CZ30327U1 - A device for measurement of contents of pressure bottles - Google Patents

Description

Equipment for measuring the content of cylinders

Field of technology

The technical solution falls within the field of determining the amount of gas in cylinders and relates to devices for measuring the content of cylinders, in particular in mobile residential buildings, in particular caravans and motor homes.

Prior art

In the field of mobile residential buildings, especially caravans and motor homes, there are a number of systems that inform users about the status of installed equipment, such as lighting, water heating, battery status, heating or air conditioning control or building security, which also allow setting their parameters.

Part of mobile residential buildings are also cylinders, for which it is necessary to determine the amount of gas contained in them. In the field of measuring the contents of cylinders, the solutions described, for example, in GB 2126342, WO 2012113776 and US 9222825 B2 are known, which disclose various designs of devices using different ultrasonic propagation intensities in liquid and gaseous media. pressure cylinders. However, all these devices require several meters of the meter to be placed against the wall of the bottle in order to determine the level of the liquid fraction, and thus do not allow continuous information about the state of the gas or connection to a remote monitoring device.

Another possibility is to determine the amount of gas by weighing, when scales of various constructions can be used, for example spring-loaded hanging scales or strain gauge platform scales. However, this method requires disconnecting the cylinder from the distribution system, weighing it and then reconnecting it, which is difficult to handle and again does not allow continuous monitoring of the amount of gas in the cylinder.

U.S. Pat. No. 9404790 B2 describes a device represented by a tank or drum weight sensor which automatically and continuously detects the weight of a drum or tank placed thereon and which is intended for long-term loading. However, this device is not equipped with a wireless connection to a remote monitoring device or to the overall surveillance system, and in addition it is not resistant to shocks and transverse accelerations acting on the device while driving a mobile object.

US 201613175 A1 discloses a device comprising a mass sensor for continuously determining the weight of a gas cylinder built thereon, a gas leak sensor, a processor processing the measured data and a wireless connection to a remote receiver. However, this device is not resistant to shocks and horizontal forces or transverse acceleration and is therefore not suitable for the permanent installation of gas cylinders in mobile residential buildings, such as caravans and motor homes, even while driving. The device is also not part of the building's surveillance system.

There is no known device that would continuously monitor the amount of gas in the cylinder and inform the user about it through a remote device and at the same time be part of the facility's monitoring system, while being waterproof and usable for permanent installation of gas cylinders, even while driving.

The aim of the presented technical solution is to present a device for continuous monitoring of the condition of cylinders, which is permanently connected to both gas cylinders and the monitoring system of the object, and also allows safe fixation of cylinders together with resistance to shocks and horizontal forces caused by driving.

The essence of the technical solution

The set goal is achieved by a technical solution, which is a device for measuring the content of cylinders, especially in mobile residential buildings. This device consists of a strain gauge comprising a support member and a base in which a battery box equipped with a battery set, an electronic box equipped with an electronic module and a strain gauge sensor are housed. The essence of the solution lies in the fact that the supporting member has the shape of a hollow bottom-open low bowl formed by the supporting platform and the outer shell, which extends vertically over the supporting platform and thus creates an increase above it.

-1 CZ 30327 UI hemmed hem, where in the inner space of the support member there is a symmetrically placed base which has the shape of a hollow low body open from above with a greater height than the height of the support member. Above the upper edges of the base, anti-vibration stop pads are mounted on the support platform from below and a strain gauge sensor is symmetrically mounted in the interior of the base, releasably mounted both from below the support platform and the base, the distance between the upper edges of the base and the anti-shock stop pads being sensors without load and under load of the strain gauge with weights in the range of 1.0 to 1.5 times the maximum weight of the cylinder. The battery set is watertight stored in the battery box and the electronic module is watertight stored in the electronic box. The electronic module is equipped with implemented wireless communication technology, through which it is connected to the central control unit of the building surveillance system and / or to a remote display device.

In a preferred embodiment, the strain gauge is slidably mounted in the upper fixing bed formed at the bottom of the support platform at the point of contact with the support platform and is slidably mounted in the lower fixing bed formed in the bottom of the base at the point of contact with the base.

In another preferred embodiment, a wireless communication technology of the Bluetooth type or of the radio connection type in the ISM band is implemented in the electronic module.

It is further preferred that the battery box and the electronic box are mounted on the sides of the strain gauge, wherein the battery box is in the form of a hollow top open block forming an inner chamber in which the battery set is housed, the battery box being watertightly detachably attached to the support platform from below. which is formed in the place above the battery box by an opening dimensionally corresponding to the inner chamber of the battery box and provided with a watertight closable door opening from above with a dimension and shape corresponding to this opening and fitting exactly so that the surface of the support platform is not disturbed, and wherein the electronic box has a hollow bottom shape an open block forming an inner cavity in which the electronic module is housed, the electronic box being detachably attached to the support platform from below and its inner cavity being provided with a watertight cover which can be closed from below. ,

In an optimal embodiment, the strain gauge sensor is connected in series with an electrical conductor to an electronic module, which is further connected to a battery set, the strain gauge sensor, the battery box and the electronic box being encapsulated together with the electrical conductors with a water-resistant potting compound.

The new technical solution achieves a higher effect in that the device can be used for permanent installation of gas cylinders in mobile homes, even while driving, allows continuous measurement of gas in gas cylinders with status display by remote display device and is simultaneously connected via central unit with the entire surveillance system of the building, while it is resistant to shocks and water.

Explanation of drawings

A specific example of an embodiment of the technical solution is schematically shown in the accompanying drawings, where:

Fig. 1 is an overall circuit diagram of the electronic modules of the device and its connection to the central control unit, Fig. 2 is an overall axonometric view of the device for measuring the contents of cylinders, Fig. 3 is an exploded bottom axonometric view of the device of Fig. 2; 4 is an exploded top axonometric view of the device of FIG. 2.

The drawings showing the presented technical solution and the subsequently described example of a specific embodiment in no way limit the scope of protection stated in the definition, but only clarify the essence of the technical solution.

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Example of technical solution

The device for measuring the contents of cylinders is realized as a strain gauge 1 wirelessly connected to a central control unit 3 of an object monitoring system (not shown) and preferably to a remote display device 4. The strain gauge 1 comprises a support member 11 which 5 has the shape of a hollow bottom open low dish shaped cylinder, and which is formed by an outer shell 115 and a support platform 111 forming an upper surface 112 and a lower surface 113. In the inner space of the support member 11 a symmetrical base 12 in the shape of a hollow low top open body, preferably a prism, is formed edges 122 of the base 12, on which the support platform 111 of the support member 11 rests from above with its lower surface 113 provided with anti-shock pads 114 at the abutment points, the height of the support member 11 being less than the height of the base 12. the surface 112 of the support platform 111 and thus forms a raised edge 119 above it. The side walls 121 the bases 12 are provided in their upper part with recesses 123 forming unmarked ventilation openings.

A strain gauge sensor 13 is symmetrically mounted in the interior of the base 12, the lower bearing surface 132 of which fits into a lower fixing seat 126 formed in the bottom 124 of the base 12, to which it is detachably attached to each other, its upper bearing surface 131 fitting into the upper fixing seat 116. formed in the lower surface 113 of the support platform 111, to which it is also detachably attached to each other, thus preventing possible relative displacement or rotational movement of the strain gauge 13 relative to the support member 11 and / or the base 12;

A battery box 14 and an electronic box 15 are located on the sides of the strain gauge sensor 13 in the interior of the base 12. The battery box 14 has the shape of a hollow block open from above, forming an inner chamber 141 in which the battery set 142 is housed. The battery box 14 is watertight. attached to the bottom surface 113 of the support platform 111, in which an opening 117 is formed at a location above the battery box 14, which corresponds to the dimensions of the inner chamber 25 141, and which is watertight closable by a door 118 opening from above corresponding in size and shape to the opening 117. so that the upper surface 112 of the support platform 111 is not disturbed.

The electronic box 15 has the shape of a hollow bottom open block forming an inner cavity 151 for accommodating the electronic module 153. It is detachably attached from below to the bottom surface 113 30 of the support platform 111, and its inner cavity 151 is watertight closed by a cover 152.

The strain gauge sensor 13 is connected in series by non-illustrated watertight electrical conductors to an electronic module 153, which is equipped with implemented wireless communication technology, preferably radio transmission in the ISM band or Bluetooth technology, and which is further connected by non-illustrated watertight electrical conductors to the ba35 terrestrial set. 142 and on the one hand by means of implemented wireless communication technology to the central control unit 3 of the object monitoring system (not shown).

In a preferred embodiment, the electronic module 153 is also connected to the remote display device 4 via implemented wireless communication technology.

The strain gauge sensor 13, the battery box 14 and the electronic box 15, together with 40 electrical conductors (not shown), are watertightly encapsulated in a water-resistant potting compound (not shown).

The distance from the upper edge of the upper edges 122 of the base 12 to the anti-shock pads 114 corresponds to the difference in vertical dimension of the strain gauge 13 without load and when the weight 1 is loaded by a weight in the range of 1.0 to 1.5 times the maximum cylinder weight. Under this load, the support platform 111 rests on the upper edges 122 of the base 12 by means of the anti-vibration stop pads 114 to 45, thus preventing possible deformation damage of the strain gauge 13 by a larger load and thus ensuring the shock resistance of the balance 1.

The inner diameter of the support platform 111 defined by the raised rim 119 corresponds to the outer diameter of a cylinder (not shown) located on the support member 11 of the balance 1, thus achieving resistance to horizontally acting forces and transverse accelerations.

so The total height of the strain gauge 1 is a maximum of 45 mm.

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Industrial applicability

The device for measuring the content of cylinders can be used in caravans, motor homes, mobile homes, etc. to continuously monitor the weight of cylinders and their fixed fixation even while the building is driving.

Claims (5)

CLAIMS FOR PROTECTION A device for measuring the contents of cylinders, in particular in mobile residential buildings, comprising a strain gauge (1) comprising a support member (11) and a base (12) in which a battery box (14) equipped with a battery set (142) are housed, an electronic box (15) equipped with an electronic module (153) and a strain gauge sensor (13), characterized in that the support member (11) has the shape of a hollow bottom-open low cup formed by a support platform (111) and an outer shell (115) 111) vertically extending and thus forming a raised rim (119) above it, where in the inner space of the support member (11) there is a symmetrically placed base (12) which has the shape of a hollow open low body with a height greater than the height of the support member (11). 11. (111), to the base (12), the distance between the upper edges (122) of the base (12) and the stop anti-vibration pads (114) being the difference between the vertical dimension of the strain gauge (13) without load and under load of the strain gauge (1) , 0 to 1.5 times the maximum weight of the cylinder, on the one hand the battery set (142) is watertightly stored in the battery box (14) and on the other hand the electronic module (153) is watertightly stored in the electronic box (15) and is equipped with implemented wireless communication technology , by means of which it is connected to the central control unit (3) of the object surveillance system and / or to the remote display device (4). Device according to Claim 1, characterized in that the strain gage (13) is mounted in a contact-free manner at the point of contact with the support platform (111) in an upper fixing bed (116) formed from below in the support platform (111) and at the point of contact with the base. (12) is seated anti-slidably in a lower fixing seat (126) formed in the bottom (124) of the base (12). Device according to claim 1 or 2, characterized in that the wireless communication technology implemented in the electronic module (152) is of the Bluetooth type or of the radio connection type in the ISM band. Device according to any one of claims 1 to 3, characterized in that the battery box (14) and the electronic box (15) are arranged on the sides of the strain gauge sensor (13), wherein the battery box (14) has the shape of a hollow top open block forming an inner chamber. (141) in which the battery set (142) is housed, the battery box (14) being watertightly detachably attached from below to a support platform (111) in which an opening (117) dimensionally corresponding to the location above the battery box (14) is formed. inner chamber (141) and provided with a watertight closable door (118) opening from above with a dimension and shape corresponding to the opening (117) and fitting exactly into it so that the surface of the support platform (111) is not disturbed, and where the electronic box (15) has a hollow shape an open block forming an inner cavity (151) from below, in which the electronic module (153) is housed, the electronic box (15) being detachably attached to the support platform (111) from below and its inner cavity (151) being provided with a watertight closure from below removable cover (152). Device according to any one of claims 1 to 4, characterized in that the strain gauge sensor (13) is connected in series with an electronic module (153) which is further connected by electrical wires to a battery set (142), the strain gauge sensor (13) ,