KR102624930B1 - roller apparatus for mixing material - Google Patents

Abstract

The present invention relates to a silicone mixing device with a new structure that effectively mixes chemicals containing pigments with silicone.
The silicon mixing device according to the present invention is provided at the rear lower side of the front pressure roller 21 and is a rear transfer mechanism that transfers silicon 1 discharged downward through the space between the front and rear pressure rollers 21 and 22 to the front. (30) and a front transfer mechanism (40) provided in front of the front pressure roller (21) and transporting the silicon (1) transferred to the front of the rear transfer mechanism (30) to the upper side of the front pressure roller (21). ) and left and right guide plates (51, 52) located above the front and rear pressure rollers (21 and 22) and supporting both sides of the silicon (1) supplied between the front and rear pressure rollers (21 and 22). Thus, the silicon (1) that passes between the front and rear pressure rollers (21 and 22) and is discharged to the lower side is automatically raised and supplied again between the front and rear pressure rollers (21 and 22).
Therefore, there is no need for the worker to manually supply the silicone (1) discharged to the lower side between the front and rear pressure rollers (21, 22), making the work easy and preventing injury to the worker. There is an advantage.

Description

Silicone mixing device {roller apparatus for mixing material}

The present invention relates to a silicone mixing device with a new structure that effectively mixes chemicals containing pigments with silicone.

Generally, when manufacturing products made of silicone, the method of mixing silicone with a chemical containing a pigment, maturing the silicone mixed with the chemical at room temperature, and then molding it using a press mold is mainly used.

At this time, when mixing the silicone and pigment, a silicone mixing device is used.

1 to 3 show an example of such a silicon mixing device, which includes a main body 10 with left and right support portions 11 and 12 extending upward on both sides of the upper surface, extending in the lateral direction and spaced apart from each other in the front and rear directions. It consists of front and rear pressure rollers 21 and 22 provided on the main body 10, and a drive motor 23 connected to the front or rear pressure roller 22 to rotate the front and rear pressure rollers 22.

Both ends of the front and rear pressure rollers 21 and 22 are rotatably coupled to the left and right supports 11 and 12.

At this time, the rear pressure roller 22 is connected to a forward and backward driving mechanism (not shown) and is configured to move forward and backward toward the front pressure roller 21 according to the operator's operation.

The drive motor 23 is connected to the front and rear pressure rollers 21 and 22 through a gearbox and rotates the upper circumferences of the front and rear pressure rollers 21 and 22 in the adjacent direction.

Therefore, when the front and rear pressure rollers (21, 22) are rotated by the drive motor (23), silicon (1) with an appropriate chemical mixture is supplied between the front and rear pressure rollers (21, 22), silicon ( 1) is pressurized while passing between the front and rear pressure rollers 21 and 22 and is discharged downward in the form of a thin sheet.

Then, the worker repeats the process of lifting the silicone (1) discharged downward through the front and rear pressure rollers (21 and 22) and supplying it again between the front and rear pressure rollers (21 and 22), so that the chemical is transferred to the silicone (1). It can be mixed evenly.

However, the silicone (1) with which the chemicals are mixed in this way not only has a high temperature, but also weighs a lot, so the worker lifts the silicone (1) discharged between the front and rear pressure rollers (21, 22) and presses it between the front and rear pressure rollers (21). , 22), not only was it very laborious to supply it, but there was a problem that the worker could get burned by the high temperature silicon (1).

Therefore, a new method to solve these problems has become necessary.

Registered Patent No. 10-1064554,

The present invention is intended to solve the above problems, and its purpose is to provide a silicone mixing device with a new structure that can effectively mix silicone (1) and chemicals including pigments.

The present invention for achieving the above object includes a main body 10 with left and right support portions 11 and 12 extending upward on both sides of the upper surface, and the main body 10 extending in the lateral direction and spaced apart from each other in the front and rear directions. It includes front and rear pressure rollers (21, 22) provided in and a drive motor (23) connected to the front or rear pressure rollers (22) to rotate the front and rear pressure rollers (21, 22), and the front and rear pressure rollers (21, 22) is a silicon mixing device of which both ends are rotatably coupled to the left and right supports (11, 12), and is provided at the rear lower side of the front pressure roller (21) to form the front and rear pressure rollers (21, 22). A rear transfer mechanism 30 that transfers the silicon 1 discharged downward through the front to the front, and the silicon provided in front of the front pressure roller 21 and transferred to the front of the rear transfer mechanism 30. It further includes a front transfer mechanism 40 that transfers (1) to the upper side of the front pressure roller 21, and the rear transfer mechanism 30 extends in the front and rear directions and has an arc shape with the middle portion rounded downward. A pair of rear support bars 31 whose front ends are hinged to the left and right supports 11 and 12 so as to be spaced apart from each other in the lateral direction, and a pair of rear support bars 31 extending laterally and having both ends spaced apart from each other in the anteroposterior direction. ), a plurality of rear transport rollers 32 coupled to the rear support bar 31, a rear drive motor 33 that rotates the rear transport roller 32, and a rear support bar 31. It includes a rear cylinder mechanism 34 that is connected to allow the rear end of the rear support bar 31 to rotate in the vertical direction, and the front transport mechanism 40 extends in the vertical direction and has an arc shape with the middle portion rounded forward. and a pair of front support bars 41 whose lower ends are hinged to the left and right supports 11 and 12 so as to be spaced apart from each other in the lateral direction, and a pair of front support bars 41 extending laterally and having both ends spaced apart from each other in the vertical direction ( 41), a front drive motor 43 provided on the front support bar 41 and rotating the front transport roller 42, and an arc whose middle portion is rounded forward. It is composed of a panel shape, and both ends are coupled to the front support bar 41 so as to be located on the upper side of the front transfer roller 42. An air chamber 44a is formed inside, and a plurality of injection holes 44b are located on the rear side. ) is formed with a spray panel 44, an air supply means 45 connected to the spray panel 44, and a device connected to the front support bar 41 so that the upper end of the front support bar 41 rotates in the forward and backward directions. A silicone mixing device is provided, comprising a front cylinder mechanism (46).

According to another feature of the present invention, it is located on the upper side of the front and rear pressure rollers 21 and 22 and is coupled to a support rod 53 that is laterally slidably coupled to the left and right supports 11 and 12 to press the front and rear. A silicon mixing device is provided, further comprising left and right guide plates (51, 52) supporting both sides of the silicon (1) supplied between the rollers (21, 22).

The silicon mixing device according to the present invention is provided at the rear lower side of the front pressure roller 21 and is a rear transfer mechanism that transfers silicon 1 discharged downward through the space between the front and rear pressure rollers 21 and 22 to the front. (30) and a front transfer mechanism (40) provided in front of the front pressure roller (21) and transporting the silicon (1) transferred to the front of the rear transfer mechanism (30) to the upper side of the front pressure roller (21). ) and left and right guide plates (51, 52) located above the front and rear pressure rollers (21 and 22) and supporting both sides of the silicon (1) supplied between the front and rear pressure rollers (21 and 22). Thus, the silicon (1) that passes between the front and rear pressure rollers (21 and 22) and is discharged to the lower side is automatically raised and supplied again between the front and rear pressure rollers (21 and 22).

Therefore, there is no need for the worker to manually supply the silicone (1) discharged to the lower side between the front and rear pressure rollers (21, 22), making the work easy and preventing injury to the worker. There is an advantage.

1 is a side cross-sectional view showing a conventional silicon mixing device;
Figure 2 is a front view showing a conventional silicon mixing device;
Figure 3 is a plan view showing a conventional silicon mixing device;
Figure 4 is a side cross-sectional view showing a silicon mixing device according to the present invention;
Figure 5 is an enlarged side cross-sectional view of the main part of the silicone mixing device according to the present invention;
Figure 6 is a front view of the silicone mixing device according to the present invention;
Figure 7 is a plan view of the silicone mixing device according to the present invention;
8 to 10 are reference diagrams showing the operation of the silicon mixing device according to the present invention.

Hereinafter, the present invention will be described in detail based on the attached illustration drawings.

4 to 10 show a silicon mixing device according to the present invention, which includes a main body 10 with left and right support portions 11 and 12 extending upward on both sides of the upper surface, and extending in the lateral direction and mutually moving in the front and rear directions. front and rear pressure rollers (21, 22) provided on the main body (10) to be spaced apart from each other, and a drive motor (23) connected to the front or rear pressure rollers (22) to rotate the front and rear pressure rollers (21, 22). The configuration is the same as before.

At this time, both ends of the front and rear pressure rollers 21 and 22 are rotatably coupled to the left and right supports 11 and 12.

In addition, the rear pressure roller 22 is connected to a forward and backward driving mechanism (not shown) and is configured to move forward and backward toward the front pressure roller 21 according to the operator's operation.

The drive motor 23 is connected to the front and rear pressure rollers 21 and 22 through a gearbox and rotates the upper circumferences of the front and rear pressure rollers 21 and 22 in the adjacent direction.

And, according to the present invention, a rear transfer mechanism ( 30) and a front transfer mechanism 40 that is provided in front of the front pressure roller 21 and transfers the silicon 1 transferred to the front of the rear transfer mechanism 30 to the upper side of the front pressure roller 21. And, left and right guide plates (51, 52) are located above the front and rear pressure rollers (21 and 22) and support both sides of the silicon (1) supplied between the front and rear pressure rollers (21 and 22). .

The rear transfer mechanism 30 includes a pair of rear support bars 31 that extend in the front and rear directions and whose front ends are hinged to the left and right supports 11 and 12 so as to be spaced apart from each other in the lateral direction, and a pair of rear support bars 31 that extend in the lateral direction and are mutually spaced from each other. A plurality of rear transport rollers 32, both ends of which are coupled to the rear support bar 31 so as to be spaced in the front and rear directions, and a rear drive motor provided on the rear support bar 31 and rotating the rear transport roller 32. (33) and a rear cylinder mechanism (34) connected to the rear support bar (31) to rotate the rear end of the rear support bar (31) in the up and down direction.

The rear support bar 31 is configured in an arc shape with the middle part rounded downward, and the front end is hinged to the rear support shaft 13 extending in the adjacent direction from the left and right support parts 11 and 12, and when raised, It surrounds the rear lower side of the front pressure roller (21).

At this time, the rear support bar 31 provided on the right side is provided with an extension portion 31a extending downward.

The rear drive motor 33 is provided on the extension part 31a and is connected to several rear support bars 31 through a connection gear not shown. When the rear drive motor 33 is driven, several rear transfer rollers are connected to the rear support bar 31. (32) is rotated in the opposite direction to the front pressure roller (21).

Both ends of the rear cylinder mechanism 34 are connected to the right rear support bar 31 and the right support part 12, respectively, so that when expanded and contracted, the rear support bar 31 rotates in the up and down direction.

Therefore, as shown in FIG. 8, when the silicon 1 is discharged downward through the front and rear pressure rollers 21 and 22 with the rear support bar 31 rotated upward, the discharged silicon 1 Silicone (1) is transported forward while placed on the upper surface of the rear transport roller (32).

The front transport mechanism 40 includes a pair of front support bars 41 that extend in the vertical direction and whose lower ends are hinged to the left and right supports 11 and 12 so as to be spaced apart from each other in the lateral direction, and a pair of front support bars 41 that extend in the lateral direction and are mutually spaced from each other. A plurality of front transport rollers 42, both ends of which are coupled to the front support bar 41 so as to be spaced apart in the vertical direction, and a front drive motor provided on the front support bar 41 and rotating the front transport roller 42. (43) and the middle part is composed of an arc-shaped panel with a forward rounded shape, and both ends are coupled to the front support bar 41 so as to be located on the upper side of the front transfer roller 42, and an air chamber 44a is provided inside. A spray panel 44 is formed with a plurality of spray holes 44b on the rear side, an air supply means 45 connected to the spray panel 44, and a front support bar connected to the front support bar 41. It consists of a front cylinder mechanism (46) that allows the upper end of (41) to rotate in the front and rear directions.

The front support bar 41 is configured in an arc shape with the middle part rounded forward, and the lower end is hinged to the front support shaft 14 extending in the adjacent direction from the left and right support parts 11 and 12, in the vertical direction. When arranged to extend, it surrounds the front circumference of the front pressure roller 21.

The front transfer roller 42 is located from the bottom to the middle of the front support bar 41.

At this time, the front support bar 41 provided on the right side is provided with an extension portion 41a extending forward.

The front drive motor 43 is provided on the extension part 41a and is connected to several front transport rollers 42 through a connection gear (not shown). When the front drive motor 43 is driven, several front transport rollers 42 are connected to each other. (42) is simultaneously rotated in the opposite direction to the front pressure roller (21).

The spray panel 44 is made of a high-strength metal material.

The air supply means 45 uses an air compressor connected to the air chamber 44a through an air supply pipe 45a.

Both ends of the front cylinder mechanism 46 are connected to the right front support bar 41 and the right support part 12, respectively, so that the upper end of the front support bar 41 rotates in the front and rear directions as it expands and contracts, The distance between the injection panel 44 and the front pressure roller 21 can be adjusted, or as shown in FIG. 10, the front transfer mechanism 40 is rotated greatly forward to adjust the front peripheral surface of the front pressure roller 21. This can be exposed.

Therefore, when the front drive motor 43 is driven to rotate the front transfer roller 42 and the silicon 1 is transferred to the front of the rear transfer mechanism 30, the transferred silicon 1 is It is raised in close contact with the rear surface of the front transfer roller 42 and supplied between the injection panel 44 and the front pressure roller 21.

At this time, when high-pressure air is supplied to the air chamber 44a of the injection panel 44 using the air supply means 45, the air supplied to the air chamber 44a is supplied to the silicon (1) through the injection hole 44b. ) is sprayed to the front of the silicone (1) so that the silicone (1) comes into close contact with the front peripheral surface of the front pressure roller (21).

Therefore, while the silicone 1 is in close contact with the front peripheral surface of the front pressure roller 21, it is raised by the rotation of the front pressure roller 21 and then passes between the front and rear pressure rollers 21 and 22. It is discharged downward.

As shown in FIGS. 6 and 7, the left and right guide plates 51 and 52 are coupled to support bars 53 that are slidably coupled to the left and right supports 11 and 12 in the lateral direction to adjust the lateral position. In order to be able to do so, an extension part 454 inserted between the front and rear pressure rollers 21 and 22 is provided on the lower side, and an inclined part 55 arranged to be inclined outward is formed on the front side.

Therefore, after the silicon 1, which is raised by the front transfer mechanism 40 and then transferred by the front pressure roller 21, moves to the center of the front pressure roller 21 along the inclined portion 55, It is inserted between the front and rear pressure rollers (21, 22).

The operation of the silicon mixing device configured as described above is explained as follows.

First, as shown in FIG. 8, the rear transfer mechanism 30 is raised, the front transfer mechanism 40 is rotated upward to approach the front of the front press roller 21, and the front and rear press rollers ( 21, 22), the rear transfer roller 32, and the front transfer roller 42 are rotated, and at the same time air is supplied to the air chamber 44a, to the upper side of the front and rear pressurizing rollers 21 and 22. When silicone (1) mixed with chemicals is supplied, the silicone (1) is pressurized while passing between the front and rear pressure rollers (21, 22) and then discharged downward, and the silicone (1) discharged in this way is transferred to the rear transfer mechanism. After being raised by (30) and the front transfer mechanism 40, it is attached to the upper circumference of the front pressure roller 21 by the pressure of the air discharged to the rear of the spray panel 44, and the front pressure roller 21 ) and is supplied between the front and rear pressure rollers (21, 22).

At this time, the silicon (1), which rotates together with the front pressure roller (21), is guided to gather in the middle stiff part of the front pressure roller (21) along the inclined portions (55) of the left and right guide plates (51, 52), so that the front and rear pressure rollers It is supplied between (21,22).

In this way, after the silicon 1 is pressed by the front and rear press rollers 21 and 22, it is automatically pressed back into the front and rear press rollers 21 and 22 by the rear transfer mechanism 30 and the front transfer mechanism 40. By repeating the supply operation, the silicone 1 and the chemical are uniformly mixed by repeated pressurization.

At this time, the operator expands and contracts the front cylinder mechanism 46 to correspond to the thickness of the silicon 1 discharged to the lower side of the front and rear pressure rollers 21 and 22, so that the front pressure roller 21 and the front transfer mechanism 40 The spacing between them can be adjusted.

Then, in a state where the silicone (1) and the chemical are uniformly mixed, as shown in FIG. 9, when the rear cylinder mechanism (34) is reduced and the rear transfer mechanism (30) is rotated downward, the front and rear pressure rollers ( Since the silicone (1) discharged to the lower side of the body (21, 22) is discharged to the upper surface of the main body (10) and is no longer supplied between the front and rear pressurizing rollers (21, 22), the silicone (1) is pressed and mixed. The task can be completed.

As shown in FIG. 10, when the front cylinder mechanism 46 is reduced and the front transfer mechanism 40 is rotated forward, the front of the front pressure roller 21 is exposed, allowing the operator to move forward. The pressure roller (21) can be maintained.

The silicon mixing device configured in this way is provided on the rear lower side of the front pressure roller 21 and includes a rear transfer mechanism ( 30) and a front transfer mechanism 40 that is provided in front of the front pressure roller 21 and transfers the silicon 1 transferred to the front of the rear transfer mechanism 30 to the upper side of the front pressure roller 21. And, left and right guide plates (51, 52) are further provided, which are located on the upper side of the front and rear pressure rollers (21 and 22) and support both sides of the silicon (1) supplied between the front and rear pressure rollers (21 and 22). , the silicone (1) that passes between the front and rear pressure rollers (21 and 22) and is discharged to the lower side is automatically raised and supplied again between the front and rear pressure rollers (21 and 22).

Therefore, there is no need for the worker to manually supply the silicone (1) discharged to the lower side between the front and rear pressure rollers (21, 22), making the work easy and preventing injury to the worker. There is an advantage.

10. Body 21,22. Front and rear pressurized rollers
30. Rear transfer mechanism 40. Front transfer mechanism
51,52. Left and right guide plates

Claims (2)

A main body (10) with left and right support portions (11, 12) extending upward on both sides of the upper surface, and
front and rear pressure rollers (21, 22) provided on the main body (10) extending laterally and spaced apart from each other in the front and rear directions;
It includes a drive motor (23) connected to the front or rear pressure roller (22) to rotate the front and rear pressure rollers (21, 22),
In the silicon mixing device, the front and rear pressure rollers (21, 22) have both ends rotatably coupled to the left and right supports (11, 12),
A rear transfer mechanism (30) provided at the rear lower side of the front pressure roller (21) to transport the silicon (1) discharged downward through the front and rear pressure rollers (21, 22) to the front,
It further includes a front transfer mechanism 40 that is provided in front of the front pressure roller 21 and transfers the silicon 1 transferred to the front of the rear transfer mechanism 30 to the upper side of the front pressure roller 21. ,
The rear transfer mechanism 30 is
A pair of rear support bars (31) extending in the anteroposterior direction and having an arc shape with the middle portion rounded downward, the front ends of which are hinged to the left and right support portions (11 and 12) so as to be laterally spaced from each other;
A plurality of rear transfer rollers (32) extending laterally and having both ends coupled to the rear support bar (31) so as to be spaced apart from each other in the anteroposterior direction;
A rear drive motor (33) provided on the rear support bar (31) and rotating the rear transfer roller (32),
It includes a rear cylinder mechanism (34) connected to the rear support bar (31) so that the rear end of the rear support bar (31) rotates in the up and down direction,
The forward transfer mechanism 40 is
A pair of front support bars (41) extending in the vertical direction and having an arc shape with the middle portion rounded forward, the lower ends of which are hinged to the left and right support portions (11 and 12) so as to be laterally spaced from each other;
A plurality of front transport rollers (42) extending laterally and having both ends coupled to the front support bar (41) so as to be spaced apart from each other in the vertical direction,
A front drive motor (43) provided on the front support bar (41) and rotating the front transfer roller (42),
The middle part is formed in the form of an arc-shaped panel rounded forward, and both ends are coupled to the front support bar 41 so that it is located on the upper side of the front transfer roller 42, and an air chamber 44a is formed inside and the rear side. There is a spray panel 44 formed with a plurality of spray holes 44b,
An air supply means (45) connected to the spray panel (44),
A silicon mixing device comprising a front cylinder mechanism (46) connected to the front support bar (41) to rotate the upper end of the front support bar (41) in the front and rear direction.
According to clause 1,
It is located on the upper side of the front and rear pressure rollers (21 and 22) and is coupled to a support rod (53) that is slidably coupled to the left and right supports (11 and 12) in the lateral direction and is supplied between the front and rear pressure rollers (21 and 22). A silicon mixing device further comprising left and right guide plates (51, 52) supporting both sides of the silicon (1).

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