CN215853703U - Rotary telescope mounting bracket - Google Patents

Abstract

The utility model relates to the technical field of telescope processing production, in particular to a rotary telescope mounting bracket, wherein a lens cone groove charging platform is arranged at the upper end of a raw material box; the lower end of the raw material box is provided with a lens cone clamping and loading platform; the lens cone groove charging platform and the lens cone clamping and charging platform are arranged beside the mounting frame; a circle of lens barrel groove rotary rail is arranged on the outer side of the mounting frame; a plurality of lens barrel grooves are arranged on the lens barrel groove transition rail; a mirror collet is suspended at the upper part of the mounting rack; the lens barrel clamp is provided with a lens barrel clamp rotating rail; the lens cone clamp rotating rail is arranged above the lens cone groove; the outer side of the mounting frame is respectively provided with a mounting station A, a mounting station B and a mounting station C; a blanking plate is arranged at the rear part of the mounting frame; the material receiving box is arranged below the lower material plate, and the problem of low telescope assembling efficiency is solved.

Description

Rotary telescope mounting bracket

Technical Field

The utility model relates to the technical field of telescope processing production, in particular to a rotary type telescope mounting bracket.

Background

In the assembling process of the telescope, the telescope generally comprises two lens barrels, the two lens barrels are connected through bolts, in the assembling process, the existing installing process is generally assembled by manual splicing of workers, the positions of the lens barrels need to be continuously adjusted in the traditional installing process, and the assembling efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a rotary telescope mounting bracket, which solves the problem of low telescope assembly efficiency.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a rotary telescope mounting bracket comprises a raw material box, a lens cone groove charging platform, a lens cone clamping and charging platform, a lens cone groove transfer rail, a lens cone clamp, a mounting station A, a mounting station B, a mounting station C, a blanking plate and a material receiving box; the upper end of the raw material box is provided with a lens cone groove charging platform; the lower end of the raw material box is provided with a lens cone clamping and loading platform; the lens cone groove charging platform and the lens cone clamping and charging platform are arranged beside the mounting frame; a circle of lens barrel groove rotary rail is arranged on the outer side of the mounting frame; a plurality of lens barrel grooves are arranged on the lens barrel groove transition rail; a mirror collet is suspended at the upper part of the mounting rack; the lens barrel clamp is provided with a lens barrel clamp rotating rail; the lens cone clamp rotating rail is arranged above the lens cone groove; the outer side of the mounting frame is respectively provided with a mounting station A, a mounting station B and a mounting station C; a blanking plate is arranged at the rear part of the mounting frame; a material receiving box is arranged below the lower material plate.

Further, a glue layer is arranged in the lens barrel groove.

Further, a foam layer is arranged in the bottom of the blanking plate groove.

Furthermore, a gravity sensor is arranged at the upper part of the lens cone clamp rotating rail; the gravity sensor is connected with the controller; the controller is arranged above the blanking plate.

Further, the lens cone clamp rotating rail is provided with a plurality of lens cone clamp mounting holes; the mirror collet mounting hole fixes the mirror collet through a bolt.

Further, the lens cone clamp transition rail and the lens cone groove transition rail are driven by the variable frequency motor simultaneously.

Compared with the prior art, the utility model can realize one of the following beneficial effects:

1. the upper end of the raw material box is provided with a lens cone groove charging platform; the lower end of the raw material box is provided with a lens cone clamping and loading platform; the lens cone groove charging platform and the lens cone clamping and charging platform are arranged beside the mounting frame; a circle of lens barrel groove rotary rail is arranged on the outer side of the mounting frame; a plurality of lens barrel grooves are arranged on the lens barrel groove transition rail; a mirror collet is suspended at the upper part of the mounting rack; the lens barrel clamp is provided with a lens barrel clamp rotating rail; the lens cone clamp rotating rail is arranged above the lens cone groove; the outer side of the mounting frame is respectively provided with a mounting station A, a mounting station B and a mounting station C; a blanking plate is arranged at the rear part of the mounting frame; a material receiving box is arranged below the lower material plate, so that the lens cone can be placed in the material box, the lens cone is placed in the position of a lens cone clamping and loading table, and the lens cone is placed in the lens cone groove by a lens cone groove loading table; after the lens barrel is rotated to the mounting station, the lens barrel in the lens barrel groove is manually taken for assembly, and then the assembled lens barrel is unloaded after being rotated to the blanking plate by the lens barrel clamping rotating rail, so that the assembly work is completed.

2. The lens barrel groove is internally provided with the glue layer, so that the lens barrel can be prevented from sliding through the arranged glue layer, the lens barrel is convenient to take, and the assembly efficiency is improved.

3. Be provided with one deck foam blanket in the lower flitch groove bottom, can realize slowing down the impact behind the lens cone falls through the foam blanket that sets up, avoided the lens cone damage.

4. A gravity sensor is arranged at the upper part of the mirror collet chuck rotary rail; the gravity sensor is connected with the controller; the controller sets up flitch top under, can realize passing through the lens cone weight gain after the installation station back equipment through the gravity inductor response that sets up, loosens the mirror collet chuck after the controller position response, drops to receiving in the workbin.

5. The mirror collet chuck transition rail is provided with a plurality of mirror collet chuck mounting holes; the lens collet chuck is fixed through the bolt in the lens collet chuck mounting hole, the number of the lens collet chucks can be adjusted as required through the arranged lens cone clamp mounting hole, and the assembling speed is improved.

6. The lens cone clamp transition rail and the lens cone groove transition rail are simultaneously driven by the variable frequency motor, so that the synchronism of the two conveyor belts can be ensured by driving one motor; and the frequency conversion motor who sets up can be according to the equipment degree of difficulty, the cooperation processing of adjustment transfer speed.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

FIG. 2 is a schematic view of the structure of the present invention.

FIG. 3 is a schematic structural diagram of the present invention.

FIG. 4 is a schematic structural diagram of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Example 1

A rotary telescope mounting bracket comprises a raw material box 1, a lens cone groove charging platform 2, a lens cone clamp charging platform 3, a lens cone groove 4, a lens cone groove transfer rail 5, a lens cone clamp transfer rail 6, a lens cone clamp 7, a mounting station A8, a mounting station B9, a mounting station C10, a blanking plate 11 and a material receiving box 12; the upper end of the raw material box 1 is provided with a lens cone groove charging platform 2; the lower end of the raw material box 1 is provided with a lens cone clamping and loading platform 3; the lens cone groove charging platform 2 and the lens cone clamping and charging platform 3 are arranged beside the mounting frame 13; a circle of lens barrel groove rotary rail 5 is arranged on the outer side of the mounting frame 13; the lens barrel groove transition rail 5 is provided with a plurality of lens barrel grooves 4; a mirror collet chuck 7 is suspended at the upper part of the mounting frame 13; the lens cone clamp 7 is provided with a lens cone clamp rotating rail 6; the lens cone clamp rotating rail 6 is arranged above the lens cone groove 4; the outer side of the mounting frame 13 is respectively provided with a mounting station A8, a mounting station B9 and a mounting station C10; the rear part of the mounting frame 13 is provided with a blanking plate 11; a material receiving box 12 is arranged below the blanking plate 11, so that the lens cone can be placed in the material box, the lens cone is placed in a lens cone clamping and placing table by the lens cone clamping, and the lens cone is placed in a lens cone groove by a lens cone groove material loading table; after the lens barrel is rotated to the mounting station, the lens barrel in the lens barrel groove is manually taken for assembly, and then the assembled lens barrel is unloaded after being rotated to the blanking plate by the lens barrel clamping rotating rail, so that the assembly work is completed.

Example 2

On the basis of embodiment 1, the lens barrel groove 4 inslot is provided with glue film 14, can realize preventing through the glue film that sets up that the lens barrel from sliding, conveniently takes, has improved the packaging efficiency.

Example 3

On the basis of embodiment 1, a foam layer 15 is arranged in the bottom of the blanking plate 11, so that impact of the lens cone falling behind can be relieved through the arranged foam layer, and the lens cone is prevented from being damaged.

Example 4

On the basis of embodiment 1, a gravity sensor 16 is arranged at the upper part of the lens barrel clamp rotating rail 7; the gravity sensor 16 is connected with the controller 19; the controller 19 is arranged above the blanking plate 11, can realize the weight increase of the lens cone assembled after the gravity sensor arranged senses the lens cone passing through the installation station, and releases the lens cone clamp after the controller senses the position of the lens cone, so that the lens cone falls into the material receiving box.

Example 5

On the basis of embodiment 1, the lens barrel clamp swivel rail 7 is provided with a plurality of lens barrel clamp mounting holes 18; the lens collet chuck mounting holes 18 fix the lens collet chuck 7 through the bolts 17, so that the number of the lens collet chucks can be adjusted as required through the arranged lens cone clamp mounting holes, and the assembly speed is improved.

Example 6

On the basis of the embodiment 1, the lens cone clamp transition rail 6 and the lens cone groove transition rail 5 are simultaneously driven by the variable frequency motor, so that the synchronism of two conveyor belts can be ensured by driving one motor; and the frequency conversion motor who sets up can be according to the equipment degree of difficulty, the cooperation processing of adjustment transfer speed.

Although the utility model has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (6)

1. A rotary telescope installing support which characterized in that: the device comprises a raw material box (1), a lens cone groove charging platform (2), a lens cone clamping and charging platform (3), a lens cone groove (4), a lens cone groove transfer rail (5), a lens cone clamp transfer rail (6), a lens cone clamp (7), an installation station A (8), an installation station B (9), an installation station C (10), a blanking plate (11) and a material receiving box (12); the upper end of the raw material box (1) is provided with a lens barrel groove charging platform (2); the lower end of the raw material box (1) is provided with a lens cone clamping and loading platform (3); the lens barrel groove charging platform (2) and the lens barrel clamping and charging platform (3) are arranged beside the mounting frame (13); a circle of lens barrel groove rotating rail (5) is arranged on the outer side of the mounting frame (13); a plurality of lens barrel grooves (4) are arranged on the lens barrel groove rotating rail (5); a mirror collet chuck (7) is suspended at the upper part of the mounting frame (13); a lens cone clamp rotating rail (6) is arranged on the lens cone clamp (7); the lens cone clamp rotating rail (6) is arranged above the lens cone groove (4); the outer side of the mounting frame (13) is respectively provided with a mounting station A (8), a mounting station B (9) and a mounting station C (10); a blanking plate (11) is arranged at the rear part of the mounting frame (13); a material receiving box (12) is arranged below the material discharging plate (11).

2. The rotary telescope mounting bracket of claim 1, wherein: and a glue layer (14) is arranged in the lens barrel groove (4).

3. The rotary telescope mounting bracket of claim 1, wherein: a foam layer (15) is arranged in the bottom of the blanking plate (11).

4. The rotary telescope mounting bracket of claim 1, wherein: a gravity sensor (16) is arranged at the upper part of the lens cone clamp rotating rail (7); the gravity sensor (16) is connected with the controller (19); the controller (19) is arranged above the blanking plate (11).

5. The rotary telescope mounting bracket of claim 1, wherein: the lens cone clamp rotating rail (7) is provided with a plurality of lens cone clamp mounting holes (18); the mirror collet chuck mounting hole (18) fixes the mirror collet chuck (7) by a bolt (17).

6. The rotary telescope mounting bracket of claim 1, wherein: the lens cone clamp rotating rail (6) and the lens cone groove rotating rail (5) are driven by a variable frequency motor simultaneously.

Images