RU2734145C1 - Control panel - Google Patents

Abstract

FIELD: instrument engineering.

SUBSTANCE: invention relates to instrument making, particularly to push-button control panels. For this purpose, a control panel is proposed, which comprises a housing with buttons, a contact group arranged in the housing, which is closed from pressing by buttons and sealed with a protective element. Internal volume of housing is filled with dielectric liquid with operating temperature range from minus 60 °C to plus 200 °C and is equipped with sealed resilient membrane. Membrane is located in the housing so that its inner surface is in contact with the dielectric liquid and interacts with the external medium through the hole in the housing. Contact group contains convex elastic elements free of pressing of buttons, at that under the elastic elements there are conducting sections, and also contains switching current-conducting paths. Protective element is made in the form of a plate which tightly closes the contact group from the external medium.

EFFECT: providing reliability of operation in air and water environment without restrictions on depth of immersion and height above sea level, as well as on ambient temperature.

1 cl, 3 dwg

Description

The invention relates to the field of instrumentation, in particular to push-button control panels used in water and air in wide ranges of pressure and temperature.

Known push-button control panels and keyboards in a splash-proof and water-proof design. Known control panel based on a sealed switch assembly [RF patent No. 2368029 C2, H01H 13/00, publ. 20.09.2009, bul. No. 26], containing a housing in which a pressure element is located in the form of a rocker, transmitting force to the contact group (microswitch) for actuation, a plate (flexible membrane), hermetically entering the housing. The technical solution used in the sealed switch assembly excludes its use in an aqueous environment, since the external hydrostatic pressure acting on the rocker arm will inevitably cause false triggering of the switch.

Known control panel based on an electric switch [RF patent No. 2208862 C1, H01H 9/04, publ. 20.07.2003, bul. No. 20], containing a body with a contact group and a pressure element in the form of a telescopic rod. The contact group is hermetically protected by a flexible membrane. The contact group closes when the telescopic rod is pressed. The flexible membrane sealing used in the switch is not effective enough for the aqueous medium; in addition, the switch also does not exclude false alarms from the action of hydrostatic pressure. The areas of the known switch are therefore limited.

Known control panel based on a film keyboard [RF patent No. 2134443 from 08.07.1997, G06F 3/023, H01H 13/70, publ. 08/10/1999], taken as a prototype and containing a housing (two plates) with buttons, a contact group located in the housing, closed from pressing by buttons, and sealed with a protective element. The buttons are fixed on the first plate, and the keyboard controller board can be used as the second plate. The contact group is a film layer of columns of keys and rows of keys, on one surface of each of which are applied the contacts of the keys of columns (rows), conductors connecting many contacts to each other in columns (rows) of keys and with the output lamellas of columns (rows) of keys. The film layers of the columns and rows of keys are glued together completely (with the entire surface) through a perforated separating film layer in which there are round holes. The security element is a continuous and elastic protective film layer glued to the second surface of each film layer of the columns (rows) of keys. All film layers are sandwiched between the first and second plates. The keyboard is efficient at low pressure, high humidity, as well as when filled with water. However, under the influence of hydrostatic pressure on the elastic protective film layers (plates), even at an insignificant depth, the membrane keyboard will give false positives of the contact group, up to destruction and failure. Due to the impossibility of reliable operation in an aquatic environment, the scope of the known keyboard is limited to an air environment with precipitation in the form of separate liquid droplets. In addition, only the contact group is sealed in the keyboard with protective film layers (plates), that is, the push mechanisms (buttons) after being in an aqueous medium (especially in sea water) can "fail" due to the ingress of dirt or salt deposits, as well as corrosion.

Analysis of the designs of the known panels allows us to conclude that the prior art does not provide for the creation of a workable control panel for operation in various (water and air) environments without restrictions on the immersion depth and height above sea level.

The objective of the claimed invention is to improve the reliability of operation while expanding the scope.

The technical result, to which the claimed invention is directed, is to ensure the reliability of operation in air and water without restrictions on the depth of immersion and height above sea level, as well as on the temperature of the external (water and air) environment.

The specified technical result is achieved by the fact that in a control panel containing a housing with buttons, a contact group located in the housing, switchable from pressing by buttons and sealed with a protective element, according to the invention, the inner volume of the housing is filled with a dielectric liquid with an operating temperature range from minus 60 to plus 200 ° C and is equipped with a sealed elastic membrane, which is located in the housing so that its inner surface is in contact with the dielectric liquid, and the outer surface interacts with the external environment through a hole in the housing, and the contact group contains convex elastic elements that snap off when the buttons are pressed, while under the elastic elements there are conductive sections, and also contains switching conductive tracks located on one or both sides of the foil insulating board, on which the said elastic elements are attached, while the protective element is made in the form of a plate mounted on a housing that seals the contact block from the external environment.

Filling the inner volume of the control panel body with a dielectric liquid with an operating temperature range from minus 60 ° C to plus 200 ° C and equipping the body with a sealed elastic membrane, which is located in the case so that its inner surface is in contact with the dielectric liquid, and the outer surface through the hole in the case interacts with the external environment, as well as the installation of a protective element in the form of a plate on the case, hermetically closing the contact group from the external environment, excludes the impact on the protective plate of significant hydrostatic pressure. In the inner volume of the control panel body with the placed contact group, a constant slight excess of pressure over the pressure of the external water medium is ensured at any depth of the control panel immersion. That is, a constant resulting pressure will act on the protective plate at any depth of the control panel, determined by the parameters of the sealed elastic element, which eliminates significant loading of the protective plate and the elements of its fastening to the body, and therefore ensures reliable sealing of the internal volume with the contact group, and, consequently , and reliable operation of the control panel. In addition, the installation of a protective plate on the body ensures the sealing of the entire control panel, excluding the influence of the external environment and the ingress of contaminants on all its structural elements, which increases the reliability of the control panel and simplifies its maintenance.

Dielectric liquid with the specified operating temperature range, filling the internal volume of the control panel body, provides the electrical insulation resistance required for the reliable operation of the control panel contacts, and ensures the control panel operability, both in water and in air at a wider range of temperature and external pressure ... That is, the scope of application of the control panel is significantly expanded. At the same time, the use in the contact group of convex elastic elements that snap off when the buttons are pressed, while under the elastic elements there are conducting sections, as well as the use of commutating conductive tracks located on one or two sides of the foil insulating board, on which the said elastic elements are attached, enables the device operate reliably, ensuring reliable operation in air and water without restrictions on the depth of immersion and height above sea level, as well as on the temperature of the external (water and air) environment.

Thus, the combination of all the above features creates the conditions for ensuring reliable operation of the console used in an aquatic environment in a wide range of immersion depths, as well as in an air environment in any possible range of air temperatures and atmospheric pressure.

The presence in the claimed invention of features that distinguish it from the prototype makes it possible to consider it as corresponding to the "novelty" condition.

New features, which contain the distinctive part of the claims, are not identified in technical solutions for a similar purpose. On this basis, we can conclude that the claimed invention meets the condition "inventive step".

The invention is illustrated in the drawings: FIG. 1 is a diagram explaining the compensation of the external hydrostatic pressure of the aqueous medium and the design of the control panel; in fig. 2 - diagram of the control panel contact group; in fig. 3 - contact structure of the contact group (enlarged).

The control panel (Fig. 1-3) contains a housing 1 with buttons 2, in which a contact group 3 is installed. On the housing 1 there is a protective plate 4, which seals the inner volume of the housing 1. The protective plate 4 is made elastic, for example, vulcanized from a rubber-type mixture 51-1785 TU 2512-006-00149334-96. The protective plate 4 ensures the sealing of the entire control panel, excluding the influence of the external environment and the ingress of dirt on all structural elements. The internal volume of the housing 1 with the placed contact group 3 is completely filled (without air bubbles) with a dielectric liquid 5 of the type PMS-5 GOST 13032-77 and is equipped with a sealed elastic element made to ensure the required stroke, for example, in the form of a profiled membrane 6, the outer surface of the interacting through the opening 7 in the housing 1 with an external, for example, aqueous medium 8. The membrane 6 is made profiled to increase its deflection under the action of external pressure. Membrane material 6 - alloy of type 36НХТЮ GOST 10994-74 provides its elastic characteristics and corrosion resistance, including in sea water. Dielectric fluid 5 provides the electrical insulation resistance required for the reliable operation of the contact group 3. The contact group 3 contains convex elastic elements 9 (for example, in the form of plates or membranes), which snap off from pressing the buttons 2 and switch conductive tracks 10, 11 (Fig. 2 ), made, for example, on a foil-clad insulating board 12 made of foil-clad fiberglass type SF-1-35G GOST 10316-78. Convex elastic elements 9 are fixed on the board 12. The conductive paths 10, 11 can be made on one or both sides of the board 12. In the second version, the conductive paths 11 must be electrically connected to the conductive sections 13 under the elastic elements 9 (Fig. 3). The buttons 2 are vulcanized in one piece on a protective plate 4 fixed to the housing 1 and sealing its internal volume with a contact group placed. The implementation of the contact group in the form of convex elastic elements 9 snapping in from pressing the buttons, commuting the conductive tracks 10, 11, and the implementation of the buttons 2 on the protective plate 4 provides reliable switching - the closure of the contacts of the contact group with an almost constant contact pressure, which is largely determined by the parameters of elastic elements 9, which, in turn, makes it possible to provide an increased resource of the contact group 3, and, consequently, the reliable operation of the control panel for a long period of operation.

The control panel works as follows. When the buttons 2 formed on the protective elastic plate 4 are pressed, the elastic elements 9 are deformed and then clicked, electrically connecting the conductive tracks 10 and 11 of the board 12, thus closing the corresponding contact groups 3 of the control panel during the application of force to the buttons 2. When the remote control is immersed in an aqueous medium 8, the external pressure P _{IVS of the} aqueous medium 8, acting through the hole 7 in the housing 1 on the outer surface of the membrane 6, causes a corresponding change in the pressure R _{j of the} dielectric liquid 5 filling the internal volume of the housing 1. When changing (increasing or decreasing ) the depth of immersion, the pressure difference outside and inside the control panel remains practically constant and is determined only by the elastic characteristics of the membrane 6. Only the specified pressure difference outside and inside the control panel acts on the protective elastic plate 4, that is, the pressure difference between the external water medium and the pressure of the dielectric fluid 5. Body equipment 1 of the control panel with a membrane 6 and filling the internal volume of the housing 1 with a dielectric liquid 5 provides compensation for changes in the hydrostatic pressure of the external water medium 8. Membrane 6 and a protective elastic plate 4 also provide compensation for temperature changes in the volume of a dielectric liquid 5 A sealed protective elastic plate 4, not loaded with significant hydrostatic pressures at any depth of the control panel, ensures reliable sealing of the internal volume of the control panel body 1, and, therefore, ensures reliable operation of the control panel at any depth range (from 0 to hundreds of meters). In addition, a protective elastic plate 4, installed directly on the body and protecting all structural elements of the control panel, ensures quick removal of contaminants from its surfaces after being in a contaminated environment, which greatly simplifies its maintenance. The specified features of the control panel expand its areas of application. The console is also operational in air at a wide range of temperatures, humidity and atmospheric pressure, since the used dielectric liquid PMS-5 has an operating temperature range from minus 60 to plus 200 ° C. Compensation for changes in atmospheric pressure of the external air environment is similar to that of the external water environment. Thus, the claimed technical solution makes it possible to create a control panel for reliable operation in an aquatic environment at considerable depths, as well as in an air environment in a wide range of air temperatures and atmospheric pressure.

The presented information testifies to the fulfillment of the following set of conditions when using the claimed invention:

- the inventive panel is intended for use as a control panel used in an aquatic environment in a wide range of immersion depths, as well as in an air environment in any possible range of air temperatures and atmospheric pressure;

- the claimed control panel, when used, is capable of ensuring reliable operation in wide areas of application;

- for the claimed control panel in the form in which it is described in the claims, the possibility of its implementation is confirmed using the means and methods described in the application and known before the priority date.

Therefore, the declared control panel meets the condition of "industrial applicability".

Claims (1)

A control panel containing a housing with buttons, a contact group located in the housing, closed from pressing by buttons and sealed with a protective element, characterized in that the inner volume of the housing is filled with a dielectric liquid with an operating temperature range from minus 60 ° C to plus 200 ° C and is equipped with a sealed an elastic membrane, which is located in the housing so that its inner surface is in contact with the dielectric liquid, and the outer surface through the hole in the housing interacts with the external environment, and the contact group contains convex elastic elements that snap off when the buttons are pressed, while under the elastic elements there are conductive sections, and also contains switching conductive tracks located on one or two sides of the foil insulating board, on which these elastic elements are attached, while the protective element is made in the form of a plate installed on the body, hermetically closing the contact group from the outside her environment.

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