CN216612975U

CN216612975U - Hose overturning mechanism

Info

Publication number: CN216612975U
Application number: CN202122759408.5U
Authority: CN
Inventors: 於志烨; 张园军
Original assignee: Zetian Intelligent Technology Changzhou Co ltd
Current assignee: Zetian Intelligent Technology Changzhou Co ltd
Priority date: 2021-11-11
Filing date: 2021-11-11
Publication date: 2022-05-27
Anticipated expiration: 2031-11-11

Abstract

The utility model relates to a hose overturning mechanism which comprises a material piece base assembly, an overturning driving assembly and a lifting assembly, wherein the material piece base assembly comprises a base plate and a hose overturning plate; the material part base assembly is connected with the output of the turnover driving assembly and is driven by the turnover driving assembly to turn over; the output end of the lifting component is connected with the overturning driving component. The utility model aims to overcome the defects in the prior art and provides a hose overturning mechanism with a simpler structure.

Description

Hose overturning mechanism

Technical Field

The utility model relates to the field of hose processing, in particular to a hose overturning mechanism.

Background

The flexible pipe package has the advantages of economy, convenience and portability, and is widely applied to the package of facial cleanser, hair conditioner, hair dye, toothpaste and facial cream cosmetics and the package of plaster products in the pharmaceutical industry. The hose is often overturned by using related equipment in the processing process of the hose, but the structure of the existing overturning mechanism is complex. It is therefore desirable to design a hose inversion mechanism that is relatively simple in construction.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a hose overturning mechanism with a simpler structure.

The technical scheme for realizing the purpose of the utility model is as follows: a hose overturning mechanism comprises a material part base assembly, an overturning driving assembly and a lifting assembly; the material part base assembly is connected with the output of the overturning driving assembly and is driven to overturn by the overturning driving assembly; the output end of the lifting assembly is connected with the overturning driving assembly.

Further, the material base assembly comprises a material base and a plurality of rows of material column groups distributed on the material base; and the center of the material component base parallel to the material component column group is in locking connection with the output of the turnover driving component through a connecting column.

Further, the assembly column group and the assembly base are integrally formed or locked through bolts.

Furthermore, each row of the assembly column group consists of a plurality of assembly columns which are distributed at equal intervals in the horizontal direction.

Furthermore, each row of assembly column group is detachably clamped with a depth limiting plate.

Furthermore, the depth limiting plate is locked and clamped on the assembly column group of each row through bolts.

Further, the overturning driving assembly comprises a driving cylinder, an auxiliary bracket and an output shaft; the two ends of the output shaft are connected with the auxiliary support shaft; an output shaft between the auxiliary brackets is connected with the connecting column in a locking way; the driving cylinder is longitudinally arranged on one side of the auxiliary support, and the output end of the driving cylinder is connected with the output shaft on the side through a connecting rod.

Furthermore, two nodes of the connecting rod which rotates up and down are additionally provided with limiting blocks; the placing angle of the limiting block enables the limiting block to be attached to the side face of the connecting rod which rotates to the node.

Furthermore, the lifting assembly comprises a hoisting assembly, a lifting cylinder and a guide assembly; the hoisting component is hoisted in the workbench; the lifting cylinder is arranged at the lower end of the hoisting assembly, and an output shaft of the lifting cylinder penetrates through the hoisting assembly and is in locking connection with the auxiliary bracket; the guide assemblies are arranged on two sides of the lifting cylinder.

After the technical scheme is adopted, the utility model has the following positive effects:

(1) the hose overturning structure is simple and compact, and the operation effect is stable.

(2) According to the utility model, the depth limiting plate is detachably clamped on each discharging assembly column group, and the depth can be conveniently adjusted according to actual requirements through a detachable structure locked by bolts, so that an ideal limiting effect is achieved, and the discharging assemblies can be conveniently inserted and taken out of the discharging assembly columns.

(3) The installation of the guide assembly of the present invention facilitates a more smooth ascent and descent of the device.

(4) The limiting block is arranged to position and limit the driving cylinder by 2 nodes.

Drawings

In order that the present disclosure may be more readily and clearly understood, reference is now made to the following detailed description of the present disclosure taken in conjunction with the accompanying drawings, in which

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

fig. 2 is a perspective view of the present invention from a second perspective.

The reference numbers in the drawings are as follows: the material base assembly 521, the material base 5211, the material column group 5212, the connecting column 5213 and the depth limiting plate 5214;

the overturning driving assembly 522, the driving cylinder 5221, the auxiliary bracket 5222, the output shaft 5223, the connecting rod 5224 and the limiting block 5225;

lifting component 523, hoisting component 5231, lifting cylinder 5232, direction subassembly 5233.

Detailed Description

(example 1)

Referring to fig. 1, the present invention includes a material base assembly 521, a turnover driving assembly 522 and a lifting assembly 523; the part base assembly 521 is connected with the output of the turnover driving assembly 522 and is driven to turn over by the turnover driving assembly 522; the output end of the lifting assembly 523 is connected to the tumble drive assembly 522.

Referring to fig. 2, in the present embodiment, more specifically, the component base assembly 521 includes a component base 5211 and a plurality of component column rows 5212 distributed on the component base 5211; the material column group 5212 and the material base 5211 are integrally formed or locked by bolts; the center of the material base 5211 parallel to the material column group 5212 is connected with the output of the turnover driving assembly 522 through a connecting column 5213 and a bolt in a locking manner, and the connecting column 5213 and the material base 5211 are integrally formed.

More specifically, in this embodiment, each row assembly column group 5212 is composed of a plurality of row assembly columns which are distributed at equal intervals in the horizontal direction.

More specifically in this embodiment, the tumble drive assembly 522 includes a drive cylinder 5221, an auxiliary bracket 5222, and an output shaft 5223; both ends of the output shaft 5223 are connected with the auxiliary bracket 5222 shaft; an output shaft 5223 between the auxiliary brackets 5222 is in locking connection with the connecting column 5213 through bolts, and the output shaft 5223 is the output of the turnover driving assembly 522; the driving cylinder 5221 is longitudinally mounted at one side of the auxiliary support 5222, and the output end of the driving cylinder 5221 is connected with the output shaft 5223 at the side through a connecting rod 5224, more specifically, the connecting rod 5224 is in nut locking connection with the output shaft 5223, and the connecting rod 5224 is in rotating connection with the output end of the driving cylinder 5221; the lower end of the driving cylinder 5221 is rotatably connected with the auxiliary mounting member.

More specifically in this embodiment, the lifting assembly 523 includes a hoisting assembly 5231, a lifting cylinder 5232, and a guide assembly 5233; the hoisting component 5231 is locked and hoisted in a workbench through bolts, and the workbench is not shown in the figure; the lifting cylinder 5232 is mounted at the lower end of the lifting assembly 5231, and an output shaft of the lifting cylinder 5232 penetrates through the lifting assembly 5231 and is in locking connection with the auxiliary support 5222 through bolts; the guide assemblies 5233 are disposed at both sides of the elevating cylinder 5232, and the installation of the guide assemblies 5233 facilitates the more smooth ascent and descent of the device.

(example 2)

Referring to fig. 2, in this embodiment, based on embodiment 1, it is preferable that each column group 5212 of the discharging assembly is detachably clamped with a depth limiting plate 5214.

More specifically in this embodiment, the depth limiting plate 5214 is fastened to each row of assembly column group 5212 through bolt locking, and the depth can be adjusted according to actual needs through the structure that can be dismantled and through bolt locking, so as to achieve an ideal limiting effect and facilitate assembly and take out from the assembly columns.

(example 3)

Referring to fig. 2, in this embodiment, on the basis of the above embodiment, preferably, two nodes of the connecting rod 5224, which rotate up and down, are additionally provided with a limiting block 5225, the limiting block 5225 is connected with the auxiliary support 5222 by a bolt in a locking manner, the two nodes, which rotate up and down, are points at which the material member columns are located in a horizontal position and points at which the material member columns are located in a vertical position after rotating, the horizontal position is used for completing the insertion of the material member, and the vertical position is convenient for the material member to be grabbed and enter the next process; the arrangement angle of the limit block 5225 enables the limit block 5225 to be attached to the side face of the connecting rod 5224 rotating to the node, and the arrangement of the limit block 5225 can position and limit the driving cylinder 5221 by 2 nodes.

The working principle of the utility model is as follows: when the material component inserting device works, the driving cylinder 5221 extends out and drives the connecting rod 5224 to upwards rotate to be attached to the limiting block 5225 above, the material component column group 5212 is in a horizontal state at the moment, the material component can be inserted by the inserting component, the inserting component can refer to the existing structure, and details are not repeated; during the insertion, the material assembly column group 5212 at the uppermost layer is inserted firstly, each layer is inserted completely, the lifting cylinder 5232 acts to extend out, the material assembly column group 5212 at the next layer is aligned with the insertion assembly, and the steps are repeated until all the material assembly column groups 5212 are inserted completely; finally, the driving cylinder 5221 retracts, the driving cylinder 5224 drives the connecting rod 5224 to rotate downwards to be attached to a limiting block 5225 below, the material assembly column group 5212 at the moment is in a vertical state, and the transfer device can grab the material on the material assembly column group 5212 and transfer the material to the next operation procedure. The transfer device can be a manipulator, and the structure of the specific manipulator can refer to the existing structure, which is not described herein.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A hose tilting mechanism which characterized in that: comprises a material base component (521), a turnover driving component (522) and a lifting component (523); the part base assembly (521) is connected with the output of the overturning driving assembly (522) and is driven to overturn by the overturning driving assembly (522); the output end of the lifting component (523) is connected with the overturning driving component (522).

2. A hose inversion mechanism as claimed in claim 1, wherein: the part base assembly (521) comprises a part base (5211) and a plurality of rows of part column groups (5212) distributed on the part base (5211); the center of a material element base (5211) parallel to the material element column group (5212) is in locking connection with the output of the overturning driving assembly (522) through a connecting column (5213).

3. A hose overturning mechanism according to claim 2, characterized in that: the material component column group (5212) and the material component base (5211) are integrally formed or locked through bolts.

4. A hose overturning mechanism according to claim 2, characterized in that: each row of the assembly column group (5212) is composed of a plurality of assembly columns which are distributed at equal intervals in the horizontal direction.

5. A hose inversion mechanism as claimed in claim 2, 3 or 4, wherein: each row of the assembly column group (5212) is detachably clamped with a depth limiting plate (5214).

6. A hose inversion mechanism as claimed in claim 5, wherein: the depth limiting plates (5214) are fastened and mounted on the assembly column groups (5212) of each row through bolt locking.

7. A hose overturning mechanism according to claim 2, characterized in that: the tumble drive assembly (522) includes a drive cylinder (5221), an auxiliary bracket (5222), and an output shaft (5223); the two ends of the output shaft (5223) are connected with an auxiliary bracket (5222) through a shaft; an output shaft (5223) between the auxiliary brackets (5222) is in locking connection with the connecting column (5213); the driving cylinder (5221) is longitudinally arranged on one side of the auxiliary bracket (5222), and the output end of the driving cylinder (5221) is connected with the output shaft (5223) on the side through a connecting rod (5224).

8. A hose inversion mechanism as claimed in claim 7, wherein: limiting blocks (5225) are additionally arranged at two nodes of the connecting rod (5224) which rotate up and down; the arrangement angle of the limit block (5225) enables the limit block (5225) to be attached to the side face of the connecting rod (5224) rotated to the node.

9. A hose inversion mechanism as claimed in claim 7, wherein: the lifting assembly (523) comprises a hoisting assembly (5231), a lifting cylinder (5232) and a guide assembly (5233); the hoisting component (5231) is hoisted in the workbench; the lifting cylinder (5232) is mounted at the lower end of the hoisting assembly (5231), and an output shaft of the lifting cylinder (5232) penetrates through the hoisting assembly (5231) and is in locking connection with the auxiliary support (5222); the guide assemblies (5233) are arranged on both sides of the lifting cylinder (5232).