CN213055030U

CN213055030U - Fig slicing machine

Info

Publication number: CN213055030U
Application number: CN202021210014.3U
Authority: CN
Inventors: 何少波; 李文
Original assignee: Guangdong Vocational College of Science and Trade; Lechang Shuiniuwan Agricultural Development Co ltd
Current assignee: Guangdong Vocational College of Science and Trade; Lechang Shuiniuwan Agricultural Development Co ltd
Priority date: 2020-06-24
Filing date: 2020-06-24
Publication date: 2021-04-27
Anticipated expiration: 2030-06-24

Abstract

The utility model relates to the field of fig processing, and discloses a fig cutting machine, which comprises two cutting assemblies arranged on a frame in parallel and two cylinders I corresponding to the two cutting assemblies one by one, wherein the two cylinders I are assembled to ensure that the two cutting assemblies have the process of alternately cutting petals; the cutting valve assembly comprises a lower die which is arranged on the rack in a sliding manner and is provided with a blade; the upper die is arranged on the rack in a lifting manner and is positioned right above the lower die, and a cutter groove corresponding to the blade is formed in the upper die; the first cylinder is fixedly arranged on the rack, and the extending end of the first cylinder is fixed with the corresponding upper die. This fig cutting machine has that the automation level of cutting the lamella is higher, can once only carry out a plurality of stations and cut the lamella, cuts the efficient advantage of lamella.

Description

Fig slicing machine

Technical Field

The utility model relates to a fig processing field, in particular to fig slicing machine.

Background

The fig is one of the fastest fruit trees put into production in the world at present, and has high yield, no big or small years, less plant diseases and insect pests and easy cultivation and management. The fig is planted in the same year, and fruits are hung in the same year, the yield per plant can reach 2 kilograms, the yield per mu can reach 500 kilograms, the economic benefit is remarkable, and the planting area is expanded. The fig can be deeply processed and manufactured into dry fruits so as to be convenient to store, and the cutting device can be selected to firstly cut the fig into sections and then dry the fig into the sections when the dry fruits are manufactured.

Can refer to current publication for CN 109275920A's chinese patent, it discloses a fruit cutter, including the workstation frame, be equipped with immersed tube passageway on the mesa of workstation frame, the workstation frame top still is equipped with the articulated arm, the articulated arm corresponds the opening part of immersed tube passageway be equipped with the pressure plug that the opening of immersed tube passageway set up with one heart, be equipped with the pipe that denucleates in the opening of immersed tube passageway, the periphery wall of the pipe that denucleates with be equipped with the cutting lamella blade between the internal perisporium of immersed tube passageway, the upper end of the pipe that denucleates with the immersed tube passageway sets up with one heart, wear out after the lower extreme of the pipe that denucleates buckles the immersed tube passageway, the cutting lamella blade with the centre of a circle of the pipe that denucleates is central annular display setting, the lower terminal surface of pressure plug is equipped with the confession the crack that.

The fruit cutting machine has the advantage of simple structure. However, the fruit cutting machine of the above type still has some disadvantages, such as: the cutting flap is manually operated, and can only be cut once, so that the efficiency is low.

SUMMERY OF THE UTILITY MODEL

To the problem of mentioning in the background art, the utility model aims at providing a fig cutting machine to solve the problem of mentioning in the background art.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a fig cutting machine comprises two cutting assemblies arranged on a rack in parallel and two cylinders I corresponding to the two cutting assemblies one by one, wherein the two cylinders I are assembled to enable the two cutting assemblies to have an alternate cutting process; wherein,

the cutting lamella subassembly includes:

the lower die is arranged on the rack in a sliding manner and is provided with a blade;

the upper die is arranged on the rack in a lifting manner and is positioned right above the lower die, and a cutter groove corresponding to the blade is formed in the upper die;

the first cylinder is fixedly arranged on the rack, and the extending end of the first cylinder is fixed with the corresponding upper die.

Preferably, the upper surface of the lower die is provided with a valve connecting groove, and the blade is positioned at the cavity opening of the valve connecting groove.

Preferably, the upper die and the lower die in each valve cutting assembly are a pair, and the two upper dies are connected to the extending ends of the corresponding first cylinders through a connecting plate.

Preferably, the first cylinder is set to be in a state that the extending end faces upwards, the upper die is supported on the rack through a telescopic piece, and two telescopic pieces in each valve cutting assembly are fixed on the extending end of the first cylinder through a connecting plate.

Preferably, the telescopic part comprises a rod sleeve fixed on the rack and a telescopic rod arranged in the rod sleeve in a telescopic penetrating mode, and the top end of the telescopic rod is fixed on the connecting plate.

Preferably, the two lower dies in each of the segment cutting assemblies are integrally formed by a plate body.

Preferably, both ends of the upper surface of the plate body extend outwards to form strip-shaped parts, and the lower die is placed on the rack through the strip-shaped parts in a sliding mode.

Preferably, each valve cutting assembly further comprises a second air cylinder fixed on the rack, the extending end of the second air cylinder is fixed on the lower die of the valve cutting assembly, the two second air cylinders are assembled into the lower dies in the two valve cutting assemblies to move alternately, when the upper die moves downwards, the lower die corresponding to the upper die is extended by the extending end of the second air cylinder and fixed right below the upper die, and when the upper die moves upwards, the lower die corresponding to the upper die is driven by the extending end of the second air cylinder to retract.

To sum up, the utility model discloses following beneficial effect has at least:

the fig cutting machine has the advantages of high cutting automation level, capability of cutting a plurality of double-position cutting segments at one time and high cutting efficiency; when the device is used, two cutting mechanism can be selected to work alternately, one cutting mechanism is used for cutting the fruit, the other cutting mechanism is used for extending out the fruit to put the fruit, alternate production is realized, and the efficiency is high.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

fig. 3 is a schematic structural diagram of a second embodiment of the present invention;

fig. 4 is a structural sectional view of a second embodiment of the present invention.

Reference numerals: the device comprises a frame 1, a petal cutting assembly 2, a lower die 21, a strip portion 210, a blade 22, an upper die 23, a knife groove 24, a petal connecting groove 25, a connecting plate 26, a telescopic piece 27, a rod sleeve 271, a telescopic rod 272, a first air cylinder 3 and a second air cylinder 4.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 and 2, a first embodiment of the present invention provides a fig cutting machine, which comprises two cutting assemblies 2 arranged in parallel on a frame 1 and two cylinders one 3 corresponding to the two cutting assemblies 2 one by one, wherein the two cylinders one 3 are assembled to make the two cutting assemblies 2 have an alternate cutting process, specifically, one end of each of the two cylinders one 3 is fixed on the frame 1, and the extending end of each cylinder is connected with the corresponding cutting assembly 2; wherein,

the cutting flap assembly 2 comprises:

the lower die 21 is arranged on the rack 1 in a sliding mode, the blade 22 is arranged on the lower die 21, the lower die 21 can slide on the rack 1 to adjust the position, the fig can slide to a designated position when being cut into the petals, the petal cutting process is achieved, the fig can be pulled out in a sliding mode after the petals are cut, the fig petals are taken out, and then a new fig is placed in the fig to be cut into the petals next time;

the upper die 23 is arranged on the frame 1 in a lifting mode and located right above the lower die 21, a cutter groove 24 corresponding to the blade 22 is formed in the upper die 23, after the lower die 21 slides to a specified position, the upper die 23 descends to contact fig on the lower die 21 and is pressed downwards, fig can be pressed downwards on the blade 22, at the moment, after the blade 22 enters the cutter groove 24, the fig is cut off, and falls on the lower die 21;

the first cylinder 3 is fixedly arranged on the rack 1, the extending end of the first cylinder is fixed to the corresponding upper die 23, the first cylinder 3 is used for driving the lifting process of the upper die 23 to provide power for the fig cutting, the upper die 23 is restored to the original position after the cutting is completed, the lower die 21 can slide, the lower die 21 is separated from the lower side of the upper die 23, the fig in the lower die 21 is taken out, a new fig is placed, and the fig cutting process is achieved in a reciprocating mode.

In the using process of the scheme, when the two cylinders I3 are assembled into the cylinder I3 to extend, the other cylinder I3 retracts, so that the two cylinders I3 have the alternate lifting process, the lower die 21 can be arranged on the rack 1 in a sliding way, the lower die 21 below the upper die 23 in the retracting state can be moved out, the fig cut on the upper die 23 can be taken out and put in a new fig, in the process, the other upper die 23 moves downwards, the fig on the corresponding lower die 21 can be cut, therefore, the cutting operation of one cutting assembly 2 can be realized, the cutting operation of the other cutting assembly 2 can be realized, further, the alternate cutting process of the two cutting assemblies 2 can be utilized, the cutting processing of the fig can be continuously carried out, the cutting efficiency of the fig is improved, the structure is simple, and the action processes of the upper die 23 and the lower die 21 are simple, convenient realization and better stability.

A valve connecting groove 25 is formed in the upper surface of the lower die 21, the blade 22 is located at the cavity opening of the valve connecting groove 25, the fig is pressed downwards in the valve cutting process, accordingly, the fig cutting is achieved through the blade 22 downwards, the fig after the fig cutting automatically falls into the valve connecting groove 25 to be collected, in addition, the depth of the valve connecting groove 25 can be set to match the size of the fig, the fig after the fig cutting cannot be extruded in the valve cutting process, and the completeness of the fig is guaranteed.

Last mould 23 and lower mould 21 in every cutting lamella subassembly 2 are a pair of, and two go up the mould 23 and connect on the end that stretches out of cylinder 3 rather than corresponding through a connecting plate 26 jointly, here for having increased the fig quantity of cutting the lamella simultaneously, of course, in other modes, can increase or reduce according to actual need, no longer describe herein.

The cylinder I3 is set to be in a state that the extending end faces upwards, the upper die 23 is supported on the frame 1 through an expansion piece 27, two expansion pieces 27 in each valve cutting assembly 2 are fixed on the extending end of the cylinder I3 through a connecting plate 26, each expansion piece 27 comprises a rod sleeve 271 fixed on the frame 1 and an expansion rod 272 which is telescopically arranged in the rod sleeve 271 in a penetrating mode, and the top end of the expansion rod 272 is fixed on the connecting plate 26.

Two lower moulds 21 in every cut lamella subassembly 2 are formed by a plate body integrated into one piece, and is concrete, has seted up two on the plate body and has connect lamella groove 25, utilizes integrated into one piece's mode for a plurality of lower moulds 21 can be removed simultaneously in every cut lamella subassembly 2, realize synchronous feeding and ejection of compact process, convenient operation.

Both ends of plate body upper surface all outwards extend there are strip portion 210, lower mould 21 passes through strip portion 210 slidable and places in frame 1, directly utilize strip portion 210 to take on frame 1, and utilize the plate body both sides face to be located the part and the frame 1 contact of strip portion 210 below, can effectually carry on spacingly to lower mould 21, even slide the in-process, also can not deviate, can guarantee after the material loading with last mould 23 effective cooperation, improve and cut lamella efficiency and prevent that blade 22 from damaging.

As shown in fig. 3 and 4, each of the two valve cutting assemblies 2 further includes a second air cylinder 4 fixed on the frame 1, an extending end of the second air cylinder 4 is fixed on the lower die 21 of the valve cutting assembly 2, the two second air cylinders 4 are assembled into two lower dies 21 in the valve cutting assembly 2 to move alternately, and when the upper die 23 moves downwards, the corresponding lower die 21 is extended by the extending end of the second air cylinder 4 and fixed right below the upper die 23, and when the upper die 23 moves upwards, the corresponding lower die 21 is driven by the extending end of the second air cylinder 4 to retract.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A fig cutting machine is characterized by comprising two cutting assemblies arranged on a rack in parallel and two cylinders I corresponding to the two cutting assemblies one by one, wherein the two cylinders I are assembled to enable the two cutting assemblies to have an alternate cutting process; wherein,

the cutting petal subassembly includes:

2. The valve cutting machine according to claim 1, wherein the lower die has a valve receiving groove formed in an upper surface thereof, and the blade is located at a cavity opening of the valve receiving groove.

3. The valve cutting machine according to claim 1, wherein each of the upper and lower dies in each valve cutting assembly is a pair, and the two upper dies are commonly connected to the projecting end of the corresponding one of the cylinders through a connecting plate.

4. The valve cutting machine according to claim 3, wherein the first cylinder is disposed with the extended end thereof facing upward, the upper die is supported on the frame by a telescopic member, and the two telescopic members in each valve cutting assembly are fixed to the extended end of the first cylinder by a connecting plate.

5. The valve cutting machine according to claim 4, wherein said telescopic member comprises a rod sleeve fixed on the frame and a telescopic rod telescopically inserted into said rod sleeve, and the top end of said telescopic rod is fixed on said connecting plate.

6. The valve cutting machine of claim 3 wherein the two lower dies in each valve cutting assembly are integrally formed from a plate.

7. The valve cutting machine according to claim 6, wherein a strip extends outwardly from each end of the upper surface of said plate body, and the lower die is slidably disposed on the frame via the strip.

8. The valve cutting machine according to any one of claims 1-7, characterized in that each valve cutting assembly further comprises a second air cylinder fixed on the frame, the extending end of the second air cylinder is fixed on the lower die of the valve cutting assembly, the two second air cylinders are assembled into two lower dies in the valve cutting assembly to move alternately, when the upper die moves downwards, the corresponding lower die is extended by the extending end of the second air cylinder and fixed right below the upper die, and when the upper die moves upwards, the corresponding lower die is driven by the extending end of the second air cylinder to retract.