CN218158254U - Storage battery monitor convenient for heat dissipation - Google Patents

Abstract

The utility model discloses a battery monitor convenient to heat dissipation, including heat conduction subassembly, heat conduction subassembly includes the battery monitor body, set up in the heat conduction piece at the battery monitor body top, set up in the ventilation piece of heat conduction piece bottom, set up in the heat dissipation piece of heat conduction piece inner chamber to and set up in driving piece and the power supply unit of battery monitor body one side; and the connecting component comprises a mounting part arranged at the top of the storage battery monitor body and a connecting part arranged at the top of the mounting part. Device has solved battery monitor high temperature through setting up heat-conducting component and coupling assembling, influences actual result of use and battery monitor not only inconvenient installation in the use, stability is also relatively poor problem.

Description

Storage battery monitor convenient for heat dissipation

Technical Field

The utility model relates to a battery on-line monitoring technical field, especially a battery monitor convenient to heat dissipation.

Background

The storage battery monitoring management is a special monitoring management system developed for 2V, 6V and 12V valve-controlled lead-acid storage batteries used by a UPS power supply system and a storage battery system, and is widely applied to important places and departments such as electric power, communication, petrifaction, finance, railways and the like. An extension module can only monitor a set of battery, receives battery on-line monitoring appearance control, can not the autonomous working, because extension module and battery on-line monitoring appearance generally adopt the heap to place, its both produced heats of working formula cause influence each other easily, and then will lead to battery on-line monitoring appearance high temperature, influence the result of use of reality, and current battery on-line monitoring appearance not only inconvenient installation in the use, stability is also relatively poor.

SUMMERY OF THE UTILITY MODEL

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section and in the abstract of the specification and the title of the application to avoid obscuring the purpose of this section, the abstract of the specification and the title of the application, and such simplifications or omissions are not intended to limit the scope of the invention.

The utility model discloses a problem that exists in view above-mentioned and/or current battery on-line monitoring appearance has been proposed.

Therefore, the utility model aims to solve the problem that how to solve battery on-line monitoring appearance and generally adopt the heap to place, its produced heat between them of working formula causes the influence of each other easily, and then will lead to battery on-line monitoring appearance high temperature and inconvenient installation.

In order to solve the technical problem, the utility model provides a following technical scheme: a storage battery monitor convenient for heat dissipation comprises a heat conduction assembly, wherein the heat conduction assembly comprises a storage battery monitor body, a heat conduction piece, an air ventilation piece, a heat dissipation piece, a driving piece and a power supply piece, wherein the heat conduction piece is arranged at the top of the storage battery monitor body; and the connecting component comprises an installation part arranged at the top of the storage battery monitor body, a connecting part arranged at the top of the installation part, a fixing part arranged in an inner cavity of the connecting part, and a moving part arranged on one side of the storage battery monitor body.

As a be convenient for a radiating battery monitor's an preferred scheme, wherein: the heat conducting piece comprises a first heat conducting silica gel pad arranged at the top of the storage battery monitor body and a second heat conducting silica gel pad arranged above the first heat conducting silica gel pad.

As a preferred scheme of radiating battery monitor of being convenient for, wherein: the ventilation piece comprises a ventilation frame arranged between the first heat-conducting silica gel pad and the second heat-conducting silica gel pad and a heat-conducting copper plate arranged in the inner cavity of the ventilation frame.

As a be convenient for a radiating battery monitor's an preferred scheme, wherein: the heat dissipation piece comprises a heat conduction copper pipe arranged in the inner cavity of the first heat conduction silica gel pad and the inner cavity of the second heat conduction silica gel pad, and a connecting pipe arranged at one end of the heat conduction copper pipe.

As a preferred scheme of radiating battery monitor of being convenient for, wherein: the driving piece is including set up in the fixed plate of battery monitor body one side, and set up in the air pump of fixed plate one side.

As a preferred scheme of radiating battery monitor of being convenient for, wherein: the power supply part comprises a power supply bin arranged on one side of the storage battery monitor body and a power supply battery arranged in an inner cavity of the power supply bin.

As a preferred scheme of radiating battery monitor of being convenient for, wherein: the installed part including set up in the mounting panel at battery monitor body top, and set up in the installation piece at mounting panel top.

As a be convenient for a radiating battery monitor's an preferred scheme, wherein: the connecting piece including set up in the adapter sleeve at mounting panel top, and set up in the connecting rod of battery monitor body bottom.

As a preferred scheme of radiating battery monitor of being convenient for, wherein: the mounting including set up in the fixed pin of adapter sleeve inner chamber, and set up in the fixed orifices of connecting rod inner chamber.

As a be convenient for a radiating battery monitor's an preferred scheme, wherein: the moving member including set up in the connecting block of battery monitor body one side, and set up in the handle of connecting block one side.

The utility model discloses beneficial effect does: the utility model discloses a first heat conduction silica gel pad can transmit and dispel the heat that battery monitor body produced, and when adopting the heap to place this device of polylith, the bottom of current battery monitor body can contact with the second heat conduction silica gel pad of another battery monitor body top, also dispel the heat to its bottom through second heat conduction silica gel pad, the reliability of battery monitor body has been improved, and can blow outside air to the inside of heat conduction copper pipe through the air pump, thereby accelerate the heat dissipation of first heat conduction silica gel pad and second heat conduction silica gel pad, further improvement the radiating effect of battery monitor body, the user can fix the connecting rod in inserting the fixed pin fixed orifices, thereby accomplish the installation work of battery monitor body, the stability of battery monitor body in the use has been improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor. Wherein:

fig. 1 is a structural view of a battery monitor for facilitating heat dissipation.

Fig. 2 is another view structure diagram of the battery monitor body for facilitating heat dissipation.

Fig. 3 is a schematic structural view of a heat conducting member of the battery monitor for facilitating heat dissipation.

Fig. 4 is a schematic structural diagram of a battery monitor heat sink for facilitating heat dissipation.

Fig. 5 is a schematic view of a connection structure of a connection sleeve and a connection rod of the storage battery monitor for facilitating heat dissipation.

Fig. 6 is a structural change diagram of a moving member of the battery monitor for facilitating heat dissipation.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying the present invention are described in detail below with reference to the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, the references herein to "one embodiment" or "an embodiment" refer to a particular feature, structure, or characteristic that may be included in at least one implementation of the present invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1, which is a first embodiment of the present invention, the present invention provides a battery monitor convenient for heat dissipation, which includes a heat conducting assembly 100 and a connecting assembly 200. Through setting up heat-conducting component 100 and coupling assembling 200, solved battery on-line monitoring appearance high temperature, influence actual result of use and battery on-line monitoring appearance inconvenient installation not only in the use, stability is also relatively poor problem.

Specifically, the heat conducting assembly 100 includes a battery monitor body 101, a heat conducting member 102 disposed on the top of the battery monitor body 101, a ventilation member 103 disposed on the bottom of the heat conducting member 102, a heat dissipating member 104 disposed in the inner cavity of the heat conducting member 102, and a driving member 105 and a power supply member 106 disposed on one side of the battery monitor body 101. In the use of battery monitor body 101, can dispel the heat to battery monitor body 101 through heat-conducting piece 102 cooperation radiating piece 104 and driving piece 105, reduce battery monitor body 101's use temperature, improved the reliability of battery monitor body 101 in the use, through setting up ventilation part 103, further improvement the radiating effect of battery monitor body 101.

Preferably, the connecting assembly 200 includes an installation part 201 disposed on the top of the battery monitor body 101, a connecting part 202 disposed on the top of the installation part 201, a fixing part 203 disposed in an inner cavity of the connecting part 202, and a moving part 204 disposed on one side of the battery monitor body 101. Through setting up connecting piece 202 and mounting 203, the person of facilitating the use carries out erection joint to a plurality of battery monitor bodies 101, has improved the stability of battery monitor body 101 in the use, through setting up moving member 204, the person of facilitating the use removes battery monitor body 101.

When in use, in the use of battery monitor body 101, can dispel the heat to battery monitor body 101 through heat conduction piece 102 cooperation radiating piece 104 and driving piece 105, reduce the service temperature of battery monitor body 101, the reliability of battery monitor body 101 in the use has been improved, through setting up ventilation part 103, the further radiating effect that has improved battery monitor body 101, through setting up connecting piece 202 and mounting 203, the person of facilitating the use carries out erection joint to a plurality of battery monitor bodies 101, the stability of battery monitor body 101 in the use has been improved, through setting up moving piece 204, the person of facilitating the use removes battery monitor body 101.

Example 2

Referring to fig. 1, 2, 3 and 4, the second embodiment of the present invention is a second embodiment, and the present embodiment is based on the previous embodiment.

Specifically, the heat conducting member 102 includes a first heat conducting silica gel pad 102a disposed on the top of the battery monitor body 101, and a second heat conducting silica gel pad 102b disposed above the first heat conducting silica gel pad 102 a. The bottom of the first heat-conducting silica gel pad 102a is fixedly connected with the top of the storage battery monitor body 101.

Preferably, the ventilation member 103 includes a ventilation frame 103a disposed between the first heat-conducting silicone pad 102a and the second heat-conducting silicone pad 102b, and a heat-conducting copper plate 103b disposed in an inner cavity of the ventilation frame 103 a. The top and the bottom of the ventilation frame 103a are respectively connected with the top of the first heat-conducting silica gel pad 102a and the bottom of the second heat-conducting silica gel pad 102b, the heat-conducting copper plate 103b is fixedly connected with the ventilation frame 103a, and by arranging the heat-conducting copper plate 103b and the ventilation frame 103a, the first heat-conducting silica gel pad 102a and the second heat-conducting silica gel pad 102b can be conveniently connected to conduct heat and increase the heat dissipation area, and heat dissipation can be carried out through the heat-conducting copper plate 103b.

Preferably, the heat sink 104 includes a heat conducting copper tube 104a disposed in the inner cavities of the first heat conducting silicone pad 102a and the second heat conducting silicone pad 102b, and a connecting tube 104b disposed at one end of the heat conducting copper tube 104 a.

Preferably, the driving member 105 includes a fixing plate 105a provided at one side of the battery monitor body 101, and an air pump 105b provided at one side of the fixing plate 105 a. In the use of this device, can transmit and dispel the heat that battery monitor body 101 produced through first heat conduction silica gel pad 102a, and when adopting the heap to place polylith this device, current battery monitor body 101's bottom can contact with the second heat conduction silica gel pad 102b of another battery monitor body 101 top, also dispel the heat to its bottom through second heat conduction silica gel pad 102b, the reliability of battery monitor body 101 has been improved, and can blow outside air to the inside of heat conduction copper pipe 104a through air pump 105b, thereby accelerate the heat dissipation of first heat conduction silica gel pad 102a and second heat conduction silica gel pad 102b, further the radiating effect of battery monitor body 101 has been improved.

Preferably, the power supply unit 106 includes a power supply chamber 106a disposed at one side of the battery monitor body 101, and a power supply battery 106b disposed in an inner cavity of the power supply chamber 106 a. The power supply bin 106a is fixedly connected with the storage battery monitor body 101, and the air pump 105b is conveniently powered by the power supply battery 106b without an external power supply.

When the portable storage battery monitoring device is used, heat generated by the storage battery monitoring device body 101 can be transmitted and dissipated through the first heat-conducting silica gel pad 102a, when a plurality of devices are placed in a stacked mode, the bottom of the current storage battery monitoring device body 101 can be in contact with the second heat-conducting silica gel pad 102b above the other storage battery monitoring device body 101, the bottom of the current storage battery monitoring device body 101 can also be dissipated through the second heat-conducting silica gel pad 102b, reliability of the storage battery monitoring device body 101 is improved, external air can be blown to the inside of the heat-conducting copper pipe 104a through the air pump 105b, heat dissipation of the first heat-conducting silica gel pad 102a and the second heat-conducting silica gel pad 102b is accelerated, the heat dissipation effect of the storage battery monitoring device body 101 is further improved, power supply is facilitated for the air pump 105b through the arrangement of the power supply battery 106b, an external power supply is not needed, through the arrangement of the heat-conducting copper plate 103b and the air-permeable copper plate 103a, heat-conducting silica gel pad 102a and the second heat-conducting copper plate 102b can be conveniently connected to increase heat dissipation area, and heat dissipation can be achieved through the heat-conducting copper plate 103b.

Example 3

Referring to fig. 1, 5 and 6, a third embodiment of the present invention is shown, which is based on the first two embodiments.

Specifically, the mounting member 201 includes a mounting plate 201a provided on the top of the battery monitor body 101, and a mounting block 201b provided on the top of the mounting plate 201 a. The bottom of the mounting plate 201a is fixedly connected with the top of the storage battery monitor body 101, and the bottom plate of the mounting block 201b is fixedly connected with the top of the mounting plate 201 a.

Preferably, the connection member 202 includes a connection sleeve 202a disposed on the top of the mounting plate 201a, and a connection rod 202b disposed on the bottom of the battery monitor body 101. The bottom of the connecting sleeve 202a is fixedly connected with the top of the mounting block 201b, the connecting rod 202b is slidably connected with the connecting sleeve 202a, and when a plurality of battery monitor bodies 101 are placed in a stacked mode, the connecting rod 202b at the bottom of one battery monitor body 101 can be inserted into the connecting sleeve 202a at the other battery monitor body 101 to complete butt joint.

Preferably, the fixing member 203 includes a fixing pin 203a disposed in the inner cavity of the connecting sleeve 202a, and a fixing hole 203b disposed in the inner cavity of the connecting rod 202b. After the connecting rod 202b is inserted into the butt sleeve 202a, a user can insert the fixing pin 203a into the fixing hole 203b to fix the connecting rod 202b, so that the installation work of the battery monitor body 101 is completed, and the stability of the battery monitor body 101 in the using process is improved.

Preferably, the moving member 204 includes a connecting block 204a disposed on one side of the battery monitor body 101, and a handle 204b disposed on one side of the connecting block 204 a. One side of the connecting block 204a is fixedly connected with one side of the storage battery monitor body 101, and when the device is moved, the handle 204b can be moved out of the groove in one side of the connecting block 204a to move the device.

When the portable storage battery monitoring device is used, heat generated by the storage battery monitoring device body 101 can be transmitted and dissipated through the first heat-conducting silica gel pad 102a, when a plurality of devices are placed in a stacked mode, the bottom of the current storage battery monitoring device body 101 can be in contact with the second heat-conducting silica gel pad 102b above the other storage battery monitoring device body 101, the bottom of the current storage battery monitoring device body 101 is also dissipated through the second heat-conducting silica gel pad 102b, reliability of the storage battery monitoring device body 101 is improved, external air can be blown to the inside of the heat-conducting copper pipe 104a through the air pump 105b, heat dissipation of the first heat-conducting silica gel pad 102a and the second heat-conducting silica gel pad 102b is accelerated, the heat dissipation effect of the storage battery monitoring device body 101 is further improved, power supply is facilitated for supplying the air pump 105b through the arrangement of the power supply battery 106b, an external power supply is not required, through the arrangement of the heat-conducting copper plate 103b and the air vent frame 103a, heat-conducting area can be increased for conveniently by connecting the first heat-conducting silica gel pad 102a and the second heat-conducting silica gel pad 102b, heat-conducting silica gel pad can be inserted into the air vent frame 203b after the connecting rod 202b is inserted into the butt-connecting sleeve 202a, the connecting rod 202a is inserted into the connecting pin for fixing the storage battery monitoring device body 101, and the storage battery monitoring device body, and the storage battery monitoring device can be installed in the working process of the storage battery monitoring device body, and the storage battery monitoring device in the storage battery monitoring device.

It should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention is described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or substituted by equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a battery monitor convenient to heat dissipation which characterized in that: comprises the steps of (a) preparing a substrate,

the heat conduction assembly (100) comprises a storage battery monitor body (101), a heat conduction piece (102) arranged at the top of the storage battery monitor body (101), a ventilation piece (103) arranged at the bottom of the heat conduction piece (102), a heat dissipation piece (104) arranged in an inner cavity of the heat conduction piece (102), and a driving piece (105) and a power supply piece (106) which are arranged on one side of the storage battery monitor body (101); and the number of the first and second groups,

the connecting assembly (200) comprises a mounting part (201) arranged at the top of the storage battery monitor body (101), a connecting part (202) arranged at the top of the mounting part (201), a fixing part (203) arranged in an inner cavity of the connecting part (202), and a moving part (204) arranged on one side of the storage battery monitor body (101).

2. The battery monitor facilitating heat dissipation as defined in claim 1, wherein: the heat conducting piece (102) comprises a first heat conducting silica gel pad (102 a) arranged at the top of the storage battery monitor body (101) and a second heat conducting silica gel pad (102 b) arranged above the first heat conducting silica gel pad (102 a).

3. The battery monitor facilitating heat dissipation according to claim 2, wherein: the ventilation piece (103) comprises a ventilation frame (103 a) arranged between the first heat-conducting silica gel pad (102 a) and the second heat-conducting silica gel pad (102 b), and a heat-conducting copper plate (103 b) arranged in the inner cavity of the ventilation frame (103 a).

4. The battery monitor facilitating heat dissipation according to claim 2, wherein: the heat dissipation piece (104) comprises a heat conduction copper pipe (104 a) arranged in the inner cavities of the first heat conduction silica gel pad (102 a) and the second heat conduction silica gel pad (102 b), and a connecting pipe (104 b) arranged at one end of the heat conduction copper pipe (104 a).

5. The battery monitor facilitating heat dissipation as defined in claim 1, wherein: the driving piece (105) comprises a fixing plate (105 a) arranged on one side of the storage battery monitor body (101) and an air pump (105 b) arranged on one side of the fixing plate (105 a).

6. The battery monitor facilitating heat dissipation as defined in claim 1, wherein: the power supply part (106) comprises a power supply bin (106 a) arranged on one side of the storage battery monitor body (101) and a power supply battery (106 b) arranged in the inner cavity of the power supply bin (106 a).

7. The battery monitor facilitating heat dissipation as defined in claim 1, wherein: the installed part (201) is including set up in mounting panel (201 a) at battery monitor body (101) top, and set up in installation piece (201 b) at mounting panel (201 a) top.

8. The battery monitor facilitating heat dissipation as defined in claim 7, wherein: the connecting piece (202) including set up in adapter sleeve (202 a) at mounting panel (201 a) top, and set up in connecting rod (202 b) of battery monitor body (101) bottom.

9. The battery monitor facilitating heat dissipation as defined in claim 8, wherein: the fixing piece (203) comprises a fixing pin (203 a) arranged in the cavity of the connecting sleeve (202 a) and a fixing hole (203 b) arranged in the cavity of the connecting rod (202 b).

10. The battery monitor facilitating heat dissipation as defined in claim 1, wherein: the moving member (204) comprises a connecting block (204 a) arranged on one side of the storage battery monitor body (101) and a handle (204 b) arranged on one side of the connecting block (204 a).

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