CN213986815U - Infrared range finder - Google Patents

Abstract

An infrared distance meter relates to the technical field of distance meters and solves the problem of falling intolerance, and comprises a protective shell, a shock absorption plate and a distance measurement main body arranged in the protective shell, wherein a rubber layer is arranged on the outer surface of the protective shell, a window is arranged on the protective shell corresponding to the distance measurement main body, the shock absorption plate is arranged on the left side and the right side of the inner wall of the protective shell, the distance measurement main body is arranged between the left shock absorption plate and the right shock absorption plate, the shock absorption plate comprises a shell, a first connecting column is arranged on a first plate of the shell, the first connecting column penetrates through a first structural plate, a first shock insulation cushion and a second shock insulation cushion are sleeved on the first connecting column, the first structural plate is arranged between the first shock insulation cushion and the second shock insulation cushion, a second connecting column is arranged on the first structural plate, the second connecting column penetrates through a second structural plate, a fourth shock insulation cushion and a fifth shock insulation cushion are sleeved on the second connecting column, the second structural plate is arranged between the fourth shock insulation cushion and the fifth shock insulation cushion, a third connecting column connected with the second plate is arranged on the second structural plate, and a sixth shock insulation cushion is sleeved on the third connecting column. The utility model discloses it is good to prevent falling the performance.

Description

Infrared range finder

Technical Field

The utility model relates to a distancer technical field, concretely relates to infrared distance measuring instrument.

Background

The distancer is utilizing light, sound, electromagnetic wave reflection, characteristics such as interference, and the design be used for length, distance measurement's instrument, novel distancer is on length measurement's basis, can utilize length measurement result, other parameters such as the area to the target of awaiting measuring, the girth, the volume, the quality carry out scientific calculation, in engineering application, GIS investigation, fields such as military all have very wide range of application, common distancer can divide into the short distance from the range, medium range and elevation distancer, when carrying out distance measurement, common portable distancer prevents that the effect is unsatisfactory, lead to the distancer to be broken because of the operating accident easily, produce more apparatus maintenance and change expense, produce unnecessary economic loss, the measurement process of dragging easily, staff's work burden has been increased, bring very big inconvenience for the user.

The most common length measuring instruments are steel tape, infrared distance measuring instruments and the like, and with the continuous development of the society, the infrared distance measuring instruments become the main force of the measuring instruments. Common infrared rangefinder all lacks protection device, and is very intolerant to falling, probably because once fall just directly lead to unable normal use, the thing that infrared rangefinder was fallen is often not fresh when using infrared rangefinder, and the condition that can't use after being fallen also takes place occasionally, therefore needs a resistant type infrared rangefinder that falls to solve above-mentioned problem urgently.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem of poor anti performance of falling of current infrared distance measuring instrument, the utility model provides an infrared distance measuring instrument.

The utility model discloses a solve the technical scheme that technical problem adopted as follows:

an infrared range finder comprises a protective shell, a damping plate and a range finding main body arranged in the protective shell, wherein a rubber layer is arranged on the outer surface of the protective shell, a window is arranged on the protective shell corresponding to the range finding main body, the damping plate is arranged on the left side and the right side of the inner wall of the protective shell, the range finding main body is arranged between the damping plate on the left side and the damping plate on the right side, the damping plate comprises a shell, the shell is of a cuboid shape, the shell comprises a first plate and a second plate, the first plate is connected with the protective shell, the second plate is connected with the range finding main body, the first plate and the second plate are mutually opposite to each other, a first structural plate and a second structural plate which are parallel to the first plate are arranged in the shell in sequence, a first connecting column is arranged on the first plate, the first connecting column penetrates through the first structural plate, a first shock insulation cushion and a second shock insulation cushion are sleeved on the first connecting column, the first shock insulation cushion is arranged between the first shock insulation cushion and the second shock insulation cushion, the first shock insulation cushion and the second shock insulation cushion are connected with the first structural plate, a second connecting column is arranged on the first structural plate and penetrates through the second structural plate, a fourth shock insulation cushion and a fifth shock insulation cushion are sleeved on the second connecting column, the second structural plate is located between the fourth shock insulation cushion and the fifth shock insulation cushion, a third connecting column connected with the second plate is arranged on the second structural plate, a sixth shock insulation cushion is sleeved on the third connecting column, and the fourth shock insulation cushion, the fifth shock insulation cushion and the sixth shock insulation cushion are connected with the second structural plate.

Furthermore, a third shock insulation cushion is sleeved on the second connecting column and connected with the first structural plate.

Furthermore, the first structural plate and the second structural plate are both connected with the shell.

Furthermore, first spliced pole and first board are the integrated into one piece structure, and second spliced pole and structural slab one are the integrated into one piece structure, and third spliced pole and structural slab two are the integrated into one piece structure.

Furthermore, the first plate, the first shock insulation pad, the first structural plate, the second shock insulation pad, the fourth shock insulation pad, the second structural plate, the fifth shock insulation pad and the second plate are sequentially arranged.

The utility model has the advantages that:

the utility model relates to an infrared range finder carries out the shock attenuation through the shock attenuation board, and the shock attenuation board passes through shock insulation pad combined action on structural slab one, the shock insulation pad about structural slab one, structural slab two, the structural slab two, can play the ascending shock attenuation cushioning effect of three side, to the effectual isolation absorption of impact that is fallen or produces when colliding with, and the rubber layer on the protective housing has certain buffering cushioning effect when falling to the main part of range finding simultaneously, the utility model discloses an impact attenuation is efficient, has higher shock attenuation effect efficiency, prevents to fall the performance good, when colliding with or when being fallen, and the probability of its damage reduces.

Drawings

Fig. 1 is a schematic structural view of the infrared range finder of the present invention.

Fig. 2 is a cross-sectional view of the damping plate of the infrared distance measuring instrument of the present invention.

In the figure: 1. the shock insulation structure comprises a protective shell, 1-1 parts of a protective shell, a window, 2 parts of a distance measuring main body, 3 parts of a rubber layer, 4 parts of a shock absorption plate, 5 parts of a first plate, 6 parts of a second plate, 7 parts of a first connecting column, 8 parts of a first shock insulation pad, 9 parts of a second shock insulation pad, 10 parts of a first structural plate, 11 parts of a second connecting column, 12 parts of a third shock insulation pad, 14 parts of a fourth shock insulation pad, 15 parts of a second structural plate, 16 parts of a fifth shock insulation pad, 17 parts of a third connecting column, 18 parts of a sixth shock insulation pad.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

An infrared distance measuring instrument comprises a protective shell 1, a distance measuring main body 2 and a damping plate 4. As shown in FIG. 1, the distance measuring main body 2 is arranged in the protective shell 1, a window 1-1 is arranged on the protective shell 1 corresponding to the distance measuring main body 2, and the distance measuring main body 2 measures distance through the window 1-1. The protective shell 1 is coated with a rubber layer 3, and specifically, the outer surface of the protective shell 1 except the window 1-1 is coated with the rubber layer 3. A handle may be provided on the protective case 1. Damping plate 4 sets up in protective housing 1, and the left and right sides of 1 inner wall of protective housing all is fixed with damping plate 4, and range finding main part 2 is connected to damping plate 4, and range finding main part 2 is located between the damping plate 4 on the left damping plate 4 of 1 inner wall of protective housing and the damping plate 4 on 1 inner wall right side of protective housing.

The damping plate 4 is structured as shown in fig. 2, fig. 2 is the damping plate 4 located on the left side of fig. 1, and the damping plate 4 includes a housing, a first structural plate 10 and a second structural plate 15. The following first structural plate 10, second structural plate 15, first connecting column 7, second connecting column 11, third connecting column 17, first vibration isolation cushion 8, second vibration isolation cushion 9, third vibration isolation cushion 12, fourth vibration isolation cushion 14, fifth vibration isolation cushion 16 and sixth vibration isolation cushion 18 are all arranged in the shell. The shell is cuboid type, and the shell includes first board 5, second board 6, third board, fourth board, fifth board and sixth board, is the six faces of cuboid shell respectively. The first plate 5 and the second plate 6 are arranged in a corresponding manner, and the first plate 5 is opposite to the second plate 6. The protective housing 1 is connected to first board 5, and the range finding body is connected to second board 6, and specific accessible screw connection. The first 10 fixed connection third boards of structural slab, fourth board, fifth board and sixth board, the third board of shell, fourth board, fifth board and sixth board are connected to structural slab two 15, and structural slab one 10 and structural slab two 15 all are on a parallel with first board 5 and all are on a parallel with second board 6, and first board 5, structural slab one 10, structural slab two 15 and second board 6 set up in order. First spliced pole 7 sets up on first board 5, and first spliced pole 7 and first board 5 are the integrated into one piece structure, and first spliced pole 7 is a plurality of. First shock insulation pad 8 cover is on first spliced pole 7, and first shock insulation pad 8 is connected to structural slab 10, is equipped with a plurality of first through-holes on the structural slab 10, and first through-hole is used for passing first spliced pole 7, and first through-hole and first spliced pole 7 one-to-one set up, and first spliced pole 7 is located first through-hole. The second vibration isolation cushion 9 is connected with the first structure plate 10, the second vibration isolation cushion 9 is sleeved on the first connecting column 7, namely the first structure plate 10 is positioned between the first vibration isolation cushion 8 and the second vibration isolation cushion 9. The surface of the first structural plate 10 facing the second structural plate 15 is provided with a second connecting column 11, and the second connecting column 11 and the first structural plate 10 are of an integrally formed structure. A third vibration-isolating cushion 12, a fourth vibration-isolating cushion 14 and a fifth vibration-isolating cushion 16 are sequentially sleeved on the second connecting column 11, and the third vibration-isolating cushion 12 is connected with a first structural plate 10. And a plurality of second through holes are formed in the second structural plate 15 and used for penetrating through the second connecting columns 11, the second through holes and the second connecting columns 11 are arranged in a one-to-one correspondence mode, and the second connecting columns 11 are located in the second through holes. The fourth vibration-isolating cushion 14 and the fifth vibration-isolating cushion 16 are connected with a second structural plate 15, and the second structural plate 15 is positioned between the fourth vibration-isolating cushion 14 and the fifth vibration-isolating cushion 16. The surface of the second structural plate 15 close to the second plate 6 is provided with a third connecting column 17, the third connecting column 17 and the second structural plate 15 are of an integrally formed structure, the third connecting column 17 is connected with the second plate 6, the third connecting column 17 can be arranged corresponding to the first connecting column 7, a sixth shock insulation cushion 18 is sleeved on the third connecting column 17, and the sixth shock insulation cushion 18 is connected with the second structural plate 15. The first vibration isolation cushion 8, the second vibration isolation cushion 9 and the third vibration isolation cushion 12 are in contact connection with the first structural plate 10, and the fourth vibration isolation cushion 14, the fifth vibration isolation cushion 16 and the sixth vibration isolation cushion 18 are in contact connection with the second structural plate 15. The first connecting column 7 is not connected with the second structural plate 15, and the second connecting column 11 is not connected with the second plate 6, namely, the distance between the second structural plate 15 and the first structural plate 10 is greater than the length between the first structural plate 10 and the second structural plate 15 of the first connecting column 7, and the distance between the second structural plate 15 and the second plate 6 is greater than the length between the second structural plate 15 and the second plate 6 of the second connecting column 11. First board 5, first shock insulation pad 8, structural slab 10, second shock insulation pad 9, fourth shock insulation pad 14, structural slab two 15, fifth shock insulation pad 16 and second board 6 set up in order, and rubber is chooseed for use to first shock insulation pad 8, second shock insulation pad 9, third shock insulation pad 12, fourth shock insulation pad 14, fifth shock insulation pad 16 and the material of sixth shock insulation pad 18.

The utility model relates to an infrared range finder subtracts shock attenuation through shock attenuation board 4, and shock attenuation board 4 can play the ascending shock attenuation cushioning effect of three side through shock insulation pad about structural slab one 10, structural slab two 15, the shock insulation pad combined action on the structural slab two 15, to being fallen or the effectual isolation absorption of impact that produces when colliding with, the impact attenuation is efficient, has higher shock attenuation effect efficiency. The utility model discloses a protective housing 1 is as protecting sheathing, and rubber layer 3 on the protective housing 1 has certain buffering cushioning effect when being fallen to range finding main part 2 simultaneously. The utility model relates to an infrared distance measuring instrument's range finding main part 2 has protective housing 1 and shock attenuation board 4 and as protection device, prevents falling the performance good, when infrared distance measuring instrument meets with accident and collides with or when being fallen, and the probability of its damage reduces, ensures infrared distance measuring instrument's life.

Claims (5)

1. An infrared range finder is characterized by comprising a protective shell (1), a damping plate (4) and a range finding main body (2) arranged in the protective shell (1), wherein a rubber layer (3) is arranged on the outer surface of the protective shell (1), a window (1-1) is arranged on the protective shell (1) corresponding to the range finding main body (2), the damping plate (4) is arranged on each of the left side and the right side of the inner wall of the protective shell (1), the range finding main body (2) is positioned between the damping plate (4) on the left side and the damping plate (4) on the right side, the damping plate (4) comprises a shell, the shell is of a cuboid shape and comprises a first plate (5) connected with the protective shell (1) and a second plate (6) connected with the range finding main body (2), the first plate (5) and the second plate (6) are opposite surfaces of the shell, a first structural plate (10) and a second structural plate (15) which are parallel to the first plate (5) are arranged in the shell, the first plate (5), the first structural plate (10), the second structural plate (15) and the second plate (6) are sequentially arranged, a first connecting column (7) is arranged on the first plate (5), the first connecting column (7) penetrates through the first structural plate (10), a first shock insulation cushion (8) and a second shock insulation cushion (9) are sleeved on the first connecting column (7), the first structural plate (10) is positioned between the first shock insulation cushion (8) and the second shock insulation cushion (9), the first shock insulation cushion (8) and the second shock insulation cushion (9) are both connected with the first structural plate (10), the first structural plate (10) is provided with a second connecting column (11), the second connecting column (11) penetrates through the second structural plate (15), the second connecting column (11) is sleeved with a fourth shock insulation cushion (14) and a fifth shock insulation cushion (16), the second structural plate (15) is positioned between the fourth shock insulation cushion (14) and the fifth shock insulation cushion (16), and a third connecting column (17) for connecting the second structural plate (6) is arranged on the second structural plate (15), and a sixth shock-isolating cushion (18) is sleeved on the third connecting column (17), and the fourth shock-isolating cushion (14), the fifth shock-isolating cushion (16) and the sixth shock-isolating cushion (18) are all connected with the second structural plate (15).

2. An infrared distance meter according to claim 1, characterized in that the second connecting column (11) is fitted with a third vibration-isolating pad (12), the third vibration-isolating pad (12) being connected to the first structural plate (10).

3. An infrared distance meter according to claim 1, characterized in that said first (10) and second (15) structural plates are connected to the housing.

4. An infrared distance measuring device according to claim 1, wherein said first connecting column (7) and said first plate (5) are of one-piece construction, said second connecting column (11) and said first structural plate (10) are of one-piece construction, and said third connecting column (17) and said second structural plate (15) are of one-piece construction.

5. An infrared distance meter according to claim 1, wherein said first plate (5), first seismic isolation pad (8), first structural plate (10), second seismic isolation pad (9), fourth seismic isolation pad (14), second structural plate (15), fifth seismic isolation pad (16) and second plate (6) are arranged in sequence.

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