DE202023103202U1 - Laser distance measuring device for use on an infrared thermal imaging camera - Google Patents

Abstract

Laser distance measuring device for use on an infrared thermal imaging camera, characterized in that it comprises a housing (1), a circuit processing module (2) arranged at one end within the housing (1) and an end within the housing (2) remote from the circuit processing module (2). 1) arranged optical system module (3), wherein the housing (1) comprises a mounting head piece (101) arranged at one end of the housing (1) and a mounting end piece (102 ) includes.

Description

technical field

The present utility model relates to the technical field of laser distance measuring devices, in particular to a laser distance measuring device for use on an infrared thermal imaging camera.

State of the art

When using the infrared thermal imager scope, for accurate shooting, it is usually equipped with a laser distance measuring device to detect the target distance. Currently, most infrared thermal imagers use an external laser range finder and a few use an internal laser range finder. The external laser distance measuring device is such a stand-alone laser distance measuring device that is loosely hung and fastened to the outside of the housing of the thermal imaging camera.

Accuracy and convenience as well as a coordinated appearance are required for the use of laser distance measuring equipment. The external laser distance meter usually has a bulky outline and requires independent buttons for its operation, while the disadvantage of the internal laser distance meter is that it is difficult to adjust the optical axis, resulting in poor usability of the laser distance meter.

Disclosure of Utility Model

The object of the present utility model is to provide a laser distance measuring device for use on an infrared thermal imager to solve the problems encountered in the above-mentioned background art.

The problem is solved by the following technical solutions in the present utility model: A laser distance measuring device for use on an infrared thermal imaging camera is provided, which has a housing, a circuit processing module arranged at one end within the housing and a circuit processing module at an end remote from the circuit processing module within the housing arranged optical system module comprises, wherein the housing
a mounting header located at one end of the housing and a mounting tail located at an end of the housing remote from the mounting header.

Preferably, the circuit processing module is provided with a plurality of sets of mounting posts inside on the outside, the circuit processing module is provided with a protective cover at one end near the housing, the mounting end piece is provided with a mounting frame at one end inside the housing, the mounting frame in the is internally provided with an infrared sensing and perception module and the mounting frame is provided with a central groove at an end remote from the mounting tail.

Preferably, the mounting head is internally provided with an adapter bracket at one end, the adapter bracket is provided with a mounting slot on the inside, an optical lens is inserted into the mounting slot, and a mounting frame is inserted into the mounting slot at the top, the mounting frame inside is provided with a laser distance meter body, the laser distance meter body is provided with a laser receiving head on one side at one end and the laser distance meter body is provided with a laser sending head on a side remote from the laser receiving head at the same end, and the optical system module is outside with a provided with a support frame.

Preferably, the housing is externally provided with a plurality of sets of tabs, the housing is internally provided with a mounting receptacle, and the mounting end piece is provided at one end externally with a locking slot, the mounting end piece being detachably connected to the housing via the locking slot is.

Preferably, the mounting end is internally provided with a plurality of sets of mounting holes, the mounting post is detachably connected to the mounting end through the mounting hole, and the circuit processing module is detachably connected to the mounting end through the mounting post.

Preferably, the protective cover is internally provided with a plurality of sets of fastening bolts, the protective cover being detachably connected to the circuit processing module via the fastening bolts, and the infrared sensing and sensing module being detachably connected to the mounting end piece via the mounting frame.

Preferably, the infrared sensing and sensing module is provided with a lead terminal at one end near the circuit processing module, the infrared The sensing and sensing module is connected to the circuit processing module through a signal line, and the optical system module is detachably connected to the mounting frame at one end through the groove.

Preferably, the optical system module is detachably connected to the housing via the support frame, and the mounting header is provided with a mounting slot on the outside, the mounting header being detachably connected to the optical system module via the mounting slot. Preferably, the optical system module is internally provided with a locking slot, the adapter bracket is detachably connected to the mounting header through the locking slot, and the optical lens is detachably connected to the adapter bracket through the mounting slot.

Preferably, the mounting frame is provided with a plurality of sets of mounting bolts at one end, the laser distance meter body being detachably connected to the mounting frame via the mounting bolt, and the laser distance meter body being detachably connected to the adapter bracket via the mounting frame.

• Durch das vorliegende Gebrauchsmuster wird der Laserdistanzmesseinrichtungskörper beim optischen Zusammenbau über die Adapterhalterung im gesamten optischen Systemmodul angebracht, und dann wird das optische Systemmodul, das eine Laserdistanzmesseinrichtung umfasst, innerhalb des Gehäuses angebracht, und das infrarote Erfassungs- und Wahrnehmungsmodul und das Schaltungsverarbeitungsmodul werden durch den strukturellen Teil innerhalb des Gehäuses angebracht, und gleichzeitig wird das Übertragungskabel des Laserdistanzmesseinrichtungskörpers mit dem Schaltungsverarbeitungsmodul verbunden, so dass das Schaltungsverarbeitungsmodul die vom Laserdistanzmesseinrichtungskörper erfassten Informationen über die Zieldistanz empfangen kann. Da darüber hinaus der Laserdistanzmesseinrichtungskörper und das gesamte infrarot-optische Systemmodul koaxial zusammengebaut sind, kann es gewährleistet werden, dass der Lasersendekopf, der Laserempfangskopf des Laserdistanzmesseinrichtungskörpers und die optische Achsenmitte des infrarot-optischen Systemmoduls bei der ursprünglichen Zusammenbaulage sehr geringe koaxiale Abweichungen aufweisen, so dass die durch die interne Distanzmesseinrichtung verursachten Unannehmlichkeit bei der Einstellung der optischen Achse erheblich reduzieren kann. Da dieser Zusammenbau nicht den Außenraum des Gehäuses einnimmt, wird die Gesamtkontur des Zielfernrohrs nicht beeinträchtigt, was sicherstellt, dass es ein gutes Erscheinungsbild und eine gute Größe aufweisen kann, und zu einer besseren Benutzerfreundlichkeit der Laserdistanzmesseinrichtung führt.

Compared to the prior art, the advantageous effects of the present utility model are as follows:

• By the present utility model, the laser distance measuring device body is installed in the optical system assembly via the adapter bracket throughout the optical system module, and then the optical system module including a laser distance measuring device is installed inside the housing, and the infrared detection and sensing module and the circuit processing module are installed through the structural Part mounted inside the housing, and at the same time, the transmission cable of the laser distance meter body is connected to the circuit processing module, so that the circuit processing module can receive the information on the target distance detected by the laser distance meter body. In addition, since the laser distance measuring device body and the entire infrared optical system module are assembled coaxially, it can be ensured that the laser transmission head, the laser receiving head of the laser distance measuring device body and the optical axis center of the infrared optical system module in the original assembling position have very little coaxial deviation, so that can greatly reduce the inconvenience caused by the internal distance measuring device when adjusting the optical axis. Since this assembly does not occupy the exterior space of the housing, the overall outline of the scope is not affected, which ensures that it can have a good appearance and size, and leads to better user-friendliness of the laser distance meter.

character list

• 1 ist eine schematische Darstellung der Struktur des vorliegenden Gebrauchsmusters;
• 2 ist eine Schnittansicht des vorliegenden Gebrauchsmusters;
• 3 ist eine schematische Darstellung der internen Struktur des vorliegenden Gebrauchsmusters;
• 4 ist eine Hauptansicht des vorliegenden Gebrauchsmusters.

In order to better illustrate the technical solutions in the exemplary embodiments of the present application, a brief description of the drawings required for the description of the exemplary embodiments is given below. Of course, the drawings described below are some exemplary embodiments of the present application, and other drawings can be made by those skilled in the art based on the drawings without creative effort. Throughout the drawings, similar components or parts will generally be identified by similar reference numbers. In the drawings, components or parts are not necessarily shown to scale.

• 1 Fig. 12 is a schematic representation of the structure of the present utility model;
• 2 Fig. 12 is a sectional view of the present utility model;
• 3 Fig. 12 is a schematic representation of the internal structure of the present utility model;
• 4 Fig. 12 is a main view of the present utility model.

Reference List

1

Housing;

101

mounting head;

102

mounting tail;

203

circuit processing module;

201

mounting post;

202

protective cover; mounting frame;

204

infrared acquisition and perception module;

205

groove;

3

optical system module;

301

adapter bracket;

302

mounting slot;

303

optical lens;

304

mounting frame;

305

laser distance meter body;

306

laser receiving head;

307

laser transmitter head;

308

support frame.

Detailed Description of Embodiments

In order to make the technical means, the design features, the goals achieved and the effectiveness of the present utility model easily understandable and comprehensible, the present utility model is further explained in the following in connection with the specific embodiments.

In the description of the present utility model, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "at two ends", "at one end", Directional or positional relationship indicated "At the other end", etc. is based on the directional or positional relationship shown in the drawings. These terms are only used to facilitate the description of the present utility model and to simplify the description, rather than to indicate or imply that the named device or component must have a specific orientation and be constructed and operated in a specific orientation, and therefore should not be understood as a limitation of the present utility model. Additionally, the terms "first" and "second" are for descriptive purposes only and are not intended to indicate or imply relative importance.

In the description of the present utility model, it should be noted that the terms "attach", "provided with", "connect", etc. are to be understood in a broad sense unless expressly stated otherwise and limited, for example, "connecting" can mean a fixed , be a detachable or an integrated connection, be a mechanical or an electrical connection, be a direct connection or an indirect connection via an intermediate medium, be a connection within two components. A person skilled in the art can understand the specific meaning of the above terms in the present utility model under the specific circumstances.

The technical solutions in the embodiments of the present utility model will be described below clearly and fully in conjunction with the drawings in the embodiments of the present utility model. Of course, the described embodiments are only a part of the embodiments of the present utility model and not all. Based on the embodiments of the present utility model, all other embodiments obtained by a person skilled in the art without creative work fall within the scope of the present utility model.

Referring to the 1 until 4 is an embodiment provided by the present utility model of a laser distance measuring device used on an infrared thermal imaging camera as follows: a laser distance measuring device for use on an infrared thermal imaging camera, comprising a housing 1, a circuit processing module 2 arranged at one end within the housing 1, and a circuit processing module 2 at one end Circuit processing module 2 at an end remote from the housing 1, the housing 1 comprising a mounting header 101 located at an end of the housing 1 and a mounting tail 102 located at an end of the housing 1 remote from the mounting head 101.

With special reference to the 1 , 2 and 3 the circuit processing module 2 is provided with multiple sets of mounting posts 201, the circuit processing module 2 is provided with a protective cover 202 at one end near the housing 1, thereby achieving a separation between the circuit processing module 2 and the infrared detection and perception module 204, so that the interior of the facility is divided, with the electric circuit processing module 2 responsible for processing the infrared thermal image information received from the infrared detection and perception module 204, as well as the distance information detected by the laser distance measuring device, which are then processed by software algorithms, thereby achieving the purpose can help users to shoot and aim accurately based on the distance information, so that the laser distance meter is safer to use, the mounting end piece 102 is provided with a mounting frame 203 at one end inside the housing 1, the mounting frame 203 inside is provided with an infrared detection and detection module 204, the infrared detection and detection module 204 being responsible for receiving and processing thermal information, and the mounting frame 203 is provided with a groove 205 in the middle at an end remote from the mounting end piece 102 .

With special reference to the 1 , 2 and 4 is the mounting head piece 101 is provided with an adapter bracket 301, the adapter bracket 301 being provided with a mounting slot 302 on the inside, wherein an optical lens 303 is inserted into the mounting slot 302, whereby the attachment of the optical lens 303 to the adapter bracket 301 through the mounting slot 302 is facilitated , and a fixing frame 304 is inserted into the mounting slot 302 at the top, the fixing frame 304 being provided inside with a laser distance measuring device body 305, whereby the laser distance measuring device body 305 is fixed and the laser distance measuring device body 305 is responsible for performing the function of detecting the target distance, the laser distance meter body 305 is provided with a laser receiving head 306 on one side at one end, and the laser distance meter body 305 is provided with a laser sending head 307 on a side remote from the laser receiving head 306 at the same end.

With special reference to the 1 , 2 and 4 the housing 1 is provided with multiple sets of tabs on the outside, the housing 1 is provided with a mounting case inside, and the mounting end piece 102 is provided at one end on the outside with a locking slot, the mounting end piece 102 being detachable via the locking slot with is connected to the housing 1, whereby the mounting end piece 102 is fixedly attached to the housing 1 via the locking slot. The mounting end piece 102 is provided with multiple sets of mounting holes inside, the mounting post 201 is detachably connected to the mounting end 102 through the mounting hole, and the circuit processing module 2 is detachably connected to the mounting end 102 through the mounting post 201, thereby allowing the circuit processing module 2 to be fixed in place is achieved at the mounting end piece 102. The protective cover 202 is provided with multiple sets of fastening bolts inside, the protective cover 202 is detachably connected to the circuit processing module 2 via the fastening bolts, whereby the protective cover 202 is attached to the circuit processing module 2, and the infrared detection and perception module 204 is over the mounting frame 203 is removably connected to the mounting end piece 102 whereby the infrared sensing and perception module 204 is attached to the mounting end piece 102. The infrared detection and perception module 204 is provided with a line terminal at one end near the circuit processing module 2, the infrared detection and perception module 204 is connected to the circuit processing module (2) via a signal line, which facilitates that the infrared thermal imaging information and the distance information detected by the laser distance measuring device is transmitted to the circuit processing module 2, and the optical system module 3 is detachably connected to the mounting frame 203 via the groove 205 at one end.

With special reference to the 1 , 2 and 3 the optical system module 3 is detachably connected to the housing 1 via the support frame 308, whereby the optical system module 3 is fixedly attached to the housing 1 via the support frame 308, and the mounting header 101 is provided with a mounting slot on the outside, the mounting header 101 via the mounting slot is detachably connected to the optical system module 3, whereby the mounting header 101 is attached to the optical system module 3 through the mounting slot, and one end of the optical system module 3 can be protected by the mounting header 101. The optical system module 3 is provided with a locking slot inside, the adapter bracket 301 is detachably connected to the optical system module 3 through the locking slot, and the optical lens 303 is detachably connected to the adapter bracket 301 through the mounting slot 302, whereby the optical lens 303 is connected via the mounting slot 302 is attached to the adapter bracket 301. The mounting frame 304 is provided with multiple sets of mounting bolts at one end, and the laser distance meter body 305 is detachably connected to the mounting frame 304 via the mounting bolt, whereby the laser distance meter body 305 is fixed to the mounting frame 304, which facilitates the detection of the target distance performed and the laser distance meter body 305 is detachably connected to the adapter bracket 301 via the mounting frame 304 . The operation is as follows: When using the present utility model, the circuit processing module 2 is attached via the mounting post 201 inside the mounting end piece 102, the mounting end piece 102 is attached to the housing 1 via the locking slot, the infrared detection and perception module 204 is attached via the mounting frame 203 on the Mounting end piece 102 attached, the optical system module 3 is attached via the support frame 308 inside the housing 1, and the optical system module 3 is engaged at one end in the groove 205, the optical lens 302 and the laser distance meter body 305 are attached inside the adapter bracket 301 and the Adapter bracket 301 is attached via the locking slot inside the optical system module 3, thereby achieving assembly of the laser distance meter. A mounting hole is placed in the center of the first optical lens 303 of the optical system module 3 to ensure the attachment of the rotation support 301 of the optical lens 303 . The laser distance measuring device body 305 is installed in the entire optical system module 3 in the optical assembly via the adapter bracket 301, and then the optical system module 3, which includes a laser distance measuring device, is installed inside the housing 1, and the infrared detection and perception module 204 and the circuit processing module 2 become through the structural part inside the housing 1, and at the same time, the transmission cable of the laser distance meter body 305 is connected to the circuit processing module 2, so that the circuit processing module 2 can receive the information on the target distance detected by the laser distance meter body 305. In addition, since the laser distance measuring device body 305 and the entire infrared optical system module 3 are assembled coaxially, it can be ensured that the laser transmission head 307, the laser receiving head 306 of the laser distance measuring device body 305 and the optical axis center of the infrared optical system module 3 in the original assembling position are very small have coaxial deviations, so that the inconvenience caused by the internal distance measuring device can greatly reduce the optical axis adjustment. Since this assembly does not occupy the exterior space of the housing, the overall outline of the scope is not affected, which ensures that it can have a good appearance and size, and leads to better user-friendliness of the laser distance meter.

The above are just examples of the present utility model, and general knowledge such as specific structure and properties known in the solution will not be described excessively here. It is apparent to those skilled in the art that the present utility model is not limited to the details of the exemplary embodiments described above and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics of the present utility model. Therefore, the embodiments are to be considered in all respects as illustrative and not restrictive, and the scope of the present utility model is limited by the appended claims rather than the above description and is therefore intended to cover all variations within the present utility model that fall within the meaning and scope of the equivalent elements of the claims. Any reference signs in the claims should not be construed as limiting the claims concerned.

Claims (10)

Laser distance measuring device for use on an infrared thermal imaging camera, characterized in that it comprises a housing (1), a circuit processing module (2) arranged at one end within the housing (1) and an end within the housing (2) remote from the circuit processing module (2). 1) arranged optical system module (3), wherein the housing (1) comprises a mounting head piece (101) arranged at one end of the housing (1) and a mounting end piece (102 ) includes. Laser distance measuring device for use with an infrared thermal imaging camera claim 1 , characterized in that the circuit processing module (2) is provided with a plurality of sets of mounting posts (201) inside on the outside, the circuit processing module (2) is provided with a protective cover (202) at one end near the housing (1). , the mounting end piece (102) is provided at one end within the housing (1) with a mounting frame (203), the mounting frame (203) being provided internally with an infrared detection and perception module (204), and the mounting frame (203) is centrally provided with a groove (205) at an end remote from the mounting end piece (102). Laser distance measuring device for use with an infrared thermal imaging camera claim 2 , characterized in that the mounting head piece (101) is provided at one end with an adapter mount (301) on the inside, the adapter mount (301) being provided with a mounting slot (302) on the inside, with a optical lens (303) is inserted and in the mounting slot (302) a fixing frame (304) is fitted at the top, the fixing frame (304) being provided with a laser distance meter body (305) inside, the laser distance meter body (305) on a side is provided with a laser receiving head (306) at one end and the laser distance measuring device body (305) is provided with a laser transmitting head (307) at a side remote from the laser receiving head (306) at the same end, and that the optical system module (3) on the outside is provided with a support frame (308). Laser distance measuring device for use with an infrared thermal imaging camera Claim 1 characterized in that the housing (1) is externally provided with a plurality of sets of tabs, the housing (1) is internally provided with a mounting box, and the mounting end piece (102) is externally provided with a locking slot at one end wherein the mounting end piece (102) is detachably connected to the housing (1) via the locking slot. Laser distance measuring device for use with an infrared thermal imaging camera claim 2 , characterized in that the mounting end piece (102) is internally provided with a plurality of sets of mounting holes, the mounting post (201) is detachably connected to the mounting end piece (102) via the mounting hole and the circuit processing module (2) via the mounting post (201) removably connected to the mounting end piece (102). Laser distance measuring device for use with an infrared thermal imaging camera claim 2 , characterized in that the protective cover (202) is provided internally with a plurality of sets of fastening bolts, the protective cover (202) being detachably connected to the circuit processing module (2) via the fastening bolts, and in that the infrared detection and perception module (204) is detachably connected to the mounting end piece (102) via the mounting frame (203). Laser distance measuring device for use with an infrared thermal imaging camera claim 2 , characterized in that the infrared sensing and sensing module (204) is provided with a wire terminal at an end near the circuit processing module (2), the infrared sensing and sensing module (204) connected to the circuit processing module (2) via a signal line and the optical system module (3) is detachably connected to the mounting frame (203) at one end via the groove (205). Laser distance measuring device for use with an infrared thermal imaging camera claim 3 , characterized in that the optical system module (3) is detachably connected to the housing (1) via the support frame (308), and the mounting head piece (101) is provided on the outside with a fastening slot, the mounting head piece (101) being connected via the Mounting slot is detachably connected to the optical system module (3). Laser distance measuring device for use with an infrared thermal imaging camera claim 3 , characterized in that the optical system module (3) is provided with a locking slot on the inside, the adapter bracket (301) being detachably connected to the optical system module (3) via the locking slot and the optical lens (303) being connected via the mounting slot (302 ) is detachably connected to the adapter bracket (301). Laser distance measuring device for use with an infrared thermal imaging camera claim 3 , characterized in that the fixing frame (304) is provided with a plurality of sets of mounting bolts at one end, the laser distance measuring device body (305) being detachably connected to the fixing frame (304) via the mounting bolt and the laser distance measuring device body (305) being connected via the fixing frame (304 ) is detachably connected to the adapter bracket (301).

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