CN112931603B

CN112931603B - Vacuum packaging machine after vegetable dehydration

Info

Publication number: CN112931603B
Application number: CN202110101350.7A
Authority: CN
Inventors: 徐国梁
Original assignee: Liaocheng Zhicheng Fruits And Vegetables Co ltd
Current assignee: Liaocheng Zhicheng Fruits And Vegetables Co ltd
Priority date: 2021-01-26
Filing date: 2021-01-26
Publication date: 2023-04-07
Anticipated expiration: 2041-01-26
Also published as: CN112931603A

Abstract

The invention relates to the technical field of a vacuum packaging machine after vegetable dehydration, in particular to a vacuum packaging machine after vegetable dehydration, wherein the lower end of a dehydrator is provided with a discharge pipeline connected by a buckle, one end of the discharge pipeline is provided with an upper connecting pipe connected by welding, one end of the upper connecting pipe is provided with a vacuum feeding pipe, and through the arrangement of a lower connecting pipeline and a storage box, crushed slag generated by dehydrated vegetables can be screened, so that the quality of the packaged dehydrated vegetables can be guaranteed, and the income can be increased on the premise of improving the quality of the packaged vegetables; through the setting to overall structure, can be so that the disintegrating slag that dehydrated vegetables produced is collected, be favorable to keeping the environment around the hydroextractor like this, can carry out reutilization to the vegetables disintegrating slag simultaneously, and then further improve the benefit that dehydrated vegetables produced, and this device does not influence the work of hydroextractor under the condition to the disintegrating slag is handled.

Description

Vacuum packaging machine after vegetable dehydration

Technical Field

The invention relates to the technical field of a vacuum packaging machine after vegetable dehydration, in particular to a vacuum packaging machine after vegetable dehydration.

Background

The vegetables dehydration is exactly the processing procedure that gets into the fresh vegetables who contains moisture and get rid of moisture, does so in order to let vegetables can long-term storage, and the vegetables packagine machine of prior art simultaneously is from taking vacuum packaging, can let vegetables dehydration and packing accomplish in proper order on an online, and further current vegetables packing's concrete flow is: the vegetables are dehydrated through the dehydrator, the dehydrated vegetables are conveyed to the inside of the vacuum packaging machine through a pipeline below the dehydrator, and the dehydrated vegetables are further subjected to component packaging and sealing through the vacuum packaging machine.

Vacuum packaging machine can carry out vacuum packaging to dehydrated vegetable after the vegetables dehydration under the prior art, but this device still has certain drawback, specifically do, this device dehydration and vacuum packaging are the order of going on in proper order, utilize the pipe connection to carry the raw materials between hydroextractor and the vacuum packaging machine simultaneously, further when the hydroextractor is dehydrating the back to vegetables, vegetables become dry breakable, and then the phenomenon of disintegrating slag appears easily in the dehydrated vegetable in transportation process, and these disintegrating slag are under the effect of pipeline, carry vacuum packaging machine's inside together with dehydrated vegetable, and then make disintegrating slag and dehydrated vegetable pack together, further packing quality that can lead to dehydrated vegetable descends, can make buyer's purchase desire decline even, and then lead to the product to be lost.

Disclosure of Invention

The invention aims to provide a vacuum packaging machine for dehydrated vegetables, which aims to solve the problems that the crushed slag of the dehydrated vegetables enters the vacuum packaging machine and the quality of the inner package of the dehydrated vegetables is low, the sale of the dehydrated vegetables is influenced, and the like.

In order to achieve the purpose, the invention provides the following technical scheme: a vacuum packaging machine after vegetable dehydration, a discharge pipeline connected by a buckle is arranged at the lower end of a dehydrator, one end of the discharge pipeline is provided with an upper connecting pipe which is welded and connected, one end of the upper connecting pipe is provided with a vacuum feeding pipe, a lower connecting pipe is arranged below the upper connecting pipe, integrally formed elastic wall attaching plates are symmetrically arranged at two sides of one end of the lower connecting pipe, the two sides of the lower end of the upper connecting pipe are provided with inosculation grooves corresponding to the elastic wall plates, the lower end of the lower connecting pipe is uniformly provided with slag falling ports, and both sides of one end of the lower connecting pipe are provided with limit plates which are welded, one end of the discharge pipeline is provided with a limit groove corresponding to the limit plate, the outer side of the lower connecting pipe is provided with a stabilizing plate, and both sides of the inner end of the stabilizing plate are symmetrically provided with lower locking blocks connected by screws, both sides of the upper end of the stabilizing plate are symmetrically provided with locking strips hinged, the lower end of the locking strip is provided with an upper locking block which is welded and connected, the lower end of the stabilizing plate is provided with a through hole, the lower end of the stabilizing plate is provided with a material gathering groove connected by a screw, the lower end of the material gathering groove is provided with an upper adapting pipe connected by a buckle, an adjusting plate is arranged below the upper bearing pipe, a lower bearing pipe is arranged at the lower end of the adjusting plate, a U-shaped fixing plate is welded and connected at one end of the lower bearing pipe, an adjusting chute is arranged at one end of the U-shaped fixing plate in a penetrating way, one end of the U-shaped retaining plate penetrates through the distance adjusting sliding groove to be provided with a retaining groove, a T-shaped sliding column is arranged in the distance adjusting arc groove, one end of the T-shaped sliding column is provided with a guide block which is welded and connected, one end of the T-shaped sliding column is provided with a clamping block which is welded and connected, the lower end of the lower adapting pipe is provided with a fixed disc, and one end of the fixed disc is symmetrically provided with a sliding groove, one end of the fixed disc is provided with an external groove, a positioning plate is placed in the external groove, and one end of the positioning plate is provided with an integrally formed storage box.

Preferably, the upper connecting pipeline and the lower connecting pipeline are both half of the discharge pipeline in shape and size, the inclination angle of the lower end of the discharge pipeline and the lower connecting pipeline is kept within forty-five and sixty degrees, and the inner end of the lower connecting pipeline and the inner end of the vacuum feeding pipeline are kept on the same horizontal plane.

Preferably, the position of the limiting groove on the symmetrical discharging pipeline at the lower end of the vacuum feeding pipe is equivalently provided with the limiting groove, the thickness of the limiting groove is one half of the wall thickness of the vacuum feeding pipe, and the radian inside the lower locking block is consistent with the radian outside the limiting plate inside the limiting groove.

Preferably, the length and the width of the slag dropping port are kept within ten to twenty millimeters, the distance from the slag dropping port on the lower connecting pipe to the side edge of the lower connecting pipe is not more than eight millimeters, and the distance between the slag dropping ports on the middle side of the inner end of the lower connecting pipe is not more than five millimeters.

Preferably, one end of the locking strip is fixedly connected with the upper connecting pipe through a screw, the radian of the inner surface of the upper locking block at the lower end of the locking strip is the same as the surface radian of the upper connecting pipe, and the sum of the widths of the locking strips is one third of the width of the lower connecting pipe.

Preferably, the length of the distance-adjusting sliding groove is the same as the distance between the outer ends of the guide blocks, the length of the clamping groove is the same as the total length of the guide blocks, and the total length of the clamping block is smaller than the total length of the guide blocks.

Compared with the prior art, the invention has the beneficial effects that:

1. through the arrangement of the lower connecting pipeline and the storage box, the crushed slag generated by the dehydrated vegetables can be screened, so that the quality of the packaged dehydrated vegetables can be guaranteed, and the income can be increased on the premise of improving the quality of the packaged vegetables;

2. through the setting to overall structure, can be so that the disintegrating slag that dehydrated vegetables produced is collected, be favorable to keeping the environment around the hydroextractor like this, can carry out reutilization to the vegetables disintegrating slag simultaneously, and then further improve the benefit that dehydrated vegetables produced, and this device does not influence the work of hydroextractor under the condition to the disintegrating slag is handled.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a perspective view of the discharge conduit of the present invention;

FIG. 3 is a schematic perspective view of an upper connecting tube in a half-section according to the present invention;

FIG. 4 is a perspective view of the end connection structure of the present invention;

FIG. 5 is a perspective view of the lower end structure of the present invention;

FIG. 6 is a perspective view of the fixing plate of the present invention.

In the figure: the device comprises a dehydrator 1, a discharge pipeline 2, an upper connecting pipe 3, a vacuum feed pipe 4, a lower connecting pipe 5, an elastic wall pasting plate 6, an inosculation groove 7, a slag falling port 8, a limiting plate 9, a limiting groove 10, a stabilizing plate 11, a lower locking block 12, a locking strip 13, an upper locking block 14, a through port 15, a material collecting groove 16, an upper bearing pipe 17, a change plate 18, a lower bearing pipe 19, a U-shaped fixing plate 20, a distance adjusting sliding groove 21, a clamping groove 22, a T-shaped sliding column 23, a guide block 24, a clamping block 25, a fixing disc 26, a sliding groove 27, an external groove 28, a positioning plate 29 and a storage box 30.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 6, the present invention provides a technical solution: the lower end of a dehydrator 1 is provided with a discharge pipeline 2 connected by a buckle, one end of the discharge pipeline 2 is provided with an upper connecting pipe 3 connected by welding, the shapes and sizes of the upper connecting pipe 3 and a lower connecting pipe 5 are half of those of the discharge pipeline 2, the inclination angles of the lower end of the discharge pipeline 2 and the lower connecting pipe 5 are kept within forty-five and sixty degrees, the inner end of the lower connecting pipe 5 and the inner end of a vacuum feeding view are kept on the same horizontal plane, one end of the upper connecting pipe 3 is provided with a vacuum feeding pipe 4, the lower end of the vacuum feeding pipe 4 is provided with a limiting groove 10 at the same position of the limiting groove 10 on the discharge pipeline 2, the thickness of the limiting groove 10 is one half of the wall thickness of the vacuum feeding pipe 4, the radian inside a lower locking block 12 is consistent with the radian outside a limiting plate 9 inside the limiting groove 10, and the lower connecting pipe 5 is arranged below the upper connecting pipe 3, an integrally formed elastic wall pasting plate 6 is symmetrically arranged on two sides of one end of a lower connecting pipe 5, the length of the elastic wall pasting plate 6 is not more than ten millimeters, the bending radian of the elastic wall pasting plate 6 is consistent with that of an upper connecting pipe 3, two sides of the lower end of the upper connecting pipe 3 are provided with inosculation grooves 7 corresponding to the elastic wall pasting plate 6, the lower end of the lower connecting pipe 5 is uniformly provided with slag falling ports 8, the length and the width of each slag falling port 8 are kept within ten to twenty millimeters, the distance from each slag falling port 8 on the lower connecting pipe 5 to the side edge of the lower connecting pipe 5 is not more than eight millimeters, the distance between the slag falling ports 8 on the middle side of the inner end of the lower connecting pipe 5 is not more than five millimeters, two sides of one end of the lower connecting pipe 5 are provided with limiting plates 9 which are welded, one end of a discharging pipeline 2 is provided with a limiting groove 10 corresponding to the limiting plate 9, the outer side of the lower connecting pipe 5 is provided with a stabilizing plate 11, and two sides of the inner end of the stabilizing plate 11 are symmetrically provided with lower locking blocks 12 which are connected by screws, the two sides of the upper end of the stabilizing plate 11 are symmetrically provided with locking strips 13 which are hinged, one end of each locking strip 13 is fixedly connected with the upper connecting pipe 4 through a screw, the radian of the inner surface of the upper locking block 14 at the lower end of the locking strip 13 is the same as the surface radian of the upper connecting pipe 4, the sum of the widths of the locking strips 13 is one third of the width of the lower connecting pipe 5, the lower end of the locking strip 13 is provided with an upper locking block 14 which is welded and connected, the lower end of the stabilizing plate 11 is provided with a through hole 15, the lower end of the stable plate 11 is provided with a material gathering groove 16 connected by a screw, the lower end of the material gathering groove 16 is provided with an upper bearing pipe 17 connected by a buckle, the sum of the inclination angle of the upper bearing pipe 17 and the inclination angle of the upper connecting pipe 3 is ninety degrees, the upper bearing pipe 17 is arranged at the lowest inclined end of the material gathering groove 16, an adjusting plate 18 is arranged below the upper bearing pipe 17, a lower bearing pipe 19 is arranged at the lower end of the adjusting plate 18, one end of the lower bearing pipe 19 is welded and connected with a U-shaped fixing plate 20, one end of the U-shaped fixing plate 20 is provided with a distance adjusting sliding chute 21 in a penetrating way, the length of the distance adjusting sliding chute 21 is the same as the distance between the outer ends of the guide blocks 24, and the length of the catching groove 22 is the same as the overall length of the guide block 24, the overall length of the catching block 25 is smaller than the overall length of the guide block 24, one end of the U-shaped retaining plate 20 penetrates through the distance-adjusting sliding groove 21 to be provided with a retaining groove 22, a T-shaped sliding column 23 is arranged inside the distance-adjusting arc groove 21, one end of the T-shaped sliding column 23 is provided with a guide block 24 which is welded and connected, one end of the T-shaped sliding column 23 is provided with a clamping block 25 which is welded and connected, the lower end of the lower bearing pipe 19 is provided with a fixed disc 26, one end of the fixed disk 26 is symmetrically provided with a sliding groove 27, one end of the fixed disk 26 is provided with an external groove 28, and a positioning plate 29 is arranged in the external groove 28, and one end of the positioning plate 29 is provided with an integrally formed storage box 30.

The working principle is as follows: after the lower connecting pipeline 5 is butted with the upper connecting pipeline 3, the locking strip 13 and the stabilizing plate 11 are utilized to enable the upper connecting pipeline 3 to be tightly connected with the lower connecting pipeline 5, the T-shaped sliding column 23 and the U-shaped fixing plate 20 are further utilized to enable the groove on the adjusting plate 18 to be aligned with the nozzle of the upper receiving pipe 17 and the lower receiving pipe 19 to be discharged, the fixing disc 26 and the positioning plate 29 are further utilized to fixedly install the position of the storage box 30, after the dehydrator 1 works, dehydrated vegetables are discharged into the discharging pipeline 2 through the inside of the dehydrator 1, when the vegetables in the discharging pipeline 2 enter the upper end of the lower connecting pipeline 5, the vegetables with qualified quality can be packaged in the vacuum packaging machine through the vacuum feeding pipe 4, the vegetable debris with unqualified quality can fall into the stabilizing plate 11 through the debris falling port 18, the debris can enter the upper receiving pipe 17, the debris can enter the storage box 30 and can be collected through the lower receiving pipe 19 under the action of the lower connecting pipe 19, the debris can further fall into the stabilizing plate 18, the debris can fall into the inside of the stabilizing plate 11, the T-shaped sliding column can be pulled to enable the T-shaped sliding block to be pulled to pass through the positioning plate 17, the positioning plate 18, the positioning plate 17, the T-shaped sliding block 24, the positioning plate 17 can be pulled to be further replaced, and the positioning plate 17 can be replaced, and the positioning plate 17 can be replaced, and the positioning plate 17, and the positioning plate can be replaced sequentially.

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. The utility model provides a vacuum packaging machine after vegetables dehydration, includes hydroextractor (1), its characterized in that: the lower end of the dehydrator (1) is provided with a discharge pipeline (2) connected by a buckle, one end of the discharge pipeline (2) is connected with an upper connecting pipe (3) in a welding manner, one end of the upper connecting pipe (3) is provided with a vacuum inlet pipe (4), a lower connecting pipe (5) is arranged below the upper connecting pipe (3), one end of the lower connecting pipe (5) is symmetrically provided with an integrally formed elastic wall-attached plate (6) in two sides, two sides of the lower end of the upper connecting pipe (3) are provided with a jointing groove (7) corresponding to the elastic wall-attached plate (6), the lower end of the lower connecting pipe (5) is uniformly provided with a slag hole (8), two sides of one end of the lower connecting pipe (5) are provided with a limiting plate (9) connected by welding, one end of the discharge pipeline (2) is provided with a limiting groove (10) corresponding to the limiting plate (9), the outer side of the lower connecting pipe (5) is provided with a stabilizing plate (11), two sides of the inner end of the stabilizing plate (11) are symmetrically provided with a lower locking block (12) connected by screws, two sides of the upper end of the stabilizing plate (11) are provided with a locking strip (13) connected by hinging, the upper locking strip (13) is provided with a welding connection block (14), the lower end of the fastening strip (16) and a connecting groove (16) is provided with a connecting groove (16) connected by a fastening groove (16), an adjusting plate (18) is arranged below the upper bearing pipe (17), a lower bearing pipe (19) is arranged at the lower end of the adjusting plate (18), one end of the lower bearing pipe (19) is connected with a U-shaped position fixing plate (20) in a welding mode, one side of the middle of the U-shaped position fixing plate (20) penetrates through a distance adjusting chute (21), one side of the middle of the U-shaped position fixing plate (20) penetrates through the distance adjusting chute (21) and is provided with a clamping groove (22), a T-shaped sliding column (23) is placed inside the distance adjusting chute (21), one end of the T-shaped sliding column (23) is connected with a guide block (24) in a welding mode, the other end of the T-shaped sliding column (23) is connected with a clamping block (25) in a welding mode, a fixed disc (26) is arranged at the lower end of the lower bearing pipe (19), a sliding groove (27) is symmetrically formed at one end of the fixed disc (26), an external groove (28) is formed at the other end of the fixed disc (26), a positioning plate (28) is placed inside a positioning plate (29), and one end of the adjusting plate (18) is connected with the T-shaped sliding column (23);

the shapes and sizes of the upper connecting pipe (3) and the lower connecting pipe (5) are half of those of the discharge pipeline (2), the inclination angles of the lower end of the discharge pipeline (2) and the lower connecting pipe (5) are kept within forty-five and sixty degrees, and the inner end of the lower connecting pipe (5) and the inner end of the vacuum feeding pipe (4) are kept on the same horizontal plane;

the position of a limiting groove (10) on the symmetrical discharge pipeline (2) at the lower end of the vacuum feed pipe (4) is provided with the limiting groove (10) in an equivalent manner, the thickness of the limiting groove (10) is one half of the wall thickness of the vacuum feed pipe (4), and the radian inside the lower lock block (12) is consistent with the radian outside a limiting plate (9) inside the limiting groove (10);

the length and the width of the slag falling port (8) are kept within ten to twenty millimeters, the distance from the slag falling port (8) on the lower connecting pipe (5) to the side edge of the lower connecting pipe (5) is not more than eight millimeters, and the distance between the slag falling ports (8) on the middle side of the inner end of the lower connecting pipe (5) is not more than five millimeters;

one end of the locking strip (13) is fixedly connected with the upper connecting pipe (3) through a screw, the radian of the inner surface of an upper locking block (14) at the lower end of the locking strip (13) is the same as that of the surface of the upper connecting pipe (3), and the sum of the widths of the locking strips (13) is one third of that of the lower connecting pipe (5);

the length of the distance-adjusting sliding chute (21) is the same as the distance between the outer ends of the guide blocks (24), the length of the clamping groove (22) is the same as the total length of the guide blocks (24), and the total length of the clamping block (25) is smaller than the total length of the guide blocks (24).