KR102203685B1 - Battery embedded thermal panoramic sight - Google Patents

Abstract

It is an object of the present invention to provide a cover to the battery module coupled to the housing of the battery interior in a rotatable integral form, and by rotating the cover, the first fastening part provided in the opening of the housing and the second fastening part provided in the cover are combined with each other. It is to provide a thermal sighting scope with a built-in battery for fastening the battery module to the housing. The built-in battery thermal imaging sight according to an embodiment of the present invention includes a target portion facing a target, an eyepiece facing the user's eye, and a battery embedded portion coupled between the target portion and the eyepiece to embed a battery, and the battery The interior portion is formed with an opening in the side and a housing having a first fastening part in the opening, and inserting the built-in battery into the housing through the opening, and rotating a cover having a second fastening part to rotate the second fastening part. Includes a battery module coupled to one fastening part.

Description

Built-in battery thermal imaging sight {BATTERY EMBEDDED THERMAL PANORAMIC SIGHT}

The present invention relates to a battery-embedded thermal imaging sight, and more particularly, to a battery-embedded thermal imaging sight mounted on or independently carried on military equipment such as a rifle or tank and used for night surveillance.

In general, thermal sights are military equipment developed to observe the movement of the opponent in the absence of light. These thermal sights require a battery, and a commercial battery is used to increase compatibility in case of emergency.

The thermal sight has a battery-embedded part that contains a battery. The battery interior includes a housing connected to another part of the thermal sight and a battery module. A battery module including a plurality of batteries to be coupled is coupled to the housing to provide power required for the thermal sight.

The battery built-in part has a structure in which the battery is built into the battery module, and the battery module is inserted into the housing and then rotated to be fastened to the housing. That is, after inserting the battery module into the housing, pressing the battery module to cover and fix it, or use a separate cover to cover and fasten the battery module.

The structure in which the battery module is pressed and fixed to the housing or the battery module is covered with a separate cover has a disadvantage in that it is difficult to fasten the battery module due to the elastic force of the spring inside the housing in the process of fastening the battery module to the housing.

It is an object of the present invention to provide a cover to the battery module coupled to the housing of the battery interior in a rotatable integral form, and by rotating the cover, the first fastening part provided in the opening of the housing and the second fastening part provided in the cover are combined with each other. It is to provide a thermal sighting scope with a built-in battery for fastening the battery module to the housing.

The built-in battery thermal imaging sight according to an embodiment of the present invention includes a target portion facing a target, an eyepiece facing the user's eye, and a battery embedded portion coupled between the target portion and the eyepiece to embed a battery, and the battery The interior portion is formed with an opening in the side and a housing having a first fastening part in the opening, and inserting the built-in battery into the housing through the opening, and rotating a cover having a second fastening part to rotate the second fastening part. Includes a battery module coupled to one fastening part.

The first fastening portion may be formed with a female screw on the inner surface of the opening, and the second fastening portion may be formed with a male screw on the outer surface of the cover so as to be coupled to the female screw.

The housing may include a first accommodating portion accommodating the battery module, and the battery module may include a second accommodating portion to be inserted corresponding to the first accommodating portion and accommodating the battery.

The first receiving portion and the second receiving portion are coupled to each other in correspondence with each other, a pair of flat areas formed on both sides to be assembled in a set direction, and a first curved surface set to have different lengths between the pair of flat areas It may include a region and a second curved region.

The battery is composed of three cylindrical batteries, accommodated in the second receiving unit and connected in series, and the first receiving unit includes a first terminal connected to the positive electrode of the three cylindrical batteries connected in series, and two of the three It may include a second terminal disposed between the cylindrical batteries and connected to the negative electrode of the battery connected in series.

The second receiving portion is provided between three receiving grooves provided at equal intervals along the circumferential direction to accommodate each of the three cylindrical batteries, and two of the three receiving grooves, and electrically connected to the second terminal. It may include a connecting member.

The second accommodating portion may further include a conductive elastic member electrically and elastically connecting the connection member connected to the second terminal.

Two of the three cylindrical batteries are connected in series in the first receiving part, one cylindrical battery connected in series and the other cylindrical battery are connected in series in the second receiving part, and the other cylindrical battery The first receiving part may be electrically connected to the conductive elastic member.

The battery module may further include an elastic support member mounted on the opposite side of the cover to support a plurality of built-in batteries.

The housing may further include an O-ring provided around the opening and compressed when the cover is coupled.

As described above, in the thermal imaging scope with a built-in battery, the battery module is inserted into the housing and the cover of the battery module is rotated to be fastened to the opening of the housing, so that the battery module can be easily assembled to the housing with a small force.

As described above, according to an exemplary embodiment, it is possible to easily assemble the battery interior, and improve the airtightness of the battery interior (between the cover of the battery module and the opening of the housing).

1 is a schematic diagram of a battery-embedded thermal imaging sight according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view illustrating an internal part of the battery in FIG. 1 by exploding from one side.
FIG. 3 is an exploded perspective view illustrating an internal part of the battery in FIG. 1 by exploding from another side.
4 is an assembly cross-sectional view taken along line IV-IV of FIG. 3.
5 is an inner side view of a housing in the battery interior of FIGS. 2 and 3.
6 is an outer side view of the housing in the battery interior of FIGS. 2 and 3.
7 is a cross-sectional view of the battery module taken along the line VII-VII in FIG. 5.
8 is a cross-sectional view of the battery module taken along line IV-IV of FIG. 3.
FIG. 9 is a perspective view illustrating a series connection structure of batteries in the battery built-in part of FIG. 1.
10 is a side view of a battery module (with an elastic support member) in the battery interior of FIGS. 2 and 3.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and the same reference numerals are assigned to the same or similar components throughout the specification.

1 is a schematic diagram of a battery-embedded thermal imaging sight according to an embodiment of the present invention. Referring to FIG. 1, the thermal imaging sight with a built-in battery in one embodiment is coupled between the target portion 1 facing the target, the eyepiece 2 facing the user's eyes, and the target portion 1 and the eyepiece 2 to save the battery. Including a built-in battery built-in part 3, it is configured to observe the movement of the target in the absence of light.

FIG. 2 is an exploded perspective view showing the internal battery part in FIG. 1 by exploding from one side, and FIG. 3 is an exploded perspective view illustrating the internal battery part in FIG. 1 by exploding from the other side. 1 to 3, the battery built-in part 3 includes a housing 40 and a battery module 50 that is fastened to the housing 40 to contain a battery.

The housing 40 has an opening 41 formed on the side thereof, and a first fastening portion 61 is provided in the opening 41. The opening 41 is provided on the side in a direction crossing the direction of sight leading to the target part 1, the battery interior part 3, and the eyepiece part 2 to separate the battery module 50, and after replacing the battery, the battery module 50 ) Can be combined.

The battery module 50 is inserted into the housing 40 through the opening 41 in a state in which a plurality of batteries are embedded. In this embodiment, three batteries, that is, the first, second, and third batteries B1, B2, and B3, are built into the battery module 50. Compared to four, the battery module 50 can be miniaturized.

4 is an assembly cross-sectional view taken along line IV-IV of FIG. 3. 2 to 4, the battery module 50 includes a cover 51 rotatably provided on one side, and a second fastening portion 62 at an inner end of the cover 51.

Accordingly, since the battery module 50 is inserted into the housing 40 and the cover 51 is rotated, the second fastening part 62 of the cover 51 is coupled to the first fastening part 61 of the opening 41. Accordingly, the battery module 50 incorporating the first, second, and third batteries B1, B2, and B3 is fastened to the housing 40. In addition, when the battery module 50 is coupled to the housing 40 for battery replacement, the possibility of loss of the cover 51 is eliminated.

As an example, the first fastening portion 61 of the opening 41 may be formed of a female screw, and the second fastening portion 62 of the cover 51 may be formed of a male screw coupled to the female screw. That is, since the cover 51 is rotated, the male screw of the second fastening part 62 is fastened to the female screw of the first fastening part 61 by screwing.

Referring back to FIGS. 2 to 4, the housing 40 includes a first accommodating part 42 forming an inner space to accommodate the battery module 50. The battery module 50 includes a second accommodating portion 52 inserted corresponding to the first accommodating portion 42 and accommodating the first, second, and third batteries B1, B2, and B3.

5 is an inner side view of the housing in the battery interior of FIGS. 2 and 3, and FIG. 6 is an outer side view of the housing in the battery interior of FIGS. 2 and 3. 5 and 6, the first receiving portion 42 and the second receiving portion 52 are coupled to correspond to each other. That is, the second accommodating portion 52 is coupled within the first accommodating portion 42.

5, 6, and 10, the first accommodating portion 42 and the second accommodating portion 52 are a pair of flat areas PA, and a pair of flat areas PA so as to be assembled in a set direction. ) And a first curved area CA1 and a second curved area CA2 set to different lengths.

A pair of flat area PA, the first curved area CA1, and the second curved area CA2 include a battery module having a second accommodating portion 52 in the housing 40 of the first accommodating portion 42 ( When assembling 50), incorrect assembly of both can be prevented by setting the assembly possible direction.

After assembling the first, second, and third batteries B1, B2, B3 to the battery module 50 at night without light, when assembling the battery module 50 to the housing 40, a pair of flat surfaces The area PA, the first curved area CA1, and the second curved area CA2 are assembled only in an assembleable direction.

7 is a cross-sectional view of the battery module taken along the line VII-VII in FIG. 5. 4 to 7, the first receiving portion 42 includes a first terminal T1 and a second terminal T2 connected to the outside. The first terminal (T1) and the second terminal (T2) are connected to the battery built-in part (3) through the connector (C), it is possible to supply power to the external required components.

The first terminal T1 is the first battery B1 of the three cylindrical first, second, and third batteries B1, B2 and B3 that are received in the first and second receiving portions 42 and 52 and connected in series. ) Is connected to the anode. The second terminal (T2) is the second of the first, second, and third batteries (B1, B2, B3) connected in series by being disposed between two of the three cylindrical first and second batteries (B1, B2). It is connected to the negative electrode of the battery B2.

The first and second receiving portions 42 and 52 elastically support the positive and negative electrodes of the first, second, and third batteries B1, B2 and B3, respectively, and have conductive elastic members S1 and S2. ), respectively. The elastic members S1, S2 firmly maintain the electrical connection of the first, second, and third batteries B1, B2, B3 within the first and second receiving portions 42 and 52 even under severe conditions of high vibration. Make it possible.

FIG. 8 is a cross-sectional view of the battery module taken along line IV-IV of FIG. 3, FIG. 9 is a perspective view illustrating a series connection structure of batteries in the battery built-in part of FIG. 1, and FIG. 10 is a battery of FIGS. 2 and 3 It is a side view on the battery module (with an elastic support member) in the interior part.

8 to 10, the second accommodating part 52 includes three accommodating grooves 53 and a connecting member 54. The three receiving grooves 53 are provided at equal intervals along the circumferential direction to accommodate the three cylindrical first, second, and third batteries B1, B2 and B3 in the second receiving portion 52, respectively.

The connecting member 54 is provided between the two receiving grooves 53 of the three and is electrically connected to the second terminal T2. The second accommodating part 52 further includes a conductive elastic member 55 electrically and elastically connecting the connection member 54 connected to the second terminal T2.

Accordingly, the second terminal T2 is electrically connected to the second receiving portion 52 through the connection member 54 and the conductive elastic member 55. The conductive elastic member 55 stabilizes the mechanical and electrical connection between the second terminal T2 and the connection member 54 even under severe conditions of high vibration.
Referring to FIG. 9, two of the three cylindrical first, second, and third batteries B1, B2 and B3 are in series with the second and third batteries B2 and B3. Connected (L2), one third battery B3 connected in series and the other first battery B1 are connected in series at the second receiving portion 52 (L1).

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The second battery B2 is electrically connected (L3) to the conductive elastic member 55 in the second receiving portion 52. The conductive elastic member 55 may be stably supported through the retainer 58 and may be electrically connected (L3). Accordingly, the second battery B2 is connected to the second terminal T2 through the connection L3, the conductive elastic member 55 (which may include a retainer), and the connection member 54. Accordingly, the first, second, and third batteries B1, B2, and B3 may be connected in series and electrically connected to the outside of the battery module 50 through the first and second terminals T1 and T2.

The connection (L3), the conductive elastic member 55 and the connection member 54 are the second terminals of the battery module 50 even when the three first, second, and third batteries B1, B2, B3 are used. (T2) can be installed in the same direction as the first terminal (T1).

3, 4 and 10, the battery module 50 further includes an elastic support member 56 mounted on the opposite side of the cover 51 to support a plurality of built-in batteries. When the elastic support member 56 is fixed with a set screw 57 at the end of the second receiving part 52 to attach the second receiving part 52 to the first receiving part 42, the second receiving part 52 ) To prevent the first, second, and third batteries B1, B2, and B3 accommodated in spillage.

The elastic support member 56 stably holds the first, second, and third batteries B1, B2, B3 accommodated in the battery module 50 even in the field and at night, so that the battery module 50 is placed in the housing 40 It can be easily mounted on the first receiving part 42 of the.

In addition, the housing 40 is provided around the opening 41 and has an O-ring 43. When the cover 51 is rotated and coupled to the opening 41, the O-ring 43 is compressed and seals tightly between the opening 41 and the cover 51, thus improving the waterproof performance of the battery interior 3 .

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and it is possible to implement various modifications within the scope of the claims, the description of the invention, and the accompanying drawings. It is natural to fall within the range.

1: target portion 2: eyepiece
3: battery internal part 40: housing
41: opening 42: first receiving portion
43: O-ring 50: battery module
51: cover 52: second receiving portion
53: receiving groove 54: connecting member
55: conductive elastic member 56: elastic support member
57: set screw 58: retainer
61: first fastening part 62: second fastening part
B1: first battery B2: second battery
B3: 3rd battery L1, L2, L3: connection
PA: planar area CA1: first curved area
CA2: second curved area T1: first terminal
T2: 2nd terminal

Claims (10)

A target portion facing the target;
An eyepiece facing the user's eyes; And
A battery-embedded part that is coupled between the target part and the eyepiece to contain a battery
Including,
The battery built-in part
A housing formed with an opening in the side and having a first fastening portion in the opening, and
A battery module that inserts the built-in battery into the housing through the opening and rotates a cover having a second fastening part to couple the second fastening part to the first fastening part
Including,
The housing has a first accommodating portion accommodating the battery module,
The battery module is inserted in correspondence with the first receiving unit and includes a second receiving unit accommodating the battery,
The battery is composed of three cylindrical batteries, accommodated in the second receiving portion 52 and connected in series,
The first receiving part
A first terminal connected to the positive electrode of three cylindrical batteries connected in series, and
A second terminal disposed between two of the three cylindrical batteries and connected to the negative electrode of the battery connected in series
Including,
The second receiving part
Three receiving grooves provided at equal intervals along the circumferential direction to accommodate each of the three cylindrical batteries,
A connection member provided between two of the three receiving grooves and electrically connected to the second terminal, and
A conductive elastic member electrically and elastically connecting the connection member connected to the second terminal
Including,
Two of the three cylindrical batteries
Connected in series at the first receiving part,
One cylindrical battery connected in series and the other cylindrical battery are connected in series at the second receiving part,
The other cylindrical battery
Built-in battery thermal sighting scope electrically connected to the conductive elastic member in the second receiving portion. The method of claim 1,
The first fastening portion is formed by a female screw on the inner surface of the opening,
The second fastening portion is formed with a male screw on the outer surface of the cover so as to be coupled to the female screw
Built-in battery thermal sights. delete The method of claim 1,
The first receiving portion and the second receiving portion
Are combined in correspondence with each other,
A pair of flat areas formed on both sides to be assembled in a set direction, and
A first curved area and a second curved area set to different lengths between the pair of flat areas
Including a built-in battery thermal imaging sight. delete delete delete delete The method of claim 1,
The battery module is
An elastic support member mounted on the opposite side of the cover to support a plurality of built-in batteries
Built-in battery thermal sight further comprising a. The method of claim 1,
The housing is
Built-in battery thermal sights further comprising an O-ring provided around the opening and compressed when the cover is coupled.

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