CN109176637B

CN109176637B - Sliding locking type vegetable cutting device

Info

Publication number: CN109176637B
Application number: CN201810832759.4A
Authority: CN
Inventors: 陈斌; 方辉; 王义祥; 赵春林; 林红梅; 高顺峰; 周微; 施晶晶; 何晓鹏
Original assignee: Jiangsu Cuiyuan Food Co ltd
Current assignee: Jiangsu Cuiyuan Food Co ltd
Priority date: 2018-07-26
Filing date: 2018-07-26
Publication date: 2021-01-19
Anticipated expiration: 2038-07-26
Also published as: CN109176637A

Abstract

The invention discloses a sliding locking type vegetable cutting device which comprises a base, a cutting bin, a bin inlet bin, a cutting mechanism and a sliding locking assembly, wherein the cutting bin is arranged on the base; according to the invention, the position of the sliding block is adjusted, after the optimal cutting position is determined, the position of the sliding locking block is moved up and down on the guide column, then one end of the T-shaped locking screw rod penetrates through the connecting through hole and is in threaded connection with the locking threaded hole on the inner side of the sliding block, and the other end of the T-shaped locking screw rod is clamped in the moving cavity of the sliding locking block, so that the stability of the sliding block connection is realized.

Description

Sliding locking type vegetable cutting device

Technical Field

The invention relates to a sliding locking type vegetable cutting device.

Background

With the economic development and social progress, the quality of life of people is improved, and the food on the dining table is more and more abundant and various. When these foods are processed, much effort and time are required for cutting the vegetables such as shredding, slicing and slitting, which becomes a great burden for processing plants. In order to adapt to the fast-paced work and high-quality products of the existing factories, various vegetable cutters come to the end. But current vegetable-chopper is generally including cutting the dish chamber and the mechanism of cutting the dish, installs cutting mechanism in the intracavity of cutting the dish, and cutting mechanism generally includes actuating mechanism, the drive shaft, cutting blade, rotates through actuating mechanism control drive shaft, and cutting blade installs the both sides at the drive shaft, but cutting device cutting inefficiency so, cutting blade's position can not be adjusted, and cutting blade's position can not be adjusted in a flexible way in order to reach the best cutting state, still will ensure the stability of connecting on the basis of adjustable cutting position.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the problems that: the sliding locking type vegetable cutting device is stable in connection and the position of the cutting blade can be flexibly adjusted.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a sliding locking type vegetable cutting device comprises a base, a cutting bin, a bin inlet, a cutting mechanism and a sliding locking assembly; the cutting bin is arranged at the upper end of the base; the feeding bin is arranged at the upper end of the cutting bin; the feeding bin is communicated with the cutting bin; the feeding bin is of an annular structure; the cutting mechanism is arranged in the cutting bin; the cutting mechanism comprises a driving motor, a driving shaft, an upper baffle, a lower baffle, a guide screw rod, a sliding block, a locking nut and a cutting blade; the driving motor controls the driving shaft to rotate; the driving shaft is vertically arranged in the cutting bin; an upper baffle is fixed at the upper end of the driving shaft, and a lower baffle is fixed around the lower part of the driving shaft; the upper baffle and the lower baffle are vertically and concentrically distributed in parallel; a plurality of guide screws are uniformly arranged on the periphery between the upper baffle and the lower baffle; the upper end of the guide screw is fixed on the lower side of the upper baffle; the lower end of the guide screw is fixed on the upper side of the lower baffle; the sliding block is connected to the guide screw rod in a sliding manner; the guide screw is in threaded connection with a locking nut; the upper end and the lower end of the sliding block are respectively provided with a locking nut for clamping; the cutting blade is vertically arranged on the outer side of the sliding block; the sliding locking assembly is provided with a plurality of sliding locking assemblies; the sliding locking components are arranged between the upper baffle plate and the lower baffle plate; the sliding locking assemblies are uniformly distributed on the outer side of the periphery of the driving shaft; a sliding locking assembly is arranged between the guide screw and the driving shaft respectively; the sliding locking assembly comprises a sliding locking block, a guide post and a T-shaped locking screw rod; the upper end and the lower end of the guide post are respectively fixed on the lower side of the upper baffle and the upper side of the lower baffle; the guide post is positioned between the guide screw and the driving shaft; the inner side of the sliding locking block is provided with a longitudinally-penetrated adjusting groove; a moving cavity is arranged on the outer side of the sliding locking block; the outer side of the moving cavity is provided with a connecting through hole; the inner side of the sliding block is provided with a locking threaded hole; the sliding locking block is connected to the guide post in a vertical sliding manner through the adjusting groove; the T-shaped locking screw is arranged in a moving cavity of the sliding locking block; one end of the T-shaped locking screw rod penetrates through the connecting through hole and then is in threaded connection with the locking threaded hole on the inner side of the sliding block; the other end of the T-shaped locking screw is clamped in a moving cavity of the sliding locking block.

Furthermore, a sliding groove which penetrates through the sliding block longitudinally is arranged on the sliding block; the sliding block is connected to the guide screw rod through a sliding groove in a sliding mode.

Furthermore, the upper baffle and the lower baffle are both flat round structures; the driving shaft is of a cylindrical structure.

Further, the diameter of the upper baffle and the diameter of the lower baffle are larger than that of the driving shaft.

Furthermore, the outer side of the sliding block is provided with a mounting thread groove; one end of the cutting blade is provided with a mounting threaded column; the cutting blade pass through the installation screw thread post connection of one end in the installation thread groove in the outside of sliding block.

Furthermore, a plurality of sliding blocks are connected on the guide screw rod in a sliding way; a plurality of sliding locking blocks are arranged on the guide post in a sliding way; a plurality of abutting elastic bodies are sleeved on the guide screw rod; the abutting elastic bodies are distributed between the adjacent locking nuts in a compressed state.

Further, a feeding hopper is arranged at the upper end of the feeding bin; the feeding hopper is of a conical structure with a small upper part and a big lower part; the feeding hopper is communicated with the feeding bin.

Further, the driving motor is arranged at the bottom of the cutting bin and connected with the lower end of the driving shaft.

Furthermore, a discharge pipe is arranged on one side of the lower end of the cutting bin; the discharging pipe is provided with an electromagnetic valve and a discharging pump.

The invention has the advantages of

According to the invention, the position of the sliding block is adjusted, after the optimal cutting position is determined, the position of the sliding locking block is moved up and down on the guide column, then one end of the T-shaped locking screw rod penetrates through the connecting through hole and is in threaded connection with the locking threaded hole on the inner side of the sliding block, and the other end of the T-shaped locking screw rod is clamped in the moving cavity of the sliding locking block, so that the stability of the sliding block connection is realized; the invention changes the structure of the traditional cutting mechanism, the upper baffle and the lower baffle are respectively fixed on the upper end and the lower periphery of the driving shaft, the upper baffle and the lower baffle are used as a supporting frame, a plurality of guide screws are uniformly arranged between the upper baffle and the lower baffle, a sliding block provided with a cutting blade is movably connected on the guide screws, and then the sliding block moves on the guide screws through locking nuts and is clamped and locked up and down.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the cutting mechanism and slide lock assembly of the present invention.

FIG. 3 is a schematic view of the structure of the drive shaft, upper and lower shutters, lead screw, and slide lock assembly.

Fig. 4 is a schematic structural view of the sliding lock block and the T-shaped lock screw.

FIG. 5 is a schematic structural view of the sliding lock block, the T-shaped locking screw and the sliding block.

Fig. 6 is a schematic view of the structure of the cutting blade.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 6, a sliding locking type vegetable cutting device comprises a base 1, a cutting bin 2, a feeding bin 3, a cutting mechanism 5 and a sliding locking assembly 6; the cutting bin 2 is arranged at the upper end of the base 1; the feeding bin 3 is arranged at the upper end of the cutting bin 2; the feeding bin 3 is communicated with the cutting bin 2; the feeding bin 3 is of an annular structure, so that vegetables can be dispersed, and the vegetables can be cut more uniformly; the cutting mechanism 5 is arranged in the cutting cabin 2. As shown in fig. 1 and 2, the cutting mechanism 5 includes a drive motor 51, a drive shaft 52, an upper stopper 53, a lower stopper 54, a lead screw 55, a slide block 56, a lock nut 57, and a cutting blade 59. The driving motor 51 controls the driving shaft 52 to rotate; the driving shaft 52 is vertically arranged in the cutting bin 2; an upper baffle plate 53 is fixed at the upper end of the driving shaft 52, and a lower baffle plate 54 is fixed at the periphery below the driving shaft 52; the upper baffle plate 53 and the lower baffle plate 54 are vertically and concentrically distributed in parallel; a plurality of guide screws 55 are uniformly arranged on the periphery between the upper baffle plate 53 and the lower baffle plate 54; the upper end of the guide screw 55 is fixed on the lower side of the upper baffle plate 53; the lower end of the guide screw 55 is fixed on the upper side of the lower baffle plate 54; the sliding block 56 is connected to the guide screw 55 in a sliding manner; the guide screw 55 is in threaded connection with a locking nut 57; the upper end and the lower end of the sliding block 56 are respectively provided with a locking nut 57 for clamping, namely, each sliding block 56 is provided with two locking nuts 57 for clamping; the cutting blade 59 is mounted vertically outside the slide block 56. As shown in fig. 2, the slide lock assembly 6 is provided in plurality; the plurality of slide lock assemblies 6 are mounted between the upper and

lower shutters

53 and 54; the sliding locking assemblies 6 are uniformly distributed on the outer side of the periphery of the driving shaft 52; a sliding locking assembly 6 is arranged between the guide screw 55 and the driving shaft 52; the sliding locking assembly 6 comprises a sliding locking block 62, a guide column 61 and a T-shaped locking screw 63; the upper end and the lower end of the guide post 61 are respectively fixed on the lower side of the upper baffle plate 52 and the upper side of the lower baffle plate 54; the guide post 61 is positioned between the guide screw 55 and the driving shaft 51; as shown in fig. 4 and 5, the inner side of the sliding locking block 62 is provided with an adjusting groove 621 which penetrates longitudinally; a moving cavity 622 is arranged on the outer side of the sliding locking block 62; a connecting through hole 623 is formed in the outer side of the moving cavity 622; the inner side of the sliding block 56 is provided with a locking threaded hole 563; the sliding locking block 62 is connected to the guide post 61 in a vertical sliding manner through the adjusting groove 621; the T-shaped locking screw 63 is arranged in the moving cavity 622 of the sliding locking block 62; one end of the T-shaped locking screw 63 passes through the connecting through hole 623 and then is in threaded connection with the locking threaded hole 563 on the inner side of the sliding block 56; the other end of the T-shaped locking screw 63 is clamped in the moving cavity 622 of the sliding locking block 62.

As shown in fig. 2 and 5, it is further preferable that the sliding block 56 is provided with a sliding groove 562 penetrating longitudinally; the slide block 56 is slidably connected to the lead screw 55 through a slide groove 562. More preferably, the upper baffle 53 and the lower baffle 54 both have flat round structures; the drive shaft 52 is of cylindrical configuration. Further preferably, the diameter of the upper baffle 53 and the lower baffle 54 is larger than the diameter of the driving shaft 52, and the relationship between the diameter D of the upper baffle 53 and the lower baffle 54 and the diameter D1 of the driving shaft 52 is as follows: 3D1 is more than or equal to D which is more than or equal to 2D 1.

As shown in fig. 2 and 6, it is further preferable that the sliding block 56 is provided with a mounting thread groove 561 on the outer side; one end of the cutting blade 59 is provided with a mounting threaded column 591; the cutting blade 59 is connected to the mounting screw groove 561 on the outer side of the sliding block 56 by a mounting screw post 591 at one end.

As shown in fig. 2 and 3, it is further preferable that a plurality of sliding blocks 56 are slidably connected to the lead screw 55; a plurality of sliding locking blocks 62 are slidably mounted on the guide post 61, namely, one sliding locking block 62 corresponds to each sliding block 56, and the sliding blocks 56 are locked by a T-shaped locking screw 63 mounted in a moving cavity 622 of each sliding locking block 62; a plurality of abutting elastic bodies 58 are sleeved on the guide screw 55; the pressing elastic bodies 58 are distributed between the adjacent locking nuts 57 in a compressed state. In the present embodiment, it is preferable that at most two sliding blocks 56 are slidably connected to the lead screw 55, and each sliding block 56 is provided with two locking nuts 57 for clamping, so that the locking nut 57 on the lower side of the upper sliding block 56 and the locking nut 57 on the upper side of the lower sliding block 56 are adjacent locking nuts 57, and the pressing elastic body 58 distributed in a compressed state is installed between the adjacent locking nuts 57 for enhancing the connection stability between the sliding blocks 56, the locking nuts 57 and the lead screw 55. In the present embodiment, one lead screw 55 is distributed on each of the front and rear sides and the left and right sides of the driving shaft 52, one sliding block 56 is slidably mounted on each of the front and rear lead screws 55, two sliding blocks 56 are slidably mounted on each of the left and right lead screws 55, and the cutting blades 59 on the front and rear sliding blocks 56 of the driving shaft 52 and the cutting blades 59 on the left and right sliding blocks 56 of the driving shaft 52 are located at different horizontal planes, and the horizontal planes where the cutting blades 59 on the front and rear sides of the driving shaft 52 are located between the horizontal planes where the two cutting blades 59 on the left and right sides of the.

As shown in fig. 1, further, an inlet hopper 4 is arranged at the upper end of the inlet bin 3; the feeding hopper 4 is of a conical structure with a small upper part and a big lower part; the feeding hopper 4 is communicated with the feeding bin 3. Further, the driving motor 51 is installed at the bottom of the cutting bin 2 and connected to the lower end of the driving shaft 52. Further, a discharge pipe 21 is arranged on one side of the lower end of the cutting bin 2; the discharge pipe 21 is provided with an electromagnetic valve 211 and a discharge pump 212.

The position of the sliding block 56 is adjusted, after the optimal cutting position is determined, the position of the sliding locking block 62 is moved up and down on the guide post 61, then one end of the T-shaped locking screw 63 penetrates through the connecting through hole 623 and then is in threaded connection with the locking threaded hole 563 on the inner side of the sliding block 56, and the other end of the T-shaped locking screw 63 is in clamping connection with the moving cavity 622 of the sliding locking block 62, so that the connection stability of the sliding block 56 is realized; the cutting mechanism changes the structure of the traditional cutting mechanism 5, an upper baffle plate 53 and a lower baffle plate 54 are respectively fixed on the upper end and the lower periphery of a driving shaft 52, the upper baffle plate 53 and the lower baffle plate 54 are used as supporting frames, a plurality of guide screw rods 55 are uniformly arranged between the upper baffle plate 53 and the lower baffle plate 54, a sliding block 56 provided with a cutting blade is connected on the guide screw rods 55 in a sliding mode, then the sliding block 56 moves on the guide screw rods 55 through a locking nut 57 and is clamped and locked up and down, the cutting mechanism is ingenious in structural design, the cutting position can be adjusted at any time, the use is more flexible, and the optimal cutting state and efficiency can be achieved according to requirements.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A sliding locking type vegetable cutting device is characterized by comprising a base, a cutting bin, a bin inlet bin, a cutting mechanism and a sliding locking component; the cutting bin is arranged at the upper end of the base; the feeding bin is arranged at the upper end of the cutting bin; the feeding bin is communicated with the cutting bin; the feeding bin is of an annular structure; the cutting mechanism is arranged in the cutting bin; the cutting mechanism comprises a driving motor, a driving shaft, an upper baffle, a lower baffle, a guide screw rod, a sliding block, a locking nut and a cutting blade; the driving motor controls the driving shaft to rotate; the driving shaft is vertically arranged in the cutting bin; an upper baffle is fixed at the upper end of the driving shaft, and a lower baffle is fixed around the lower part of the driving shaft; the upper baffle and the lower baffle are vertically and concentrically distributed in parallel; a plurality of guide screws are uniformly arranged on the periphery between the upper baffle and the lower baffle; the upper end of the guide screw is fixed on the lower side of the upper baffle; the lower end of the guide screw is fixed on the upper side of the lower baffle; the sliding block is connected to the guide screw rod in a sliding manner; the guide screw is in threaded connection with a locking nut; the upper end and the lower end of the sliding block are respectively provided with a locking nut for clamping; the cutting blade is vertically arranged on the outer side of the sliding block; the sliding locking assembly is provided with a plurality of sliding locking assemblies; the sliding locking components are arranged between the upper baffle plate and the lower baffle plate; the sliding locking assemblies are uniformly distributed on the outer side of the periphery of the driving shaft; a sliding locking assembly is arranged between the guide screw and the driving shaft respectively; the sliding locking assembly comprises a sliding locking block, a guide post and a T-shaped locking screw rod; the upper end and the lower end of the guide post are respectively fixed on the lower side of the upper baffle and the upper side of the lower baffle; the guide post is positioned between the guide screw and the driving shaft; the inner side of the sliding locking block is provided with a longitudinally-penetrated adjusting groove; a moving cavity is arranged on the outer side of the sliding locking block; the outer side of the moving cavity is provided with a connecting through hole; the inner side of the sliding block is provided with a locking threaded hole; the sliding locking block is connected to the guide post in a vertical sliding manner through the adjusting groove; the T-shaped locking screw is arranged in a moving cavity of the sliding locking block; one end of the T-shaped locking screw rod penetrates through the connecting through hole and then is in threaded connection with the locking threaded hole on the inner side of the sliding block; the other end of the T-shaped locking screw is clamped in a moving cavity of the sliding locking block.

2. The sliding locking vegetable cutting device according to claim 1, wherein the sliding block is provided with a sliding groove longitudinally penetrating therethrough; the sliding block is connected to the guide screw rod through a sliding groove in a sliding mode.

3. The sliding locking vegetable cutting device of claim 1 wherein the upper and lower baffles are each flat round in configuration; the driving shaft is of a cylindrical structure.

4. A slide-lock vegetable cutting device as claimed in claim 3, wherein the diameter of the upper and lower shutters is larger than the diameter of the driving shaft.

5. The sliding locking vegetable cutting device according to claim 1, characterized in that the outer side of the sliding block is provided with a mounting thread groove; one end of the cutting blade is provided with a mounting threaded column; the cutting blade pass through the installation screw thread post connection of one end in the installation thread groove in the outside of sliding block.

6. The sliding and locking vegetable cutting device of claim 1 wherein said lead screw is slidably connected to a plurality of slide blocks; a plurality of sliding locking blocks are arranged on the guide post in a sliding way; a plurality of abutting elastic bodies are sleeved on the guide screw rod; the abutting elastic bodies are distributed between the adjacent locking nuts in a compressed state.

7. The sliding locking vegetable cutting device according to claim 1, characterized in that the upper end of the feeding bin is provided with a feeding hopper; the feeding hopper is of a conical structure with a small upper part and a big lower part; the feeding hopper is communicated with the feeding bin.

8. The sliding lock type vegetable cutting device as claimed in claim 1, wherein the driving motor is installed at the bottom of the cutting bin and connected to the lower end of the driving shaft.

9. The sliding locking vegetable cutting device according to claim 1, wherein a discharge pipe is provided on one side of the lower end of the cutting bin; the discharging pipe is provided with an electromagnetic valve and a discharging pump.