CN221086614U - High-efficient sound wave device of clearing house - Google Patents

Abstract

The utility model relates to the technical field of acoustic wave bin cleaning, in particular to a high-efficiency acoustic wave bin cleaning device, which comprises: go up pronunciation dish and lower pronunciation dish, it is equipped with down pronunciation dish to go up pronunciation dish lower extreme, go up pronunciation dish inside and be provided with the deashing structure, it is provided with mounting structure to go up pronunciation dish outside, the deashing structure is including installing the lug, installation lug fixed connection is in lower pronunciation dish upper end, go up the inside recess that supplies the installation lug to place of having seted up of pronunciation dish, be provided with the titanium alloy diaphragm between last pronunciation dish and the installation lug, it is provided with circular bulge loop to edge by the center to go up pronunciation dish, go up pronunciation dish inside and be provided with the mounting groove, mounting groove department is connected with tracheal tube. The high-efficiency sound wave bin cleaning device can clean the inside of the bin body by utilizing sound waves, and the ash cleaning device can be conveniently installed, so that the practicability and convenience of the device are improved.

Description

High-efficient sound wave device of clearing house

Technical Field

The utility model relates to the technical field of acoustic wave bin cleaning, in particular to a high-efficiency acoustic wave bin cleaning device.

Background

The smoke emission produced by industrial enterprises causes serious pollution to the atmosphere, the treatment of the smoke exceeding emission is an important subject of the development of the dust removing technology in China, the dust removal is an important link in the dust removing process, when dust is captured by dust removing equipment to reach a certain thickness, the dust must be removed, and the traditional dust removing mode has a plurality of defects and problems. Therefore, the polar plates and polar lines of the electric dust remover are seriously hung with dust, the front-back pressure difference of the filter bag of the bag-type dust remover is increased, and the dust removing efficiency is seriously affected. The method for removing dust by adopting the sonic dust removing technology solves the dust removing problem of dust removing equipment and is an effective, reliable, safe and economical dust removing method. Compared with the traditional ash removing mode, the method has the advantages of good ash removing effect, small equipment investment, low running cost and no maintenance, is widely applied to the fields of metallurgy, electric power, cement, environmental protection and the like, is used for removing dust by using an electric dust collector, and is used for removing dust by using a cloth bag and a boiler system heat exchanger on site, and can effectively replace the traditional ash removing modes of mechanical vibration, pulse back blowing, steam blowing and the like.

The existing sound wave bin cleaning device generally utilizes the diaphragm with good elasticity of the upper sound disc and the lower sound disc to carry out sound wave ash removal, but the upper sound disc and the lower sound disc are connected and installed through the bolts, so that the sound wave bin cleaning device can be installed conveniently only by using tools when installed, and is complex in operation, the sound wave bin cleaning device is inconvenient to install to a bin body, the practicability of the device is reduced, and therefore the high-efficiency sound wave bin cleaning device is needed to solve the problems.

Disclosure of utility model

The utility model aims to provide a high-efficiency sound wave bin cleaning device, which aims to solve the problems that the existing sound wave bin cleaning device provided in the background technology generally utilizes a diaphragm with good elasticity to carry out sound wave ash cleaning by matching an upper sound producing disc with a lower sound producing disc, but the upper sound producing disc and the lower sound producing disc are installed in a penetrating way through bolts generally when being connected, so that the device can be installed conveniently only by using tools when being installed, the operation is complicated, the sound wave bin cleaning device is inconvenient to install to a bin body, and the practicability of the device is reduced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a high efficiency acoustic wave clearing apparatus comprising: go up pronunciation dish and lower pronunciation dish, go up pronunciation dish lower extreme and be equipped with down pronunciation dish, go up pronunciation dish inside and be provided with the deashing structure, it is provided with mounting structure to go up pronunciation dish outside, the deashing structure is including installing the lug, installation lug fixed connection is being down pronunciation dish upper end, go up the inside recess that supplies the installation lug to place of having seted up of pronunciation dish, be provided with the titanium alloy diaphragm between last pronunciation dish and the installation lug, it is provided with circular bulge loop to edge by the center to go up pronunciation dish, go up pronunciation dish inside and be provided with the mounting groove, mounting groove department is connected with the tracheal tube, tracheal tube keeps away from the one end of mounting groove and is connected to in the cavity that forms between circular bulge loop and the last pronunciation dish, it is provided with the pronunciation hole to go up pronunciation dish middle part, lower pronunciation dish bottom is provided with the sound waveguide, sound waveguide tube lower extreme is equipped with the sound expansion tube.

Preferably, the outer wall of the lower sounding disc is fixedly connected with a mounting ring, and a mounting bolt is arranged inside the mounting ring.

Preferably, the upper end of the sound amplifying cylinder is fixedly connected with a connecting pipe, and the connecting pipe is connected to the inside of the sound waveguide pipe through threads.

Preferably, the mounting groove is connected with the high-pressure pipeline connecting part through threads.

Preferably, the installation structure comprises an installation rod, the installation rod is fixedly connected with the bottom end of the upper sounding disc, the installation rod is inserted into the lower sounding disc, an inserting rod is inserted into the installation rod, the side wall of the inserting rod is fixedly connected with a pull rod, one end of the inserting rod, far away from the installation rod, is inserted into an inserting cavity, and the inserting cavity is formed in the lower sounding disc.

Preferably, the one end fixedly connected with spring of installation pole is kept away from to the inserted bar, the one end fixedly connected with at the inner wall of inserting the chamber of inserted bar is kept away from to the spring.

Preferably, the side wall of the inserting rod is fixedly connected with a sliding block, the sliding block is inserted into a sliding groove, and the sliding groove is formed in the lower sounding disc.

Compared with the prior art, the utility model has the beneficial effects that:

1. This high-efficient sound wave clearance storehouse device is provided with the deashing structure, utilize pneumatic control system to pour into the mounting groove department with high-pressure air from high-pressure pipeline, make it get into the cavity that sound disc and circular bulge loop formed through the tracheal tube, form high-pressure cavity, make titanium alloy diaphragm crooked, high-pressure gas gets into inside the sound hole afterwards, discharge high-pressure gas, the titanium alloy diaphragm is rebound under self elasticity effect and is shutoff sound hole once more, when high-pressure gas is gone into again, thereby the process is repeatedly carried out and is produced the sound wave, the sound wave expands in getting into the sound expansion section of thick bamboo by the sound waveguide, available sound wave carries out the deashing operation, through this design, realize this high-efficient sound wave clearance storehouse device available sound wave and carry out the deashing to the storehouse body inside, and this deashing device can be conveniently installed, the practicality and the convenience of device have been improved.

2. This high-efficient sound wave clearance device is provided with mounting structure, when last pronunciation dish and lower pronunciation dish assembly, the pulling pull rod drives the inserted bar and removes to the direction of keeping away from the installation pole, install the pronunciation dish to lower pronunciation dish upper end with last pronunciation dish, the installation pole inserts down inside the pronunciation dish simultaneously, the spring is in the compression state of holding up the power this moment, loosen the pull rod, utilize the elasticity of spring can drive the inserted bar automatically and get into inside the installation pole, accomplish convenient installation, through this design, go up pronunciation dish and lower pronunciation dish can convenient installation in realizing this high-efficient sound wave clearance device, avoid current utilization bolted connection, lead to utilizing the instrument to just can convenient installation, make the operation simpler, the environmental protection effect of device has been improved.

Drawings

FIG. 1 is a schematic elevational cross-sectional view of the structure of the present utility model;

FIG. 2 is a schematic side view in cross-section of a partial structure of the present utility model;

FIG. 3 is an enlarged schematic view of the structure A in FIG. 1 according to the present utility model;

Fig. 4 is an enlarged schematic view of the structure at B in fig. 2 according to the present utility model.

In the figure: 111. an upper sounding disc; 112. a lower sound producing disc; 2. an ash removal structure; 211. mounting the protruding blocks; 212. a titanium alloy diaphragm; 213. a mounting groove; 214. an air pipe; 215. a circular convex ring; 216. a sound producing hole; 217. an acoustic waveguide; 218. a sound amplifying cylinder; 219. a mounting ring; 220. installing a bolt; 221. a connecting pipe; 3. a mounting structure; 311. a mounting rod; 312. a rod; 313. a pull rod; 314. inserting a cavity; 315. a spring; 316. a slide block; 317. and a sliding groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, an embodiment of the present utility model is provided:

A high efficiency acoustic wave clearing apparatus comprising: the sound tube type titanium alloy acoustic wave filter comprises an upper sound disc 111 and a lower sound disc 112, wherein the lower end of the upper sound disc 111 is provided with the lower sound disc 112, the inside of the upper sound disc 111 is provided with a dust removing structure 2, the outside of the upper sound disc 111 is provided with a mounting structure 3, the dust removing structure 2 comprises a mounting lug 211, the mounting lug 211 is fixedly connected to the upper end of the lower sound disc 112, a groove for the mounting lug 211 to be placed is formed in the inside of the upper sound disc 111, a titanium alloy diaphragm 212 is arranged between the upper sound disc 111 and the mounting lug 211, the upper sound disc 111 is provided with a circular convex ring 215 from the center to the edge, a mounting groove 213 is formed in the inside of the upper sound disc 111, an air tube 214 is connected to the mounting groove 213, one end, away from the mounting groove 213, of the air tube 214 is connected to a cavity formed between the circular convex ring 215 and the upper sound disc 111, a sound tube 216 is formed in the middle of the upper sound tube 111, the bottom end of the lower sound tube 112 is provided with an acoustic wave guide 217, and the lower sound tube 217 is provided with a sound expansion tube 218.

Further, the outer wall of the lower sounding disc 112 is fixedly connected with a mounting ring 219, a mounting bolt 220 is mounted in the mounting ring 219, when the ash removal device is mounted, the ash removal device stretches out from the inside of the bin body to the outside, the mounting ring 219 and the bin body are mounted, the mounting ring 219 is fixed by the mounting bolt 220, and the ash removal device can be mounted conveniently.

Further, the upper end of the sound amplifying tube 218 is fixedly connected with a connecting tube 221, the connecting tube 221 is connected to the inside of the sound waveguide 217 through threads, and through the design, the connecting tube 221 is connected to the inside of the sound waveguide 217 through threads, so that the connecting tube 221 and the sound waveguide 217 can be conveniently and quickly connected.

Further, the mounting groove 213 has a high-pressure pipe connection portion through threaded connection, and through this design, the mounting groove 213 has a high-pressure pipe connection portion through threaded connection, can be with the convenient erection joint of outside high-pressure gas pipe.

Further, mounting structure 3 includes installation pole 311, installation pole 311 fixed connection is in pronunciation dish 111 bottom down, installation pole 311 inserts and establishes in pronunciation dish 112 inside down, installation pole 311 is inside to be inserted and is equipped with inserted bar 312, inserted bar 312 lateral wall fixedly connected with pull rod 313, inserted bar 312 is kept away from the one end of installation pole 311 and is inserted and establish in inserting cavity 314 inside, inserting cavity 314 is seted up in pronunciation dish 112 inside down, through this design, when pronunciation dish 111 and pronunciation dish 112 are assembled down, pull rod 313, drive inserted bar 312 and remove to the direction of keeping away from installation pole 311, install pronunciation dish 111 to pronunciation dish 112 upper end down, installation pole 311 inserts pronunciation dish 112 inside down simultaneously, insert into installation pole 311 inside again, can convenient installation.

Further, the one end fixedly connected with spring 315 of peg graft 312 keeping away from installation pole 311, the one end fixedly connected with at the inner wall of inserting cavity 314 of peg graft 315 keeping away from peg graft 312, through this design, when last pronunciation dish 111 and lower pronunciation dish 112 are assembled, pulling pull rod 313, drive peg graft 312 and move to the direction of keeping away from installation pole 311, install pronunciation dish 111 under to pronunciation dish 112 upper end, installation pole 311 inserts inside pronunciation dish 112 down, spring 315 is in the compression state of holding at this moment, loosen pull rod 313, utilize the elasticity of spring 315 can drive peg graft 312 automatically and get into inside installation pole 311, accomplish convenient installation.

Further, the side wall of the inserting rod 312 is fixedly connected with a sliding block 316, the sliding block 316 is inserted into the sliding groove 317, the sliding groove 317 is formed in the lower sounding disc 112, through the design, when the inserting rod 312 moves, the sliding block 316 synchronously moves in the sliding groove 317, so that the limiting effect on the inserting rod 312 is realized, and the movement of the inserting rod is more stable.

Working principle:

High-pressure air is injected into the mounting groove 213 from the high-pressure pipeline by utilizing the pneumatic control system, the high-pressure air enters a cavity formed by the upper sounding disc 111 and the circular convex ring 215 through the air pipe pipeline 214 to form a high-pressure cavity, the titanium alloy diaphragm 212 is bent, then the high-pressure air enters the sounding hole 216, the high-pressure air is discharged, the titanium alloy diaphragm 212 rebounds under the action of self elasticity to block the sounding hole 216 again, when the high-pressure air is flushed again, the titanium alloy diaphragm 212 deforms and bends again, the process is repeatedly performed to generate sound waves, the sound waves enter the sounding tube 218 from the sound waveguide tube 217 to expand, and the dust removing operation can be performed by utilizing the sound waves.

When the upper sounding disc 111 is assembled with the lower sounding disc 112, the pull rod 313 is pulled to drive the inserting rod 312 to move in a direction away from the mounting rod 311, the upper sounding disc 111 is mounted on the upper end of the lower sounding disc 112, meanwhile, the mounting rod 311 is inserted into the lower sounding disc 112, the spring 315 is in a compressed force storage state, the pull rod 313 is loosened, the inserting rod 312 can be automatically driven to enter the mounting rod 311 by the elasticity of the spring 315, and convenient mounting is completed, so that the operation is finished.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model in any way; those skilled in the art can smoothly practice the utility model as shown in the drawings and described above; however, those skilled in the art will appreciate that many modifications, adaptations, and variations of the present utility model are possible in light of the above teachings, without departing from the scope of the utility model; meanwhile, any equivalent changes, modifications and evolution of the above embodiments according to the essential technology of the present utility model still fall within the scope of the present utility model.

Claims (7)

1. A high efficiency acoustic wave clearing apparatus comprising: an upper sounding disc (111) and a lower sounding disc (112), wherein the lower end of the upper sounding disc (111) is provided with the lower sounding disc (112), and the device is characterized in that: the inside ash removal structure (2) that is provided with of last pronunciation dish (111), it is provided with mounting structure (3) to go up pronunciation dish (111) outside, ash removal structure (2) are including installation lug (211), installation lug (211) fixed connection is in pronunciation dish (112) upper end down, go up the inside recess that supplies installation lug (211) to place of having seted up of pronunciation dish (111), be provided with titanium alloy diaphragm (212) between last pronunciation dish (111) and installation lug (211), go up pronunciation dish (111) and be provided with circular bulge loop (215) by center to edge, go up pronunciation dish (111) inside mounting groove (213) that are provided with, mounting groove (213) department is connected with tracheal tube (214), tracheal tube (214) are kept away from in the cavity that forms between mounting groove (213) one end is connected to circular bulge loop (215) and last pronunciation dish (111), it is provided with pronunciation hole (216) to go up pronunciation dish (111) middle part, lower dish (112) bottom is provided with sound waveguide (217), sound tube (218) are equipped with sound waveguide tube (218).

2. A high efficiency acoustic wave clearing apparatus according to claim 1, characterized in that: the outer wall of the lower sounding disc (112) is fixedly connected with a mounting ring (219), and mounting bolts (220) are mounted in the mounting ring (219).

3. A high efficiency acoustic wave clearing apparatus according to claim 1, characterized in that: the upper end of the sound amplifying cylinder (218) is fixedly connected with a connecting pipe (221), and the connecting pipe (221) is connected to the inside of the sound waveguide pipe (217) through threads.

4. A high efficiency acoustic wave clearing apparatus according to claim 1, characterized in that: the mounting groove (213) is connected with a high-pressure pipeline connecting part through threads.

5. A high efficiency acoustic wave clearing apparatus according to claim 1, characterized in that: the utility model provides a sound producing device, including installation structure (3), installation structure (3) are including installation pole (311), installation pole (311) fixed connection is in pronunciation dish (111) bottom, installation pole (311) are inserted and are established inside pronunciation dish (112) down, installation pole (311) are inside to be inserted and are equipped with inserted bar (312), inserted bar (312) lateral wall fixedly connected with pull rod (313), one end that installation pole (311) was kept away from to inserted bar (312) is inserted and is established inside inserting chamber (314), insert chamber (314) are seted up inside pronunciation dish (112) down.

6. A high efficiency acoustic wave cleaning apparatus as defined in claim 5, wherein: the one end fixedly connected with spring (315) that inserted bar (312) kept away from installation pole (311), the one end fixedly connected with at inserted cavity (314) inner wall that inserted bar (312) was kept away from to spring (315).

7. A high efficiency acoustic wave cleaning apparatus as defined in claim 5, wherein: the side wall of the inserting rod (312) is fixedly connected with a sliding block (316), the sliding block (316) is inserted into a sliding groove (317), and the sliding groove (317) is formed in the lower sounding disc (112).