CN110404880B

CN110404880B - Easy-to-detach ultrasonic vibrator

Info

Publication number: CN110404880B
Application number: CN201910776552.4A
Authority: CN
Inventors: 邱瑞权
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-08-22
Filing date: 2019-08-22
Publication date: 2024-09-20
Anticipated expiration: 2039-08-22
Also published as: CN110404880A

Abstract

The invention belongs to the field of electric energy utilization, and provides an easy-to-detach ultrasonic vibrator which comprises a vibrator mounting seat arranged on the wall of a cleaning container, wherein the vibrator mounting seat is detachably connected with a vibrator fixing seat; a vibrator mechanism is arranged at the center of the upper part of the vibrator fixing seat, and sequentially comprises a vibrator upper clamp iron, a piezoelectric ceramic body and a vibrator lower clamp iron which are fixed by a center screw from top to bottom, wherein the vibrator upper clamp iron is used as a vibrator radiation surface of the piezoelectric ceramic body; the upper clamp iron of the vibrator is fixed with the vibrator fixing seat through a third fixing screw; the vibrator fixing seat is connected with a vibrator barrel wall internally containing ultrasonic components through threads, the piezoelectric ceramic body and a lower iron clamp of the vibrator extend into the vibrator barrel wall, a conductive ring is arranged at the lower part of the side wall of the vibrator barrel wall, a plurality of groups of elastic power transmission electrodes are arranged at the lower part of the vibrator mounting seat, and the conductive ring is used for transmitting power into the vibrator barrel wall; and a spanner claw hole is also arranged on the third fixed screw.

Description

Easy-to-detach ultrasonic vibrator

Technical Field

The invention belongs to the field of electric energy utilization, and particularly relates to an easy-to-detach ultrasonic vibrator.

Background

The ultrasonic piezoelectric ceramic vibrator has obvious irreplaceable advantages in the fields of atomization, cleaning and the like, and the application of the ultrasonic piezoelectric ceramic vibrator is wider and wider. The existing working modes of the ultrasonic piezoelectric ceramic vibrator are two types: one mode is an independent sealing waterproof piezoelectric ceramic vibrator head, which is put into water when in use, and can be cleaned by switching on a power supply, and belongs to a portable cleaning tool. The second mode is to mount an ultrasonic piezoelectric ceramic vibrator on the container wall, wherein the vibrator radiation surface is fixed on the inner wall of the container facing the working medium in the container, and the vibrator fixing nut is fixed on the back surface of the container wall. The mode is commonly used in a fixed ultrasonic cleaning device, the vibrator is damaged, the shell is opened, the vibrator can be detached and installed in the shell, corresponding wires are welded, and a general consumer cannot be used for installing and detaching the piezoelectric ceramic vibrator.

The electrical appliance with the ultrasonic piezoelectric ceramic vibrator is gradually increased today due to the super-strong cleaning effect, the ultrasonic piezoelectric ceramic body is an electronic component which is easy to damage, the electrical appliance with the ultrasonic cleaning piezoelectric ceramic vibrator is damaged in many cases, and only the piezoelectric ceramic body is damaged and other parts are intact, so that the disassembly and the installation of the piezoelectric ceramic vibrator are very important in the use process of the electrical appliance.

In view of the inability of common consumers to mount and dismount the piezoelectric ceramic vibrator, it is necessary to invent an ultrasonic piezoelectric ceramic vibrator which is easy to mount and dismount, so that the common consumers can mount and dismount the piezoelectric ceramic vibrator, the service life of the electric appliance can be prolonged, the waste is reduced, and the after-sale work of the electric appliance is simplified and feasible.

Disclosure of Invention

The easy-to-detach ultrasonic vibrator solves the problem that the ultrasonic vibrator is difficult to detach in an electric appliance in the prior art.

The basic scheme of the invention is as follows: the easy-to-detach ultrasonic vibrator comprises a vibrator mounting seat which is arranged on the wall of the cleaning container and is detachably connected with a vibrator fixing seat;

The upper center of the oscillator fixing seat is provided with an oscillator mechanism, the oscillator mechanism sequentially comprises an oscillator upper clamp iron, a piezoelectric ceramic body and an oscillator lower clamp iron from top to bottom, and the oscillator upper clamp iron is used as an oscillator radiation surface of the piezoelectric ceramic body; the upper oscillator clamp iron, the piezoelectric ceramic body and the lower oscillator clamp iron are fixed by a central screw, and the upper oscillator clamp iron is fixed with the oscillator fixing seat by a third fixing screw; the vibrator fixing seat is connected with a vibrator barrel wall internally containing ultrasonic components through threads, the piezoelectric ceramic body and a vibrator lower clamp iron extend into the vibrator barrel wall, a conductive ring is arranged at the lower part of the side wall of the vibrator barrel wall, a plurality of groups of elastic power transmission electrodes are arranged at the lower part of the vibrator mounting seat, and the conductive ring is used for transmitting power into the vibrator barrel wall; and a spanner claw hole is further formed in the third fixed screw.

The basic scheme has the following principle and beneficial effects: the vibrator mount pad is fixed on wasing the appearance wall, and the internal thread of vibrator mount pad agrees with the external screw thread of vibrator fixing base, consequently is detachable between vibrator fixing base and the vibrator mount pad. The upper oscillator clamp iron is kept in connection with the oscillator fixing seat through a third fixing screw, and the upper oscillator clamp iron, the piezoelectric ceramic body and the lower oscillator clamp iron are fixed through central screws, so that the upper oscillator clamp iron, the piezoelectric ceramic body and the lower oscillator clamp iron are detachable. The oscillator barrel wall and the oscillator fixing seat are detachably connected, so the oscillator barrel wall is also detachable. Therefore, the scheme is that the whole easily-detachable ultrasonic vibrator can be detached. In addition, the third fixing screw is a ring hollow screw, and the upper clamp iron of the vibrator is entirely positioned at the hollow part of the ring hollow screw.

When the ultrasonic piezoelectric ceramic vibrator of the electric appliance fails, a corresponding spanner can be inserted into a spanner claw hole on the third fixed screw, then the spanner is rotated, and the third fixed screw, the upper vibrator clamp iron, the piezoelectric ceramic body, the lower vibrator clamp iron, the vibrator fixing seat, the vibrator barrel wall and the like are dismounted from the vibrator mounting seat, so that the old ultrasonic vibrator is dismounted. And then a new sound ultrasonic vibrator is taken out and mounted on the vibrator mounting seat, wherein the sound ultrasonic vibrator comprises a third fixing screw, an upper vibrator clamp iron, a piezoelectric ceramic body, a lower vibrator clamp iron, a vibrator fixing seat and a vibrator barrel wall. Along with the insertion of the new ultrasonic vibrator, the conducting ring on the new ultrasonic vibrator is gradually contacted with the elastic electrode on the vibrator mounting seat, so that the ultrasonic components in the vibrator cylinder wall can work normally.

Further, sealing shock pads are arranged on the upper and lower connection surfaces between the upper oscillator clamp iron and the piezoelectric ceramic body, and sealing shock pads are also arranged on the upper and lower connection surfaces between the lower oscillator clamp iron.

In this scheme, through sealed shock pad, carry out the shock attenuation to the effort between clamp iron, piezoceramics body and the oscillator clamp body down on the oscillator, effectively protect clamp iron, piezoceramics body and oscillator clamp body's normal work shape down on the oscillator, avoid warping.

Further, the outer surface of the piezoelectric ceramic body is provided with a waterproof groove and a waterproof cover matched with the waterproof groove.

Further, the bottom of the oscillator barrel wall is funnel-shaped, the bottom of the oscillator barrel wall is surrounded to form a drainage heat dissipation hole, and the oscillator barrel wall is conductive.

In the scheme, the funnel-shaped design is beneficial to heat dissipation and drainage of the ultrasonic components in the wall of the vibrator barrel; meanwhile, the elastic electrode transmits electric energy to the oscillator barrel wall through the conducting ring and then is supplied to an ultrasonic component electrically connected with the oscillator barrel wall, so that the ultrasonic oscillator can work normally.

Further, the radiating surface of the upper clamp iron of the vibrator is an arc-shaped radiating surface.

Further, the radiating surface of the upper clamp iron of the vibrator is a plane.

Further, the bottom of the upper clamp iron of the vibrator is welded with a center screw.

Further, a sleeve hole is formed in the center of the radiating surface of the upper clamp iron of the vibrator and used for installing and dismantling the vibrator body.

Further, the edge of the radiating surface of the upper clamp iron of the vibrator is provided with a disassembly edge for assembling and disassembling the vibrator body.

Further, the bottom of the oscillator barrel wall is connected with the conducting ring through a fixed rivet, the bottom of the oscillator mounting seat is closed, and the bottom wall of the oscillator mounting seat is connected with the elastic power transmission electrode through the fixed rivet.

Drawings

Fig. 1 is a schematic structural view of a first embodiment of a detachable ultrasonic transducer according to the present invention;

fig. 2 is a schematic structural diagram of a second embodiment of the detachable ultrasonic vibrator of the present invention;

fig. 3 is a schematic structural view of a third embodiment of the detachable ultrasonic vibrator of the present invention;

fig. 4 is a schematic structural view of a third embodiment of the detachable ultrasonic vibrator of the present invention;

FIG. 5 is a schematic diagram illustrating operation of a wrench and socket in a second embodiment of the detachable ultrasonic transducer of the present invention;

Fig. 6 is a schematic structural diagram of a fourth embodiment of the detachable ultrasonic vibrator of the present invention;

fig. 7 is a schematic structural diagram of a fifth embodiment of the detachable ultrasonic vibrator of the present invention;

fig. 8 is a schematic structural diagram of an elastic power transmission electrode in a first embodiment of the detachable ultrasonic vibrator according to the present invention;

Fig. 9 is a schematic structural view of a sixth embodiment of the detachable ultrasonic vibrator of the present invention;

fig. 10 is a schematic structural diagram of a seventh embodiment of the detachable ultrasonic transducer of the present invention.

Detailed Description

The following is a further detailed description of the embodiments:

Reference numerals in the drawings of the specification include: the cleaning container comprises a cleaning container wall 1, a sealing shock pad 2, a first fixing screw 3, a vibrator mounting seat 4, a conducting ring 5, an elastic power transmission electrode 6, a vibrator barrel wall 7, a center screw 8, a vibrator upper clamping iron 9, a third fixing screw 10, a waterproof groove 11, a vibrator lower clamping iron 12, a fixing ring nut 13, a drainage heat dissipation hole 14, a dismounting edge 16, a vibrator fixing seat 25 and a piezoelectric ceramic body 27.

Example 1

As shown in fig. 1, the detachable ultrasonic vibrator comprises a vibrator mounting seat 4 mounted on a cleaning container wall 1, wherein the vibrator mounting seat 4 comprises a mounting annular part and a mounting barrel-shaped part which are mutually perpendicular, the mounting annular part is positioned at the upper part of the An Zhuangtong-shaped part, and the mounting annular part is connected with the cleaning container wall 1 through a first fixing screw 3 to fix the vibrator mounting seat 4; the inner wall of the mounting barrel is provided with a first internal thread. The vibrator fixing seat 25 comprises a fixed annular part and a fixed barrel-shaped part which are perpendicular to each other, the fixed annular part is positioned at the upper part of the fixed barrel-shaped part, the width and the size of the fixed annular part ensure that the fixed annular part can be covered and installed, a sealing shock pad 2 is arranged between the fixed annular part and the fixed annular part, the sealing shock pad 2 adopts a rubber pad, and the elasticity of the rubber is fully utilized for buffering and sealing; the outer wall of the fixed barrel-shaped part is provided with a first external thread, and the first internal thread and the first external thread are mutually matched; therefore, the connection between the vibrator fixing base 25 and the vibrator mounting base 4 is a screw connection. The lower part of the inner wall of the fixed barrel-shaped part of the vibrator fixing seat 25 is provided with a second internal thread.

A vibrator mechanism is arranged at the center of the upper part of the vibrator fixing seat 25, and the vibrator mechanism sequentially comprises a vibrator upper clamp iron 9, a piezoelectric ceramic body 27 and a vibrator lower clamp iron 12 from top to bottom. The upper oscillator clamp 9 serves as an oscillator radiating surface of the piezoelectric ceramic body 27, and the oscillator radiating surface is a plane. The oscillator upper clamp iron 9 is fixed with the oscillator fixing seat 25 through a third fixing screw 10, the oscillator upper clamp iron 9 is positioned at the hollow part of the third fixing screw 10, and a spanner claw hole is further formed in the third fixing screw. A first through hole is formed in the center of the oscillator upper clamp iron 9, a second through hole with the same size as the first through hole is formed in the center of the oscillator lower clamp iron 12, and a center screw penetrates through the first through hole and the second through hole to be connected with the fixed ring nut 13; the piezoelectric ceramic body 27 is located the both sides of central screw, and the surface of piezoelectric ceramic body 27 is provided with waterproof groove 11 and the waterproof lid that matches with waterproof groove 11.

The outer wall of the oscillator barrel wall 7 is provided with a second external thread which is matched with a second internal thread of the oscillator fixing seat 25, so that the oscillator barrel wall 7 is in threaded connection with the oscillator fixing seat 25. The piezoelectric ceramic body 27 and the oscillator lower clamp iron 12 extend into the oscillator barrel wall 7; the lower part of the side wall of the oscillator barrel wall 7 is provided with a conducting ring 5, the lower part of the oscillator mounting seat 4 is provided with a plurality of groups of elastic power transmission electrodes 6, the structure of the elastic power transmission electrodes 6 is shown in fig. 8, and the conducting ring is used for transmitting power into the oscillator barrel wall. The bottom of the oscillator barrel wall 7 is funnel-shaped, the bottom of the oscillator barrel wall 7 is surrounded into a drainage heat dissipation hole 14, and the oscillator barrel wall 7 is conductive. Therefore, when the scheme is used, the funnel-shaped design is beneficial to heat dissipation and drainage of the ultrasonic components in the wall of the vibrator barrel; meanwhile, the elastic electrode transmits electric energy to the oscillator barrel wall through the conducting ring and then is supplied to an ultrasonic component electrically connected with the oscillator barrel wall, so that the ultrasonic oscillator can work normally.

The scheme is when using: the vibrator mount pad is fixed on wasing the appearance wall, and the internal thread of vibrator mount pad agrees with the external screw thread of vibrator fixing base, consequently is detachable between vibrator fixing base and the vibrator mount pad. The upper oscillator clamp iron is kept in connection with the oscillator fixing seat through a third fixing screw, and the upper oscillator clamp iron, the piezoelectric ceramic body and the lower oscillator clamp iron are fixed through central screws, so that the upper oscillator clamp iron, the piezoelectric ceramic body and the lower oscillator clamp iron are detachable. The vibrator barrel wall is in threaded connection with the vibrator fixing seat, so that the vibrator barrel wall can be detached. Therefore, the scheme is that the whole easily-detachable ultrasonic vibrator can be detached. In addition, the third fixing screw is a ring hollow screw, and the upper clamp iron of the vibrator is entirely positioned at the hollow part of the ring hollow screw.

Example two

The difference between this solution and the first embodiment is that: the radiating surface of the upper clamp iron of the vibrator is an arc-shaped radiating surface. As shown in fig. 2, the arc radiation surface has a wider radiation range than the planar radiation surface, and is suitable for a larger space.

Example III

The difference between this solution and the first and second embodiments is that: the bottom of the upper clamp iron of the vibrator is welded with the top of the center screw. As shown in fig. 3 and fig. 4, compared with the first embodiment, the connection between the center screw and the clamp iron on the vibrator is tighter.

Example IV

The difference between this solution and the second embodiment is that: the top of center screw is welded to the bottom of clamp iron 9 on the oscillator, and the radial surface edge of clamp iron 9 is equipped with dismantles arris 16 and is used for installing and dismantles the vibrator body on the oscillator. As shown in fig. 6, the user uses the socket to clamp the detaching rib, then uses the wrench to clamp the socket, and rotates the wrench to rotate the upper clamp iron 9 of the vibrator.

Example five

The difference between this solution and the fourth embodiment is that: as shown in fig. 7, the bottom of the oscillator barrel wall 7 is connected with the conductive ring through a fixed rivet, the bottom of the oscillator mounting seat 4 is closed, and the bottom wall of the oscillator mounting seat 4 is connected with the elastic power transmission electrode 6 through a fixed rivet.

Example six

The difference between this solution and the first embodiment is that: as shown in fig. 9, the outer wall of the vibrator fixing base 25 is not threaded, and the inner wall of the vibrator mounting base 4 is not threaded. The mounting annular portion of the vibrator mounting seat 4 is connected to the fixing annular portion of the vibrator fixing seat 25 by the first fixing screw 3.

When the vibrator fixing seat 25 is pressed down by a user until the mounting annular part of the vibrator mounting seat 4 abuts against the fixing annular part of the vibrator fixing seat 25, and the vibrator fixing seat 25 is connected with the vibrator mounting seat 4 by the first fixing screw 3.

Example seven

The difference between this solution and the third embodiment is that: as shown in fig. 10, the outer wall of the vibrator fixing base 25 is not threaded, and the inner wall of the vibrator mounting base 4 is not threaded. The mounting annular part of the oscillator mounting seat 4 is connected with the edge of the oscillator upper clamp iron 9 of the circular arc-shaped oscillator radiation surface through the first fixing screw 3. The top wall of the oscillator fixing seat 25 is welded with the bottom of the oscillator upper clamp iron 9.

The foregoing is merely an embodiment of the present application, and a specific structure and characteristics of common knowledge in the art, which are well known in the scheme, are not described herein, so that a person of ordinary skill in the art knows all the prior art in the application date or before the priority date, can know all the prior art in the field, and has the capability of applying the conventional experimental means before the date, and a person of ordinary skill in the art can complete and implement the present embodiment in combination with his own capability in the light of the present application, and some typical known structures or known methods should not be an obstacle for a person of ordinary skill in the art to implement the present application. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present application, and these should also be considered as the scope of the present application, which does not affect the effect of the implementation of the present application and the utility of the patent. The protection scope of the present application is subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims

1. Quick detachable ultrasonic vibrator, its characterized in that: the device comprises a vibrator mounting seat (4) arranged on the wall of a cleaning container, wherein the vibrator mounting seat (4) is detachably connected with a vibrator fixing seat (25);

A vibrator mechanism is arranged at the center of the upper part of the vibrator fixing seat (25), and comprises a vibrator upper clamp iron (9), a piezoelectric ceramic body (27) and a vibrator lower clamp iron (12) in sequence from top to bottom, wherein the vibrator upper clamp iron (9) is used as a vibrator radiation surface of the piezoelectric ceramic body (27); the oscillator upper clamp iron (9), the piezoelectric ceramic body (27) and the oscillator lower clamp iron (12) are fixed by a central screw (8), and the oscillator upper clamp iron (9) and the oscillator fixing seat (25) are fixed by a third fixing screw (10); the vibrator fixing seat (25) is connected with a vibrator barrel wall (7) internally containing ultrasonic components through threads, the vibrator barrel wall (7) is conductive, the piezoelectric ceramic body (27) and the vibrator lower clamp iron (12) extend into the vibrator barrel wall (7), a conductive ring (5) is arranged at the lower part of the side wall of the vibrator barrel wall (7), a plurality of groups of elastic power transmission electrodes (6) are arranged at the lower part of the vibrator mounting seat (4), and the conductive ring (5) is used for transmitting power into the vibrator barrel wall (7); and a spanner claw hole is further formed in the third fixed screw.

2. The detachable ultrasonic transducer of claim 1, wherein: the upper and lower connection surfaces between the vibrator upper clamp iron (9) and the piezoelectric ceramic body (27) are respectively provided with a sealing shock pad (2), and the upper and lower connection surfaces between the piezoelectric ceramic body (27) and the vibrator lower clamp iron (12) are respectively provided with a sealing shock pad (2).

3. The detachable ultrasonic transducer of claim 1, wherein: the outer surface of the piezoelectric ceramic body (27) is provided with a waterproof groove (11) and a waterproof cover matched with the waterproof groove (11).

4. The detachable ultrasonic transducer of claim 1, wherein: the bottom of the oscillator barrel wall (7) is funnel-shaped, and the bottom of the oscillator barrel wall (7) is surrounded to form a drainage heat dissipation hole (14).

5. The detachable ultrasonic transducer of claim 1, wherein: the radiating surface of the upper clamp iron (9) of the vibrator is an arc-shaped radiating surface.

6. The detachable ultrasonic transducer of claim 1, wherein: the radiating surface of the upper clamp iron (9) of the vibrator is a plane.

7. The detachable ultrasonic transducer according to any one of claim 6 or claim 5, wherein: and a center screw (8) is welded at the bottom of the upper clamp iron (9) of the vibrator.

8. The detachable ultrasonic transducer of claim 5, wherein: a sleeve hole is formed in the center of a radiation surface of the upper oscillator clamp iron (9) and used for installing and dismantling the oscillator body.

9. The detachable ultrasonic transducer of claim 5, wherein: the edge of the radiating surface of the upper clamp iron (9) of the vibrator is provided with a disassembly edge (16) for installing and disassembling the vibrator body.