DE202023102905U1 - Piezoelectric ceramic body with lead wire - Google Patents

Abstract

Piezoelectric ceramic body with at least one lead wire, comprising a piezoelectric ceramic body (1), in particular consisting of or made of a porous ceramic material, and a lead wire (3),
characterized in that
the respective lead wire (3) is welded to one end of the piezoelectric ceramic body (1); whereby
a heat conducting structure (2) is arranged on an outside of the piezoelectric ceramic body (1);
on one side of the piezoelectric ceramic body (1) an auxiliary structure (4) is arranged, which comprises a pressing piece (401), a mounting block (402), a counter block (403) and a fastening pin (404),
the pressing piece (401) is arranged on one side of the piezoelectric ceramic body (1),
the mounting block (402) is fixed to both ends of the pressing piece (401), respectively,
the counter block (403) is arranged on one side of the mounting block (402),
the fixing pin (404) is passed across the inside of the mounting block (402), and a reinforcing structure (5) is arranged at one end of the piezoelectric ceramic body (1).

Description

TECHNICAL AREA

The present utility model relates generally to the technical field of piezoelectric ceramics, more particularly to a piezoelectric ceramic body having at least one lead wire (porous three-dimensional piezoelectric ceramics).

STATE OF THE ART

Piezoelectric ceramics are made of ceramic materials that can convert mechanical energy and electrical energy into each other using the well-known piezoelectric effect. The piezoelectric ceramics have dielectric properties in addition to piezoelectricity, have some elasticity, etc., and are widely used in medical imaging, acoustic sensors, acoustic transducers, ultrasonic motors, etc. Piezoelectric ceramics are produced by the fact that their material, under the action of mechanical stress, causes a relative displacement of the internal positive and negative charge centers to cause polarization, which leads to the appearance of bound charges of opposite signs on the surface of both ends of the material, i.e. the piezoelectric effect. leads. The piezoelectric ceramics have sensitive properties. There are many types of piezoelectric ceramics, one of which is porous three-dimensional piezoelectric ceramics.

However, when a piezoelectric ceramic is used, in the case where lead wires are moved relative to the piezoelectric ceramic by, for example, vibration or oscillation, the welding point between a lead wire and the piezoelectric ceramic may be broken due to the lack of protective treatment for welded lead wires become. Here, if no protective treatment is performed, the use of the piezoelectric ceramics will be affected to some extent once the weld between the lead wire and the piezoelectric ceramics is broken.

Therefore, there is a need for a porous three-dimensional piezoelectric ceramic to overcome the above-mentioned problem of lack of protection for lead wires.

SUMMARY OF THE INVENTION

The object of the present utility model is in particular to provide an improved piezoelectric ceramic body with at least one lead wire in order to at least alleviate the aforementioned disadvantages or problems. In particular, an improved piezoelectric ceramic body having at least one lead wire (a porous three-dimensional piezoelectric ceramic) is to be provided to solve the defect that the existing porous three-dimensional piezoelectric ceramic lacks protection for lead wires.

This object is achieved by a piezoelectric ceramic body with at least one lead wire having the features of claim 1. Further advantageous embodiments are the subject matter of the dependent claims.

In order to solve the above technical problem, the present utility model provides the following technical solutions: a porous three-dimensional piezoelectric ceramics comprising a piezoelectric ceramics body and a lead wire, at one end of the piezoelectric ceramics body the lead wire is welded; wherein a heat conducting structure is arranged on an outer side of the piezoelectric ceramic body; an auxiliary structure is arranged on one side of the piezoelectric ceramic body, the auxiliary structure comprising a pressing piece, a mounting block, a counter block and a fixing pin, the pressing piece being arranged on one side of the piezoelectric ceramic body, the mounting block being fixed to both ends of the pressing piece, respectively wherein the mating block is disposed on one side of the mounting block, the fixing pin is passed across the interior of the mounting block, and a reinforcing structure is disposed at one end of the piezoelectric ceramic body.

According to a further embodiment, it can be provided that the thermally conductive structure comprises a thermally conductive pad, an adhesive part and a thermally conductive silicone grease, with the thermally conductive pad being arranged on the outside of the piezoelectric ceramic body, with the adhesive part being arranged on an inner side of the thermally conductive pad, with the thermally conductive silicone grease also located on the inside of the thermal pad.

According to a further embodiment, it can be provided that three groups of adhesive parts are provided, with the adhesive parts being distributed at equal intervals on the inside of the thermally conductive pad.

According to a further embodiment it can be provided that two groups of mounting blocks are provided, the assembly blocks are distributed symmetrically about a central horizontal axis of the stamping.

According to a further embodiment, it can be provided that an internal thread is provided on an inner surface of the counter-block, with an external thread being provided on an outer surface of the fastening pin, with the counter-block and the fastening pin forming a thread structure.

According to a further embodiment it can be provided that the reinforcement structure comprises a reinforcement ring, a first reinforcement block and a second reinforcement block, the reinforcement ring being mounted on one end of the piezoelectric ceramic body, the first reinforcement block being fixed inside the reinforcement ring, the second reinforcement block being in its interior intersects the second reinforcement block.

According to a further embodiment, it can be provided that two groups of first reinforcement blocks and two groups of second reinforcement blocks are provided, with the first reinforcement block and the second reinforcement block being arranged perpendicularly to one another.

The porous three-dimensional piezoelectric ceramics provided by the present utility model has the following advantages: By arranging an auxiliary structure and using the presser to firmly press a part of the lead wire to the outside of the piezoelectric ceramic body, in the case where the lead wire is shaken , a weld between the lead wire and the piezoelectric ceramic can be prevented to a certain extent from being affected, thereby fixing and protecting the weld between the lead wire and the piezoelectric ceramic;
by providing a heat conduction structure and mounting a heat conduction pad on the outside of the piezoelectric ceramic body, using the heat conduction effect of the heat conduction pad and the heat conductive silicone grease applied to the inside thereof, the heat generated during the operation of the piezoelectric ceramic body can be dissipated to a certain extent; in this way, the effect of heat dissipation of the piezoelectric ceramic body is improved, thereby reducing the influence of high temperature on the piezoelectric ceramic body;
by providing a reinforcing structure and a support frame constituted by the reinforcing ring, the first reinforcing block, and the second reinforcing block, the structural strength of the piezoelectric ceramic body can be improved to some extent; thus avoiding the problem that the piezoelectric ceramic body is easily deformed when subjected to forces such as bending.

character list

• 1 zeigt eine schematische Schnittansicht eines Aufbaus des vorliegenden Gebrauchsmusters in einer Vorderansicht; ,
• 2 zeigt eine schematische Schnittansicht des Aufbaus des vorliegenden Gebrauchsmusters in einer Draufsicht;
• 3 zeigt eine vergrößerte schematische Ansicht der Struktur vom Teil A aus 1 des vorliegenden Gebrauchsmusters;
• 4 zeigt eine schematische Schnittansicht eines Aufbaus einer Wärmeleitstruktur des vorliegenden Gebrauchsmusters in einer Vorderansicht; und
• 5 zeigt eine dreidimensionale schematische Ansicht der Verstärkungsstruktur des vorliegenden Gebrauchsmusters.

In order to explain the technical solutions in the embodiments of the present utility model and the prior art more clearly, the drawings needed to describe the embodiments or the prior art are briefly introduced below. Obviously, the drawings in the following description represent some exemplary embodiments of the present utility model. The person skilled in the art can also obtain further drawings based on these drawings without making an inventive effort.

• 1 Fig. 12 is a schematic sectional view of a structure of the present utility model in a front view; ,
• 2 Fig. 12 shows a schematic sectional view of the structure of the present utility model in a plan view;
• 3 Figure 12 shows an enlarged schematic view of the structure from part A 1 of the present utility model;
• 4 shows a schematic sectional view of a structure of a heat conducting structure of the present utility model in a front view; and
• 5 Fig. 12 shows a three-dimensional schematic view of the reinforcement structure of the present utility model.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

With reference to 1 until 5 the present utility model provides a porous three-dimensional piezoelectric ceramic, which comprises a piezoelectric ceramic body 1 and a lead wire 3, the lead wire 3 being welded to one end of the piezoelectric ceramic body 1, a heat conducting structure 2 being arranged on an outside of the piezoelectric ceramic body 1, an auxiliary structure 4 is arranged on one side of the piezoelectric ceramic body 1, the auxiliary structure 4 comprising a pressing piece 401, a mounting block 402, a counter block 403 and a fastening pin 404, the pressing piece 401 being arranged on one side of the piezoelectric ceramic body 1, wherein the mounting block 402 respectively both ends of the pressing piece 401, with the counter block 403 arranged on one side of the mounting block 402, with the fixing pin 404 passed across the inside of the mounting block 402, with a reinforcing structure 5 arranged at one end of the piezoelectric ceramic body 1, where two sets of mounting blocks 402 are provided, the mounting blocks 402 being distributed symmetrically about a horizontal central axis of the pressing piece 401, an inner surface of the mating block 403 being female-threaded, an outer surface of the fixing pin 404 being male-threaded, the mating block 403 and the mounting pin 404 form a threaded structure.

The working principle of the porous three-dimensional piezoelectric ceramics according to the first embodiment is that when the lead wire 3 is shaken for a long time, there is a possibility that the weld between the lead wire 3 and the piezoelectric ceramic body 1 is broken; therefore, the presser 401 can be mounted on the outside of the piezoelectric ceramic body 1, with a part of the lead wire 3 being firmly pressed to the outside of the piezoelectric ceramic body 1 by means of the presser 401, so that when the lead wire 3 is shaken, the weld between the lead wire 3 and the piezoelectric ceramic body 1 is not affected; in this way the weld is protected; by having the presser 401 press part of the lead wire 3 to the outside of the piezoelectric ceramic body 1, inserting the fixing pin 404 into the mounting block 402, and screwing the fixing pin 404 tightly into the inside of the counter block 403, the mounting operation of the presser can be improved 401 to be completed.

Second embodiment

In the present exemplary embodiment, it is also provided that the thermally conductive structure 2 comprises a thermally conductive pad 201, an adhesive part 202 and a thermally conductive silicone grease 203, with the thermally conductive pad 201 being arranged on the outside of the piezoelectric ceramic body 1, with the adhesive part 202 being arranged on an inner side of the thermally conductive pad 201 is arranged, wherein the thermally conductive silicone grease 203 is also arranged on the inside of the thermally conductive pad 201, wherein three groups of adhesive parts 202 are provided, the adhesive parts 202 are distributed at equal intervals on the inner side of the thermally conductive pad 201, the reinforcement structure 5 has a reinforcement ring 501 , a first reinforcing block 502 and a second reinforcing block 503, the reinforcing ring 501 being mounted on one end of the piezoelectric ceramic body 1, the first reinforcing block 502 being fixed inside the reinforcing ring 501, the second reinforcing block 503 having the second reinforcing block 503 inside intersects, wherein two groups of first reinforcement blocks 502 and two groups of second reinforcement blocks 503 are provided, wherein the first reinforcement block 502 and the second reinforcement block 503 are arranged perpendicular to each other.

In the present embodiment, first, the thermal conductive pad 201 can be attached to the outside of the piezoelectric ceramic body 1 by utilizing the viscosity of the adhesive part 202, using the excellent thermal conductive effect of the thermal conductive pad 201 and the thermally conductive silicone grease 203 applied to the inside thereof to reduce the speed of heat inside of the piezoelectric ceramic body 1 can be accelerated to a certain extent to improve the heat dissipation effect of the piezoelectric ceramic body 1, thereby reducing the influence of high temperature on the piezoelectric ceramic body 1. Second, the reinforcing ring 501 is mounted on one end of the piezoelectric ceramic body 1, with a support frame formed by the reinforcing ring 501, the first reinforcing block 502 and the second reinforcing block 503 supporting the piezoelectric ceramic body 1 to some extent can; thus avoiding the problem that the piezoelectric ceramic body is easily deformed when subjected to forces such as bending.

The present utility model relates to the technical field of piezoelectric ceramics and provides a porous three-dimensional piezoelectric ceramics comprising a piezoelectric ceramics body and a lead wire. The lead wire is welded to one end of the piezoelectric ceramic body, a heat conduction structure is arranged on an outside of the piezoelectric ceramic body, an auxiliary structure is arranged on one side of the piezoelectric ceramic body, the auxiliary structure comprises a pressing piece, a mounting block, a counter block and a fixing pin , wherein the pressing piece is arranged on one side of the piezoelectric ceramic body, wherein the mounting block is fixed to both ends of the pressing piece, respectively, wherein the counter block is arranged on one side of the mounting block, wherein the fixing pin is passed across the inside of the mounting block, wherein at a reinforcing structure is arranged at one end of the piezoelectric ceramic body. In the case of According to the present utility model, an auxiliary structure is arranged in which a part of the lead wire is firmly pressed onto the outside of the piezoelectric ceramic body by means of the pressing piece. In this way, in the case where the lead wire is shaken, a weld between the lead wire and the piezoelectric ceramic can be prevented to some extent from being affected, thereby fixing and protecting the weld between the lead wire and the piezoelectric ceramic.

The above detailed description should describe in detail feasible embodiments of the present utility model, but the embodiments are not intended to limit the scope of the present utility model. Any equivalent implementations or modifications that do not deviate from the technical spirit of the present utility model are to be included within the scope of the present utility model.

Reference List

1

piezoelectric ceramic body

2

heat conduction structure

201

thermal pad

202

adhesive part

203

thermally conductive silicone grease

3

lead wire

401

stamping

402

mounting block

403

counterblock

404

mounting pin

5

reinforcement structure

501

reinforcement ring

502

first reinforcement block

503

second reinforcement block.

Claims (7)

Piezoelectric ceramic body with at least one conducting wire, comprising a piezoelectric ceramic body (1), in particular consisting of or manufactured from a porous ceramic material, and a conducting wire (3), characterized in that at one end of the piezoelectric ceramic body (1) the respective conducting wire (3) is welded; a heat conducting structure (2) being arranged on an outside of the piezoelectric ceramic body (1); on one side of the piezoelectric ceramic body (1) an auxiliary structure (4) is arranged, which comprises a pressing piece (401), a mounting block (402), a counter block (403) and a fastening pin (404), the pressing piece (401) on a side of the piezoelectric ceramic body (1), the mounting block (402) is fixed to both ends of the pressing piece (401), respectively, the counter block (403) is located on one side of the mounting block (402), the fixing pin (404) across the inside of the mounting block (402) is guided, and a reinforcing structure (5) is arranged at one end of the piezoelectric ceramic body (1). Piezoelectric ceramic body claim 1 , wherein the thermally conductive structure (2) comprises a thermally conductive pad (201), an adhesive part (202) and a thermally conductive silicone grease (203), wherein the thermally conductive pad (201) is arranged on the outside of the piezoelectric ceramic body (1), the adhesive part (202) is arranged on an inside of the thermal pad (201), and the thermally conductive silicone grease (203) is also arranged on the inside of the thermal pad (201). Piezoelectric ceramic body claim 2 , wherein three groups of adhesive parts (202) are provided, wherein the adhesive parts (202) are distributed at equal intervals on the inside of the thermally conductive pad (201). A piezoelectric ceramic body according to any one of the preceding claims, wherein two sets of mounting blocks (402) are provided, the mounting blocks (402) being distributed symmetrically about a horizontal central axis of the stamping (401). A piezoelectric ceramic body according to any preceding claim, wherein a female thread is provided on an inner surface of the counter block (403), a male thread is provided on an outer surface of the fixing pin (404), and the counter block (403) and the fixing pin (404) form a thread structure . A piezoelectric ceramic body according to any one of the preceding claims, wherein the reinforcing structure (5) comprises a reinforcing ring (501), a first reinforcing block (502) and a second reinforcing block (503), the reinforcing ring (501) being provided at one end of the piezoelectric ceramic body (1) is mounted, the first reinforcement block (502) is fixed inside the reinforcement ring (501), and the second reinforcement block (503) inside the second reinforcement block (503) intersects or crosses. Piezoelectric ceramic body claim 6 wherein two groups of first reinforcement blocks (502) and two groups of second reinforcement blocks (503) are provided, the first reinforcement block (502) and the second reinforcement block (503) being arranged perpendicular to each other.

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