CN108282981A - Wireless telemetering gas-meter data station radiating shell - Google Patents

Abstract

The present invention discloses wireless telemetering gas-meter data station radiating shell comprising：First shell and the second shell to match with first shell, are equipped with one or more groups of heat dissipation notch components in first shell and/or second shell, and every group of heat dissipation notch component includes：Two heat dissipation notches of wireless telemetering gas-meter data station radiating shell opposite sides are set to, and the notch that radiates is set to the junction of first shell and second shell.One or more groups of heat dissipation notch components are arranged in the present invention on its radiating shell, and every group of heat dissipation notch component includes：Two heat dissipation notches of radiating shell opposite sides are set to, cross-ventilation can be effectively formed using heat dissipation notch, realization radiates to internal circuit.

Description

Wireless telemetering gas-meter data station radiating shell

Technical field

Present invention relates particularly to a kind of wireless telemetering gas-meter data station radiating shells.

Background technology

With the development of science and technology wireless telemetering gas-meter enters huge numbers of families, data station is that the centre of radio meter register is set Standby, for copying and accepting table end data, pervious meter is by hand-held set come meter reading, and gas company needs cell just when meter reading Row, and cell meter reading need not be then gone using data station gas company, it can be carried out meter reading in any place for having network.Nothing The table end data copied and accepted is uploaded to background server by line remote transmitting gas meter by data station, and existing data station shell Heat dissipation performance is poor, and internal circuit in the case of a high temperature, be easy to cause damage, shorten the service life of data station for a long time, increases Big maintenance replacement cost.

Invention content

In order to solve the above-mentioned technical problem, the present invention proposes a kind of data station waterproof case.

In order to achieve the above object, technical scheme is as follows：

Wireless telemetering gas-meter data station radiating shell, including：First shell and match with first shell Two shells are equipped with one or more groups of heat dissipation notch components, every group of heat dissipation notch component packet in first shell and/or second shell It includes：It is set to two heat dissipation notches of wireless telemetering gas-meter data station radiating shell opposite sides, and notch setting of radiating In the junction of first shell and second shell.

One or more groups of heat dissipations are arranged in wireless telemetering gas-meter data station radiating shell of the present invention on its radiating shell Notch component, every group of heat dissipation notch component include：Two heat dissipation notches of radiating shell opposite sides are set to, are lacked using heat dissipation Mouth can be effectively formed cross-ventilation, and realization radiates to internal circuit.

Based on the above technical solution, following improvement can also be done：

As a preferred option, which is characterized in that the section for the notch that radiates is U-shaped, V-arrangement, "convex" shaped or " convex " word that falls Shape.

Using the above preferred scheme, according to specific situation, the shape of suitable heat dissipation notch is selected.

As a preferred option, multiple partition boards being orderly distributed are equipped on the inner wall of first shell and/or second shell, The internal cavity of wireless telemetering gas-meter data station radiating shell is formed tortuous flow channel by multiple partition boards.

Using the above preferred scheme, tortuous flow channel can extend the time that gas circulates in shell, more effectively Realization heat dissipation.

As a preferred option, water accepting layer is distributed on the surface of partition board.

Using the above preferred scheme, the moisture in air can be adsorbed, effective protection internal circuit does not make moist.

As a preferred option, the height of adjacent separator is different.

Using the above preferred scheme, the time that gas circulates in shell can effectively more be extended.

As a preferred option, multiple thermal vias being orderly distributed are distributed on partition board.

Using the above preferred scheme, heat dissipation effect is improved.

As a preferred option, heat-radiating rod is equipped in first shell and/or second shell.

Using the above preferred scheme, heat dissipation effect is improved.

As a preferred option, heat-radiating rod extends to the nearest heat dissipation notch direction of distance, and stretches out the heat dissipation notch.

Using the above preferred scheme, heat dissipation effect is improved.

As a preferred option, solar charging panel, the solar energy are equipped on the surface of first shell and/or second shell Charging panel is electrically connected with wireless telemetering gas-meter data station with the internal circuit in radiating shell.

Using the above preferred scheme, using green novel energy source, more energy efficient environmental protection.

As a preferred option, the side of one or more heat dissipation notches is equipped with radiator fan wherein, radiator fan with Solar charging panel and/or internal circuit electrical connection.

Using the above preferred scheme, heat dissipation effect is improved.

Description of the drawings

Fig. 1 is the vertical view of first shell provided in an embodiment of the present invention.

One of the sectional view of Fig. 2 first shells provided in an embodiment of the present invention.

The vertical view of Fig. 3 second shells provided in an embodiment of the present invention.

The two of the sectional view of Fig. 4 first shells provided in an embodiment of the present invention.

Wherein：First shell 1, second shell 2, heat dissipation notch 3, partition board 4, thermal vias 5, heat-radiating rod 6.

Specific implementation mode

The preferred embodiment that the invention will now be described in detail with reference to the accompanying drawings.

As shown in Figs. 1-3, in order to reach the purpose of the present invention, wireless telemetering gas-meter data station radiating shell is wherein In some embodiments, wireless telemetering gas-meter data station includes with radiating shell：First shell 1 and with 1 phase of first shell The second shell 2 matched is equipped with one group of heat dissipation notch component, every group of heat dissipation notch component packet in first shell 1 and second shell 2 It includes：Two heat dissipation notches 3 of wireless telemetering gas-meter data station radiating shell opposite sides are set to, and the notch 3 that radiates is set It is placed in the junction of first shell 1 and second shell 2.

One group of heat dissipation notch group is arranged in wireless telemetering gas-meter data station radiating shell of the present invention on its radiating shell Part, every group of heat dissipation notch component include：Two heat dissipation notches 3 of radiating shell opposite sides are set to, it can using heat dissipation notch 3 To be effectively formed cross-ventilation, realization radiates to internal circuit.

In order to further optimize the implementation result of the present invention, in other embodiment, remaining feature technology phase Together, the difference is that, two groups of heat dissipation notch components, two groups of heat dissipation notch components are equipped in first shell 1 and second shell 2 At being vertically arranged.

In order to further optimize the implementation result of the present invention, in other embodiment, remaining feature technology phase Together, the difference is that, which is characterized in that heat dissipation notch 3 section be U-shaped, V-arrangement, "convex" shaped or inverted "convex" shape.

Using the above preferred scheme, according to specific situation, the shape of suitable heat dissipation notch 3 is selected.

As shown in Fig. 2, in order to further optimize the implementation result of the present invention, in other embodiment, remaining Feature technology is identical, the difference is that, it is equipped on the inner wall of first shell 1 and/or second shell 2 and multiple is orderly distributed The internal cavity of wireless telemetering gas-meter data station radiating shell is formed tortuous flow channel by partition board 4, multiple partition boards 4.

Using the above preferred scheme, tortuous flow channel can extend the time that gas circulates in shell, more effectively Realization heat dissipation.

Further, water accepting layer is distributed on the surface of partition board 4.

Using the above preferred scheme, the moisture in air can be adsorbed, effective protection internal circuit does not make moist.

Further, the height of adjacent separator 4 is different.

Using the above preferred scheme, the time that gas circulates in shell can effectively more be extended.

Further, multiple thermal vias 5 being orderly distributed are distributed on partition board 4.

Using the above preferred scheme, heat dissipation effect is improved.

As shown in figure 4, in order to further optimize the implementation result of the present invention, in other embodiment, remaining Feature technology is identical, the difference is that, first shell 1 and it is upper be equipped with heat-radiating rod 6.

Using the above preferred scheme, heat dissipation effect is improved.

Further, heat-radiating rod 6 extends to nearest 3 direction of heat dissipation notch of distance, and stretches out the heat dissipation notch 3.

Using the above preferred scheme, heat dissipation effect is improved.Wherein, heat-radiating rod 6 can also be set in second shell 2, Multiple heat emission holes are provided in heat-radiating rod 6.

In order to further optimize the implementation result of the present invention, in other embodiment, remaining feature technology phase Together, the difference is that, it is equipped with solar charging panel (not shown) on the surface of first shell 1 and/or second shell 2, The solar charging panel is electrically connected with wireless telemetering gas-meter data station with the internal circuit in radiating shell.

Using the above preferred scheme, using green novel energy source, more energy efficient environmental protection.

Further, the reflective mirror being rotatablely connected with radiating shell is provided on the outside of solar charging panel.

Using the above preferred scheme, reflective mirror reflects illumination on solar charging panel, improves generated energy.

It is equipped with the first magnetite on a mirror, the second electromagnet is equipped on radiating shell, the second electromagnet is single with control Member electrical connection, control unit are also electrically connected with solar charging panel.

Under normal circumstances, the first magnetite polarity on the second electromagnet and reflective mirror on radiating shell is opposite.Reflective mirror One end and radiating shell be rotatablely connected, the other end is attracted each other by opposite polarity two magnetites, the minute surface of reflective mirror Towards radiating shell, minute surface is protected.

When control unit detects that the electric energy of solar charging panel is relatively low, control unit is to the second electromagnet with reversed electricity It flows, the second electromagnet on radiating shell is identical with the first magnetite polarity on reflective mirror.It is reflective by the principle that identical charges repel each other The minute surface of mirror produces, and sunlight is reflected into solar energy converting unit.

When control unit detects that the electric energy of solar charging panel is higher, control unit is to the second electromagnet with electricity in the same direction It flows, the first magnetite polarity on the second electromagnet and reflective mirror on radiating shell is opposite.

As a preferred option, the side of one or more heat dissipation notches 3 (does not show equipped with radiator fan in figure wherein Go out), radiator fan is electrically connected with solar charging panel and/or internal circuit.

Using the above preferred scheme, heat dissipation effect is improved.

The above are merely the preferred embodiment of the present invention, it is noted that for those of ordinary skill in the art, Without departing from the concept of the premise of the invention, various modifications and improvements can be made, these belong to the guarantor of the present invention Protect range.

Claims (10)

1. wireless telemetering gas-meter data station radiating shell, including：First shell and match with the first shell Second shell, which is characterized in that one or more groups of heat dissipation notch components are equipped in the first shell and/or second shell, Described in every group radiate notch component include：It is set to the two of the wireless telemetering gas-meter data station radiating shell opposite sides A heat dissipation notch, and the heat dissipation notch is set to the junction of the first shell and the second shell.

2. wireless telemetering gas-meter data station radiating shell according to claim 1, which is characterized in that the heat dissipation lacks The section of mouth is U-shaped, V-arrangement, "convex" shaped or inverted "convex" shape.

3. wireless telemetering gas-meter data station radiating shell according to claim 2, which is characterized in that described first Shell and/or the inner wall of second shell are equipped with multiple partition boards being orderly distributed, and multiple partition boards fire the wireless remote transmission The internal cavity of gas meter data station radiating shell forms tortuous flow channel.

4. wireless telemetering gas-meter data station radiating shell according to claim 3, which is characterized in that it is adjacent it is described every The height of plate is different.

5. wireless telemetering gas-meter data station radiating shell according to claim 4, which is characterized in that in the partition board Surface water accepting layer is distributed with.

6. wireless telemetering gas-meter data station radiating shell according to claim 5, which is characterized in that in the partition board On multiple thermal vias being orderly distributed are distributed with.

7. according to claim 1-6 any one of them wireless telemetering gas-meter data station radiating shells, which is characterized in that The first shell and/or second shell are equipped with heat-radiating rod.

8. wireless telemetering gas-meter data station radiating shell according to claim 7, which is characterized in that the heat-radiating rod A heat dissipation notch direction nearest to distance extends, and stretches out the heat dissipation notch.

9. according to claim 1-6 any one of them wireless telemetering gas-meter data station radiating shells, which is characterized in that The surface of the first shell and/or second shell is equipped with solar charging panel, the solar charging panel and the wireless remote transmission Internal circuit electrical connection in gas meter, flow meter data station radiating shell.

10. wireless telemetering gas-meter data station radiating shell according to claim 9, which is characterized in that wherein one The side of a or multiple heat dissipation notches is equipped with radiator fan, the radiator fan and the solar charging panel and/or institute State internal circuit electrical connection.