CN211452093U - Lower catenary vertical-to-horizontal equipment - Google Patents

Abstract

The utility model relates to the military industry field and discloses a lower suspension chain vertical rotation horizontal device, which comprises a frame, wherein a first mounting plate is arranged on the frame through a lifting device, the frame is slidably arranged on a base through a first sliding device, and the lower suspension chain vertical rotation horizontal device is characterized in that one side of the first mounting plate is fixedly provided with a first motor, the power output end of the first motor is fixedly connected with a first rotating shaft, the first rotating shaft penetrates through a through hole arranged on the first mounting plate and extends to the other side of the first mounting plate, the first rotating shaft is fixedly connected with a second fluted disc, the second fluted disc is meshed with the first fluted disc, the middle part of the first fluted disc is penetrated with a positioning rotating shaft, one end of the positioning rotating shaft is rotatably arranged on the first mounting plate through a rotary supporting bearing, the other end of the positioning rotating shaft is fixedly connected with the second mounting plate, the lower suspension chain vertical rotation horizontal device can be, the automatic line-inserting and vertical-horizontal switching device is suitable for automatic line inserting and vertical-horizontal switching of all shells on a suspension type stacking chain in the military industry.

Description

Lower catenary vertical-to-horizontal equipment

Technical Field

The utility model relates to a military project field, more specifically say, in particular to lower catenary changes equipment of crouching immediately.

Background

The military fire industry is a national security support, each country has a unique development road, and the national special investment and the civil enterprises are mainly converted into two roads of military enterprises after the summary. The reading is an explanation of the development track of the military industry in China. However, the existing large-scale aerial bomb body cannot be automatically offline and converted between vertical and horizontal positions on a suspension type accumulation chain, manual carrying is mostly adopted, the labor intensity is high, the production efficiency is low, and certain potential safety hazards exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a lower catenary changes equipment of crouching immediately to solve the problem of mentioning in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a lower suspension chain vertical rotation horizontal device comprises a frame, wherein a first mounting plate is mounted on the frame through a lifting device, the frame is slidably mounted on a base through a first sliding device, and the lower suspension chain vertical rotation horizontal device is characterized in that a first motor is fixedly mounted on one side of the first mounting plate, a first rotating shaft is fixedly connected with a power output end of the first motor, penetrates through a through hole formed in the first mounting plate and extends to the other side of the first mounting plate, a second fluted disc is fixedly connected with the first rotating shaft, a first fluted disc is meshed and connected with the second fluted disc, a positioning rotating shaft is arranged in the middle of the first fluted disc in a penetrating mode, one end of the positioning rotating shaft is rotatably mounted on the first mounting plate through a rotary supporting bearing, the other end of the positioning rotating shaft is fixedly connected with the second mounting plate, and one surface of the second mounting plate, which is far away from the first mounting plate, the automatic loading and unloading device has the advantages that the automatic loading and unloading device can be automatically carried, the labor intensity is reduced, the production efficiency is improved, the manual operation of dangerous working procedures is avoided, and the automatic loading and unloading device is suitable for automatic unloading and vertical-horizontal conversion of all shells on a suspension type stacking chain in the military industry.

Further, clamping device includes positive and negative lead screw and a pair of lug, the lug all with second mounting panel fixed connection, the one end of positive and negative lead screw is installed on a lug with rotating, the other end of positive and negative lead screw run through on another lug the through-hole seted up and with the power take off end fixed connection of second motor, second motor fixed mounting is on the second mounting panel, a pair of clamping jaw is installed to two parts respectively relatively rotatable about positive and negative lead screw, the clamping jaw passes through the second slider and installs on the second mounting panel with sliding, and is a pair of the one end that the clamping jaw is close to each other is seted up with aeroelastic body shape assorted breach.

Further, a mounting seat is arranged outside the second motor and fixedly connected with the second mounting plate, and the mounting seat can effectively protect the second motor.

Further, the clamping jaw includes first splint, connecting plate and second splint, first splint and second splint pass through connecting plate fixed connection, and the regional and the aeroelastic projectile body shape phase-match between first splint and the second splint can be more stable fix the aeroelastic projectile body.

Furthermore, the anti-slip pads are fixedly mounted at the ends, close to each other, of the clamping jaws, so that the friction force between the clamping jaws and the aeroelastic projectile body is increased.

Further, be equipped with the reinforcing plate between clamping jaw and the second mounting panel, positive and negative lead screw runs through the through-hole on the reinforcing plate, and positive and negative lead screw can be at the reinforcing plate internal rotation, and the reinforcing plate can increase the stability of clamping jaw, makes its fixed aeroelastic body that can be better.

Furthermore, a transfer printing platform for receiving the aeroelastic bodies is installed on the base, the vertical and horizontal aeroelastic bodies can be placed on the transfer printing platform after rotating for an angle, and then the aeroelastic bodies on the transfer printing platform can be sprayed and processed.

Furthermore, an opening is formed in the rack, the first motor can move up and down in the opening, the rack penetrates through the opening to move into the rack, the structure is more compact, and meanwhile the rack is larger in contact area with the outside and is convenient for heat dissipation of the rack.

Further, the first mounting plate is slidably mounted on the rack up and down through a third sliding device, the third sliding device comprises a first sliding rail and a sliding block, the first sliding rail is fixedly mounted on the rack, and the sliding block is fixedly mounted on the first mounting plate.

Compared with the prior art, the utility model has the advantages of: the utility model discloses but automatic handling alleviates intensity of labour, improves production efficiency, avoids dangerous process manual work, is applicable to the automation of all shells of military industry on the long-pending chain of putting of suspension type and rolls off the production line and the conversion of lying immediately.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

FIG. 2 is a schematic view of a part of the structure of the clamping device of the present invention;

fig. 3 is a schematic structural view of the middle clamping jaw of the present invention.

Description of reference numerals: the automatic transfer printing machine comprises a machine frame 1, an opening 2, a first sliding rail 3, a base 4, a second sliding rail 5, a transfer printing platform 6, a first mounting plate 7, a clamping jaw 8, a first motor 9, a second mounting plate 10, a gap 11, a first fluted disc 12, a convex block 13, a positive and negative lead screw 14, a mounting seat 15, a notch 16, an anti-slip pad 17, a reinforcing plate 18, a sliding block 19, a first clamping plate 801, a connecting plate 802 and a second clamping plate 803.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the scope of the present invention can be more clearly and clearly defined.

Referring to fig. 1 and 2, a lower catenary vertical-to-horizontal apparatus includes a frame 1, a first mounting plate 7 is mounted on the frame 1 through a lifting device (not shown, a power output end of the lifting device is fixedly connected to the first mounting plate 7), the lifting device may be an air cylinder, a hydraulic cylinder, or the like, and this is the prior art, and will not be described herein again, the frame 1 is slidably mounted on a base 4 through a first sliding device, the first sliding device includes a slider and a second sliding rail 5 mounted at a lower end of the frame 1, the frame 1 slides on the base 4 through the air cylinder, the hydraulic cylinder, or other pushing devices (not shown) capable of achieving the same effect, a first motor 9 is fixedly mounted on one side of the first mounting plate 7, a power output end of the first motor 9 is fixedly connected to a first rotating shaft, and the first rotating shaft penetrates through a through hole (an inner diameter of the through hole is slightly larger than a diameter of the first rotating shaft) formed in the first mounting plate 7 and extends to the first mounting plate The first rotating shaft is fixedly connected with a second fluted disc on the other side of the plate 7, the second fluted disc is meshed and connected with a first fluted disc 12, a positioning rotating shaft penetrates through the middle part of the first fluted disc 12, one end of the positioning rotating shaft is rotatably arranged on the first mounting plate 7 through a rotary supporting bearing, the other end of the positioning rotating shaft is fixedly connected with a second mounting plate 10, so that the first fluted disc and the second mounting plate can integrally rotate around the rotary supporting bearing, a gap 11 for placing a second fluted disc 12 is formed between the first mounting plate 7 and the second mounting plate 10, a clamping device is arranged on one surface of the second mounting plate 10 far away from the first mounting plate 7, the automatic loading and unloading device has the advantages that the automatic loading and unloading device can be automatically carried, the labor intensity is reduced, the production efficiency is improved, the manual operation of dangerous working procedures is avoided, and the automatic loading and unloading device is suitable for automatic unloading and vertical-horizontal conversion of all shells on a suspension type stacking chain in the military industry.

In this embodiment, referring to fig. 2, the clamping device includes a positive and negative lead screw 14 and a pair of bumps 13, the positive and negative lead screw 14 includes a left portion and a right portion, and the threads of the two parts are opposite, when the positive and negative screw rods 14 rotate, the pair of clamping jaws 8 can move in the opposite direction or in the opposite direction, the convex blocks 13 are fixedly connected with the second mounting plate 10, one end of the positive and negative screw rod 14 is rotatably mounted on one convex block 13, the other end of the positive and negative screw rod 14 penetrates through a through hole formed on the other lug 13 and is fixedly connected with the power output end of the second motor, the second motor is fixedly arranged on a second mounting plate 10, a pair of clamping jaws 8 are respectively and relatively rotatably arranged on the left part and the right part of the positive and negative screw rod 14, the clamping jaws 8 are slidably mounted on the second mounting plate 10 through a second sliding device, and one end of each pair of the clamping jaws 8 close to each other is provided with a notch 16 matched with the shape of the aeroelastic body.

In this embodiment, a mounting seat 15 is arranged outside the second motor, the mounting seat 15 is fixedly connected with the second mounting plate 10, and the mounting seat 15 can effectively protect the second motor.

In this embodiment, please refer to fig. 3, the clamping jaw 8 includes a first clamping plate 801, a connecting plate 802 and a second clamping plate 803, the first clamping plate 801 and the second clamping plate 803 are fixedly connected through the connecting plate 802, and an area between the first clamping plate 801 and the second clamping plate 803 is matched with the shape of the aeroelastic projectile body, so that the aeroelastic projectile body can be more stably fixed.

In this embodiment, the anti-slip pads 17 are fixedly mounted at the ends of the pair of clamping jaws 8 close to each other, so as to increase the friction force between the clamping jaws 8 and the aeroelastic projectile body.

In this embodiment, be equipped with reinforcing plate 18 between clamping jaw 8 and the second mounting panel 10, positive and negative lead screw 14 runs through the through-hole on reinforcing plate 18, and positive and negative lead screw 14 can rotate in reinforcing plate 18, and reinforcing plate 18 can increase clamping jaw 8's stability, makes its fixed aeroelastic projectile body that can be better.

In this embodiment, the base 4 is provided with the pad printing platform 6 for receiving the aeroelastic bodies, the vertical and horizontal aeroelastic bodies can be placed on the pad printing platform 6 after rotating for 90 degrees, and then the aeroelastic bodies on the pad printing platform 6 can be sprayed and processed.

In this embodiment, the opening 2 has been seted up on the frame 1, first motor 9 can reciprocate in opening 2, and frame 1 runs through opening 2 and moves to in the frame 1, makes the structure compacter, and frame 1 is bigger with external area of contact also is convenient for the heat dissipation of frame 1 simultaneously.

In this embodiment, the first mounting plate 7 is vertically slidably mounted on the frame 1 through a third sliding device, the third sliding device includes a first sliding rail 3 and a sliding block 19, the first sliding rail 3 is fixedly mounted on the frame 1, and the sliding block 19 is fixedly mounted on the first mounting plate 7.

The aeroelastic body is conveyed to a secondary station through a painting catenary, and is stopped and positioned through a stopper and a backstop (the prior art is adopted, and the description is not repeated); the first mounting plate 7 is lifted, the aeroelastic body is fixed through the clamping device, and the product lifting appliance is automatically unhooked by the offline air claw (the unhooking process is the prior art, and the description is not repeated herein); the first mounting plate 7 descends, and meanwhile, the shifting mechanism rotates by 90 degrees (the angle is adjusted through the matching of the first fluted disc and the second fluted disc); the translational frame body 1 places the product on the pad printing platform.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, various changes and modifications can be made by the owner within the scope of the appended claims, and the protection scope of the present invention should not be exceeded by the claims.

Claims (9)

1. The utility model provides a lower catenary vertical-rotation horizontal equipment, includes frame (1), install first mounting panel (7) through elevating gear in frame (1), frame (1) is installed on base (4) through first slider with sliding, its characterized in that, one side fixed mounting of first mounting panel (7) has first motor (9), the power take off end fixedly connected with first pivot of first motor (9), first pivot runs through the through-hole of seting up on first mounting panel (7) and extends to the opposite side of first mounting panel (7), first pivot fixedly connected with second fluted disc, second fluted disc meshing is connected with first fluted disc (12), the middle part of first fluted disc (12) runs through and is provided with the location pivot, location pivot one end is installed on first mounting panel (7) through gyration support bearing with rotating, the other end and the second mounting panel (10) fixed connection of location pivot, the one side installation clamping device of first mounting panel (7) is kept away from in second mounting panel (10).

2. A bottom suspension link vertical and horizontal rotation apparatus according to claim 1, wherein the clamping device comprises a positive and negative screw rod (14) and a pair of projections (13), the convex blocks (13) are fixedly connected with the second mounting plate (10), one end of the positive and negative screw rod (14) is rotatably mounted on one convex block (13), the other end of the positive and negative screw rod (14) penetrates through a through hole arranged on the other lug (13) and is fixedly connected with the power output end of the second motor, the second motor is fixedly arranged on a second mounting plate (10), a pair of clamping jaws (8) are respectively and relatively rotatably arranged on the left part and the right part of the positive and negative screw rod (14), the clamping jaws (8) are slidably mounted on the second mounting plate (10) through a second sliding device, and one end, close to each other, of each clamping jaw (8) is provided with a notch (16) matched with the shape of the aeroelastic body.

3. A bottom-suspension-chain lying and standing apparatus according to claim 2, wherein a mounting seat (15) is provided outside the second motor, and the mounting seat (15) is fixedly connected with the second mounting plate (10).

4. A bottom suspension link lying equipment according to claim 2, wherein the clamping jaw (8) comprises a first clamping plate (801), a connecting plate (802) and a second clamping plate (803), the first clamping plate (801) and the second clamping plate (803) being fixedly connected by the connecting plate (802).

5. A bottom suspension chain apparatus for lying upright and lying down according to claim 2 wherein a non-slip mat (17) is fixedly mounted to the end of the pair of jaws (8) adjacent to each other.

6. A bottom suspension link lying equipment according to any one of claims 2-5 wherein a reinforcement plate (18) is provided between the clamping jaw (8) and the second mounting plate (10).

7. A bottom-suspension-chain lying and standing apparatus according to claim 1, wherein the base (4) is provided with a pad printing platform (6) for receiving aeroelastic projectiles.

8. The bottom-hung vertical-rotation horizontal equipment as claimed in claim 1, wherein the frame (1) is provided with an opening (2), and the first motor (9) can move up and down in the opening (2).

9. A bottom-hung vertical-turn bed apparatus as claimed in claim 1, wherein the first mounting plate (7) is vertically slidably mounted on the frame (1) by a third sliding device, the third sliding device comprises a first sliding rail (3) and a sliding block (19), the first sliding rail (3) is fixedly mounted on the frame (1), and the sliding block (19) is fixedly mounted on the first mounting plate (7).

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