CN213095811U

CN213095811U - Rotary cutting device for wonton skins

Info

Publication number: CN213095811U
Application number: CN202020899373.8U
Authority: CN
Inventors: 陈奇
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-25
Filing date: 2020-05-25
Publication date: 2021-05-04
Anticipated expiration: 2030-05-25

Abstract

The utility model discloses a rotary cutting device for a wonton leather, which comprises a frame, a conveying platform, a longitudinal cutting moving component, a transverse cutting moving component and a cutting component; the method comprises the steps that the position of a longitudinal pressing plate in a longitudinal cutting assembly is adjusted, a cutting piece in the cutting assembly is moved downwards and is positioned in an opening in the longitudinal pressing plate, the cutting piece starts to cut the endocytic skin on a conveying platform and moves longitudinally along the opening at the same time, one-time longitudinal cutting of the endocytic skin is completed, a transverse pressing plate and the cutting piece move by corresponding lengths according to the preset endocytic skin cutting length and also move transversely along the opening, the other time of transverse cutting of the endocytic skin is completed, and the transverse pressing plate and the cutting piece move for multiple times according to the preset length until all transverse cutting operations of the endocytic skin are completed; through the sequential longitudinal cutting and transverse cutting of the endocytosis, the cutting operation of the endocytosis skin can be rapidly completed, and the cutting quality of the endocytosis skin can be effectively ensured.

Description

Rotary cutting device for wonton skins

Technical Field

The utility model relates to a food processing equipment technical field, concretely relates to rotatory cutting device of endocytosis skin.

Background

With the continuous improvement of living standard, the requirements of people on the endocytosis or chaos are higher and higher. In the process of coating the wontons, most wonton processing enterprises cut the wonton skins in a manual mode, and the wonton skins are cut irregularly, so that the wontons coated at the later stage are not attractive, the wonton skins are low in manufacturing efficiency, and the production efficiency is low.

Disclosure of Invention

To the defect that exists among the prior art, the utility model aims to provide a machining efficiency is high and cut orderly endocytosis skin rotary cutting device.

In order to achieve the above object, the utility model adopts the following technical scheme:

a transcytosis skin rotary cutting device, comprising:

a frame;

the conveying platform is horizontally arranged on the rack;

the longitudinal cutting and moving assembly comprises a pair of transverse supports, a longitudinal pressing plate, a longitudinal driving motor and a longitudinal transmission shaft, the pair of transverse supports are respectively and transversely fixedly installed at two ends of the rack, the pair of transverse supports are positioned above the conveying platform, the longitudinal pressing plate is respectively and slidably installed between the pair of transverse supports, the longitudinal driving motor is connected with the longitudinal pressing plate through the longitudinal transmission shaft and is used for driving the longitudinal pressing plate to transversely move along the pair of transverse supports, and an opening is formed in the longitudinal pressing plate along the length direction of the longitudinal pressing plate;

the transverse cutting moving assembly comprises a pair of longitudinal supports, a transverse pressing plate, a transverse driving motor and a transverse transmission shaft, the longitudinal supports are longitudinally and fixedly mounted on two sides of the rack respectively, the longitudinal supports are located above the transverse supports, the transverse pressing plate is slidably mounted between the longitudinal supports respectively, the transverse driving motor is connected with the transverse pressing plate through the transverse transmission shaft and used for driving the transverse pressing plate to longitudinally move along the longitudinal supports, and an opening is formed in the transverse pressing plate along the length direction of the transverse pressing plate;

and the cutting assembly comprises a cutting motor, a mounting seat, a steering mechanism, a cutting piece and a moving mechanism for driving the cutting piece to move longitudinally and transversely respectively, the mounting seat is fixedly mounted on the moving mechanism, the cutting motor is fixedly mounted on the mounting seat, the cutting motor passes through the steering mechanism and the cutting piece are connected and used for driving and adjusting the cutting piece to perform longitudinal and transverse cutting operation.

Further, the moving mechanism comprises a transverse moving mechanism and a longitudinal moving mechanism, the longitudinal moving mechanism comprises a pair of longitudinal rails, a pair of first sliding blocks respectively mounted on each longitudinal rail in a sliding manner, a first transmission shaft arranged between the pair of longitudinal rails, and a first driving motor, wherein the first driving motor drives the pair of first sliding blocks to respectively slide along the pair of longitudinal rails through the first transmission shaft; the transverse moving mechanism comprises a pair of transverse rails, a second transmission shaft and a second driving motor, the second transmission shaft is arranged between the pair of transverse rails, two ends of each transverse rail are respectively and correspondingly fixedly installed on the first sliding blocks on the longitudinal rails, the mounting seat and the pair of transverse rails form transverse sliding connection, and the second driving motor drives the mounting seat to transversely move through the second transmission shaft.

Further, the conveying platform is a belt conveying device.

Compared with the prior art, the scheme has the beneficial technical effects that: the rotary cutting device for the endocytic skin is provided with the longitudinal cutting moving component, the transverse cutting moving component and the cutting component, when the rotary cutting device works, the position of a longitudinal pressing plate in the longitudinal cutting component is adjusted, a cutting piece in the cutting component moves downwards and is positioned in an opening in the longitudinal pressing plate, the cutting piece starts to cut the endocytic skin on the conveying platform and moves longitudinally along the opening simultaneously, so that one longitudinal cutting of the endocytic skin is completed, then the longitudinal pressing plate and the cutting piece move for a corresponding width according to a preset endocytic skin cutting width and move longitudinally along the opening similarly, the other longitudinal cutting of the endocytic skin is completed, the longitudinal pressing plate and the cutting piece move for multiple times according to a preset width until all longitudinal cutting operations of the endocytic skin are completed, then the transverse pressing plate moves downwards and presses the endocytic skin after cutting, simultaneously, the angle of the cutting piece is adjusted, so that the cutting piece moves downwards and is positioned in the opening on the transverse pressing plate, then the cutting piece moves transversely along the opening, sequential transverse cutting action on the endocytic skin is finished, then the transverse pressing plate and the cutting piece move for a corresponding length according to the preset endocytic skin cutting length and also move transversely along the opening, another transverse cutting on the endocytic skin is finished, and the transverse pressing plate and the cutting piece move for multiple times for cutting according to the preset length until all transverse cutting operations on the endocytic skin are finished; through sequential longitudinal cutting and transverse cutting of the endocytosis, the cutting operation of the endocytosis skin can be rapidly completed, and the cutting quality of the endocytosis skin can be effectively ensured; in addition, the defects of low efficiency, insanitation and nonstandard size of the traditional manual scribing type knife cutting are overcome, and the sizes of the multi-axis guide rail motion sliding table and the endocytic skin can be flexibly adjusted according to needs by adopting PLC (programmable logic controller) programmed motion control.

Drawings

Fig. 1 is a schematic perspective view of a rotary endocytosis skin cutting device in this embodiment.

Fig. 2 is a schematic structural view of the rotary endocytosis skin cutting device in another angular direction in this embodiment.

Fig. 3 is a schematic perspective view of the longitudinal pressing plate in this embodiment.

Fig. 4 is a partially enlarged structural diagram of a portion a in fig. 2.

The reference numerals in the figures illustrate:

1-frame, 2-conveying platform, 3-longitudinal cutting moving component, 31-transverse bracket, 32-longitudinal transmission shaft, 33-longitudinal driving motor, 34-longitudinal pressing plate, 35-opening, 4-transverse cutting moving component, 41-longitudinal bracket, 42-transverse transmission shaft, 43-transverse driving motor, 44-transverse pressing plate, 45-opening, 5-cutting motor, 6-mounting seat, 7-moving mechanism, 71-transverse moving mechanism, 711-transverse track, 712-second transmission shaft, 713-second driving motor, 72-longitudinal moving mechanism, 721-longitudinal track, 722-first transmission shaft, 723-first driving motor, 724-first sliding block and 8-cutting blade.

Detailed Description

The present invention will be described in further detail with reference to the drawings and the following detailed description.

Referring to fig. 1 to 4, the rotary cutting device for endocytic skin in the present embodiment includes a frame 1, a conveying platform 2 (using a belt conveyor), a longitudinal cutting moving assembly 3, a transverse cutting moving assembly 4, and a cutting assembly.

The longitudinal cutting moving assembly 3 comprises a pair of transverse brackets 31, a longitudinal pressing plate 34, a longitudinal driving motor 33 and a longitudinal transmission shaft 32, wherein the pair of transverse brackets 31 are respectively transversely and fixedly installed at two ends of the frame 1, the pair of transverse brackets 31 are positioned above the conveying platform 2, the longitudinal pressing plate 34 is respectively and slidably installed between the pair of transverse brackets 31, the longitudinal driving motor 33 is connected with the longitudinal pressing plate 34 through the longitudinal transmission shaft 32 and is used for driving the longitudinal pressing plate 34 to transversely move along the pair of transverse brackets 31, and the longitudinal pressing plate 34 is provided with an opening 35 along the length direction thereof.

The transverse cutting moving assembly 4 comprises a pair of longitudinal brackets 41, a transverse pressing plate 44, a transverse driving motor 43 and a transverse transmission shaft 42, wherein the pair of longitudinal brackets 41 are respectively and longitudinally fixedly installed on two sides of the machine frame 1, the pair of longitudinal brackets 41 are positioned above the pair of transverse brackets 31, the transverse pressing plate 44 is respectively and slidably installed between the pair of longitudinal brackets 41, the transverse driving motor 43 is connected with the transverse pressing plate 44 through the transverse transmission shaft 42 and is used for driving the transverse pressing plate 44 to longitudinally move along the pair of longitudinal brackets 41, and the transverse pressing plate 44 is provided with an opening 45 along the length direction thereof.

The cutting assembly comprises a cutting motor 5, a mounting seat 6, a steering mechanism, a cutting piece 8 and a moving mechanism 7 used for driving the cutting piece 8 to move longitudinally and transversely respectively, the mounting seat 6 is fixedly mounted on the moving mechanism 7, the cutting motor 5 is fixedly mounted on the mounting seat 6, the cutting motor 5 is connected with the cutting piece 8 through the steering mechanism and used for driving and adjusting the cutting piece 8 to perform longitudinal and transverse cutting operation.

Specifically, the moving mechanism 7 in this embodiment includes a transverse moving mechanism 71 and a longitudinal moving mechanism 72, the longitudinal moving mechanism 72 includes a pair of longitudinal rails 721, a pair of first sliders 724 respectively slidably mounted on each longitudinal rail 721, a first transmission shaft 722 arranged between the pair of longitudinal rails 721, and a first driving motor 723, wherein the first driving motor 723 drives the pair of first sliders 724 to respectively slide along the pair of longitudinal rails 721 through the first transmission shaft 722; the transverse moving mechanism 71 includes a pair of transverse rails 711, a second transmission shaft 712 disposed between the pair of transverse rails 711, and a second driving motor 713, two ends of each transverse rail 711 are respectively and fixedly mounted on the first sliding blocks 724 on the longitudinal rails 721, the mounting base 6 and the pair of transverse rails 711 form a transverse sliding connection, wherein the second driving motor 713 drives the mounting base 6 to move transversely through the second transmission shaft 712.

During operation, by adjusting the position of the longitudinal pressing plate 34 in the longitudinal cutting assembly, and simultaneously moving the cutting blade 8 in the cutting assembly downward and positioning the cutting blade 8 in the opening 35 in the longitudinal pressing plate 34, the cutting blade 8 starts to cut the endocytic skin on the conveying platform 2 and simultaneously moves longitudinally along the opening 35, thereby completing one longitudinal cutting of the endocytic skin, and then the longitudinal pressing plate 34 and the cutting blade 8 move by a corresponding width according to the preset endocytic skin cutting width and also move longitudinally along the opening 45, thereby completing another longitudinal cutting of the endocytic skin, and the longitudinal pressing plate 34 and the cutting blade 8 move for multiple times according to a preset width until completing all longitudinal cutting operations of the endocytic skin (it can be understood that, when the longitudinal cutting operation is performed, the transverse pressing plate 44 moves to one side of the rack 1, thereby preventing the transverse pressing plate 44 from interfering with the cutting operation of the cutting blade 8 on the endocytic skin, in addition, the length of the swallow skin placed on the conveying platform 2 is smaller than that of the longitudinal pressing plate 34, so that the cutting piece 8 can complete longitudinal cutting on the swallow skin after the transverse pressing plate 44 moves to one side); then the transverse pressing plate 44 moves downwards and presses the cut swallow skin, meanwhile, the angle of the cutting piece 8 is adjusted, the cutting piece 8 moves downwards and is located in an opening 45 on the transverse pressing plate 44, then the cutting piece 8 moves transversely along the opening 45, sequential transverse cutting action on the swallow skin is finished, then the transverse pressing plate 44 and the cutting piece 8 move for a corresponding length according to the preset swallow skin cutting length and also move transversely along the opening 45, another transverse cutting on the swallow skin is finished, and the transverse pressing plate 44 and the cutting piece 8 move for multiple times according to the preset length until all transverse cutting operations on the swallow skin are finished; through the sequential longitudinal cutting and transverse cutting of the endocytosis, the cutting operation of the endocytosis skin can be rapidly completed, and the cutting quality of the endocytosis skin can be effectively ensured.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalent technologies, the present invention is also intended to include such modifications and variations.

Claims

1. A rotary cutting device for endocytosis skin, which is characterized by comprising:

a frame;

the conveying platform is horizontally arranged on the rack;

2. The rotary endocytosis skin cutting device according to claim 1, wherein said moving mechanism comprises a transverse moving mechanism and a longitudinal moving mechanism, said longitudinal moving mechanism comprises a pair of longitudinal rails, a pair of first sliders respectively slidably mounted on each of said longitudinal rails, a first transmission shaft disposed between a pair of said longitudinal rails, and a first driving motor, wherein said first driving motor drives a pair of said first sliders respectively to slide along a pair of said longitudinal rails through said first transmission shaft; the transverse moving mechanism comprises a pair of transverse rails, a second transmission shaft and a second driving motor, the second transmission shaft is arranged between the pair of transverse rails, two ends of each transverse rail are respectively and correspondingly fixedly installed on the first sliding blocks on the longitudinal rails, the mounting seat and the pair of transverse rails form transverse sliding connection, and the second driving motor drives the mounting seat to transversely move through the second transmission shaft.

3. The rotary endocytosis skin cutting device according to claim 1 or 2, wherein the conveying platform is a belt conveying device.