CN211783498U - Range finding laser compass - Google Patents

Abstract

A distance measuring laser compass, the utility model relates to the technical field of building auxiliary tools, a second laser lamp rotator is screwed on a side wall of a compass shell by utilizing a rotating shaft on the side wall, a second laser lamp is embedded in the second laser lamp rotator, and a transmitting end of the second laser lamp penetrates through a laser transmitting hole arranged on the front side wall of the second laser lamp rotator; the distance measuring instrument mounting frame is fixed on one side wall of the compass shell, opposite to the second laser lamp rotating body, a distance measuring instrument is embedded in the distance measuring instrument mounting frame, and a transmitting end of the distance measuring instrument penetrates through a distance measuring transmitting hole formed in the front side wall of the distance measuring instrument mounting frame; above-mentioned laser lamp, No. two laser lamps and distancer all utilize the power interface to be connected with external power source, combine the distance measurement on the basis of direction location, effectively realize the high efficiency remote accurate location to modern building.

Description

Range finding laser compass

Technical Field

The utility model relates to a building appurtenance technical field, concretely relates to range finding laser compass.

Background

In the construction industry, compasses are required for locating buildings. The existing compass only has direction positioning, does not have the effect of distance measurement, cannot combine the distance measurement with the direction positioning, and needs to be improved urgently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide a reasonable in design's range finding laser compass, combine the distance measurement on the basis of direction location, effectively realize the remote accurate location to modern building of high efficiency.

In order to achieve the above purpose, the utility model adopts the following technical proposal: the compass comprises a compass panel, a compass shell, an aluminum disc, a bearing, a first laser lamp and a rotary supporting fixing frame; an aluminum disc is movably arranged in a circular groove formed in an upper shell of the compass shell, a compass panel is fixed on the upper surface of the aluminum disc, a compass is fixed in the compass panel in a concentric manner, the bottom surface of the aluminum disc is fixedly connected with an inner ring of a bearing, the bearing passes through the compass shell and is connected with an upper cylinder of a rotary supporting and fixing frame, and the upper cylinder of the rotary supporting and fixing frame is fixedly connected with a lower inner ring of the bearing; the outer ring of the bearing is fixed on the bottom shell of the compass shell; a first laser lamp placing block is integrally formed in a groove body formed in the center of an upper shell of the compass shell, and a first laser lamp is embedded in an opening in the first laser lamp placing block; the laser range finder also comprises a second laser lamp rotating body, a second laser lamp, a range finder mounting frame and a range finder; the second laser lamp rotating body is rotatably connected to one side wall of the compass shell by a rotating shaft on the side wall of the second laser lamp rotating body, a second laser lamp is embedded in the second laser lamp rotating body, and the emitting end of the second laser lamp penetrates through a laser emitting hole formed in the front side wall of the second laser lamp rotating body; the distance measuring instrument mounting frame is fixed on one side wall of the compass shell, opposite to the second laser lamp rotating body, a distance measuring instrument is embedded in the distance measuring instrument mounting frame, and a transmitting end of the distance measuring instrument penetrates through a distance measuring transmitting hole formed in the front side wall of the distance measuring instrument mounting frame; above-mentioned laser lamp, No. two laser lamps and distancer all utilize the power interface to be connected with external power source, and the control switch of above-mentioned control laser lamp, No. two laser lamps and distancer all inlays the drain pan bottom of establishing at compass casing, and above-mentioned power interface inlays the drain pan bottom of establishing at compass casing.

Furthermore, a plurality of circles of ribs are integrally formed on the compass shell in the circular groove, and the aluminum disc is movably erected on the ribs.

Furthermore, the outer ring of the bearing is fixed on the bottom shell of the compass shell by using a bearing mounting seat.

Furthermore, the upper end of the bearing is fixedly connected with the bottom surface of the aluminum disc by a bearing end cover.

Furthermore, the tail end of the second laser lamp rotator is of an open structure, and a rear end cover is fixedly arranged on the upper movable cover.

Furthermore, the range finder mounting bracket is of an up-and-down through opening type structure, and a lower end cover is arranged and fixed on an upper cover of an opening at the lower end of the range finder mounting bracket.

After the structure is adopted, the beneficial effects of the utility model are that: the utility model provides a range finding laser compass combines distance measurement on the basis of direction location, effectively realizes the remote accurate location to modern building of high efficiency.

Description of the drawings:

fig. 1 is an exploded view of the present invention.

Fig. 2 is a schematic view of the upper surface structure of the compass casing of the present invention.

Fig. 3 is an exploded view of the connection of the bearing, the bearing cap and the bearing mount of the present invention.

Description of reference numerals:

compass panel 1, compass 2, compass housing 3, circular groove 3-1, ribbing 3-2, laser lamp arrangement block 3-3, aluminium disc 4, bearing 5, laser lamp 6, rotation support mount 7, laser lamp rotator 8 No. two, rear end cap 8-1, rotation axis 8-2, laser emission hole 8-3, laser lamp 9 No. two, distancer mounting bracket 10, distancer emission hole 10-1, lower end cap 10-2, distancer 11, bearing mount 12, ear hole 12-1, bearing end cap 13.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to fig. 3, the following technical solutions are adopted in the present embodiment: the compass comprises a compass panel 1, a compass 2, a compass shell 3, an aluminum disc 4, a bearing 5, a first laser lamp 6 and a rotary supporting fixing frame 7; a circular groove 3-1 is arranged in the upper shell of the compass shell 3, a horizontal bead is embedded in the upper shell of the compass shell 3 positioned at one side of the circular groove 3-1, two circles of ribs 3-2 arranged in a concentric circle are integrally formed on the compass shell 3 in the circular groove 3-1, an aluminum disc 4 is movably erected on the ribs 3-2, a compass panel 1 is fixedly connected on the upper surface of the aluminum disc 4 by screws, a compass 2 is fixedly arranged in the compass panel 1 in a concentric circle, the bottom surface of the aluminum disc 4 is fixedly connected with the inner ring of the bearing 5 by a bearing end cover 13 (the bearing end cover 13 is fixedly welded on the upper end of the inner ring of the bearing 5, the aluminum disc 4 is fixedly connected with the bearing end cover 13 by screws), and after the bearing 5 passes through the compass shell 3, the upper cylinder of the rotary supporting and fixing frame 7 is connected with the upper cylinder of the rotary supporting and fixing frame 7, and the upper cylinder of the rotary supporting and fixing frame 7 is welded and fixed with the lower end inner ring of the bearing 5; the outer ring of the bearing 5 is fixed on the bottom shell of the compass shell 3 by a bearing mounting seat 12 (the bearing mounting seat 12 is fixed on the bottom shell of the compass shell 3 by the matching connection of an ear hole 12-1 and a screw); a first laser lamp placing block 3-3 is integrally formed in a groove body formed in the center of the upper shell of the compass shell 3, and a first laser lamp 6 is embedded in an opening in the first laser lamp placing block 3-3; the laser range finder also comprises a second laser lamp rotating body 8, a second laser lamp 9, a range finder mounting frame 10 and a range finder 11; the second laser lamp rotating body 8 is screwed on one side wall of the compass shell 3 by using a rotating shaft 8-2 on the side wall, a second laser lamp 9 is embedded in the second laser lamp rotating body 8, the tail end of the second laser lamp rotating body 8 is of an open structure, a rear end cover 8-1 is movably covered on the second laser lamp rotating body and is fixedly riveted by using a screw, and the emitting end of the second laser lamp 9 penetrates through a laser emitting hole 8-3 formed in the front side wall of the second laser lamp rotating body 8; the range finder mounting rack 10 is integrally formed on one side wall of the compass shell 3 opposite to the second laser lamp rotating body 8, the range finder mounting rack 10 is of an up-and-down through opening type structure, a lower end opening of the range finder mounting rack 10 is covered and fixedly riveted with a lower end cover 10-2 by using a screw, a range finder 11 is embedded in the range finder mounting rack 10, and a transmitting end of the range finder 11 penetrates through a range finding transmitting hole 10-1 formed in the front side wall of the range finder mounting rack 10; above-mentioned laser lamp 6, No. two laser lamps 9 and distancer 11 all utilize the power interface to be connected with external power source, and the control switch of above-mentioned control laser lamp 6, No. two laser lamps 9 and distancer 11 all inlays and establishes in compass casing 3's drain pan bottom, and above-mentioned power interface inlays and establishes in compass casing 3's drain pan bottom.

The working principle of the specific embodiment is as follows: when the compass panel 1 needs to rotate, the compass housing 3 is held by hands, the compass panel 1 is pulled, the compass panel 1 rotates 360 degrees under the rotation of the inner ring of the bearing 5, and the compass housing 3 does not rotate at the moment; when the compass shell 3 needs to rotate, the whole body is fixed on a support frame (not shown in the figure) by utilizing a rotary support fixing frame 7, the compass shell 3 is pulled, the compass shell 3 rotates for 360 degrees under the rotation of the outer ring of the bearing 5, and the compass panel 1 does not rotate at the moment; the first laser lamp 6 arranged beside the center of the compass shell 3 emits a vertical line, and the second laser lamp 9 positioned in the second laser lamp rotating body 8 can rotate 360 degrees under the action of the rotating shaft 8-2 to emit a ray which hits any part on the ground, so that more accurate direction positioning is achieved; the laser light source projected from the range finder 11 can accurately display the room shadow number, the length, the height, the width, the number of meters and the like on the range finder display screen, so that the building object can be positioned accurately.

After adopting above-mentioned structure, this embodiment's beneficial effect is: this embodiment provides a range finding laser compass, combines distance measurement on the basis of direction location, effectively realizes the remote accurate location to modern building of high efficiency.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. A distance measuring laser compass comprises a compass panel (1), a compass (2), a compass shell (3), an aluminum disc (4), a bearing (5), a first laser lamp (6) and a rotary supporting fixing frame (7); an aluminum disc (4) is movably arranged in a circular groove (3-1) formed in an upper shell of the compass shell (3), a compass panel (1) is fixed on the upper surface of the aluminum disc (4), a compass (2) is concentrically fixed in the compass panel (1), the bottom surface of the aluminum disc (4) is fixedly connected with an inner ring of a bearing (5), the bearing (5) penetrates through the compass shell (3) and is connected with an upper cylinder of a rotary supporting fixing frame (7), and the upper cylinder of the rotary supporting fixing frame (7) is fixedly connected with an inner ring at the lower end of the bearing (5); the outer ring of the bearing (5) is fixed on the bottom shell of the compass shell (3); a first laser lamp placing block (3-3) is integrally formed in a groove body formed in the center of an upper shell of the compass shell (3), and a first laser lamp (6) is embedded in an opening in the first laser lamp placing block (3-3);

the method is characterized in that: the laser range finder also comprises a second laser lamp rotating body (8), a second laser lamp (9), a range finder mounting frame (10) and a range finder (11); the second laser lamp rotating body (8) is rotatably connected to one side wall of the compass shell (3) through a rotating shaft (8-2) on the side wall of the second laser lamp rotating body, a second laser lamp (9) is embedded in the second laser lamp rotating body (8), and the transmitting end of the second laser lamp (9) penetrates through a laser transmitting hole (8-3) formed in the front side wall of the second laser lamp rotating body (8); the distance measuring instrument mounting frame (10) is fixed on one side wall, opposite to the second laser lamp rotating body (8), in the compass shell (3), a distance measuring instrument (11) is embedded in the distance measuring instrument mounting frame (10), and the transmitting end of the distance measuring instrument (11) penetrates through a distance measuring transmitting hole (10-1) formed in the front side wall of the distance measuring instrument mounting frame (10); above-mentioned laser lamp (6), No. two laser lamps (9) and distancer (11) all utilize the power interface to be connected with external power source, and the control switch of controlling above-mentioned laser lamp (6), No. two laser lamps (9) and distancer (11) all inlays the drain pan bottom of establishing at compass casing (3), and above-mentioned power interface inlays the drain pan bottom of establishing at compass casing (3).

2. A ranging laser compass according to claim 1, characterized in that: a compass shell (3) in the circular groove (3-1) is integrally formed with a plurality of circles of ribs (3-2), and an aluminum disc (4) is movably erected on the ribs (3-2).

3. A ranging laser compass according to claim 1, characterized in that: the outer ring of the bearing (5) is fixed on the bottom shell of the compass shell (3) by a bearing mounting seat (12).

4. A ranging laser compass according to claim 1, characterized in that: the upper end of the bearing (5) is fixedly connected with the bottom surface of the aluminum disc (4) by a bearing end cover (13).

5. A ranging laser compass according to claim 1, characterized in that: the tail end of the second laser lamp rotating body (8) is of an open structure, and a rear end cover (8-1) is fixedly arranged on the upper movable cover.

6. A ranging laser compass according to claim 1, characterized in that: the range finder mounting frame (10) is of an up-and-down through open structure, and a lower end cover (10-2) is arranged and fixed on an upper cover of an opening at the lower end of the range finder mounting frame.

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