RU117709U1 - PIEZOMODULE - Google Patents

Abstract

1. Piezomodule (100), which includes a housing (1), a piezoelectric element (7) and a printed circuit board (9) with an electronic key and terminals (10), characterized in that the contact pads (5) of the printed circuit board (9) are connected to positive and negative electrodes of the piezoelectric element (7) with a layer of conductive glue (6). ! 2. Piezomodule according to claim 1, characterized in that the conductive adhesive (6) is anisotropic adhesive. ! 3. Piezomodule according to claim 1, characterized in that its body (1) is made of polymeric material, in particular polycarbonate, polyamide, polyvinyl chloride, ABS copolymer. ! 4. Piezomodule according to claim 3, characterized in that its body (1) is made of polycarbonate. ! 5. Piezomodule according to any one of claims 1-4, characterized in that it is configured to be installed in a piezo keyboard in conjunction with other similar piezo modules. ! 6. Piezomodule according to any one of claims 1-4, characterized in that it is configured to be installed in a separate piezo button.

Description

Technical field

This utility model relates to a piezoelectric module for piezoelectric keyboards or individual buttons used as a user interface for controlling electronic devices of both general industrial and special purpose. In particular, the utility model relates to a piezoelectric module, the design of which can significantly reduce its thickness through the use of adhesive bonding between its constituent piezoelectric element and the printed circuit board.

State of the art

A piezoelectric keyboard is a set of piezo buttons integrated into a single panel and connected to a common electrical circuit. The principle of operation of the piezoelectric keyboard is based on the direct piezoelectric effect. More specifically, when a piezo button is pressed, the piezoelectric element included in the piezoelectric button is deformed, and a voltage sufficient to control electronic keys generating an output signal corresponding to the pressed piezoelectric button appears at its electrodes.

Compared to push-button and film keyboards, piezo keyboards have a number of advantages that make it possible to use them with high external pollution and in especially harsh operating conditions. The absence of moving parts allows you to completely fill the internal volume of the keyboard with sealant, thereby ensuring a high degree of IP68 protection against moisture and dust in accordance with IEC 60529 (DIN 40050, GOST 14254-96). The external metal surface provides high resistance to aggressive environments and mechanical stresses (vandal resistance).

In the patent RU 73120, adopted for the closest analogue of the claimed utility model, the node "piezoelectric element - electronic key", which is part of the piezo keyboard or a separate piezo button, is proposed to be implemented as a single piezoelectric module. This piezoelectric module includes a housing 1, a piezoelectric element 7, a current collector 8 and a printed circuit board 9 with an installed electronic key and terminals 10 (see figure 1). The piezoelectric element 7 contains a positive electrode and a metal substrate that performs the function of a negative electrode. The current collector 8 is a connector with alternating conductive and insulating layers, which, on one surface, is in contact with the positive and negative electrodes of the piezoelectric element 7, and the opposite surface is in contact with the contact pads of the printed circuit board 9.

The housing 1 of the piezoelectric module is made in the form of a glass and is equipped with four latches 3 located on its periphery. These latches 3 are inserted into the corresponding holes in the printed circuit board 9 and latched when pressure is applied to the base of the housing 1. Thus, the housing 1 fixes the components of the piezoelectric module relative to each other, while pressing the current collector 8 against the piezoelectric element 7 and the printed circuit board 9, due to which ensures the transfer from the piezoelectric element to the printed circuit board and the electronic key of the potential difference that occurs when you click on the piezoelectric element.

The piezoelectric module known from RU 73120 is reliable in operation. In addition, by its design, it is a unified element that can be produced in a separate production and delivered to the enterprise engaged in the manufacture of piezo keyboards, in finished form. Finally, the design of such a piezoelectric module makes it possible to produce it with a nomenclature ruler, characterized by different operational parameters, for example, different amounts of pressing force. All this relates to the clear advantages of the piezoelectric module according to patent RU 73120.

However, unfortunately, this piezoelectric module also has a number of disadvantages, which primarily include the significant thickness and, accordingly, the mass of the product. This drawback significantly limits the use of piezo keyboards in modern technology, especially in small-sized and portable equipment. It is due to the fact that in the piezoelectric module according to patent RU 73120, the current collector 8 and latches 3 have a large height, leading to an increase in the total thickness of the keyboard assembled on the basis of such piezoelectric modules. Let us explain this circumstance with table 1, which summarizes the minimum possible thicknesses of all elements included in the known piezoelectric keyboard containing the piezoelectric module according to patent RU 73120. As follows from table 1, the majority of the height of the known piezo-keyboard falls on the piezoelectric module (lines 3-8), while the total height of the current collector (line 6) and latches (line 8) is more than half the total height of the piezoelectric module.

Table 1 Item No. Elements of the well-known piezo keyboard containing the piezo module of RU 73120 Thickness mm one Front panel 0.50 2 Adhesive layer between front panel and piezoelectric module 0.10 3 Upper side of the piezoelectric module housing 0.50 four Adhesive layer between the upper side of the piezoelectric module body and the piezoelectric element 0.10 5 Piezoelectric element 0.20 6 Current collector 2,30 7 Printed circuit board 1.00 8 The outer part of the latch 1.80 9 Patch circuit board 1.00 10 Sealing layer 1,50 The total thickness of the known piezo keyboard 9.00

In addition to the indicated drawback related to significant thickness (at least 9 mm), the piezoelectric module according to the patent RU 73120 has two more disadvantages, namely:

- the body of the piezoelectric module, providing mutual fixation of its constituent elements, has a rather complicated structure;

- in view of the fact that the printed circuit board is pressed against the current collectors by means of latches, the external dimensions of the printed circuit board exceed the external diameter of the piezoelectric module case; This design feature increases the minimum possible step of installing such piezoelectric modules on the keyboard.

Taking into account the aforementioned disadvantages of the piezoelectric modules of the current level of technology, in which the switching between the piezoelectric element and the printed circuit board is carried out using a current collector, the applicant formulates the problem of this utility model as developing a piezoelectric module with a simple design, characterized by the minimum possible total thickness.

Utility Model Disclosure

The problem is solved by creating a piezoelectric module, which includes a housing, a piezoelectric element and a printed circuit board with an electronic key and conclusions. The proposed piezoelectric module is characterized in that the contact pads of the printed circuit board are connected to the positive and negative electrodes of the piezoelectric element with a layer of conductive glue.

The specified conductive adhesive after curing provides both mechanical and electrical connection between the piezoelectric element and the printed circuit board. Through the use of such an adhesive bond between the piezoelectric element and the printed circuit board, the claimed piezoelectric module acquires advantages over its well-known analogues, in particular the following:

- the design of the piezoelectric module is greatly simplified, since latches and a current collector are excluded from its structure;

- due to the reduction in the number of structural elements of the piezoelectric module, its thickness is significantly reduced.

According to one embodiment of the utility model, an anisotropic conductive adhesive is used as a conductive adhesive, i.e. adhesive capable of conducting current only in the direction perpendicular to the plane of its application.

The use of glue with anisotropic conductivity allows you to apply glue to the printed circuit board in a continuous layer, instead of applying it only to the pads. This circumstance, firstly, provides a more reliable mechanical connection between the piezoelectric element and the printed circuit board, and secondly, simplifies the manufacturing process of the piezoelectric module, since in the case of using glue with isotropic conductivity (i.e., the conductivity is the same in all directions) in the manufacture the piezoelectric module has to use special equipment for applying conductive glue in strips.

According to another embodiment of the utility model, the piezoelectric module housing is made of a polymeric material, in particular polycarbonate, polyamide, polyvinyl chloride, an ABS copolymer or the like. The advantage of the above polymers is that they are well processed by injection molding. However, in the most preferred case, the housing of the piezoelectric module is made of polycarbonate, i.e. material characterized by excellent mechanical characteristics and a large temperature range of operation.

In accordance with the most typical embodiment of the utility model, the piezoelectric module is configured to be installed in the piezo keyboard in conjunction with other similar piezoelectric modules.

Alternatively, the piezoelectric module is configured to be installed in a separate piezo button.

Brief Description of the Drawings

Further, a utility model is described using an example of a preferred embodiment disclosed with reference to the accompanying drawings, of which:

figure 1 depicts a known piezoelectric module selected as a prototype piezoelectric module proposed in this application;

figure 2 depicts a cross section of the proposed piezoelectric module in the assembled state.

Utility Model Implementation

Figure 2 illustrates the proposed piezoelectric module 100, which, like the known piezoelectric module shown in figure 2, includes a housing 1, a piezoelectric element 7 and a printed circuit board 9 with an installed electronic key and conclusions 10 in the form of wires or pins. The piezoelectric element 7 is, as a rule, a piezoceramic plate equipped with positive and negative electrodes. It is glued to the inner surface of the upper side 2 of the housing 1 with a layer of ordinary, non-conductive adhesive 4.

The difference of the proposed piezoelectric module 100 from the prototype according to the patent RU 73120 is that the current collector with conducting and insulating layers is excluded from its design. Instead, a conductive adhesive 6 is used in the piezoelectric module 100, connecting the pads 5 of the printed circuit board 9 with the positive and negative electrodes of the piezoelectric element 7. This design does not require additional fasteners to ensure mutual fixation of the elements included in the piezoelectric module.

The proposed piezoelectric module 100 functions essentially the same as the piezoelectric module according to RU 73120. With mechanical action on the upper side 2 of the housing 1, it deforms, which is transmitted to the piezoelectric element 7. During the deformation of the piezoelectric element 7, a potential difference arises between its positive and negative electrodes. which through the conductive glue 6 is perceived by the positive and negative pads 5 of the printed circuit board 9 and opens the electronic key mounted on the printed circuit board 9, generating appropriate output signal. After depressurization of the upper side 2 of the housing 1, the piezoelectric element 7 takes its previous shape, the potential difference disappears and the electronic key is locked.

The piezoelectric module disclosed in this application is free from the disadvantages of the prior art. In particular, due to the fact that the switching between the piezoelectric element 7 and the printed circuit board 9 is carried out by means of conductive glue 6, it becomes possible to significantly reduce the thickness of the proposed piezoelectric module 100 and thereby significantly reduce the thickness of the piezo keyboard as a whole. This circumstance is illustrated in Table 2, from which it follows that the thickness of the inventive piezoelectric module (lines 3-7) is only 1.9 mm, as a result of which the thickness of the piezo keyboard containing this piezoelectric module is reduced to 5 mm, i.e. almost 2 times compared with the piezo keyboard of the prior art.

table 2 Item No. Elements of a piezo keyboard containing the inventive piezo module Thickness mm one Front panel 0.50 2 Adhesive layer between front panel and piezoelectric module 0.10 3 Upper side of the piezoelectric module housing 0.50 four Adhesive layer between the upper side of the piezoelectric module body and the piezoelectric element 0.10 5 Piezoelectric element 0.20 6 Conductive adhesive 0.1 7 Printed circuit board 1.00 8 Patch circuit board 1.00 9 Sealing layer 1,50 The total thickness of the piezo keyboard containing the inventive piezo module 5,0

In addition, thanks to the claimed piezoelectric module, it becomes possible to use printed circuit boards with smaller external dimensions, simpler designs and, accordingly, cheaper, which, in turn, can reduce the cost of manufacturing the entire piezoelectric module.

An additional advantage of the claimed design of the piezoelectric module is the ability to reduce the thickness of the printed circuit board to 0.5 mm. The fact is that in the well-known piezomodule, a printed circuit board, in addition to performing its main function, performs the function of a structural element that provides a clamp to the connector to the piezoelectric element. Accordingly, in order for the specified clip to be tight and reliable, the printed circuit board must have high rigidity, as a result of which its thickness cannot be less than 1 mm. In the case of the piezoelectric module of the present invention, there is no need to provide pressure and, therefore, the rigidity of the printed circuit board can be reduced by reducing its thickness. At the same time, the cost of the circuit board is reduced.

The claimed piezoelectric module can be used both in a separate piezo button, and as part of the piezo keyboard. Obviously, in the first case, only one piezomodule is used, while in the second case a group of combined piezomodules is used.

The above describes the preferred embodiment of the proposed piezoelectric module, which should not be construed as limiting the patent claims of this utility model. Specialists in the art will understand that various changes and additions can be made to the described embodiment that do not go beyond the legal protection of this utility model established by the attached formula.

POSITION NUMBERS

1 - piezoelectric module housing

2 - upper side of the housing

3 - latches of the piezoelectric module housing

4 - ordinary non-conductive glue

5 - pads of the printed circuit board

6 - conductive adhesive

7 - piezoelectric element

8 - current collector used in the prototype (patent RU 73120)

9 - printed circuit board

10 - conclusions

100 - declared piezoelectric module

Claims (6)

1. Piezomodule (100), which includes a housing (1), a piezoelectric element (7) and a printed circuit board (9) with an electronic key and terminals (10), characterized in that the contact pads (5) of the printed circuit board (9) are connected to the positive and negative electrodes of the piezoelectric element (7) with a layer of conductive glue (6). 2. The piezoelectric module according to claim 1, characterized in that an adhesive with anisotropic conductivity is used as a conductive adhesive (6). 3. The piezoelectric module according to claim 1, characterized in that its housing (1) is made of a polymeric material, in particular polycarbonate, polyamide, polyvinyl chloride, an ABS copolymer. 4. The piezoelectric module according to claim 3, characterized in that its housing (1) is made of polycarbonate. 5. The piezoelectric module according to any one of claims 1 to 4, characterized in that it is configured to be installed in the piezo keyboard in conjunction with other similar piezoelectric modules. 6. The piezoelectric module according to any one of claims 1 to 4, characterized in that it is configured to be installed in a separate piezo button.