CN213983619U - High-efficiency slag cooler using friction transmission - Google Patents

Abstract

The utility model discloses an use driven high efficiency cold sediment machine of friction, including outer barrel, the one end of outer barrel is provided with into the sediment case, the other end of outer barrel is provided with out the sediment case, the surface all around of outer barrel is provided with the ring gear, the inside of outer barrel is provided with interior barrel, the inner wall of interior barrel is provided with the high efficiency and leads sediment mechanism, the high efficiency is led sediment mechanism and is included drive arrangement, high temperature heat exchanger, connecting rod, spiral water conservancy diversion piece, the lower extreme of outer barrel is provided with electrical control device, electrical control device's lower extreme surface is provided with firm chassis mechanism, firm chassis mechanism is including protection iron stand, fixed branch, buffer layer, first shock absorber, second shock absorber, the upper end of firm chassis mechanism is provided with the fixing base. An use cold sediment machine of friction drive's high efficiency, possess the amortization and fall the noise, firm chassis, advantage such as sediment is led to the high efficiency brings better use prospect.

Description

High-efficiency slag cooler using friction transmission

Technical Field

The utility model relates to a cold sediment machine technical field specifically is an use friction drive's cold sediment machine of high efficiency.

Background

The cold sediment machine is also called cold sediment ware, cold sediment machine mainly comprises barrel, advance the sediment case, go out the sediment case, power transmission, chassis and electrical control system, barrel and partition frame all adopt water-cooled wall formula structure, all weld on barrel inner wall and the partition frame and lead the sediment piece, high temperature heat exchanger, will cool off a large amount of sediment to the uniform temperature in the certain time, must have sufficient heat transfer area, heat transfer area is positive correlation with heat transfer volume, lead the sediment sectional area big more every hour can be discharged just also more, lead the sediment sectional area and lead the sediment ability positive correlation.

The existing slag cooler has certain defects in installation and use, the working noise is high, the slag cooler is not environment-friendly, the slag guide efficiency is low, the working efficiency is low, certain adverse effects are brought to the use process of people, and therefore the high-efficiency slag cooler using friction transmission is provided.

SUMMERY OF THE UTILITY MODEL

Solves the technical problem

The not enough to prior art, the utility model provides an use cold sediment machine of friction drive's high efficiency possesses the amortization and falls and make an uproar, and firm chassis, high efficiency lead advantages such as sediment, can effectively solve the problem in the background art.

Technical scheme

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides an use driven high efficiency cold sediment machine of friction, includes outer barrel, the one end of outer barrel is provided with into the sediment case, the other end of outer barrel is provided with out the sediment case, the surface all around of outer barrel is provided with the ring gear, the inside of outer barrel is provided with interior barrel, the inner wall of interior barrel is provided with high-efficient sediment mechanism of leading, the sediment mechanism is led including drive arrangement, high temperature heat exchanger, connecting rod, spiral water conservancy diversion piece to high efficiency, the lower extreme of outer barrel is provided with electric control device, electric control device's lower extreme surface is provided with firm chassis mechanism, firm chassis mechanism includes protection iron stand, fixed branch, buffer layer, first shock absorber post, second shock absorber post, the upper end of firm chassis mechanism is provided with the fixing base, the inside of fixing base is provided with the noise reduction mechanism, the noise reduction mechanism includes muffler, Mounting hole, porous sound absorbing material, honeycomb sound absorbing sponge, the upper end of fixing base is provided with power transmission.

Preferably, the mounting hole is located the upper end of muffler, the honeycomb is inhaled the sound sponge and is located the front end of muffler, porous sound absorbing material is located the inside of muffler.

Preferably, first shock attenuation post and second shock attenuation post all are located one side of protection iron stand, first shock attenuation post is located one side of second shock attenuation post, fixed support rod is located the opposite side of protection iron stand, the buffer layer is located fixed support rod's upper end.

Preferably, the driving device is located at the upper end of the high-temperature heat exchanger, the connecting rod is located at the lower end of the high-temperature heat exchanger, and the spiral flow deflector is located on one side of the connecting rod.

Preferably, be provided with the mounting groove between porous sound absorbing material and the muffler, and one side fixed surface of one side surface of porous sound absorbing material passes through the mounting groove and is connected with one side internal surface of muffler, the honeycomb is inhaled and is provided with the connector between sound sponge and the muffler, and the honeycomb is inhaled one side surface of sound sponge and is passed through the connector and one side fixed surface of muffler and be connected.

Preferably, be provided with the fixed glue between fixed branch and the buffer layer, and the upper end surface of fixed branch passes through the fixed glue and is connected with the lower extreme external surface fixed connection of buffer layer, be provided with the welding iron plate between protection iron stand and the first shock absorber post, and one side external surface fixed connection of one side surface through welding iron plate and first shock absorber post of protection iron stand.

Preferably, a screw is arranged between the driving device and the high-temperature heat exchanger, the outer surface of the lower end of the driving device is fixedly connected with the outer surface of the upper end of the high-temperature heat exchanger through the screw, a welding block is arranged between the connecting rod and the spiral flow deflector, and the outer surface of one side of the connecting rod is fixedly connected with the outer surface of one side of the spiral flow deflector through the welding block.

Advantageous effects

Compared with the prior art, the utility model provides an use cold sediment machine of friction drive's high efficiency possesses following beneficial effect:

1. this use cold sediment machine of friction drive's high efficiency, the mechanism of making an uproar falls through the amortization that sets up, mainly utilize porous sound absorbing material to reduce the noise, fix sound absorbing material on the inner wall of muffler airflow channel or arrange according to certain mode in the pipeline, just constituted resistive silencer, when the sound wave gets into the silencer, some sound energy rubs and converts into the heat energy consumption and dispels in porous sound absorbing material's hole, the sound wave that makes through the silencer weakens, reach a good noise cancelling effect, be convenient for inhale the sound sponge hole with the noise that the motor operation produced through the honeycomb and pass through to the silencer inside and reduce, thereby the amortization noise reduction performance when having improved equipment use greatly, people bring a comfortable service environment for others.

2. This use driven high efficiency cold sediment machine of friction, firm chassis mechanism through setting up, by the protection iron stand, fixed branch, the buffer layer, first shock attenuation post and second shock attenuation post constitute, horizontal align to grid has first shock attenuation post and second shock attenuation post in rectangle protection iron stand, can effectively alleviate cold sediment machine operation and get up the power of trembling that brings, to ground diffusion, possess certain anti-shake ability, all spread thick buffer layer on fixed branch, can carry out effectual buffering resistance to compression to the gravity of barrel, play a fine guard action to its base.

3. This use cold sediment machine of friction drive's high efficiency, lead sediment mechanism through the high efficiency that sets up, by drive arrangement, high temperature heat exchanger, connecting rod and spiral water conservancy diversion piece constitute, a structure is simple, connect closely, it has guaranteed to be connected between spiral water conservancy diversion piece and the axle center and has meshed the zero clearance, in order to reach the accurate transmission, use the reliability height, the operating efficiency has been improved, make its whole firm more, be difficult for impairedly, thereby it is fast to lead to the sediment efficiency that the sediment sectional area is big more, and is efficient, the advantage of high quality, the transmission is steady, and then the productivity ratio of equipment has been improved.

Drawings

Fig. 1 is the overall structure schematic diagram of the high-efficiency slag cooler using friction transmission of the utility model.

Fig. 2 is the utility model relates to an use mechanism's schematic diagram of making an uproar falls in amortization of friction drive's high efficiency cold sediment machine.

Fig. 3 is a schematic view of a stable chassis mechanism of a high-efficiency slag cooler using friction transmission.

Fig. 4 is a schematic view of a high-efficiency slag guiding mechanism of a high-efficiency slag cooler using friction transmission.

In the figure: 1. an outer cylinder; 2. a noise reduction mechanism; 201. a muffler; 202. mounting holes; 203. a porous sound absorbing material; 204. honeycomb sound-absorbing sponge; 3. a chassis stabilizing mechanism; 301. a protective iron frame; 302. fixing the supporting rod; 303. a buffer layer; 304. a first shock-absorbing post; 305. a second shock-absorbing post; 4. a high-efficiency slag guide mechanism; 401. a drive device; 402. a high temperature heat exchanger; 403. a connecting rod; 404. a spiral flow deflector; 5. a fixed seat; 6. an electrical control device; 7. a slag inlet box; 8. an inner cylinder; 9. a ring gear; 10. a power transmission device; 11. and (4) a slag discharging box.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-4, a high-efficiency slag cooler using friction transmission comprises an outer cylinder 1, one end of the outer cylinder 1 is provided with a slag inlet box 7, the other end of the outer cylinder 1 is provided with a slag outlet box 11, the peripheral outer surface of the outer cylinder 1 is provided with a gear ring 9, the inner cylinder 1 is internally provided with an inner cylinder 8, the inner wall of the inner cylinder 8 is provided with a high-efficiency slag guiding mechanism 4, the high-efficiency slag guiding mechanism 4 comprises a driving device 401, a high-temperature heat exchanger 402, a connecting rod 403 and a spiral flow deflector 404, the lower end of the outer cylinder 1 is provided with an electric control device 6, the outer surface of the lower end of the electric control device 6 is provided with a stable underframe mechanism 3, the stable underframe mechanism 3 comprises a protective iron frame 301, a fixed support rod 302, a buffer layer 303, a first shock absorption column 304 and a second shock absorption column 305, the upper end of the stable underframe mechanism 3 is provided with a fixed base 5, the fixed base 5 is internally provided with a noise reduction mechanism 2, the noise reduction mechanism 2 comprises a silencer 201, a mounting hole 202, a porous sound absorption material 203 and a honeycomb sound absorption sponge 204, and the upper end of the fixed seat 5 is provided with a power transmission device 10.

Further, the mounting hole 202 is located the upper end of muffler 201, and the honeycomb is inhaled sound sponge 204 and is located the front end of muffler 201, and porous sound absorbing material 203 is located the inside of muffler 201, reaches a good noise cancelling effect.

Further, first shock strut 304 and second shock strut 305 all are located one side of protection iron stand 301, and first shock strut 304 is located one side of second shock strut 305, and fixed support rod 302 is located the opposite side of protection iron stand 301, and buffer layer 303 is located the upper end of fixed support rod 302, can effectively alleviate cold sediment machine and get up the power of trembling that brings, to ground diffusion, possess certain anti-shake ability.

Further, the driving device 401 is located at the upper end of the high-temperature heat exchanger 402, the connecting rod 403 is located at the lower end of the high-temperature heat exchanger 402, and the spiral flow deflector 404 is located on one side of the connecting rod 403, so that precise transmission is achieved, the use reliability is high, and the operation efficiency is improved.

Further, be provided with the mounting groove between porous sound absorbing material 203 and the muffler 201, and one side fixed surface connection of one side surface of porous sound absorbing material 203 through mounting groove and muffler 201, the honeycomb is inhaled and is provided with the connector between sound sponge 204 and the muffler 201, and the honeycomb is inhaled one side surface fixed connection of sound sponge 204 and one side surface of muffler 201 through the connector, the amortization when having improved equipment use falls the performance of making an uproar, give people and bring a comfortable service environment.

Further, be provided with the fixed glue between fixed branch 302 and the buffer layer 303, and the upper end surface of fixed branch 302 passes through the fixed glue and is connected with the lower extreme external surface fixed connection of buffer layer 303, be provided with the welding iron plate between protection iron stand 301 and the first shock absorber post 304, and one side surface of protection iron stand 301 passes through the welding iron plate and is connected with one side external surface fixed connection of first shock absorber post 304, can carry out effectual buffering resistance to compression to the gravity of barrel, play a fine guard action to its base.

Further, be provided with the screw between drive arrangement 401 and the high temperature heat exchanger 402, and the lower extreme surface of drive arrangement 401 passes through the upper end external surface fixed connection of screw and high temperature heat exchanger 402, be provided with the welding piece between connecting rod 403 and the spiral water conservancy diversion piece 404, and one side external surface fixed connection of one side of connecting rod 403 through welding piece and spiral water conservancy diversion piece 404, thereby it is fast to lead to the big slag discharging efficiency of sediment sectional area, thereby it is efficient to have, the advantage of high quality, the transmission is steady, and then the productivity ratio of equipment has been improved.

Principle of operation

The utility model comprises an outer cylinder 1, a noise reduction mechanism 2, a silencer 201, a mounting hole 202, a porous sound absorption material 203, a honeycomb sound absorption sponge 204, a stable bottom frame mechanism 3, a protective iron frame 301, a fixed support rod 302, a buffer layer 303, a first shock absorption column 304, a second shock absorption column 305, a high-efficiency slag guide mechanism 4, a driving device 401, a high-temperature heat exchanger 402, a connecting rod 403, a spiral flow deflector 404, a fixed seat 5, an electric control device 6, a slag inlet box 7, an inner cylinder 8, a gear ring 9, a power transmission device 10 and a slag outlet box 11. when the utility model is used, the noise reduction mechanism 2 is mainly used for reducing noise by the porous sound absorption material 203, the sound absorption material is fixed on the inner wall of an airflow channel of the silencer or arranged in a pipeline according to a certain mode, a resistive silencer is formed, when sound waves enter the silencer, a part of sound energy is rubbed in the pores of the porous sound absorption material 203 and is converted into heat to be dissipated, the sound wave passing through the silencer 201 is weakened to achieve a good silencing effect, noise generated by the operation of a motor is conveniently transmitted to the interior of the silencer 201 through the honeycomb sound absorption sponge holes to be reduced, so that the silencing and noise reducing performance of equipment in use is greatly improved, a comfortable use environment is brought to people, the shaking power caused by the operation of the slag cooler can be effectively reduced through the arranged stable underframe mechanism 3 which is composed of the protective iron frame 301, the fixed support rod 302, the buffer layer 303, the first shock absorption column 304 and the second shock absorption column 305 are transversely and uniformly arranged in the rectangular protective iron frame 301, the shaking power is diffused to the ground, the rectangular protective iron frame has certain anti-shaking capacity, the thick buffer layer 303 is paved on the fixed support rod 302, the gravity of a cylinder can be effectively buffered and pressed, and a good protection effect is achieved on the base of the rectangular protective iron frame, through the high-efficient slag guiding mechanism 4 that sets up, by drive arrangement 401, high temperature heat exchanger 402, connecting rod 403 and spiral water conservancy diversion piece 404 constitute, its simple structure, it is inseparable to connect, it is gapless to have guaranteed to be connected the meshing between spiral water conservancy diversion piece 404 and the axle center, in order to reach the accurate transmission, use the reliability height, the operating efficiency has been improved, make its whole firmer, be difficult for impairedly, thereby it is fast to lead to the sediment sectional area big more, thereby it is efficient to have, the advantage of high quality, the transmission is steady, and then the productivity ratio of equipment has been improved.

It is noted that, herein, relational terms such as first and second (a, b, etc.) and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides an use cold sediment machine of friction drive's high efficiency, includes outer barrel (1), its characterized in that: the slag tapping device is characterized in that a slag inlet box (7) is arranged at one end of the outer barrel (1), a slag outlet box (11) is arranged at the other end of the outer barrel (1), gear rings (9) are arranged on the peripheral outer surface of the outer barrel (1), an inner barrel (8) is arranged in the outer barrel (1), an efficient slag guiding mechanism (4) is arranged on the inner wall of the inner barrel (8), the efficient slag guiding mechanism (4) comprises a driving device (401), a high-temperature heat exchanger (402), a connecting rod (403) and a spiral flow deflector (404), an electric control device (6) is arranged at the lower end of the outer barrel (1), a stable chassis mechanism (3) is arranged on the outer surface of the lower end of the electric control device (6), the stable chassis mechanism (3) comprises a protective iron frame (301), a fixed supporting rod (302), a buffer layer (303), a first shock absorption column (304) and a second shock absorption column (305), the upper end of firm chassis mechanism (3) is provided with fixing base (5), the inside of fixing base (5) is provided with noise reduction and noise reduction mechanism (2), noise reduction and noise reduction mechanism (2) include muffler (201), mounting hole (202), porous sound absorbing material (203), honeycomb sound absorbing sponge (204), the upper end of fixing base (5) is provided with power transmission device (10).

2. A high efficiency slag cooler using friction drive as claimed in claim 1 wherein: the mounting hole (202) is located the upper end of muffler (201), sound sponge (204) are inhaled to the honeycomb is located the front end of muffler (201), porous sound absorbing material (203) are located the inside of muffler (201).

3. A high efficiency slag cooler using friction drive as claimed in claim 1 wherein: first shock attenuation post (304) and second shock attenuation post (305) all are located one side of protection iron stand (301), first shock attenuation post (304) are located one side of second shock attenuation post (305), fixed support rod (302) are located the opposite side of protection iron stand (301), buffer layer (303) are located the upper end of fixed support rod (302).

4. A high efficiency slag cooler using friction drive as claimed in claim 1 wherein: the driving device (401) is located at the upper end of the high-temperature heat exchanger (402), the connecting rod (403) is located at the lower end of the high-temperature heat exchanger (402), and the spiral flow deflector (404) is located on one side of the connecting rod (403).

5. A high efficiency slag cooler using friction drive as claimed in claim 2 wherein: be provided with the mounting groove between porous sound absorbing material (203) and muffler (201), and one side fixed surface that one side surface of porous sound absorbing material (203) passes through mounting groove and muffler (201) is connected, be provided with the connector between sound sponge (204) and muffler (201) is inhaled to the honeycomb, and the honeycomb is inhaled one side surface fixed connection that one side surface of sound sponge (204) passes through connector and muffler (201).

6. A high efficiency slag cooler using friction drive as claimed in claim 3 wherein: be provided with the fixed glue between fixed stay (302) and buffer layer (303), and the upper end surface of fixed stay (302) is connected through the fixed glue and the lower extreme external surface fixed connection of buffer layer (303), be provided with the welding iron plate between protection iron stand (301) and first shock absorber post (304), and one side surface fixed connection of one side surface through welding iron plate and first shock absorber post (304) of protection iron stand (301).

7. A high efficiency slag cooler using friction drive as claimed in claim 4 wherein: a screw is arranged between the driving device (401) and the high-temperature heat exchanger (402), the outer surface of the lower end of the driving device (401) is fixedly connected with the outer surface of the upper end of the high-temperature heat exchanger (402) through the screw, a welding block is arranged between the connecting rod (403) and the spiral flow deflector (404), and the outer surface of one side of the connecting rod (403) is fixedly connected with the outer surface of one side of the spiral flow deflector (404) through the welding block.

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