular to the circumferential direction of the driving shaft.

Further, still include driven rotating shaft, interior dog sets up on driven rotating shaft, and the linkage links to each other with driven rotating shaft and drives driven rotating shaft reciprocating rotation.

Further, the inside chock block includes processing portion, spacing portion and connecting portion, and processing portion forms the overlap edge region with the folded piece cooperation, and spacing portion links to each other with processing portion and connecting portion respectively, and spacing portion sets up in the base below and can with the base butt, is provided with the rotation portion on the driven spindle, and rotation portion is articulated so that inside chock block can remove to the machined surface below with connecting portion.

Furthermore, the edge stop dog is connected the cooperation with the driven spindle to make the driven spindle drive edge stop dog and reciprocate along the machined surface.

Further, driven rotating shaft is provided with the supporting part articulated with marginal dog, and the supporting part sets up so with the rotation part so that when interior dog removes to the overlap limit position, the machined surface downside is arranged in to marginal dog, and when interior dog removed to the shrink position, marginal dog top removed to the machined surface upside.

Furthermore, a disc cam is arranged on the driven rotating shaft, the disc cam comprises a top part and a bottom part, the transverse size of the top part is smaller than that of the bottom part, the rotating part is arranged at the top part or the bottom part, and the supporting part is arranged at the bottom part or the top part.

Further comprises a connecting block, the linkage piece is a reciprocating linkage piece, the reciprocating linkage piece comprises a first transmission rod, the first transmission rod is provided with a connecting end, a driving end and a hinged part, the first transmission rod is hinged with the external frame at the hinged part, the connecting block is fixed on the driven rotating shaft, the connecting block is provided with a connecting groove in sliding fit with the connecting end, the driving end is in sliding fit with the side face of the driving shaft along a set track, and at least part of the set track extends obliquely along the side face of the driving shaft, so that when the driving shaft rotates, the first driving rod is driven to swing back and forth around the hinged part, and the connecting end abuts against the connecting groove and drives the connecting block to rotate back and forth.

The beneficial effects of the utility model reside in that: the link transmits the rotation of drive shaft for interior dog and marginal dog, make interior dog can remove between constriction position and overlap limit position, half-and-half shaping wonton has certain compression effect, be favorable to the bending deformation of follow-up face skin, and marginal dog is when the constriction position including in the time, remove to the processing face top, half-and-half shaping wonton carries out preliminary fixed, and marginal dog removes to the processing face below when adding interior dog and removing to the overlap limit position, avoid the cooperation of fold and interior dog and the removal of shaping wonton to cause the interference, drive interior dog and marginal dog along setting for removal orbit reciprocating motion through the link, degree of automation is high, the transmission is accurate, be convenient for extensive processing and the fender material linkage system of production wonton overlap limit.

Drawings

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

fig. 1 is a schematic view of the three-dimensional structure of the present invention.

Fig. 2 is a schematic perspective view of the base with the outer side plate removed.

Fig. 3 is a schematic view of a part of the structure of the inner stop linkage system of the present invention.

Fig. 4 is a schematic view of the three-dimensional structure of the middle inner stop of the present invention.

Fig. 5 is a schematic view of a part of the structure of the driving shaft of the present invention.

10, a base; 101. processing the dough; 20. a folding member; 30. an inner stop block; 301. a processing section; 302. a limiting part; 303. a connecting portion; 40. an edge stop; 50. a drive shaft assembly; 501. a drive shaft; 502. a linkage; 5021. a connecting end; 5022. a driving end; 5023. a hinge portion; 601. a drive section; 602. a guide section; 70. a driven shaft; 701. connecting blocks; 702. a rotating part; 80. a disc-shaped cam; 801. a top portion; 802. a bottom portion.

Detailed Description

In order to more clearly explain the overall concept of the present application, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

In addition, in the description of the present invention, it should be understood that the terms "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be taken as limiting the present invention.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. In the description of the present specification, reference to the description of "one embodiment," "some embodiments," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The utility model discloses in, as shown in fig. 1-5, provide a material blocking linkage system of wonton hem, include: a base 10, wherein a processing surface 101 for placing the semi-formed wonton is formed on the upper surface of the base 10; the folding pieces 20 are symmetrically arranged and are arranged above the base 10, each folding piece 20 is provided with an initial position and a folding position, the initial position is that the two folding pieces 20 are relatively opened, the folding position is that the two folding pieces 20 are relatively close to or abutted against, the folding pieces 20 rotate back and forth between the initial position and the folding position, and when the folding pieces 20 are positioned at the folding position, an accommodating space is formed between the two folding pieces 20; the inner stop block 30 is provided with a contraction position arranged outside the accommodating space and an edge folding position arranged inside the accommodating space relative to the processing surface 101, the inner stop block 30 moves between the contraction position and the edge folding position, when the folding piece 20 is positioned at the folding position, the inner stop block 30 is arranged in the accommodating space, the two folding pieces 20 are positioned at the folding position in front of the inner stop block 30, and an edge folding area is formed between the folding piece 20 and the inner stop block 30; the edge stop blocks 40 are arranged at two sides of the inner stop block 30, and the edge stop blocks 40 move up and down relative to the processing surface 101; the drive shaft assembly 50, the drive shaft assembly 50 includes a drive shaft 501, a linkage member 502 cooperatively connected to the drive shaft 501, the linkage member 502 drivingly connected to the inner stop 30 and the edge stop 40.

The method comprises the steps of placing the wonton stuffing in the central area of the wrapper, folding the wrapper on one side of the wonton stuffing towards the rear side of the wonton stuffing, extruding and kneading the wrapper on the rear side of the wonton stuffing to form semi-formed wonton, wherein the wonton stuffing is a wonton belly, and the rear side of the wonton belly is an opening side. The upper surface of base 10 is for placing the dough 101 of semi-formed wonton, and the wonton tripe supports and leans on interior dog 30, and drive shaft 501 is connected with motor or other types of power unit, drives drive shaft 501 by power unit and rotates, and the linkage piece 502 with drive shaft 501 matched with moves along setting for the orbit thereupon, and folding member 20 can be driven its reciprocating motion between initial position and folding position by motor or other drive assembly. The processing surface 101 includes a feed end and a discharge end, the inner block 30 being closer to the discharge end when in the retracted position, and the inner block 30 being closer to the feed end when in the overlap position. For the convenience of wonton removal, the processing face 101 is from the feed end to the discharge end downward sloping setting, and semi-formed wonton gets into processing face 101 from the feed end, and during initial condition, folding member 20 is in open initial position relatively, and 40 partial outstanding processing faces 101 of edge dog, interior dog 30 are located the shrinkage position outside the accommodation space, and semi-formed wonton removes to 40 play of edge dog, and the face skin of wonton tripe both sides supports and leans on edge dog 40. Add man-hour, folded piece 20 removes along setting for the action route, and link 502 drives interior dog 30 and removes to the position of folding limit from the contraction position to compression wonton tripe, the dough sheet of the wonton tripe both sides of being convenient for removes to interior dog 30 the place ahead, and folded piece 20 surrounds the outside at wonton tripe both sides dough sheet, and drives the dough sheet and rotate to folding position, finally accomplishes the process of folding limit under the cooperation of folded piece 20 and interior dog 30. The folding piece 20 rotates reversely to the initial position, the link piece 502 drives the inner stop block 30 to move to the contraction position, and meanwhile, the link piece 502 drives the edge stop block 40 to move upwards to the upper side of the processing surface 101, so that the process is repeated again, and the new semi-formed wonton is subjected to edge folding processing.

The utility model discloses a link 502 transmits the rotation of drive shaft 501 for interior dog 30 and marginal dog 40, make interior dog 30 can remove between contraction position and overlap limit position, half-forming wonton has certain compression effect, be favorable to the bending deformation of follow-up face skin, and marginal dog 40 is when interior dog 30 is in the contraction position, remove to processing face 101 top, half-forming wonton carries out preliminary fixed, and marginal dog 40 removes to processing face 101 below when adding interior dog 30 to the removal of overlap limit position, avoid the cooperation of fold 20 and interior dog 30 and the removal of shaping wonton to cause the interference, drive interior dog 30 and marginal dog 40 through link 502 along setting for removal orbit reciprocating motion, degree of automation is high, the transmission is accurate, be convenient for extensive processing and the fender linkage system of production wonton overlap limit.

For the moving mode of the edge block 40, after the inner block 30 is contacted with the wonton belly, the linkage member 502 drives the edge block 40 to slowly move towards the lower part of the processing surface 101, and finally the edge block moves to the lower side of the processing surface 101; or the folding piece 20 can gradually move downwards after the two side wrappers of the wonton belly are encircled by the folding piece. In the present application, one link member 502 may drive the inner block 30 and the edge block 40 to move according to the set moving path, or two link members 502 may drive the inner block 30 and the edge block 40 to move according to the respective set moving paths.

It should be further noted that, as shown in fig. 2 and 3, the link 502 is a reciprocating link 502, the reciprocating link 502 is provided with a connection end 5021 connected with the inner stopper 30 or the edge stopper 40, and the driving shaft 501 and the reciprocating link 502 are cooperatively arranged such that the driving shaft 501 rotates to drive the connection end 5021 to reciprocate. Reciprocating link 502 links to each other through link 5021 and 30 or marginal dog 40 of internal stop dog, in order to drive 30 or marginal dog 40 of internal stop dogs and reciprocating motion between the settlement route, when internal stop dog 30 moved to the constriction position, drive half-formed wonton and have the speed of removing to discharge end one side, be convenient for shift out the machined surface 101 with the formed wonton, realize the quick multiple processing of half-formed wonton, need not the manual work and take out the wonton from machined surface 101 or set up other mechanisms and shift out the formed wonton, improve follow-up transport and packaging efficiency.

More specifically, as shown in fig. 2 and 3, the reciprocating linkage 502 includes a first transmission rod, the first transmission rod is provided with a connection end 5021, a driving end 5022 and a hinge portion 5023, the first transmission rod is hinged to the external frame at the hinge portion 5023, the driving end 5022 is in sliding fit with the side surface of the driving shaft 501 along a set track, and at least a portion of the set track extends obliquely along the side surface of the driving shaft 501, so that when the driving shaft 501 rotates, the first transmission rod is driven to swing back and forth around the hinge portion 5023, and the connection end 5021 moves back and forth. The set path includes an inclined path partially inclined with respect to the circumferential direction of the driving shaft 501, the driving shaft 501 rotates, the driving end 5022 of the first driving lever is slidably engaged along the set path of the driving shaft 501, and when it moves to the inclined path, the first driving lever is reciprocally swung about the hinge 5023, and thus the coupling end 5021 coupled to the inner stopper 30 or the edge stopper 40 is reciprocally moved to accomplish the reciprocal movement of the inner stopper 30 and the edge stopper 40. The first transmission rod is more stable in moving track, simple in structure and good in transmission effect by setting a path, and the rotation of the driving shaft 501 can be converted into the reciprocating movement of the first transmission rod, so that the reciprocating rotation of the inner stopper 30 and the up-and-down movement of the edge stopper 40 can be realized.

As a preferred embodiment, as shown in fig. 5, at least two obliquely extending driving segments 601 and a guiding segment 602 arranged between the driving segments 601 at intervals are arranged on the setting track along the circumferential direction of the driving shaft 501, and the guiding segment 602 is perpendicular to the circumferential direction of the driving shaft 501. In a preferred embodiment, a cylindrical cam may be installed on the driving shaft 501, a set track is machined on a side surface of the cylindrical cam, that is, a moving groove is formed on the cylindrical cam, the set track includes two driving sections 601 extending obliquely relative to a circumferential direction of the driving shaft 501, and two end guide sections 602 between the two driving sections 601, the two driving sections 601 are oppositely arranged, the first transmission rod is provided with a moving protrusion sliding in the moving groove, when the moving protrusion moves in the driving section 601, the first transmission rod moves laterally at the moving protrusion, so that the first transmission rod rotates relative to the external frame at the hinge portion 5023 to drive the connecting end 5021 to rotate. When the moving projection moves to the guide section 602, it is maintained at a constant lateral position, and when the moving projection moves to the driving section 601 opposite to another one, the moving projection is reversely moved at the lateral position to be restored to the original position. Especially, when first transfer line and interior dog 30 link to each other, two drive sections 601 can drive interior dog 30 reciprocating rotation, simultaneously after accomplishing the overlap process, remove protruding removal to guide section 602, can make interior dog 30 keep the certain time in shrink position or overlap position, the partial region of edge dog 40 can be arranged in above the machined surface 101 and dwell a period simultaneously, so that interior dog 30 removes to overlap the position and receives the tripe action to the wonton tripe, wonton tripe both sides dough skin receives the continuous extrusion of folded piece 20 and interior dog 30 in overlapping the region, with reinforcing the face skin overlap effect.

The utility model discloses well mode of selecting cylindrical cam not only conveniently processes and sets for the orbit, but also can set detachable form to between cylindrical cam and the drive shaft 501 to the cylindrical cam that has new settlement orbit in order to change the part of damage or change, so that be applicable to and process not unidimensional half-formed wonton, be favorable to practicing thrift the cost, more easy nimble regulation.

It should be further noted that, as shown in fig. 3, the present invention further includes a driven rotating shaft 70, the inner stopper 30 is disposed on the driven rotating shaft 70, and the linkage member 502 is connected to the driven rotating shaft 70 and drives the driven rotating shaft 70 to rotate reciprocally. The base 10 may be in a fixed form, a mounting groove is provided on the base 10, the inner stopper 30 is reciprocally rotated in the mounting groove at a contraction position and a folding position with respect to the base 10, in an embodiment, one end of the reciprocal linkage member 502 is matched with a set track on the driving shaft 501, the other end is connected with a rotation block, the connection end 5021 is a connection column, one end of the rotation block is fixedly connected with the driven rotation shaft 70, a groove matched with the connection column is provided on the rotation block, the connection column is in sliding fit in the groove and drives the rotation block to rotate when the reciprocal linkage member 502 swings, thereby rotating the driven rotation shaft 70. The unidirectional rotation of the driving shaft 501 is changed into the reciprocating rotation of the driven rotating shaft 70, the mechanical transmission can be realized under the condition that the rotation mode of driving units such as motors and the like is not changed, the structure is simple, the driven rotating shaft 70 can rotate or stop according to the shape of a set track, and the transmission process is ingenious.

As a preferred embodiment, as shown in fig. 4, the inner stopper 30 includes a processing portion 301, a limiting portion 302 and a connecting portion 303, the processing portion 301 cooperates with the folder 20 to form a folding edge region, the limiting portion 302 is respectively connected to the processing portion 301 and the connecting portion 303, the limiting portion 302 is disposed below the base 10 and can abut against the base 10, a rotating portion 702 is disposed on the driven rotating shaft 70, and the rotating portion 702 is hinged to the connecting portion 303 so that the inner stopper 30 can move below the processing surface 101. The limit portion 302 is connected to the hinge portion 5023, the hinge portion 5023 is hinged to the rotating portion 702 of the driven shaft 70, and when the driven shaft 70 rotates, the inner stopper 30 moves upward along with the inner stopper, so that the processing portion 301 moves above the processing surface 101, and at this time, the processing portion 301 is close to the discharging end of the processing surface 101. After the internal stop block 30 moves to a take the altitude, spacing portion 302 supports and leans on at base 10 downside, and the shaping portion rotates to the overlap limit position this moment, and the shaping portion is close to the feed end, because spacing portion 302 supports and leans on base 10, so the shaping portion keeps motionless, accomplishes to push away the tripe action and accomplishes the overlap limit process with the folded piece 20 cooperation of top, and the pivot continues to rotate, and takes place relative rotation between rotation portion 702 and the fixed part, and the motion trail of internal stop block 30 is promptly: along with the rotation of the rotating shaft, the forming part firstly moves from the lower part of the installation groove to the upper part of the installation groove, the rotating shaft continuously rotates, the forming part moves to the edge overlapping position and keeps still, the limiting part 302 abuts against the lower side surface of the base 10, and therefore the rotating part 702 rotates relative to the fixing part of the rotating shaft.

Like this interior dog 30 can be earlier in the mounting groove to remove to the feed end, the shaping portion slowly supports and leans on the wonton tripe, and drive the wonton tripe and remove in order to compress the wonton tripe to the feed end, through the removal of interior dog 30, make the wonton tripe receive inboard extrusion force, the inward contraction of wonton tripe warp, not only form more spaces in the place ahead of wonton tripe and in order to accomplish the overlap edge process, and because the wonton tripe moves backward, thereby make the face skin of both sides more easily to the centre remove to draw close up the deformation, reduce the face skin and extend excessively and take place cracked condition, be convenient for follow-up overlap edge process.

Moreover, the limit portion 302 abuts against the lower side of the base 10, so that the forming portion can be maintained at the edge folding position for a period of time, thereby completing the edge folding process. In addition, frictional force between spacing portion 302 and the base 10 can reduce at the overlap in-process, and the condition that the extrusion of the shaping portion of internal stop block 30 of folded piece 20 and the internal stop block 30 case feed end that leads to moves backward takes place, reduces the unable extrusion of both sides face skin and together or extrusion effect subalternation problem, improves the qualification rate of wonton.

As a preferred embodiment, as shown in fig. 2, 3, and 4, a reciprocating member drives the driven rotating shaft 70 to rotate, the inner stop 30 and the edge stop 40 are both disposed on the driven rotating shaft 70, the driven rotating shaft 70 drives the inner stop 30 and the edge stop 40 to reciprocate along a set moving path, so as to reduce the use of the reciprocating member and the corresponding matching connection mechanism, reduce the production cost and the installation difficulty, a moving hole for the edge stop 40 to pass through is disposed on the processing surface 101, the edge stop 40 passes through the moving hole and is disposed above the processing surface 101, and is connected and matched with the driven rotating shaft 70 through the edge stop 40, so that the driven rotating shaft 70 drives the edge stop 40 to move up and down along the processing surface 101. In one embodiment, the edge stopper 40 is a strip stopper, the lower half portion of the strip stopper is configured in a rack form, a gear is disposed on the driven rotating shaft 70 to cooperate with the strip stopper, when the edge stopper 40 needs to move above the processing surface 101, the driven rotating shaft 70 rotates and drives the gear mounted thereon to rotate, the gear drives the edge stopper 40 to move upwards, when the driven rotating shaft 70 rotates reversely, the driven rotating shaft 70 drives the edge stopper 40 to move downwards, and when the driven rotating shaft 70 is stationary, the edge stopper 40 remains stationary, which is not limited to this embodiment.

In a preferred connection mode of the edge stopper 40, the driven shaft 70 is provided with a support portion hinged to the edge stopper 40, the support portion and the rotating portion 702 are arranged such that the edge stopper 40 is disposed at the lower side of the processing surface 101 when the inner stopper 30 is moved to the overlapping position, and the upper side of the edge stopper 40 is moved to the upper side of the processing surface 101 when the inner stopper 30 is moved to the retracted position. When the edge stopper 40 needs to be moved upward, the driven rotation shaft 70 rotates the support and gradually approaches the processing surface 101, the edge stopper 40 gradually approaches the side of the moving chute near the feeding end, and as shown in fig. 3 and 4, the edge stopper 40 rotates clockwise around the support and moves upward. When the edge stopper 40 needs to move downwards, the driven rotating shaft 70 drives the supporting part to move towards the direction far away from the processing surface 101, the edge stopper 40 abuts against one side, close to the discharging end, in the moving groove, and when the driven rotating shaft 70 continues to rotate, the edge stopper 40 rotates anticlockwise around the supporting part and moves downwards, so that the edge stopper is integrally arranged below the processing surface 101. The supporting portion and the rotating portion 702 are respectively provided at different angular positions of the driven rotating shaft 70 so that the edge stopper 40 and the inner stopper 30 can be rotated in synchronization, and the angle therebetween can be adjusted so that they can appear above the processing surface 101 at different steps.

It should be further noted that, as shown in fig. 4, a disc cam is disposed on the driven rotating shaft 70, the disc cam includes a top portion 801 and a bottom portion 802, the top portion 801 is smaller in transverse dimension than the bottom portion 802, the rotating portion 702 is disposed on the top portion 801 or the bottom portion 802, and the supporting portion is the bottom portion 802 or the top portion 801. The disc-shaped cam 80 comprises a top 801 with a large size and a top 801 with a small size, the driven rotating shaft 70 penetrates through the bottom 802 and is fixedly connected with the disc-shaped cam 80, the inner stop block 30 is hinged to the rotating part 702 arranged on the bottom 802, the edge stop block 40 is hinged to the top 801 of the disc-shaped cam 80, so that the time and the motion trail of the edge stop block 40 and the inner stop block 30 protruding out of the processing surface 101 are different, the ascending rotating process of the inner stop block 30 and the up-and-down moving process of the edge stop block 40 are synchronously performed through the driven rotating shaft 70, the structure is simple and compact, the arrangement of a plurality of different power units is avoided, and the internal space of the wonton machine is reasonably arranged.

More specifically, as shown in fig. 3, the driving device further includes a connecting block 701, the linkage 502 is a reciprocating linkage 502, the reciprocating linkage 502 includes a first transmission rod, the first transmission rod is provided with a connecting end 5021, a driving end 5022 and a hinge portion 5023, the first transmission rod is hinged to an external rack at the hinge portion 5023, the connecting block 701 is fixed on the driven rotating shaft 70, the connecting block 701 is provided with a connecting groove in sliding fit with the connecting end 5021, the driving end 5022 is in sliding fit with the side surface of the driving shaft 501 along a set track, and at least a part of the set track extends obliquely along the side surface of the driving shaft 501, so that when the driving shaft 501 rotates, the first transmission rod is driven to swing back and forth around the hinge portion 5023, and the connecting end 5021 abuts against the connecting groove and drives the connecting block 701 to rotate back and forth.

The utility model can be realized by adopting or using the prior art for reference in places which are not mentioned in the specification.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments.

The above are merely examples of the present invention, and are not intended to limit the present invention. Various modifications and changes may 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 scope of the claims of the present invention.

Claims (10)

1. The utility model provides a wonton folds material linkage system of limit, its characterized in that includes:

the upper surface of the base is provided with a processing surface for placing the semi-formed wonton;

the folding pieces are symmetrically arranged and arranged above the base, each folding piece is provided with an initial position and a folding position, the initial position is that the two folding pieces are relatively opened, the folding position is that the two folding pieces are relatively close to or abutted against each other, the folding pieces rotate back and forth between the initial position and the folding position, and when the folding pieces are positioned at the folding position, an accommodating space is formed between the two folding pieces;

the inner stop block is provided with a contraction position arranged outside the accommodating space and an edge folding position arranged inside the accommodating space relative to the processing surface, the inner stop block moves between the contraction position and the edge folding position, when the folding piece is positioned at the folding position, the inner stop block is arranged in the accommodating space, the two folding pieces are positioned at the folding position in front of the inner stop block, and an edge folding area is formed between the folding piece and the inner stop block;

the edge stop blocks are arranged on two sides of the inner stop block and move up and down relative to the processing surface;

the driving shaft assembly comprises a driving shaft and a linkage piece which is connected to the driving shaft in a matched mode, and the linkage piece is in transmission connection with the inner stop block and the edge stop block.

2. The system of claim 1 wherein the linkage member is a reciprocating linkage member, the reciprocating linkage member being configured to engage the inner stop or the edge stop, the drive shaft and the reciprocating linkage member being configured to engage such that rotation of the drive shaft causes the engagement end to reciprocate.

3. The system of claim 2, wherein the reciprocal linkage comprises a first linkage rod, the first linkage rod comprises the connecting end, a driving end and a hinged portion, the first linkage rod is hinged to an external frame at the hinged portion, the driving end is in sliding fit with the side surface of the driving shaft along a set track, and the set track extends at least partially along the side surface of the driving shaft in an inclined manner, so that when the driving shaft rotates, the first linkage rod is driven to swing back and forth around the hinged portion, and the connecting end moves back and forth.

4. The system of claim 3, wherein the set path includes at least two obliquely extending driving sections and a guiding section disposed between the driving sections at an interval along the circumference of the driving shaft, and the guiding section is perpendicular to the circumference of the driving shaft.

5. The material blocking linkage system for the ravioli overlap according to claim 1, further comprising a driven rotating shaft, wherein the inner stop is arranged on the driven rotating shaft, and the linkage piece is connected with the driven rotating shaft and drives the driven rotating shaft to rotate in a reciprocating manner.

6. The wonton folding material blocking linkage system according to claim 5, wherein the inner stop block comprises a processing portion, a limiting portion and a connecting portion, the processing portion and the folding member are matched to form the folding region, the limiting portion is respectively connected with the processing portion and the connecting portion, the limiting portion is arranged below the base and can be abutted against the base, a rotating portion is arranged on the driven rotating shaft, and the rotating portion is hinged to the connecting portion so that the inner stop block can move below the processing surface.

7. The ravioli overlap material blocking linkage system of claim 6, wherein the edge stop is in connection with the driven shaft so that the driven shaft drives the edge stop to move up and down along the processing surface.

8. The ravioli overlap material blocking linkage system of claim 7 wherein the driven shaft is provided with a support portion hinged to the edge stop, the support portion and the rotating portion are arranged such that when the inner stop moves to the overlap position, the edge stop is disposed on the lower side of the processing surface, and when the inner stop moves to the retracted position, the upper side of the edge stop moves to the upper side of the processing surface.

9. The ravioli overlap stock blocking linkage system of claim 8, wherein a disk cam is disposed on the driven shaft, the disk cam comprises a top portion and a bottom portion, the top portion has a smaller lateral dimension than the bottom portion, the rotating portion is disposed at the top portion or the bottom portion, and the support portion is the bottom portion or the top portion.

10. The wonton overlapped material blocking linkage system according to claim 5, further comprising a connecting block, wherein the linkage part is a reciprocating linkage part, the reciprocating linkage part comprises a first transmission rod, a connecting end, a driving end and a hinged part are arranged on the first transmission rod, the first transmission rod is hinged to an external rack at the hinged part, the connecting block is fixed on the driven rotating shaft, the connecting block is provided with a connecting groove in sliding fit with the connecting end, the driving end is in sliding fit with the side face of the driving shaft along a set track, and the set track at least partially extends obliquely along the side face of the driving shaft, so that when the driving shaft rotates, the first transmission rod is driven to swing around the hinged part in a reciprocating mode, and the connecting end abuts against the inside of the connecting groove and drives the connecting block to rotate in a reciprocating mode.

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