CN217673484U - A vertical blevile of push for tubulose material - Google Patents

Abstract

The utility model discloses a vertical blevile of push for tubulose material, include: the material bin is arranged between the walls of the material bins, and the tubular materials are stacked towards the lower right under the action of gravity; the pushing device is arranged in the material bin and can swing in a certain range along the vertical direction, so that the tubular material is pushed; and the feeding baffle is arranged at the bottom of the material bin and guides the tubular material loosened by the material pushing device to enter the next procedure. The driving shaft and the connecting rod drive the two pushing baffles to stir the materials back and forth, so that the gap between the materials is increased, and the materials can conveniently enter the next procedure.

Description

A vertical blevile of push for tubulose material

Technical Field

The utility model relates to a medicine packing field, in particular to a vertical blevile of push for tubulose material.

Background

With the gradual advance of national medical reform in recent years, the demand of medical products is increasing year by year. The production of pharmaceutical products in tubular form has increased year by year. However, the existing tubular material feeding device has low feeding efficiency, incomplete function and production requirements. There is a great need in the art for improvements in the feeding apparatus to automate the tubular packaging.

SUMMERY OF THE UTILITY MODEL

In order to realize the purpose, the utility model discloses the technical scheme who adopts is:

a vertical pushing device for tubular materials, comprising:

the material bin is arranged between the walls of the material bins, and the tubular materials are stacked towards the lower right under the action of gravity;

the pushing device is arranged in the material bin and can swing in a certain range along the vertical direction, so that the tubular material is pushed;

and the feeding baffle is arranged at the bottom of the material bin and guides the tubular material loosened by the material pushing device to enter the next procedure.

In a preferred embodiment of the present invention, the pushing device is composed of a first pushing baffle, a second pushing baffle, a pushing driving shaft and a pushing driving linkage;

the first material pushing baffle is hinged to the wall of the silo;

one end of the second pushing baffle is fixed on the pushing driving shaft;

one end of the pushing driving connecting rod group is also fixed on the pushing driving shaft;

the material pushing driving shaft rotates to drive the material pushing driving connecting rod group and the second material pushing baffle to rotate, and the material pushing driving connecting rod group further pushes the first material pushing baffle to rotate.

In a preferred embodiment of the present invention, a containing cavity is formed between the first pushing baffle and the second pushing baffle, the tubular material is stacked outside the first pushing baffle, and enters the containing cavity after being stirred by the first pushing baffle, thereby avoiding the influence of the excessive material stacked outside the second pushing baffle on the feeding.

In a preferred embodiment of the present invention, the driving linkage group is composed of a first pushing connecting rod and a second pushing connecting rod, the first pushing connecting rod has one end coupled to the second pushing connecting rod, and the other end fixed to the pushing driving shaft, and the first pushing connecting rod and the second pushing connecting rod are adjusted to control the swing amplitude of the first pushing baffle.

In a preferred embodiment of the present invention, the end of the second pushing rod is provided with a roller, so as to reduce the friction between the second pushing rod and the first pushing baffle.

In a preferred embodiment of the present invention, the material bin is composed of a first material bin and a second material bin, and the first material bin is disposed above the second material bin.

In a preferred embodiment of the present invention, the feeding baffle is disposed at the bottom of the second material bin, and the pushing device is disposed above the feeding baffle.

The beneficial effects of the utility model reside in that:

the utility model provides a vertical blevile of push for tubulose material drives two through drive shaft, connecting rod and pushes away the material baffle, thereby makes a round trip to stir the material and reaches the clearance between the increase material, makes things convenient for the material to get into the purpose of next process.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a product structure diagram of the present invention.

Fig. 2 is a working state diagram of the belt material of the present invention.

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", "inner", "outer", etc. indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, and are only for convenience of description of the present invention and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

The detailed structure of the present invention will be further described with reference to the accompanying drawings and the detailed description.

With reference to fig. 1, a vertical pushing device for tubular materials essentially comprises: the device comprises a first material bin 11, a second material bin 12, a first material pushing baffle 21, a second material pushing baffle 22, a material pushing driving shaft 31, a first material pushing connecting rod 32, a second material pushing connecting rod 33 and a feeding baffle 41.

The first material bin 11 is arranged above the second material bin 12, bin walls 13 are arranged on two sides of the first material bin 11, and an opening is formed in the bottom of the right side of the first material bin 11 to enable materials to fall into the second material bin 12 from the first material bin 11 conveniently. The bottoms of the first material bin 11 and the second material bin 12 are both inclined so that the tubular material is stacked to the lower right under the action of gravity.

The first pushing baffle 21 is hinged on the right silo wall 13, and one end of the second pushing baffle 22 is fixed on the pushing driving shaft 31. One end of the first pushing connecting rod 32 is coupled to the second pushing connecting rod 33, the other end of the first pushing connecting rod is fixed to the pushing driving shaft 31, and the angle between the first pushing connecting rod 32 and the second pushing connecting rod 33 is adjustable. The other end of the second pushing connecting rod 33 abuts against the bottom surface of the first pushing baffle 21, when the pushing driving shaft 31 rotates, the first pushing connecting rod 32 and the second pushing baffle 22 are driven to rotate, the second pushing connecting rod 33 serves as a transmission connecting rod, and the first pushing baffle 21 is pushed to rotate around the hinge point of the first pushing connecting rod 32. The end of the second pushing link 33 is further provided with a roller 34, so that friction between the second pushing link 33 and the first pushing baffle 21 is reduced.

The contact position of the second pushing connecting rod 33 and the bottom surface of the first pushing baffle 21 is changed by adjusting the angle of the second pushing connecting rod 33 relative to the first pushing connecting rod 32, so that the swing amplitude of the first pushing baffle 21 is controlled.

An accommodating cavity 23 is formed between the first pushing baffle plate 21 and the second pushing baffle plate 22, tubular materials are stacked outside the first pushing baffle plate 21 and enter the accommodating cavity 23 after being stirred by the first pushing baffle plate 21, and the phenomenon that feeding is influenced due to the fact that too many materials are stacked outside the second pushing baffle plate 22 is avoided. The feeding baffle 41 is arranged at the bottom of the right side of the second material bin 12, the front end of the feeding baffle 41 is provided with a feeding baffle transition part 42, and the feeding baffle transition part 42 slightly tilts upwards to guide the tubular materials to sequentially enter the feeding baffle.

Referring to fig. 2, when the device is in operation, the pushing driving shaft 31 rotates back and forth to drive the first pushing baffle 21 and the second decoupling baffle 22 to move back and forth, so as to loosen the material.

Claims (7)

1. A vertical pushing device for tubular materials, comprising:

the material bin is arranged between the walls of the material bins, and the tubular materials are stacked towards the lower right under the action of gravity;

the pushing device is arranged in the material bin and can swing in a certain range along the vertical direction, so that the tubular material is pushed;

and the feeding baffle is arranged at the bottom of the material bin and guides the tubular material loosened by the material pushing device to enter the next procedure.

2. The vertical pushing device for tubular materials according to claim 1, wherein the pushing device is composed of a first pushing baffle, a second pushing baffle, a pushing driving shaft and a pushing driving connecting rod group;

the first material pushing baffle is hinged to the wall of the silo;

one end of the second material pushing baffle is fixed on the material pushing driving shaft;

one end of the pushing driving connecting rod group is also fixed on the pushing driving shaft;

the material pushing driving shaft rotates to drive the material pushing driving connecting rod group and the second material pushing baffle plate to rotate, and the material pushing driving connecting rod group further pushes the first material pushing baffle plate to rotate.

3. The vertical pushing device for tubular materials as claimed in claim 2, wherein a containing cavity is formed between the first pushing baffle and the second pushing baffle, the tubular materials are stacked outside the first pushing baffle and enter the containing cavity after being stirred by the first pushing baffle, and the feeding is prevented from being influenced by excessive materials stacked outside the second pushing baffle.

4. The vertical pushing device for the tubular material according to claim 2, wherein the driving linkage group comprises a first pushing connecting rod and a second pushing connecting rod, one end of the first pushing connecting rod is coupled to the second pushing connecting rod, the other end of the first pushing connecting rod is fixed on the pushing driving shaft, and the swinging amplitude of the first pushing baffle plate can be controlled by adjusting the angle between the first pushing connecting rod and the second pushing connecting rod.

5. A vertical pushing device for tubular goods as in claim 4, wherein the second pushing link has a roller at its end to reduce friction between the second pushing link and the first pushing fence.

6. A vertical pushing device for tubular material according to claim 1, wherein the bin is composed of a first bin and a second bin, and the first bin is disposed above the second bin.

7. The vertical pushing device of claim 6, wherein the loading baffle is disposed at the bottom of the second material bin, and the pushing device is disposed above the loading baffle.

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