KR20110035281A - Submersible mixer - Google Patents

Abstract

PURPOSE: A submersible mixer is provided to effectively implement a stirring process by mounting two or more impellers in a gear housing. CONSTITUTION: A submersible mixer includes a first motor(110), a second motor(120), a reduction unit(130), a gear housing(140), impellers(150), and a gear(160). The first motor rotates a first driving shaft(111). The second motor rotates a second driving shaft. The reduction unit is installed to the driving shaft and implements a reduction process. The gear housing is in connection with the reduction unit using a shaft and rotates. The impellers are installed to the gear housing to be rotatable. The gear transfers the torque of the first driving shaft to the impellers.

Description

Submersible mixer

FIELD OF THE INVENTION The present invention relates to underwater stirrers, and in particular, to underwater stirrers to enable more effective agitation.

In general, water agitators are installed and used in various fields such as water treatment facilities to prevent precipitation of high concentration liquids, water treatment facilities to prevent sedimentation of wastewater in sewage / sewage treatment tanks, and other chemicals, foods, and paper industry. .

1 is a view showing a conventional underwater stirrer, the strut type underwater stirrer 10 is supported by the support 11, the horizontal flow generated by driving the impeller 13 by operating the underwater motor 12 installed in the transverse direction This prevents the precipitation of suspended matters.

On the other hand, the upward jet submerged agitator 20 is installed at the bottom of the tank so that the vertical flow is generated by the operation of the submersible motor to circulate in the liquid.

As such, the conventional underwater stirrer is provided with various types of underwater stirrers according to the size and purpose of the tank to prevent stirring of liquids and liquids or precipitation of suspended matter.

However, it is common for a conventional underwater stirrer to operate with one impeller, so that the fluid flow generated in the tank is limited, and it is necessary to install two or more underwater stirrers, especially when the tank capacity to be treated is large. .

The present invention is to solve the above problems, it is to provide an underwater stirrer capable of rapid and effective stirring by varying the conventional fixed axial impeller operation form.

The underwater stirrer of the present invention includes a first motor for rotationally driving the first drive shaft; A second motor for rotationally driving the second drive shaft; A deceleration device attached to the second drive shaft to decelerate; A gear housing connected to the reduction device and the shaft to rotate; An impeller rotatably provided in the gear housing; Is provided in the gear housing is achieved by a gear portion for transmitting the rotational driving force of the first drive shaft to the impeller.

Underwater stirrer according to another aspect of the present invention is an underwater stirrer according to a third embodiment of the present invention and a first motor for rotationally driving the first drive shaft; A second motor for rotationally driving the second drive shaft; A deceleration device provided on the second drive shaft to decelerate; A first impeller rotating by the first driving shaft; It may be achieved by a second impeller connected to the reduction device and the shaft is rotated.

Underwater stirrer of the present invention as described above is diversified in the operation form of the impeller or two or more of the impeller is equipped with the operation is made, there is an effect that more efficient stirring can be made than in the prior art.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First Embodiment

Referring to FIG. 2, the first motor 110 rotates the first drive shaft 111; A second motor 120 which rotationally drives the second drive shaft; A deceleration device 130 attached to the second drive shaft to decelerate; A gear housing 140 connected to the reduction device 130 and the shaft 141 to rotate; An impeller (150) rotatably provided in the gear housing (130); It is provided in the gear housing 130 is characterized in that it is composed of a gear unit 160 for transmitting the rotational driving force of the first drive shaft 111 to the impeller 150.

The first driving shaft 111 driven by the first motor 110 is installed vertically downward and is located inside the hollow shaft 141.

The reduction gear 130 is installed on the second drive shaft of the second motor 120 to reduce the speed, and the driven shaft 131 that has been decelerated by the speed reduction device 130 has a shaft through external gears 131a and 131b. Transfer to 141 to drive the gear housing 140 in rotation.

The first motor 110 and the second motor 120 are installed in the ground structure (1) outside the tank.

As the reduction gear attached to the second motor, a known reduction gear can be used. For example, a gear reduction device such as a planetary reduction gear, an involute reduction gear, an internal reduction gear, a cycloid reduction gear, or a reduction gear using a belt may be used.

Preferably, in the present invention, a cycloid reduction device having a large reduction ratio, excellent durability, and easy handling and operation may be used.

A plurality of impellers 150 are rotatably installed in the gear housing 130 in the lateral direction. It is apparent that the bearing 151 for smooth driving of the impeller 150 and the seal member 152 for maintaining airtightness may be provided.

The lower front end of the drive shaft 111 penetrates to the inner center of the gear housing 140. A well-known bearing 142 may be provided between the drive shaft 111 and the gear housing 130 where rotation is performed by different driving forces.

The lower end of the drive shaft 111 is provided with a gear unit 160 for transmitting a driving force to the impeller 150.

The drawing shows that the lower end of the drive shaft 111 and the impeller 140 are connected by the bevel gears 161 and 162, but may be connected by other types of gears.

On the other hand, in the present invention, the gear housing 140 is built on the table 170 fixed to the ground is characterized in that the rotation is made.

A rotation shaft 143 protrudes from the bottom of the gear housing 140, and the rotation shaft 143 is inserted into the shaft hole 171 provided at the center of the table 170 so that the gear housing 140 is free from eccentricity during operation. Ensure smooth operation.

In addition, in the underwater stirrer of the present invention, the first motor 110 is characterized in that the control unit 180 for controlling the drive is further configured.

The controller 180 may control the first motor 110 on / off according to a predetermined condition, so that the gear housing 140 which is rotationally driven by the first motor 110 may operate at the first motor 110. Rotation only takes place.

For example, the controller may be configured of only a timer and a relay so that the first motor 110 is driven at a predetermined period set in the timer.

Alternatively, since the rotational drive control of the gear housing is possible by the control of the controller 180, the stirring operation may be performed in a state in which the direction of the rotation axis of the impeller is fixed in a specific direction.

Referring to FIG. 5, when the underwater stirrer of the present invention configured as described above is operated with the first motor and the second motor, the driving force of the second driving shaft is transmitted to the gear housing 140 through the reduction gear and the shaft, thereby transmitting the gear housing 140. At the same time as the rotation is made in one direction (b), the driving force of the first drive shaft is transmitted to the impeller 150 through the gear portion, so that the impeller 150 is rotated in one direction (a).

Therefore, the impeller 150 agitates the fluid in the tank while the rotating shaft itself rotates 360 °.

Second Embodiment

First, a description overlapping with the first embodiment in the second embodiment will be omitted, and the description will be mainly focused on the configuration characterized in the second embodiment of the present invention.

Referring to Figure 6, in the second embodiment of the present invention and the first motor 210 for driving the rotation of the first drive shaft 211; A second motor 220 which rotationally drives the second drive shaft; A deceleration device 230 attached to the second drive shaft to decelerate; A gear housing 240 connected to the reduction gear 230 and the shaft 241 to rotate; An impeller 250 rotatably provided in the gear housing 240; The gear unit 260 which transmits the rotational driving force of the first drive shaft 211 to the impeller 250 is substantially the same as in the first embodiment, and the speed reduction device 230 is provided via the second gear unit 270. It is characterized by transmitting a driving force to the gear housing 240.

Specifically, referring to FIG. 7, the first motor 210 is installed in the longitudinal direction, and the second motor 220 is installed in the transverse direction so that the first driving shaft and the second driving shaft are vertically disposed.

The driven shaft, which is decelerated by the reduction gear 230 attached to the drive shaft of the second motor 220, is connected to the first bevel gear 271, and the first bevel gear 272 is the second bevel gear 272. Leads to. The second bevel gear 272 is fixed to the upper end of the shaft 241 to transfer the driving force to the gear housing through the shaft 241.

The first drive shaft 211 is located in the center of the hollow shaft 241 is rotated, the bearing between the second bevel gear 272 and the first drive shaft 211 is rotated by a separate driving force, respectively 241 may be provided.

Although not shown in the drawing, as described in the first embodiment, a control unit for controlling driving may be added to the first motor.

Third Embodiment

Underwater stirrer according to a third embodiment of the present invention and the first motor for rotationally driving the first drive shaft; A second motor for rotationally driving the second drive shaft; A deceleration device provided on the second drive shaft to decelerate; A first impeller rotating by the first drive shaft; It is characterized by consisting of a second impeller connected to the reduction device and the shaft is rotated.

Specifically, referring to FIG. 8, the first motor 310 and the second motor 320 are provided on the frame 300 located outside the tank, and the deceleration device 330 for deceleration is provided on the second motor 320. Is provided is the same as the first embodiment, in particular in this embodiment the first impeller 341 is installed on the lower end of the first drive shaft 311 driven by the first motor 310, the reduction device 330 The second impeller 342 is installed at the lower end of the shaft 331 which is driven by the two impellers are driven to be stirred in the tank.

9 shows the same driving of the two impellers 441 and 442, but as described above in the second embodiment, the first motor 410 and the second motor 420 are vertically arranged to reduce the speed reduction device 430. Between the shaft 431 and a gear unit such as a bevel gear is provided that the operation of the impeller can be made.

As such, two impellers can be driven to rotate to stir the liquid in the tank. If necessary, one of the two impellers is disposed at the middle height of the tank and the other is located at the bottom of the tank. Efficient agitation can be achieved even without the addition of an underwater stirrer.

Although not shown in the drawing, as described in the first embodiment, a control unit for controlling driving may be added to the first motor.

The above embodiment is an example for explaining the technical idea of the present invention in detail, and the scope of the present invention is not limited to the above drawings and embodiments.

1 is a view showing a conventional underwater stirrer,

Figure 2 shows a first embodiment of the underwater stirrer of the present invention,

3 is an enlarged view of a portion A of FIG. 2;

4 is an enlarged view of a portion B of FIG. 2, FIG.

5 is a view showing an operation example of the underwater stirrer of the present invention,

Figure 6 shows a second embodiment of the underwater stirrer of the present invention,

7 is an enlarged view of a portion C of FIG. 6, FIG.

8 and 9 show a third embodiment of the underwater stirrer of the present invention.

<Explanation of symbols for the main parts of the drawings>

110: first motor 111: first drive shaft

120: first motor 130: reduction gear

140: gear housing 150: impeller

160: gear unit 170: table

180: control unit

Claims (7)

A first motor for rotationally driving the first drive shaft; A second motor for rotationally driving the second drive shaft; A deceleration device attached to the second drive shaft to decelerate; A gear housing connected to the reduction device and the shaft to rotate; An impeller rotatably provided in the gear housing; Underwater agitator, characterized in that the gear housing is provided in the gear housing for transmitting the rotational driving force of the first drive shaft to the impeller. The underwater stirrer according to claim 1, wherein the gear part is a bevel gear. The underwater stirrer according to claim 1, wherein the gear housing is installed on a table fixed to the ground to rotate. The underwater stirrer of claim 1, wherein the reduction device transmits driving force to the gear housing via a second gear part. 5. The underwater stirrer according to claim 4, wherein the second gear portion is a bevel gear. A first motor for rotationally driving the first drive shaft; A second motor for rotationally driving the second drive shaft; A deceleration device provided on the second drive shaft to decelerate; A first impeller rotating by the first drive shaft; Underwater agitator, characterized in that consisting of a second impeller connected to the reduction device and the shaft is rotated. The underwater stirrer according to claim 1 or 6, wherein the first motor further comprises a control unit for controlling the driving.

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