CN220126021U - Bucket stirring frock - Google Patents

Abstract

The utility model discloses a bucket stirring tool, which comprises: the stirring device comprises a main bracket, a turnover assembly and a stirring assembly; the stirring assembly comprises a stirring driving assembly and a charging basket fixing frame for mounting a charging basket, wherein the stirring assembly is connected with the main support in a relatively rotatable manner, the fixing end of the stirring driving assembly is connected with the stirring assembly, and an output shaft of the stirring driving assembly is in transmission connection with the charging basket fixing frame. In the charging basket stirring tool disclosed by the utility model, the stirring assembly can be controlled to turn over compared with the main support through the turning assembly, and the stirring assembly can drive the charging basket fixing frame to stir by utilizing the turning driving assembly, so that the charging basket arranged in the charging basket fixing frame is turned over and stirred, and the PU adhesive in the charging basket is prevented from being solidified.

Description

Bucket stirring frock

Technical Field

The utility model relates to a stirring tool, in particular to a material barrel stirring tool.

Background

In recent years, with the rapid development of technology and economic level, glass is becoming more widely used in daily life, and currently existing glass is often in the form of a skylight in the field of view of the public. However, in the production process of the skylight, the PU glue material is often required to be used, and the PU glue material is required to be continuously stirred for 24 hours due to the specificity of the PU glue so as to prevent the production progress from being influenced by the solidification of the PU glue.

The inventor researches and discovers that in order to ensure the qualification of products when actually preparing the skylight, part of enterprises can stir PU glue in a charging basket in a manual stirring mode in the production process, and the manual stirring scheme not only consumes a large amount of manpower, but also can influence the production efficiency.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the novel material barrel stirring tool is provided for overturning the material barrel on the stirring material barrel fixing frame, so that the stirring of the PU rubber material barrel is efficiently and simply realized.

In order to solve the technical problems, the utility model adopts the following technical scheme: a bucket stirring tool, comprising:

a main support;

the overturning assembly is connected with the main bracket in a relatively rotatable manner;

the stirring assembly comprises a stirring driving assembly and a charging basket fixing frame for mounting a charging basket, wherein the fixed end of the stirring driving assembly is connected with the stirring assembly, and the output shaft of the stirring driving assembly is in transmission connection with the charging basket fixing frame.

In the current prior art, the PU glue in the charging basket is often stirred manually to prevent the PU glue in the charging basket from solidifying. The scheme of manual stirring is poor in application effect, a large amount of manpower can be consumed, and production efficiency can be influenced.

Therefore, in the utility model, the inventor designs a material barrel stirring tool to drive a material barrel fixing frame to turn and stir by using a turning driving assembly in a stirring assembly, so as to turn and stir a material barrel fixedly arranged in the material barrel fixing frame, and prevent PU glue in the material barrel from solidifying.

Different from manual force application, the material barrel stirring tool adopts the stirring driving assembly to stir and apply force, can drive the material barrel fixing frame to overturn and stir for 24 hours without interruption, and can control the stirring frequency of the stirring driving assembly according to actual application conditions so as to meet the stirring requirements of different materials. The adoption of the charging basket stirring tool can effectively replace manual work to realize stirring of the charging basket and materials arranged in the charging basket, can greatly improve the working efficiency, has high applicability and reliability, and has good popularization prospect and application value.

It should be noted that in the utility model, by arranging the turning component and controlling the turning component to be rotatably connected with the main support and controlling the turning component to be connected with the fixed end of the turning driving component of the stirring component, the turning component can drive the turning driving component to turn over, and the turning driving component drives the charging basket fixing frame in transmission connection with the turning driving component to turn over together compared with the main support, thereby realizing turning over and rotation of the charging basket on the charging basket fixing frame compared with the main support. The control of the material barrel is compared with the main bracket for turning over and rotating, because: in actual operating mode, install the storage bucket that PU glued is very big, for the storage bucket takes or adorns gluey convenience, just designs into this kind of storage bucket mount that can overturn liftable, when the storage bucket mount upset and descend from the eminence, can be convenient for operating personnel get the blowing bucket, and after the storage bucket mount upset and rise to the eminence, can ensure that the storage bucket can not touch the ground when following the rotation stirring of storage bucket mount together, guarantees the normal work of frock.

Further, in the bucket stirring tool disclosed by the utility model, the overturning assembly comprises an overturning bracket and a linear driving assembly, the overturning bracket is rotatably connected with the main bracket, and two ends of the linear driving assembly are respectively connected with the main bracket and the overturning bracket, so that the linear driving assembly pushes the overturning bracket to rotate relative to the main bracket.

Furthermore, in the charging basket stirring tool, the charging basket stirring tool further comprises a first bearing and a rotating shaft, wherein the first bearing is sleeved on the rotating shaft, and the overturning bracket is connected with the main bracket in a relatively rotatable manner through the first bearing and the rotating shaft.

Furthermore, in the bucket stirring tool disclosed by the utility model, one end of the linear driving assembly is connected with the main support in a relatively rotatable manner, and the other end of the linear driving assembly is hinged with the overturning support.

Furthermore, in the charging basket stirring tool disclosed by the utility model, the other end of the linear driving assembly is further provided with a hinge joint, and the overturning bracket is further provided with a base hinged with the hinge joint.

Furthermore, in the charging basket stirring tool disclosed by the utility model, the charging basket stirring tool further comprises a binding belt, a binding buckle is further arranged on the charging basket fixing frame, the binding belt is connected with the binding buckle, and the charging basket is arranged on the charging basket fixing frame through the binding belt.

Furthermore, in the bucket stirring tool disclosed by the utility model, an included angle with an angle smaller than 90 degrees is formed between the axis of the output shaft of the stirring driving assembly and the axis of the bucket, and the included angle is positioned at one side, far away from the main support, of the overturning assembly.

Furthermore, in the charging basket stirring tool provided by the utility model, the charging basket stirring tool further comprises an electromagnetic valve, and the electromagnetic valve is connected with the linear driving assembly.

Further, in the charging basket stirring tool disclosed by the utility model, the charging basket stirring tool further comprises a frequency converter, wherein the frequency converter is electrically connected with the stirring driving assembly.

Further, in the charging basket stirring tool disclosed by the utility model, the charging basket stirring tool further comprises a second bearing, wherein the second bearing is sleeved on the output shaft of the stirring driving assembly, the second bearing is arranged on the overturning assembly, and the output shaft of the stirring driving assembly is rotationally connected with the overturning assembly through the second bearing.

The utility model has the beneficial effects that: through carrying out reasonable optimal design to the structure of storage bucket stirring frock, make storage bucket and ground and main support separation through the upset subassembly to ensure that the storage bucket is followed under stirring drive assembly's drive ground separation stirring turns over, in order to prevent the PU in the storage bucket to glue the solidification. Different from manual force application, the stirring tool for the charging bucket adopts the stirring driving assembly to stir and apply force, can continuously drive the charging bucket fixing frame to overturn and stir for twenty-four hours, and can control the stirring frequency of the stirring driving assembly according to actual application conditions so as to meet stirring requirements of different materials. The adoption of the charging basket stirring tool can replace manual work to realize stirring of the charging basket and materials arranged in the charging basket, can greatly improve the working efficiency, has high applicability and reliability, and has good popularization prospect and application value.

Drawings

FIG. 1 is a schematic view of a bucket stirring tool according to one embodiment of the present utility model;

fig. 2 is a schematic structural view of the hidden part of the bucket stirring tool shown in fig. 1;

description of the reference numerals:

1. a main support;

2. a flip assembly; 21. overturning the bracket; 22. a linear drive assembly; 23. a hinge joint; 24. a base;

3. a stirring assembly; 31. a stirring driving assembly; 32. a charging basket fixing frame; 33. an output shaft; 34. binding;

4. a first bearing;

5. a rotating shaft;

6. and a second bearing.

Detailed Description

In order to describe the technical contents, the achieved objects and effects of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 2, the present utility model provides a barrel stirring tool, which includes:

a main support 1;

a turnover assembly 2 rotatably connected to the main support 1;

the stirring assembly 3, the stirring assembly 3 is including stirring drive assembly 31 and be used for installing the storage bucket mount 32 of storage bucket, stirring drive assembly 31's stiff end with the upset subassembly 2 is connected, stirring drive assembly 31's output shaft 33 with storage bucket mount 32 transmission is connected.

In the charging basket stirring tool designed by the utility model, unlike the manual stirring method adopted in the prior art for manually stirring materials in a charging basket, the inventor can continuously drive the charging basket fixing frame 32 to overturn and stir for twenty-four hours by utilizing the stirring driving assembly 31 to stir and apply force.

The output shaft 33 of the stirring driving assembly 31 designed by the charging basket stirring tool is in transmission connection with the charging basket fixing frame 32, the stirring driving assembly can effectively replace manual work to realize stirring of the charging basket fixing frame 32 and the charging basket arranged in the charging basket fixing frame 32, the working efficiency can be greatly improved, and the stirring driving assembly has high applicability and reliability. In practical application, an operator can control the stirring frequency of the stirring driving assembly 31 according to specific requirements so as to meet the stirring requirements of different materials.

It should be noted that, in the present utility model, by arranging the turning component 2 and controlling the turning component 2 to be rotatably connected with the main support 1, and controlling the turning component 2 to be connected with the fixed end of the turning driving component 31 of the stirring component 3, the turning component 2 can drive the turning driving component 31, and the turning driving component 31 drives the charging basket fixing frame 32 in transmission connection with the turning driving component to turn over compared with the main support 1, so as to realize the turning rotation of the charging basket on the charging basket fixing frame 32 compared with the main support 1. The control of the rotation of the bucket in comparison with the main support 1 is because: in actual working condition, the charging basket provided with PU glue is very big, and in order to take the charging basket or conveniently load the glue, the charging basket fixing frame 32 capable of being overturned and lifted is designed, and the height and the inclination angle of the charging basket fixing frame 32 can be changed when the charging basket fixing frame 32 is overturned compared with the main support 1.

When the storage bucket mount 32 upset and from the eminence to the nadir, the storage bucket is in the state of standing upright completely this moment, can be convenient for operating personnel get the storage bucket, and when storage bucket mount 32 upset and rise to the eminence after, can ensure that the storage bucket can not touch the ground when rotatory stirring together along with storage bucket mount 32 to guarantee the normal work of frock.

Further, in the bucket stirring fixture according to the present utility model, the overturning assembly 2 includes an overturning bracket 21 and a linear driving assembly 22, the overturning bracket 21 is rotatably connected to the main bracket 1, and two ends of the linear driving assembly 22 are respectively connected to the main bracket 1 and the overturning bracket 21, so that the linear driving assembly 22 pushes the overturning bracket 21 to rotate relative to the main bracket 1.

As shown in fig. 1, in the present utility model, the flipping unit 2 may be specifically provided with a flipping bracket 21 and a linear driving unit 22. Wherein, the turnover bracket 21 can be rotatably connected with the main bracket 1, and the turnover bracket 21 is also connected with a turnover driving assembly 31 of the stirring assembly 3.

In practical use, the linear driving assembly 22 may be specifically selected as an air cylinder, and since two ends of the linear driving assembly 22 are respectively connected to the main support 1 and the turnover support 21, the turnover support 21 can be pushed to rotate relative to the main support 1 by using the linear driving assembly 22. At this time, the turning support 21 also drives the turning driving assembly 31 connected with the turning driving assembly to rotate together with the barrel fixing frame 32 in transmission connection with the output shaft 33 of the turning driving assembly 31, compared with the main support 1.

Further, the turnover support further comprises a first bearing 4 and a rotating shaft 5, the first bearing 4 is sleeved on the rotating shaft 5, and the turnover support 21 and the main support 1 are connected in a relatively rotatable manner through the first bearing 4 and the rotating shaft 5.

In the utility model, the designed charging basket stirring tool can further specifically comprise a first bearing 4 and a rotating shaft 5, wherein the first bearing 4 can be specifically sleeved on the rotating shaft 5, so that the turnover support 21 and the main support 1 can be in smooth rotation connection with each other by utilizing the cooperation of the first bearing 4 and the rotating shaft 5.

Of course, in the present utility model, the rotatable connection of the flip bracket 21 and the main bracket 1 is not particularly limited, and in some other embodiments, other rotatable connection may be selected, for example: the turnover bracket 21 is hinged with the main bracket 1.

Further, one end of the linear driving assembly 22 is rotatably connected to the main support 1, and the other end of the linear driving assembly 22 is hinged to the flip support 21.

Further, the other end of the linear driving assembly 22 is further provided with a hinge 23, and the turnover bracket 21 is further provided with a base 24 hinged with the hinge 23.

In the present utility model, in order to facilitate the angular adjustment of the linear driving assembly 22, one end of the linear driving assembly 22 can be rotatably connected to the main support 1 while the other end of the linear driving assembly 22 can be hinged to the flip support 21 in actual setting.

The other end of the linear driving assembly 22 may be specifically provided with a hinge joint 23, where the hinge joint 23 may be a fisheye joint, and the overturning bracket 21 may be provided with a base 24 matched with the hinge joint 23, so as to implement the hinge between the hinge joint 23 and the base 24.

Further, the utility model also comprises a binding band, a binding buckle 34 is further arranged on the charging basket fixing frame 32, the binding band is connected with the binding buckle 34, and the charging basket is installed on the charging basket fixing frame 32 through the binding band.

In the utility model, in order to facilitate the operator to install and fix the charging basket on the charging basket fixing frame 32, a plurality of binding buckles 34 can be arranged on the charging basket fixing frame 32 and cooperate with the binding straps to fix the charging basket on the charging basket fixing frame 32. As shown in fig. 1, in practical application, an operator may place the bucket on the bucket holder 32, and then control two ends of the binding band to be connected with the binding buckle 34 respectively, so as to limit the bucket radially.

Further, an included angle smaller than 90 ° is formed between the axis of the output shaft 33 of the turning driving assembly 31 and the axis of the charging basket, and the included angle is located at a side of the turning assembly away from the main support.

In the utility model, an included angle with an axis of the output shaft 33 of the turning driving assembly 31 and an axis of the charging basket can be controlled to be smaller than 90 degrees, so that the charging basket is kept upright when the charging basket descends from the height direction along with the charging basket fixing frame 32, and the charging basket is convenient for an operator to take and place.

Further, a solenoid valve is also included, which is connected to the linear drive assembly 22.

Further, a frequency converter is further included, and the frequency converter is electrically connected with the stirring driving assembly 31.

In the above technical solution, in order to further enhance the control of the linear driving assembly 22 and the stirring driving assembly 31, in the present utility model, an electromagnetic valve and a frequency converter may be further provided, so that the electromagnetic valve is used to control the movement of the linear driving assembly 22, and the frequency converter is used to control the stirring driving assembly 31.

Further, the device further comprises a second bearing 6, the second bearing 6 is sleeved on an output shaft 33 of the stirring driving assembly 31, the second bearing 6 is arranged on the stirring driving assembly 2, and the output shaft 33 of the stirring driving assembly 31 is rotatably connected with the stirring driving assembly 2 through the second bearing 6.

As shown in fig. 1 and 2, in order to ensure that the power output of the output shaft 33 of the stirring driving assembly 31 is not affected, the second bearing 6 is disposed on the turnover support 21 of the turnover assembly 2, and the second bearing 6 can be correspondingly sleeved on the output shaft 33 to realize rotatable connection between the output shaft 33 and the turnover support 21, so as to ensure that the output shaft 33 of the stirring driving assembly 31 is not affected by the turnover support 21 when the stirring driving assembly 32 is driven to stir in a turnover manner.

In addition, the output shaft 33 of the control stirring driving assembly 31 is rotationally connected with the turnover assembly 2 through the second bearing 6, so that the stability of the output shaft 33 in transmission output can be further improved, and the reliability of the charging basket stirring tool can be greatly improved.

Example 1

Referring to fig. 1-2, a first embodiment of the present utility model is as follows: a bucket stirring tool, comprising: a main frame 1, a turnover assembly 2 and a stirring assembly 3. Wherein in this embodiment, the turning assembly 2 specifically comprises a turning bracket 21 and two linear driving assemblies 22 arranged in pairs, and the stirring assembly 3 specifically comprises a turning driving assembly 31 and a barrel holder 32 for loading a barrel.

As shown in fig. 2, in this embodiment, the top end of the main frame 1 is fixedly provided with two first bearings 4 disposed in pairs, the two first bearings 4 correspond to each other, and the same rotating shaft 5 is sleeved in the two first bearings, the rotating shaft 5 is coaxially disposed with the first bearings 4, and is fixedly connected with the turnover bracket 21 in the turnover assembly 2. Based on this design, the flip bracket 21 and the main bracket 1 can be rotatably connected to each other by the cooperation of the first bearing 4 and the rotation shaft 5.

Accordingly, in the present embodiment, the two linear driving assemblies 22 disposed in pairs may be specifically selected as cylinders, and both ends thereof are respectively connected to the main support 1 and the tilting support 21, so that the two linear driving assemblies 22 can push the tilting support 21 to rotate relative to the main support 1.

It should be noted that, in order to facilitate the angular adjustment of the linear driving assembly 22, in this embodiment, one end of the linear driving assembly 22 is rotatably connected to the main support 1, and the other end is hinged to the flip support 21. The end of the linear driving assembly 22, which is close to the overturning bracket 21, is specifically provided with a hinge head 23, the hinge head 23 is selected as a fisheye joint, and the overturning bracket 21 may be provided with a base 24 matched with the hinge head 23, so as to realize the hinge between the hinge head 23 and the base 24.

In addition, as can be seen from further reference to fig. 1 and 2, in this embodiment, the stirring driving assembly 31 in the stirring assembly 3 is specifically selected as a gear motor, and the fixed end of the stirring driving assembly 31 is fixedly connected with the turnover bracket 21 of the turnover assembly 2, and the output shaft 33 of the stirring driving assembly 31 is in transmission connection with the bucket fixing frame 32. Wherein, be provided with four on the storage bucket mount 32 specifically and bind knot 34, operating personnel can place the storage bucket on storage bucket mount 32 earlier, then control the both ends of bandage and bind knot 34 respectively to fix spacing to the storage bucket, the storage bucket axis after spacing this moment has the contained angle that the angle is less than 90 with the output shaft 33 axis of turning over and mixing drive assembly 31.

It should be noted that, in the present utility model, two second bearings 6 are provided on the above-mentioned tilting bracket 21, and the two second bearings 6 are correspondingly sleeved on the output shaft 33 of the tumble drive assembly 31 and coaxially provided with the output shaft 33, so that the output shaft 33 of the tumble drive assembly 31 is rotatably connected with the tilting bracket 21 through the second bearings 6.

In summary, based on the design of fig. 1 and 2, when the bucket stirring device of the present utility model is actually applied, an operator uses the binding band to cooperate with the binding buckle 34 to fix the bucket to the bucket fixing frame 32, and only needs to use the linear driving assembly 22 to push the turnover bracket 21 to rotate relative to the main bracket 1; at this time, the turning support 21 also drives the turning driving assembly 31 connected with the turning driving assembly, and the barrel holder 32 connected with the output shaft 33 of the turning driving assembly 31 to rotate together compared with the main support 1, so that the barrel leaves the bottom surface along with the barrel holder 32.

After the overturning of the material barrel fixing frame 32 is completed, an operator only needs to control the overturning driving assembly 31 in the stirring assembly 3 to work, and the output shaft 33 can be utilized to drive the material barrel fixing frame 32 in transmission connection with the overturning driving assembly to overturn and stir, so that the material barrel fixedly arranged in the material barrel fixing frame 32 is overturned and stirred, and PU glue in the material barrel is prevented from being solidified.

In the present embodiment, in order to further enhance the control of the linear driving assembly 22 and the stirring driving assembly 31, the inventors further provided an electromagnetic valve and a frequency converter to control the movement of the linear driving assembly 22 by the electromagnetic valve and control the stirring driving assembly 31 by the frequency converter.

Therefore, unlike manual force application, the charging basket stirring tool designed by the utility model adopts the stirring driving assembly 31 to perform stirring force application, the charging basket fixing frame 32 can be continuously driven to perform stirring and stirring for twenty-four hours, and an operator can control the stirring frequency of the stirring driving assembly according to actual application conditions so as to meet the stirring requirements of different materials. The material barrel stirring tool can effectively replace manual work to realize stirring of the material barrel and the material arranged in the material barrel, can greatly improve the working efficiency, and has good applicability and high reliability.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent changes made by the specification and drawings of the present utility model, or direct or indirect application in the relevant art, are included in the scope of the present utility model.

Claims (10)

1. Bucket stirring frock, its characterized in that includes:

a main support;

the overturning assembly is connected with the main bracket in a relatively rotatable manner;

the stirring assembly comprises a stirring driving assembly and a charging basket fixing frame for mounting a charging basket, wherein the fixed end of the stirring driving assembly is connected with the stirring assembly, and the output shaft of the stirring driving assembly is in transmission connection with the charging basket fixing frame.

2. The bucket stirring tool of claim 1, wherein the turnover assembly comprises a turnover bracket and a linear driving assembly, the turnover bracket is rotatably connected with the main bracket, and two ends of the linear driving assembly are respectively connected with the main bracket and the turnover bracket, so that the linear driving assembly pushes the turnover bracket to rotate relative to the main bracket.

3. The bucket stirring tool of claim 2, further comprising a first bearing and a rotating shaft, wherein the first bearing is sleeved on the rotating shaft, and the overturning bracket is rotatably connected with the main bracket through the first bearing and the rotating shaft.

4. The barrel stirring tool of claim 2, wherein one end of the linear driving assembly is rotatably connected with the main support, and the other end of the linear driving assembly is hinged with the overturning support.

5. The bucket stirring tool of claim 4, wherein the other end of the linear driving assembly is further provided with a hinge, and the overturning bracket is further provided with a base hinged with the hinge.

6. The material bucket stirring tool of claim 1, further comprising a binding belt, wherein a binding buckle is further arranged on the material bucket fixing frame, the binding belt is connected with the binding buckle, and the material bucket is installed on the material bucket fixing frame through the binding belt.

7. The barrel stirring tool according to claim 1, wherein an included angle smaller than 90 ° is formed between the axis of the output shaft of the stirring driving assembly and the axis of the barrel, and the included angle is located at a side of the overturning assembly away from the main support.

8. The barrel mixing tool of claim 2, further comprising a solenoid valve coupled to the linear drive assembly.

9. The bucket stirring tool of claim 1, further comprising a frequency converter electrically connected to the tumble drive assembly.

10. The barrel mixing tool of claim 1, further comprising a second bearing, wherein the second bearing is sleeved on an output shaft of the tumble drive assembly, and wherein the second bearing is disposed on the tumble assembly, and wherein an output shaft of the tumble drive assembly is rotatably connected with the tumble assembly through the second bearing.