CN219482254U - Hyperboloid mixer that sewage treatment used - Google Patents

Abstract

The utility model provides a hyperboloid stirrer for sewage treatment, which relates to the technical field of hyperboloid stirrers and comprises a bracket component and a stirring part, wherein a power component in telescopic connection is arranged on the bracket component, four groups of transmission mechanisms which are distributed in an annular manner are arranged on the side of the power component, and the stirring part assembled by bolts is arranged above one end of the transmission mechanism; the utility model mainly utilizes the push rod at the output end of the air cylinder to connect the motor, so that the output end of the motor drives the driving gear to rotate at high speed, and as a plurality of groups of meshed gear sets which are annularly distributed are arranged at the side of the driving gear, the driving gear can be meshed and transmitted to the driven gear, and the acting force is transmitted to the end-driven gear set through the rotation of the driven gear, so that the end-driven gear set drives the hyperbolic panels to rotate, thus the motor of a single group can achieve the effect of driving a plurality of groups of hyperbolic panels to rotate, the operation efficiency is improved, and the cost is reduced.

Description

Hyperboloid mixer that sewage treatment used

Technical Field

The utility model relates to the technical field of hyperboloid mixers, in particular to a hyperboloid mixer for sewage treatment.

Background

The hyperbolic stirrer is also called an aeration stirring device with a double-layer impeller, the upper surface of the hyperbolic impeller body is of a hyperbolic structure formed by rotating a hyperbolic bus around the axis of the impeller body, and the hyperbolic stirrer is particularly suitable for a coagulation tank, a regulating tank, an anaerobic tank, a nitrification tank and a denitrification tank in a sewage treatment process.

When the existing hyperboloid stirrer is used, the motor is directly driven to stir sewage on the hyperboloid panel, but a plurality of groups of equipment are needed to be used together to achieve ideal operation efficiency, and the running cost is increased, so the utility model provides the hyperboloid stirrer for sewage treatment to solve the problems in the prior art.

Disclosure of Invention

In view of the above problems, the present utility model provides a hyperboloid mixer for sewage treatment, which mainly uses a push rod at the output end of a cylinder to connect an upper motor, so that the output end of the motor drives a driving gear to rotate at a high speed.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the hyperboloid stirrer for sewage treatment comprises a bracket component and a stirring part, wherein a power component in telescopic connection is arranged on the bracket component, four groups of transmission mechanisms which are distributed in an annular manner are arranged on the side of the power component, and the stirring part assembled by bolts is arranged above one end of the transmission mechanism;

the stirring part comprises an end quilt gear, a rotating rod, a fixing sleeve, a hyperbolic plate and a surface convex strip, wherein the end quilt gear is arranged above one end of the transmission mechanism, the end quilt gear is penetrated by the input end of the transmission mechanism and connected with the rotating rod, the top side of the rotating rod is penetrated and sleeved through the fixing sleeve, the hyperbolic plate is arranged on the outer side of the fixing sleeve, and the surface convex strip distributed in an annular mode is arranged on the outer side of the hyperbolic plate.

Further improved, the hyperbolic plate is in a hyperbolic structure, and the surface raised strips are annularly distributed at equal angles with the central axis of the hyperbolic plate.

Further improved in, the support component includes socket, base plate, stock, cylinder block, drive cylinder and push rod, the top side of socket is provided with the base plate of pegging graft, the top side of base plate is provided with the stock, just the top side of stock is provided with the cylinder block, be provided with on the cylinder block and drive the cylinder, just drive the output of cylinder and be connected with the push rod.

Further improved in, power pack includes motor, rotation axis, grafting bearing housing, driving gear, cover shell and support frame, the motor sets up in the below of push rod, the output of motor is connected with the rotation axis, just the output of rotation axis is connected with the grafting bearing housing, the below of grafting bearing housing is provided with the driving gear, just the outside of driving gear is provided with the cover shell of erection bracing frame.

Further improved, the drive mechanism includes bracket, axle sleeve, holds in the palm section of thick bamboo, transmission shaft, driven gear and end drive gear, the bracket sets up the outside of support frame, the top side of bracket is provided with the axle sleeve, the one end top of bracket is provided with holds in the palm the section of thick bamboo.

Further improved, the inside of axle sleeve is provided with the transmission shaft, just the one end of transmission shaft is connected with the driven gear of being connected with the driving gear meshing, the other end of transmission shaft is connected with the end and is connected with the end driven gear of end quilt gear meshing.

The beneficial effects of the utility model are as follows:

the utility model mainly utilizes the push rod at the output end of the air cylinder to connect the motor, so that the output end of the motor drives the driving gear to rotate at high speed, and as a plurality of groups of meshed gear sets which are annularly distributed are arranged at the side of the driving gear, the driving gear can be meshed and transmitted to the driven gear, and the acting force is transmitted to the end-driven gear set through the rotation of the driven gear, so that the end-driven gear set drives the hyperbolic panels to rotate, thus the motor of a single group can achieve the effect of driving a plurality of groups of hyperbolic panels to rotate, the operation efficiency is improved, and the cost is reduced.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic bottom perspective view of the present utility model;

FIG. 3 is a schematic perspective view of a power assembly and transmission mechanism according to the present utility model;

fig. 4 is a schematic perspective view of a stirring member according to the present utility model.

Wherein: 1. a bracket member; 101. a socket; 102. a base plate; 103. a long rod; 104. a cylinder block; 105. a driving cylinder; 106. a push rod; 2. a power assembly; 201. a motor; 202. a rotation shaft; 203. inserting a bearing sleeve; 204. a drive gear; 205. a casing; 206. a support frame; 3. a transmission mechanism; 301. a bracket; 302. a shaft sleeve; 303. a support cylinder; 304. a transmission shaft; 305. a driven gear; 306. an end-drive gear; 4. a stirring member; 401. an end driven gear; 402. a rotating rod; 403. a fixed sleeve; 404. a hyperbolic plate; 405. and a surface convex strip.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to fig. 1-4, this embodiment provides a hyperboloid mixer for sewage treatment, which comprises a bracket component 1 and a mixing component 4, wherein a power component 2 in telescopic connection is arranged on the bracket component 1, four groups of transmission mechanisms 3 in annular distribution are arranged on the side of the power component 2, and a mixing component 4 assembled by bolts is arranged above one end of the transmission mechanism 3;

the stirring part 4 comprises an end driven gear 401, a rotating rod 402, a fixing sleeve 403, a hyperbolic plate 404 and a surface convex strip 405, wherein the end driven gear 401 is arranged above one end of the transmission mechanism 3, the input end of the end driven gear 401 penetrates through the transmission mechanism 3 to be connected with the rotating rod 402, the top side of the rotating rod 402 is sleeved through the fixing sleeve 403, the hyperbolic plate 404 is arranged on the outer side of the fixing sleeve 403, and the surface convex strip 405 distributed in an annular mode is arranged on the outer side of the hyperbolic plate 404.

The hyperbolic plate 404 has a hyperbolic structure, and the surface raised strips 405 are annularly distributed at equal angles on the central axis of the hyperbolic plate 404.

In this embodiment, through the rotation of the end-driven gear 306, the end-driven gear 306 drives the end-driven gear 401 to rotate, so that the end-driven gear 401 drives the rotating rod 402 to rotate at a high speed, thus the rotation of the rotating rod 402 drives the double curved plate 404 sleeved by the fixing sleeve 403 to rotate, and the rotation of the double curved plate 404 drives the surface convex strips 405 on the outer side of the double curved plate 404 to rotate, so that the stirring component 4 can stir sewage effectively.

The bracket member 1 comprises a socket 101, a base plate 102, a long rod 103, a cylinder block 104, a driving cylinder 105 and a push rod 106, wherein the top side of the socket 101 is provided with the socket 102 in a plugging manner, the top side of the socket 102 is provided with the long rod 103, the top side of the long rod 103 is provided with the cylinder block 104, the cylinder block 104 is provided with the driving cylinder 105, and the output end of the driving cylinder 105 is connected with the push rod 106.

In this embodiment, in the processed sewage pool, the socket 101 is installed, the top side of the socket 101 is plugged with the base plate 102, so that the top side of the base plate 102 is provided with the long rod 103, the top side of the long rod 103 is provided with the cylinder block 104, and when the equipment needs to be used, the driving cylinder 105 is started to output power to drive the push rod 106 to extend.

The power assembly 2 comprises a motor 201, a rotating shaft 202, a plug bearing sleeve 203, a driving gear 204, a casing 205 and a supporting frame 206, wherein the motor 201 is arranged below the push rod 106, the output end of the motor 201 is connected with the rotating shaft 202, the output end of the rotating shaft 202 is connected with the plug bearing sleeve 203, the driving gear 204 is arranged below the plug bearing sleeve 203, and the casing 205 for installing the supporting frame 206 is arranged outside the driving gear 204.

In this embodiment, the upper support frame 206 is connected to the base plate 102 through a bolt, so that a casing 205 is disposed on the top side of the support frame 206 to support the power assembly 2, when the push rod 106 extends to the working position, the rotation shaft 202 is driven to rotate at a high speed by the output power of the starting motor 201, and thus the rotation shaft 202 drives the driving gear 204 below the plug-in bearing sleeve 203 to rotate at a high speed.

The transmission mechanism 3 comprises a bracket 301, a shaft sleeve 302, a supporting cylinder 303, a transmission shaft 304, a driven gear 305 and an end driven gear 306, wherein the bracket 301 is arranged on the outer side of the supporting frame 206, the shaft sleeve 302 is arranged on the top side of the bracket 301, and the supporting cylinder 303 is arranged above one end of the bracket 301.

In this embodiment, the bracket 301 is mounted on the side of the support frame 206, so that the sleeve 302 is mounted on the top side of the bracket 301 to clamp the transmission shaft 304, and the bracket 303 is arranged above one end of the bracket 301 to effectively support the end-driven gear 306.

The inside of the shaft sleeve 302 is provided with a transmission shaft 304, one end of the transmission shaft 304 is connected with a driven gear 305 in meshed connection with the driving gear 204, and the other end of the transmission shaft 304 is connected with an end driven gear 306 in meshed connection with an end driven gear 401.

In this embodiment, the driving gear 204 is rotated at a high speed to drive the driven gear 305 of the annular convenient meshing transmission on the side of the driving gear 204 to rotate in a meshing manner, so that the driven gear 305 drives the transmission shaft 304 to rotate, and the transmission shaft 304 drives the end driven gear 306 to rotate.

The hyperboloid mixer for sewage treatment has the working principle that: firstly, the driving cylinder 105 is started to output power to drive the push rod 106 to stretch, when the push rod 106 stretches to an operation position, the driving motor 201 is started to output power to drive the rotating shaft 202 to rotate at a high speed, so that the rotating shaft 202 drives the driving gear 204 below the plug-in bearing sleeve 203 to rotate at a high speed, the driven gear 305 which is convenient to be meshed with the driving gear 204 in a ring shape is driven to rotate through the high-speed rotation of the driving gear 204, the driven gear 305 drives the transmission shaft 304 to rotate, the transmission shaft 304 drives the end driving gear 306 to rotate, and the end driving gear 306 drives the end driven gear 401 to rotate, so that the end driven gear 401 drives the rotating rod 402 to rotate at a high speed, and the rotating rod 402 drives the double-curved plate 404 sleeved by the fixing sleeve 403 to rotate, so that the rotating of the double-curved plate 404 drives the surface convex strips 405 on the outer side of the double-curved plate 404 to rotate, and the stirring part 4 effectively stirs sewage.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. Hyperboloid mixer that sewage treatment used, including support component (1) and stirring part (4), its characterized in that: the device is characterized in that a power assembly (2) which is connected in a telescopic manner is arranged on the support member (1), four groups of transmission mechanisms (3) which are distributed in an annular manner are arranged on the side of the power assembly (2), and a stirring part (4) assembled by bolts is arranged above one end of each transmission mechanism (3);

the stirring part (4) comprises an end driven gear (401), a rotating rod (402), a fixing sleeve (403), a hyperbolic plate (404) and a surface raised line (405), wherein the end driven gear (401) is arranged above one end of the transmission mechanism (3), the end driven gear (401) penetrates through the input end of the transmission mechanism (3) to be connected with the rotating rod (402), the top side of the rotating rod (402) penetrates through the fixing sleeve (403) to be sleeved, the outer side of the fixing sleeve (403) is provided with the hyperbolic plate (404), and the outer side of the hyperbolic plate (404) is provided with the surface raised line (405) distributed in an annular mode.

2. A hyperboloid mixer for sewage treatment according to claim 1, wherein: the hyperbolic plate (404) is in a hyperbolic structure, and the surface raised strips (405) are annularly distributed at equal angles on the central axis of the hyperbolic plate (404).

3. A hyperboloid mixer for sewage treatment according to claim 1, wherein: the support component (1) comprises a plug-in seat (101), a base plate (102), a long rod (103), a cylinder seat (104), a driving cylinder (105) and a push rod (106), wherein the plug-in base plate (102) is arranged on the top side of the plug-in seat (101), the long rod (103) is arranged on the top side of the base plate (102), the cylinder seat (104) is arranged on the top side of the long rod (103), the driving cylinder (105) is arranged on the cylinder seat (104), and the push rod (106) is connected to the output end of the driving cylinder (105).

4. A hyperboloid mixer for sewage treatment according to claim 3, wherein: the power assembly (2) comprises a motor (201), a rotating shaft (202), a plug bearing sleeve (203), a driving gear (204), a casing (205) and a supporting frame (206), wherein the motor (201) is arranged below the push rod (106), the output end of the motor (201) is connected with the rotating shaft (202), the output end of the rotating shaft (202) is connected with the plug bearing sleeve (203), the driving gear (204) is arranged below the plug bearing sleeve (203), and the casing (205) for installing the supporting frame (206) is arranged outside the driving gear (204).

5. The hyperboloid stirrer for sewage treatment according to claim 4, wherein: the transmission mechanism (3) comprises a bracket (301), a shaft sleeve (302), a support barrel (303), a transmission shaft (304), a driven gear (305) and a terminal gear (306), wherein the bracket (301) is arranged on the outer side of the support frame (206), the shaft sleeve (302) is arranged on the top side of the bracket (301), and the support barrel (303) is arranged above one end of the bracket (301).

6. A hyperboloid mixer for sewage treatment according to claim 5, wherein: the inside of axle sleeve (302) is provided with transmission shaft (304), and the one end of transmission shaft (304) is connected with driven gear (305) of being connected with driving gear (204) meshing, the other end of transmission shaft (304) is connected with end driven gear (306) of being connected with end by gear (401) meshing.