KR100414396B1 - Material mixer - Google Patents

Abstract

The present invention relates to a mixer for mixing raw materials such as powder and the like, the raw material mixer of the present invention, and the reverse conical body 100 is provided with a discharge unit 110 in the lower portion, and the top of the body 100 The driving unit 200 is installed on the cover 120 of the, and the rotating unit 300 is driven by the driving unit 200 to rotate in the body 100, and is connected to the end of the rotating unit 300 It comprises a screw 400 that rotates and revolves in the body 100, the driving force from the first and second motors 201, 202 of the drive unit 200 to the rotating unit 300 and the screw 400 Unlike the related art, the transmission means uses a gear, and further includes a moisturizer supply unit 500 to which a moisturizer such as water can be added to suppress the generation of dust during the mixing of the raw materials. It is characterized by the fact that.

Description

Raw material mixer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mixer for mixing raw materials such as powder and the like, and more particularly to a raw material mixer in which a method of transmitting driving force from a driving source is improved.

Conventionally, various kinds of mixers for mixing different raw materials, which are made and transported and stored together, are used, and FIG. 1 shows a mixer having a screw member for simultaneously rotating and rotating in an inverted conical container.

The conventional screw con mixer type mixer, as shown in FIG. 1, has an inverted conical body 10 having an outlet portion 11 installed at the lower portion thereof, and a lid on the upper portion of the body 10. The drive unit 20 is installed in the (12), the rotating unit 30 is driven by the drive unit 20 to rotate in the body 10, and is connected to the end of the rotating unit 30 body ( 10) comprising a screw 40 that rotates and revolves within.

According to the mixer configured as described above, the raw materials are three-dimensionally moved and convection mixed while repeating the up, down and circular motions. The upward motion is a motion to raise the raw material along the inner wall surface of the body 10 by the rotation of the screw 40, the raw material transferred to the upper end of the screw is sprayed around by the rotational force of the screw. The lowering movement is performed as the raw material falls around the space formed after the raw material of the lower portion of the body 10 is raised by the screw 40. Then, the circular motion is made by moving the raw material in the horizontal direction as the screw 40 revolves with the rotation.

The driving force for performing these three kinds of motions, from the first and second motors 21 and 22 of the drive unit 20 through the transmission means 23 and 24 and the reducer 25 and the rotating unit 30. Is delivered to the screw 40.

Here, since the V-pulley belt is used as shown in the conventional transmission means 23, 24, there was a power loss such as the occurrence of backlash, and the work clothes and the like were sucked into the V-pulley belt driven during operation. There was a safety problem, such as a safety accident. In addition, since the object to be mixed is mainly a powder, dust generated during the mixing operation is caught in the V-pulley belt, causing slip, vibration, etc., thus generating a lot of noise. In addition, the rotational centrifugal force of the V-pulley belt causes convection of the surrounding air to increase dust scattering, which is the main cause of polluting the environment around the workplace. There was concern.

Therefore, there is a problem that the time required for mixing work is increased and productivity is decreased due to the power loss as described above, and when a safety accident occurs due to the driven V-pulley belt, manpower loss and cost increase are caused. there was. In addition, it caused serious harm to the health of workers as well as environmental pollution of the workplace. In the end, it had a major negative impact on both productivity, safety, and the work environment.

In addition, conventionally, since the moisturizer used to prevent excessive dust generation was added at the time of packing the product after the mixing was completed, there was a problem that dust generation during mixing with the highest dust generation rate could not be suppressed.

The present invention has been invented to solve the problems as described above, the object of the present invention is to improve the manner in which the driving force from the drive source is transmitted to ensure that the driving force is transmitted without loss of power and at the same time prevent the occurrence of safety accidents It is to provide a raw material mixer that can prevent and minimize environmental pollution.

Further, another object of the present invention is to provide a raw material mixer capable of effectively suppressing dust generation during mixing.

1 is a side view of a conventional raw material mixer,

2 is a view similar to FIG. 1 of the raw material mixer of the present invention;

3 is a side view showing a part of the driving unit of the raw material mixer of FIG.

4 is a plan view partially cut and showing a driving part of the raw material mixer of FIG.

In order to achieve the object of the present invention, a reverse conical body having a discharge portion is installed in the lower portion, a drive unit installed on the cover of the upper end of the body, and a rotating unit driven by the drive unit to rotate in the body and And a screw connected to an end of the rotating part and rotating and revolving in a body, wherein the driving part includes first and second motors fixed to a frame installed on an upper portion of the cover, and A transmission means for transmitting rotational drive force from the first and second motors, and a speed reducer for receiving rotational drive force from the transmission means, wherein the transmission means has one end directly connected to the first motor. A first input shaft connected to the other end and having a first pinion installed at the other end thereof, and a first rotation shaft provided with a first gear engaged with the first pinion; A first motor unit for a motorized for transmitting the rotation drive force of the first motor; And a second input shaft having one end connected directly to the second motor and having a second pinion installed at the other end thereof, and a second rotation shaft provided with a second gear engaged with the second pinion. There is provided a raw material mixer comprising a; electric unit for transmitting a second motor.

On the other hand, the raw material mixer further includes a moisturizer supply unit that can add a moisturizer to suppress the generation of dust during the mixing operation of the raw material, the moisturizer supply unit, the rotation center of the first axis A first supply pipe formed through the axis in the longitudinal direction; A second supply pipe rotatably sealed to the lower end of the first supply pipe and rotated in the body together with the pivoting part; It characterized in that it comprises a; moisturizer injection means installed in the second supply pipe.

In addition, the moisturizer injection means is characterized in that the plurality of holes formed in the longitudinal direction in the lower portion of the second supply pipe at a predetermined interval from each other.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the raw material mixer according to the present invention.

As shown in Figures 2 to 4, the raw material mixer according to the present invention, the body 100 of the reverse conical shape, the discharge unit 110 is installed at the bottom, and the cover 120 of the top of the body 100 The driving unit 200 is installed in, the rotating unit 300 is driven by the driving unit 200 to rotate in the body 100, and is connected to the end of the rotating unit 300 in the body 100 It consists of a screw 400 that is rotated and revolved in, as is conventional.

However, the raw material mixer according to the present invention is a transmission means for transmitting a driving force from the first and second motors 201 and 202 of the driving unit 200 to the rotating unit 300 and the screw 400 as described below. Is characterized by the use of gears. In addition, the raw material mixer of the present invention is characterized in that it further comprises a moisturizer supply unit 500 that can add a moisturizer such as water to suppress the generation of dust during the mixing operation of the raw materials.

The body 100 of the raw material mixer of the present invention, the discharge unit 110 is installed in the lower portion can be selectively opened and closed in order to discharge the raw material is completed, and the monitoring window that can visually check the mixed state of the raw material ( It includes a cover 120 is provided).

The driving unit 200 is a first and second motors 201 and 202 fixed to the frame 121 installed on the upper part of the cover 120 and an electric transmission for transmitting rotational driving force from the first and second motors. Means 230 and 240, and reducer 250, 260 to receive a rotational driving force from the transmission means (230, 240) to reduce the rotational speed. The driving unit 200 is installed in the frame 121 and is wrapped with a protective cover 122.

Here, the transmission means, the first end is directly connected to the first motor 201, the first input shaft 231, the first pinion 232 is installed on the other end and the first pinion 232 is engaged with the first pinion (232) The first gear shaft 234 is provided with a first rotation shaft 234 is installed, the first motor transmission unit 230 for transmitting the rotational driving force of the first motor 201, and one end of the second motor 202 A second input shaft 241 directly connected to the second input pin 242 at the other end, and a second rotation shaft 244 provided with a second gear 243 engaged with the second pinion 242. , A second motor transmission unit 240 for transmitting the rotational driving force of the second motor 202.

The first input shaft 231 and the first rotation shaft 234 are parallel to each other and rotatably supported by the frame 121 by a plurality of bearings, respectively. Similarly, the second input shaft 241 and the second rotation shaft 244 are parallel to each other and rotatably supported by the frame 121 by a plurality of bearings, respectively.

The speed reducer includes a first bevel pinion 251 installed on the first rotation shaft 234 and a first bevel gear 252 engaged with the first bevel pinion 251, and the first motor transmission unit for the first motor. Cylindrical worms 261 provided on the first motor deceleration unit 250, and the second rotation shaft 244 to receive and reduce the rotational driving force of the first motor 201 through the 230, and the cylindrical worms ( And a second gear reduction unit 260 configured to receive a rotational driving force of the second motor 202 through the second motor transmission unit 240. Include.

As shown in FIG. 3, angles between the center axis of rotation of the first bevel pinion 251 and the first bevel gear 252 are perpendicular to each other, and the cylindrical worm 261 and the worm gear 262 are perpendicular to each other. The angles between the center axes of rotation of) are also perpendicular to each other.

The rotating unit 300 receives the rotation driving force of the first motor 201 and receives the rotation driving force of the internal rotation unit 310 and the second motor 202 that rotate the screw 400. It includes an external rotating unit 320 to revolve the screw 400.

The internal rotation unit 310 has a first bevel gear 252 is provided at one end, the first shaft 311 is provided with a second bevel pinion 312 at the other end, and the second bevel pinion (at one end) A second bevel gear 313 meshing with 312 is provided, and a third bevel gear meshing with the third bevel pinion 315 and a second shaft 314 provided with a third bevel pinion 315 at the other end. It consists of the 3rd shaft 317 in which 316 is provided.

The angle between the first shaft 311 and the second shaft 314 is installed to form an approximately right angle, and the angle between the second shaft 314 and the third shaft 317 is installed to form approximately 73 degrees. .

The external rotation unit 320 has a first shaft case 321 having the worm gear 262 installed at an external end thereof and rotatably supporting the first shaft 311 therein, and the first shaft. A second bevel case 322 integrally coupled to the other end of the case 321 and having the second bevel pinion 312 and the second bevel gear 313 therein, and one end of the second bevel case 322. A second shaft case 323 integrally coupled to the second shaft case 323 to rotatably support the second shaft 314 therein, and integrally coupled to the other end of the second shaft case 323 and having the third bevel therein; And a third bevel case 324 having a pinion 315 and a third bevel gear 316.

The first shaft case 321 of the external rotation unit is rotatably supported by the frame 121 by a plurality of bearings. Since the external rotation unit 320 is configured integrally, as the first shaft case 321 rotates, the external rotation unit 320 rotates together. In addition, the first to third shafts 311, 314, and 317 rotatably installed in the external rotation unit 320 are supported by a plurality of bearings, respectively, so that the rotational motion and the internal movement of the external rotation unit 320 are internal. Rotational movement of the rotation unit 310 is independent of each other.

The screw 400 has a universal joint 410 at one end, and a cylindrical protrusion 420 is formed at the other end. The screw 400 is coupled to and interlocked with the third shaft 317 of the internal rotation unit through the universal joint 410. The cylindrical projection 420 at the other end of the screw 400 is guided by the axial vibration preventing locator 430 which is installed at the inner lower end of the reverse conical body and has a ring-shaped opening at the center thereof, thereby rotating the screw 400. And idle movement can be performed smoothly. That is, the screw 400 is rotated by the rotational movement of the internal rotation unit 310 and at the same time revolves in the reverse conical body 100 by the rotational movement of the external rotation unit (320).

In the raw material mixer according to the preferred embodiment of the present invention, the inner lower end of the reverse conical body is illustrated and described as having a axial vibration preventing locator as described above, but if necessary, or according to the capacity of the raw material mixer, Instead of the locator, the bottom surface of the body may be formed in the shape of a hat, so that the lower end of the screw is in direct contact with the bottom surface and slides so as to perform rotation and idle motion.

Moisturizing agent supply unit 500, the first supply pipe 510 formed to penetrate in the longitudinal direction along the rotation center axis line of the first shaft 311, and sealingly rotatably coupled to the lower end of the first supply pipe 510 And a second supply pipe 520 installed at a lower portion of the second shaft case 323 and rotated together with an external rotation unit, and a moisturizer spraying means 530 installed at the second supply pipe 520.

Any kind of moisturizer injection means 530 may be used as long as the moisturizer can be injected into the mixer container. In addition, the moisturizer injection means 530 may be installed in the longitudinal direction at the lower portion of the second supply pipe 520 at a predetermined interval from each other, and simply do not use a separate injection means second supply pipe 520 It may be a plurality of holes formed through the outer wall of the.

The driving force from the first motor 201 is transmitted as follows. That is, when the first motor 201 starts to be driven, the first input shaft 231 of the first motor transmission unit 230 rotates to rotate the first pinion 232 and the first gear 233. Accordingly, as the first rotation shaft 234 is rotated, the rotation speed is reduced through the first bevel pinion 251 and the first bevel gear 252 of the reduction unit 250 for the first motor. The rotational drive force, which has a greater force by the reduction unit, continues to the first shaft 311, the second bevel pinion 312, the second bevel gear 313, and the second shaft 314 of the internal rotation unit 310. ), The third bevel pinion 315, the third bevel gear 316, and the third shaft 317 are transferred to the screw 400, causing a rotation of the screw 400.

The driving force from the second motor 202 is transmitted as follows. That is, when the second motor 202 starts to be driven, the second pinion 242 and the second gear 243 are rotated while the second input shaft 241 of the second motor transmission unit 240 is rotated. Accordingly, as the second rotation shaft 244 is rotated, the rotation speed is reduced through the cylindrical worm 261 and the worm gear 262 of the reduction unit 260 for the second motor. The rotational drive force, which has a greater force by the reduction unit, continues to the first shaft case 321, the second bevel case 322, the second shaft case 323, and the third bevel of the external rotation unit 320. It is transmitted to the screw 400 through the case 324, causing an orbital motion of the screw 400.

Since the engaging portion of each part described above is configured to be sealed by the sealing member, the lubricating oil and the like are reliably prevented from entering the mixer, thereby preventing contamination of the mixture.

As described above, according to the present invention, since the method of transmitting the driving force from the driving source is changed from the belt driving type to the gear direct type, the driving force can be reliably transmitted without loss of power and the occurrence of safety accident can be prevented. The effect can be obtained. Therefore, the mixing state can be checked at any time, and the effect that the time taken for the mixing to be shortened can also be obtained.

In addition, in the case of the belt driven type, the slip, vibration, and the like generated by the dust generated in the mixture in the V-pulley belt are suppressed by the present invention, and the effect that noise generation can be significantly reduced is obtained. In addition, by removing the V-pulley belt part that caused convection of the surrounding air, dust scattering is suppressed and no environmental pollution occurs, and the workplace can be kept clean, thus maintaining a more efficient and safe working environment. Get the effect.

In addition, by the moisturizing agent supply unit of the present invention can be added to the moisturizing agent when mixing the raw material, it is possible to effectively suppress the generation of dust during mixing, and to prevent environmental pollution.

Claims (3)

An inverted cone-shaped body having a discharge part installed at a lower part thereof, a driving part installed on a cover of the upper end of the body, a rotating part driven by the driving part to rotate in the body, and connected to an end of the rotating part in the body In the raw material mixer comprising a screw rotated and idle in The drive unit, the transmission means 230 for transmitting the rotational driving force from the first and second motors (201, 202) and the first and second motors (201, 202) fixed to the frame installed on the top of the cover , 240, and reducers 250 and 260 receiving a rotational driving force from the transmission means 230 and 240 to reduce the rotational speed. The transmission means has a first input shaft 231 having one end directly connected to the first motor 201 and having a first pinion 232 installed at the other end thereof, and a first gear meshing with the first pinion 232. A first rotating shaft 234 is provided with a 233, the first motor transmission unit 230 for transmitting the rotational driving force of the first motor 201, and one end is directly to the second motor 202. And a second input shaft 241 provided at the other end and having a second pinion 242 at the other end thereof, and a second rotation shaft 244 provided with a second gear 243 engaged with the second pinion 242. It includes a second motor transmission unit 240 for transmitting the rotational driving force of the two motors 202, The speed reducer includes a first bevel pinion 251 installed on the first rotation shaft 234, and a first bevel gear 252 meshed with the first bevel pinion 251. Reduction unit 250 for the first motor to receive and reduce the rotational drive force of the first motor 201 through the unit 230, and a cylindrical worm 261 provided on the second rotary shaft 244, and the cylindrical worm Reduction unit 260 for the second motor made of a worm gear 262 meshing with the (261), receiving the rotational driving force of the second motor 202 through the second motor transmission unit 240 for deceleration. Including that, A moisturizer supply unit 500 to which a moisturizer can be added to suppress dust generation during mixing of raw materials, wherein the moisturizer supply unit 500 is a rotational central axis of the first shaft 311. The first supply pipe 510 is formed to penetrate in the longitudinal direction along the second supply pipe 520 rotatably sealed to the lower end of the first supply pipe 510 and rotated in the body together with the rotating part. And a moisturizer injection means (530) installed in the second supply pipe (520). delete According to claim 1, wherein the moisturizer injection means, Raw material mixer characterized in that the plurality of holes formed in the longitudinal direction in the lower portion of the second supply pipe at a predetermined interval from each other.