CN218743018U - Ultrasonic transducer shell - Google Patents

Abstract

The utility model is suitable for an ultrasonic transducer shell technical field provides an ultrasonic transducer shell, including epitheca, inferior valve and ultrasonic transducer, the inferior valve is installed to the below of epitheca, install the helicitic texture between epitheca and the inferior valve, the inside of epitheca and inferior valve is equipped with ultrasonic transducer, the telescoping device is installed in ultrasonic transducer's the outside, the below of telescoping device is installed in the bottom of inferior valve, the top of telescoping device is installed at the epitheca inner wall, the telescoping device includes first bearing, damping spring bumper shock absorber and rotating device, the first bearing is installed to the bottom of inferior valve; the utility model provides the stability of ultrasonic transducer in the shell inside is improved, and damping spring bumper shock absorber can appear rocking and the impact force that produces to ultrasonic transducer in the shell absorbs, protects ultrasonic transducer safety in the casing to ultrasonic transducer's life has been improved.

Description

Ultrasonic transducer shell

Technical Field

The utility model belongs to the technical field of ultrasonic transducer shell, especially, relate to an ultrasonic transducer shell.

Background

Most of the existing ultrasonic transducer housings mount the ultrasonic transducer inside the housing.

When an ultrasonic transducer is arranged in an existing ultrasonic transducer shell, if impact force generated by shaking of the inside of the shell affects the safety of the ultrasonic transducer in the shell, the service life of the ultrasonic transducer is also shortened, and technical innovation is conducted on the basis of existing incineration treatment equipment aiming at the situation, so that an ultrasonic transducer shell is provided.

SUMMERY OF THE UTILITY MODEL

The utility model provides an ultrasonic transducer shell aims at solving the security of ultrasonic transducer in the casing, reduces ultrasonic transducer's life's problem.

The utility model discloses a realize like this, an ultrasonic transducer shell, including epitheca, inferior valve and ultrasonic transducer, the inferior valve is installed to the below of epitheca, install the helicitic texture between epitheca and the inferior valve, the inside of epitheca and inferior valve is equipped with ultrasonic transducer, the telescoping device is installed in ultrasonic transducer's the outside, the below of telescoping device is installed in the bottom of inferior valve, the top of telescoping device is installed at the epitheca inner wall;

the telescopic device comprises a first bearing, damping spring shock absorbers and a rotating device, wherein the first bearing is installed at the bottom of the lower shell, a fixed plate is installed above the first bearing, a plurality of damping spring shock absorbers are installed above the fixed plate, a connecting block is installed above the damping spring shock absorbers, a first rotating plate is installed above the connecting block, a first rubber block is installed outside the first rotating plate, sliding plates are installed on two sides of the first rotating plate, and the telescopic device further comprises a first bearing, a damping spring shock absorber and a rotating device. The lower part of the upper shell is arranged in the sliding groove, the sliding groove is arranged in the fixed column, the lower part of the fixed column is connected with the fixed plate, and the inner wall of the upper shell is provided with the rotating device.

Preferably, the rotating device and the telescopic device are correspondingly arranged, the rotating device and the ultrasonic transducer are tightly attached, the telescopic device and the ultrasonic transducer are tightly attached, and the upper shell and the lower shell are tightly attached.

Preferably, the fixed plate and the lower shell form a rotating structure through a first bearing, the damping spring shock absorber and the fixed plate are fixedly connected, the damping spring shock absorber and the first rotating plate form a fixed connection through a connecting block, and the first rotating plate and the first rubber block are tightly attached to each other.

Preferably, the sliding plate is in sliding connection with the sliding groove, and the sliding groove is in sliding connection with the fixed column.

Preferably, rotating device includes second bearing, fixed block and second rotor plate, the second bearing is installed to the inner wall of epitheca, the fixed block is installed to the below of second bearing, the second rotor plate is installed to the below of fixed block, the second block rubber is installed to the outer wall of second rotor plate.

Preferably, the fixed block passes through the second bearing and constitutes revolution mechanic with the epitheca, be fixed connection between fixed block and the second rotating plate, for closely laminating setting between second rotating plate and the second block rubber.

Preferably, the thread structure includes a thread groove and a thread post, the thread groove is arranged below the inside of the upper shell, the thread post is arranged on the inner side of the thread groove, and the upper part of the lower shell is arranged below the thread post.

Preferably, the upper shell and the thread groove are integrally arranged, the lower shell and the thread column are integrally arranged, and the thread groove is in threaded connection with the thread column.

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

through setting up first bearing, damping spring shock absorber and rotating device, the user puts the top of first rotation board with ultrasonic transducer, place the top at the inferior valve again with the epitheca, make rotating device and ultrasonic transducer's top contact, it drives the helicitic texture and rotates to rotate the epitheca, it rotates with the first rotation board in ultrasonic transducer below to drive ultrasonic transducer top rotating device simultaneously, first rotation board drives damping spring shock absorber and rotates, damping spring shock absorber drives the fixed plate and rotates in the top of first bearing, be convenient for install the inside at the shell with ultrasonic transducer, and in the installation ultrasonic transducer, utilize damping spring shock absorber's effect, it slides in the inside of spout to drive the slide, extrude the inferior valve fixedly, improve ultrasonic transducer inside the shell stability, and damping spring shock absorber can appear rocking and absorbing the impact force that produces in the shell to ultrasonic transducer, protect ultrasonic transducer's safety in the casing, thereby ultrasonic transducer's life has been improved.

Drawings

FIG. 1 is a schematic view of a cross-sectional structure of the present invention in a front view;

FIG. 2 is a schematic view of the front cross-sectional structure of the thread structure of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

in the figure: 1-upper shell, 2-lower shell, 3-ultrasonic transducer, 4-thread structure, 5-telescopic device, 6-rotating device, 401-thread groove, 402-thread column, 501-first bearing, 502-damping spring shock absorber, 503-connecting block, 504-first rotating plate, 505-first rubber block, 506-fixing column, 507-sliding groove, 508-sliding plate, 601-second bearing, 602-fixing block, 603-second rotating plate and 604-second rubber block.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-3, the present invention provides a technical solution for an ultrasonic transducer housing: an ultrasonic transducer shell comprises an upper shell 1, a lower shell 2 and an ultrasonic transducer 3, wherein the lower shell 2 is installed below the upper shell 1, a thread structure 4 is installed between the upper shell 1 and the lower shell 2, the ultrasonic transducer 3 is arranged inside the upper shell 1 and the lower shell 2, a telescopic device 5 is installed on the outer side of the ultrasonic transducer 3, the lower part of the telescopic device 5 is installed at the bottom of the lower shell 2, and the upper part of the telescopic device 5 is installed on the inner wall of the upper shell 1;

the telescopic device 5 comprises a first bearing 501, damping spring shock absorbers 502 and a rotating device 6, a fixed plate is mounted above the first bearing 501 of the first bearing 501 mounted at the bottom of the lower shell 2, a plurality of damping spring shock absorbers 502 are mounted above the fixed plate, a connecting block 503 is mounted above the damping spring shock absorbers 502, a first rotating plate 504 is mounted above the connecting block 503, a first rubber block 505 is mounted on the outer side of the first rotating plate 504, and sliding plates 508 are mounted on two sides of the first rotating plate 504. Is installed in the inside of spout 507, and the inside at fixed column 506 is installed to spout 507, and the below of fixed column 506 is connected with the fixed plate, and rotating device 6 is installed to the inner wall of epitheca 1.

When the ultrasonic transducer is used, a user places the ultrasonic transducer 3 above the first rotating plate 504, then places the upper shell 1 above the lower shell 2, so that the rotating device 6 is in contact with the upper side of the ultrasonic transducer 3, the upper shell 1 is rotated to drive the threaded structure 4 to rotate, meanwhile, the rotating device 6 above the ultrasonic transducer 3 is driven to rotate, the first rotating plate 504 below the ultrasonic transducer 3 rotates, the first rotating plate 504 drives the damping spring shock absorbers 502 to rotate, the damping spring shock absorbers 502 drive the fixing plate to rotate above the first bearings 501, the ultrasonic transducer 3 is convenient to install inside the shell, and when the ultrasonic transducer 3 is installed, the sliding plate 508 is driven to slide inside the sliding grooves 507 under the action of the damping spring shock absorbers 502 to extrude and fix the lower shell 2, the stability of the ultrasonic transducer 3 inside the shell is improved, the damping spring shock absorbers 502 can absorb impact force generated by the ultrasonic transducer 3 shaking in the shell, the safety of the ultrasonic transducer in the shell is protected, and the service life of the ultrasonic transducer 3 is prolonged.

The rotating device 6 and the telescopic device 5 are correspondingly arranged, the rotating device 6 and the ultrasonic transducer 3 are tightly attached, the telescopic device 5 and the ultrasonic transducer 3 are tightly attached, and the upper shell 1 and the lower shell 2 are tightly attached.

The fixed plate and the lower shell 2 form a rotating structure through the first bearing 501, the damping spring shock absorber 502 and the fixed plate are fixedly connected, the damping spring shock absorber 502 and the first rotating plate 504 form a fixed connection through the connecting block 503, and the first rotating plate 504 and the first rubber block 505 are tightly attached to each other.

Sliding connection is adopted between the sliding plate 508 and the sliding groove 507, and sliding connection is adopted between the sliding groove 507 and the fixed column 506.

The rotating device 6 comprises a second bearing 601, a fixed block 602 and a second rotating plate 603, the second bearing 601 is mounted on the inner wall of the upper shell 1, the fixed block 602 is mounted below the second bearing 601, the second rotating plate 603 is mounted below the fixed block 602, and a second rubber block 604 is mounted on the outer wall of the second rotating plate 603.

Drive ultrasonic transducer 3 top second rotating plate 603 and rotate and ultrasonic transducer 3 below telescoping device 5 rotates, and second rotating plate 603 drives fixed block 602 and rotates in the inside of second bearing 601, and the ultrasonic transducer 3 of being convenient for is installed in the inside of shell, utilizes second rubber block 604 and first rubber block 505 simultaneously, can protect ultrasonic transducer 3's the outside, prevents that ultrasonic transducer 3's outer wall from having wearing and tearing.

The fixed block 602 and the upper case 1 form a rotating structure through the second bearing 601, the fixed block 602 and the second rotating plate 603 are fixedly connected, and the second rotating plate 603 and the second rubber block 604 are tightly attached to each other.

The thread structure 4 includes a thread groove 401 and a thread post 402, the thread groove 401 is provided below the inside of the upper case 1, the thread post 402 is provided inside the thread groove 401, and the lower side of the thread post 402 is installed above the lower case 2.

The upper shell 1 and the thread groove 401 are integrally arranged, the lower shell 2 and the thread column 402 are integrally arranged, and the thread groove 401 and the thread column 402 are in threaded connection.

During the installation, the user places epitheca 1 in the top of inferior valve 2, and epitheca 1 drives thread groove 401 and rotates in the outside of spiral shell screw post 402, and the installation is simple, is convenient for install epitheca 1 and inferior valve 2, saves ultrasonic transducer 3 and installs the time in the shell inside.

The working principle is as follows:

firstly, a user places the ultrasonic transducer 3 above the telescopic device 5, then places the upper shell 1 above the lower shell 2, so that the rotating device 6 is in contact with the upper part of the ultrasonic transducer 3, and then rotates the upper shell 1 to drive the threaded structure 4 to rotate, so that the upper shell 1 and the lower shell 2 are fixed, and the effect of the telescopic device 5 is utilized to have a shockproof effect on the ultrasonic transducer 3.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. An ultrasonic transducer housing comprising an upper shell (1), a lower shell (2) and an ultrasonic transducer (3), characterized in that: a lower shell (2) is installed below the upper shell (1), a thread structure (4) is installed between the upper shell (1) and the lower shell (2), an ultrasonic transducer (3) is arranged inside the upper shell (1) and the lower shell (2), a telescopic device (5) is installed on the outer side of the ultrasonic transducer (3), the lower portion of the telescopic device (5) is installed at the bottom of the lower shell (2), and the upper portion of the telescopic device (5) is installed on the inner wall of the upper shell (1);

the telescopic device (5) comprises a first bearing (501), a damping spring shock absorber (502) and a rotating device (6), wherein the first bearing (501) is installed at the bottom of the lower shell (2), a fixed plate is installed above the first bearing (501), a plurality of damping spring shock absorbers (502) are installed above the fixed plate, a connecting block (503) is installed above the damping spring shock absorbers (502), a first rotating plate (504) is installed above the connecting block (503), a first rubber block (505) is installed on the outer side of the first rotating plate (504), sliding plates (508) are installed on two sides of the first rotating plate (504), sliding plates (508) are installed below the sliding plates (508) in a sliding groove (507), the sliding groove (507) is installed in a fixed column (506), the lower side of the fixed column (506) is connected with the fixed plate, and the rotating device (6) is installed on the inner wall of the upper shell (1).

2. An ultrasonic transducer housing as defined in claim 1, wherein: the ultrasonic transducer is characterized in that the rotating device (6) and the telescopic device (5) are correspondingly arranged, the rotating device (6) and the ultrasonic transducer (3) are tightly attached, the telescopic device (5) and the ultrasonic transducer (3) are tightly attached, and the upper shell (1) and the lower shell (2) are tightly attached.

3. An ultrasonic transducer housing as defined in claim 2 wherein: the fixed plate and the lower shell (2) form a rotating structure through a first bearing (501), the damping spring shock absorber (502) is fixedly connected with the fixed plate, the damping spring shock absorber (502) forms fixed connection with the first rotating plate (504) through a connecting block (503), and the first rotating plate (504) and the first rubber block (505) are tightly attached to each other.

4. An ultrasonic transducer housing as defined in claim 1, wherein: the sliding plate (508) is in sliding connection with the sliding groove (507), and the sliding groove (507) is in sliding connection with the fixing column (506).

5. An ultrasonic transducer housing as defined in claim 2 wherein: rotating device (6) include second bearing (601), fixed block (602) and second rotating plate (603), second bearing (601) is installed to the inner wall of epitheca (1), fixed block (602) is installed to the below of second bearing (601), second rotating plate (603) is installed to the below of fixed block (602), second rubber block (604) are installed to the outer wall of second rotating plate (603).

6. An ultrasonic transducer housing as defined in claim 5 wherein: fixed block (602) constitute revolution mechanic through second bearing (601) and epitheca (1), be fixed connection between fixed block (602) and second rotating plate (603), for the setting of closely laminating between second rotating plate (603) and second rubber block (604).

7. An ultrasonic transducer housing as defined in claim 1, wherein: the thread structure (4) comprises a thread groove (401) and a thread column (402), the thread groove (401) is arranged below the inside of the upper shell (1), the thread column (402) is arranged on the inner side of the thread groove (401), and the lower part of the thread column (402) is arranged above the lower shell (2).

8. An ultrasonic transducer housing as defined in claim 7 wherein: the upper shell (1) and the thread groove (401) are integrally arranged, the lower shell (2) and the thread column (402) are integrally arranged, and the thread groove (401) is in threaded connection with the thread column (402).

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