阅读说明：本技术 一种实验室用反光镜制作装置 (Laboratory is with reflector making devices ) 是由 张莹莹 于 2021-08-19 设计创作，主要内容包括：本发明涉及一种制作装置,尤其涉及一种实验室用反光镜制作装置。本发明提供一种能够自动下压、自动夹紧且操作便利的实验室用反光镜制作装置。一种实验室用反光镜制作装置,包括有底座、第一支撑架和连接块,底座上设有两根第一支撑架,两根第一支撑架之间连接有连接块,连接块底部设有下压机构,底座上设有固定机构,固定机构与下压机构配合。本发明通过设有下压机构和固定机构,人们使固定机构运转,固定机构使镜框向后移动,然后人们使下压机构运转,进而使镜片嵌入至镜框中,如此达到了自动下压的目的,通过设有辅助机构,固定机构运转带动辅助机构运转,辅助机构运转带动夹紧机构运转,从而将镜框夹紧,如此达到了自动夹紧的目的。(The invention relates to a manufacturing device, in particular to a reflecting mirror manufacturing device for a laboratory. The invention provides a laboratory reflector manufacturing device which can be automatically pressed down and clamped and is convenient to operate. The utility model provides a laboratory is with reflector making devices, is equipped with two first support frames including base, first support frame and connecting block on the base, is connected with the connecting block between two first support frames, and the connecting block bottom is equipped with pushing down the mechanism, is equipped with fixed establishment on the base, fixed establishment and the cooperation of pushing down the mechanism. The auxiliary mechanism is arranged, the fixing mechanism operates to drive the auxiliary mechanism to operate, the auxiliary mechanism operates to drive the clamping mechanism to operate, and the clamping mechanism operates to clamp the picture frame, so that the aim of automatically clamping is fulfilled.)

1. The utility model provides a laboratory is with reflector making devices, is including base (1), first support frame (2) and connecting block (3), its characterized in that is equipped with two first support frames (2) on base (1), is connected with connecting block (3) between two first support frames (2), and connecting block (3) bottom is equipped with pushing down mechanism (4), is equipped with fixed establishment (5) on base (1), and fixed establishment (5) and pushing down mechanism (4) cooperate.

2. The mirror making device for the laboratory according to claim 1, wherein a cylinder (41) is arranged at the bottom of the connecting block (3), a first connecting plate (42) is arranged at the bottom of the cylinder (41), a second connecting plate (43) is slidably arranged on the inner side of the first connecting plate (42), two first springs (44) are wound on the second connecting plate (43), the first springs (44) are connected between the first connecting plate (42) and the second connecting plate (43), and a pressing block (45) is arranged at the bottom of the second connecting plate (43).

3. The mirror making device for the laboratory according to claim 2, wherein two first sliding rails (51) are connected to the inner side of the upper portion of the base (1), first sliding blocks (52) are slidably arranged on the inner sides of the two first sliding rails (51), a connecting frame (53) is connected between the tops of the two first sliding blocks (52), an object stage (54) is arranged on the top of the connecting frame (53), and a fixing frame (55) is arranged on the top of the object stage (54).

4. The mirror making device for the laboratory according to claim 3, wherein the objective table (54) is provided with two second slide rails (61), the second slide rails (61) are slidably provided with two clamps (62), the two clamps (62) on the same second slide rail (61) are matched with each other, two second springs (63) are wound on the two second slide rails (61), and the second springs (63) are connected between the second slide rails (61) and the clamps (62).

5. The mirror making device for the laboratory according to claim 4, wherein a first rack (71) is arranged on the fixture (62), two second support frames (72) are arranged on the connecting frame (53), a first rotating shaft (73) is rotatably arranged on the inner side of the upper portion of each second support frame (72), a first gear (74) is arranged on the inner side of each first rotating shaft (73), the first gear (74) is meshed with the first racks (71) on the upper side and the lower side, a second gear (75) is arranged on the outer side of each first rotating shaft (73), a second rack (76) is arranged on the first slide rail (51), and the second rack (76) is matched with the second gear (75).

6. The mirror making device for the laboratory according to claim 5, wherein a third support frame (81) is arranged at the upper part of each of the two first support frames (2), a feeding frame (82) is connected between the two third support frames (81), two guide rods (83) are arranged on the feeding frame (82), a second sliding block (84) is slidably arranged on each guide rod (83), a baffle (85) is arranged at the bottom of each second sliding block (84), the baffle (85) is slidably connected with the feeding frame (82), a third spring (86) is wound on each guide rod (83), and the third spring (86) is connected between each guide rod (83) and the second sliding block (84).

7. The mirror making device for the laboratory according to claim 6, wherein two first wedge blocks (91) are arranged on the fixing frame (55), fourth support frames (92) are arranged on the outer sides of the baffles (85), fifth support frames (93) are arranged on the inner sides of the fourth support frames (92) in a sliding mode, second wedge blocks (94) are arranged at the bottoms of the fifth support frames (93), the second wedge blocks (94) are matched with the first wedge blocks (91), fourth springs (95) are wound on the fifth support frames (93), and the fourth springs (95) are connected between the fourth support frames (92) and the fifth support frames (93).

8. The mirror making device for the laboratory according to claim 7, wherein two sixth support frames (101) are connected between tops of the two first slide rails (51), a seventh support frame (102) is arranged on the base (1), a motor (103) is mounted at a top of the seventh support frame (102), a lead screw (104) is rotatably connected between the two sixth support frames (101), an output shaft of the motor (103) of the lead screw (104) is connected, and the lead screw (104) is in threaded connection with the connecting frame (53).

Technical Field

The invention relates to a manufacturing device, in particular to a reflecting mirror manufacturing device for a laboratory.

Background

The reflector is called convex mirror and wide-angle lens again, plays crucial effect at experimental research in-process, and in the manufacturing process of reflector, people need make the lens imbed into the picture frame, and traditional preparation mode is artifical manual preparation, and people are manual to be impressed the lens in the picture frame, so wastes time and energy, and efficiency is lower, and artifical manual preparation is not convenient more, in addition, because artifical manual operation can not control the dynamics of pushing down, easily with the lens crushing.

Patent application CN208099989U, published as 2018.11.16, disclosed a glasses production facility, including first cylinder, the mobile device, the removal track, the second cylinder, the supporting shoe, place the board, the clamping bar, the second connecting plate, splint, movable rod and push rod etc, place the glasses mirror holder between two clamping device, then start the second cylinder, make splint on the clamping device press from both sides the mirror holder tightly, then restart driving motor and first cylinder and the driving motor on the mobile device, thereby install the lens in the glasses mirror holder, however the device is not convenient for get the material and the blowing.

Therefore, it is necessary to develop a mirror making device for a laboratory, which can be automatically pressed down, automatically clamped and conveniently operated.

Disclosure of Invention

The invention aims to provide a laboratory reflector manufacturing device which can be automatically pressed down and clamped automatically and is convenient to operate, so that the defects that manual manufacturing in the background technology is time-consuming and labor-consuming, low in efficiency and inconvenient are overcome.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a laboratory is with reflector making devices, is equipped with two first support frames including base, first support frame and connecting block on the base, is connected with the connecting block between two first support frames, and the connecting block bottom is equipped with pushing down the mechanism, is equipped with fixed establishment on the base, fixed establishment and the cooperation of pushing down the mechanism.

According to a preferable technical scheme of the invention, an air cylinder is arranged at the bottom of the connecting block, a first connecting plate is arranged at the bottom of the air cylinder, a second connecting plate is arranged on the inner side of the first connecting plate in a sliding mode, two first springs are wound on the second connecting plate, the first springs are connected between the first connecting plate and the second connecting plate, and a pressing block is arranged at the bottom of the second connecting plate.

As a preferred technical scheme, the inner side of the upper part of the base is connected with two first sliding rails, the inner sides of the two first sliding rails are both provided with a first sliding block in a sliding mode, a connecting frame is connected between the tops of the two first sliding blocks, the top of the connecting frame is provided with an object stage, and the top of the object stage is provided with a fixed frame.

As a preferred technical scheme of the invention, two second slide rails are arranged on the objective table, two clamps are arranged on the second slide rails in a sliding manner, the two clamps on the same second slide rail are matched with each other, two second springs are wound on the two second slide rails, and the second springs are connected between the second slide rails and the clamps.

As a preferred technical scheme of the present invention, a first rack is disposed on the clamp, two second support frames are disposed on the connecting frame, a first rotating shaft is rotatably disposed on an inner side of an upper portion of each second support frame, a first gear is disposed on an inner side of the first rotating shaft, the first gear is engaged with the first racks on the upper and lower sides, a second gear is disposed on an outer side of the first rotating shaft, a second rack is disposed on the first slide rail, and the second rack is engaged with the second gear.

As a preferred technical scheme of the invention, third support frames are respectively arranged at the upper parts of the two first support frames, a feeding frame is connected between the two third support frames, two guide rods are arranged on the feeding frame, a second slide block is arranged on the guide rods in a sliding manner, a baffle is arranged at the bottom of the second slide block, the baffle is connected with the feeding frame in a sliding manner, third springs are wound on the guide rods, and the third springs are connected between the guide rods and the second slide block.

As a preferred technical scheme of the invention, two first wedge blocks are arranged on the fixing frame, fourth support frames are arranged on the outer sides of the baffles, fifth support frames are arranged on the inner sides of the fourth support frames in a sliding mode, second wedge blocks are arranged at the bottoms of the fifth support frames, the second wedge blocks are matched with the first wedge blocks, fourth springs are wound on the fifth support frames, and the fourth springs are connected between the fourth support frames and the fifth support frames.

As a preferred technical scheme of the invention, two sixth support frames are connected between the tops of the two first slide rails, a seventh support frame is arranged on the base, a motor is mounted at the top of the seventh support frame, a screw rod is rotatably connected between the two sixth support frames, an output shaft of the motor of the screw rod is connected, and the screw rod is in threaded connection with the connecting frame.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the downward pressing mechanism and the fixing mechanism are arranged, so that people can operate the fixing mechanism, the fixing mechanism can enable the picture frame to move backwards, and then people can operate the downward pressing mechanism to enable the lens to be embedded into the picture frame, thereby achieving the purpose of automatic downward pressing;

2. according to the invention, the clamping mechanism is arranged, so that people can operate the clamping mechanism, and the clamping mechanism clamps the picture frame, so that the picture frame can be prevented from falling off in the moving process, and the picture frame is safe;

3. according to the invention, the auxiliary mechanism is arranged, the fixing mechanism operates to drive the auxiliary mechanism to operate, and the auxiliary mechanism operates to drive the clamping mechanism to operate, so that the picture frame is clamped, the purpose of automatic clamping is achieved, and the moving stability of the picture frame can be further kept;

4. according to the invention, the feeding mechanism is arranged, so that people can operate the feeding mechanism, and the feeding mechanism can accurately drop the lens onto the spectacle frame, so that the operation is simple and convenient;

5. the automatic lens blanking device is provided with the linkage mechanism, the fixing mechanism operates to drive the linkage mechanism to operate, and the linkage mechanism operates to drive the feeding mechanism to operate, so that lenses automatically drop, and the purpose of automatic blanking is achieved;

6. the automatic feeding device is provided with the feeding mechanism, and the feeding mechanism operates to drive the fixing mechanism to operate, so that the mirror frame moves backwards, and the aim of automatic feeding is fulfilled.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 3 is a schematic perspective view of the fixing mechanism of the present invention.

Fig. 4 is a schematic perspective view of the clamping mechanism of the present invention.

Fig. 5 is a schematic perspective view of the auxiliary mechanism of the present invention.

Fig. 6 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 7 is a schematic perspective view of the linkage mechanism of the present invention.

Fig. 8 is another perspective view of the linkage mechanism of the present invention.

Fig. 9 is a schematic perspective view of the feeding mechanism of the present invention.

Wherein: 1-a base, 2-a first support frame, 3-a connecting block, 4-a pressing mechanism, 41-an air cylinder, 42-a first connecting plate, 43-a second connecting plate, 44-a first spring, 45-a pressing block, 5-a fixing mechanism, 51-a first slide rail, 52-a first slide block, 53-a connecting frame, 54-an objective table, 55-a fixing frame, 6-a clamping mechanism, 61-a second slide rail, 62-a clamp, 63-a second spring, 7-an auxiliary mechanism, 71-a first rack, 72-a second support frame, 73-a first rotating shaft, 74-a first gear, 75-a second gear, 76-a second rack, 8-a feeding mechanism, 81-a third support frame, 82-a feeding frame, 83-a guide rod, 84-a second sliding block, 85-a baffle, 86-a third spring, 9-a linkage mechanism, 91-a first wedge-shaped block, 92-a fourth support frame, 93-a fifth support frame, 94-a second wedge-shaped block, 95-a fourth spring, 10-a feeding mechanism, 101-a sixth support frame, 102-a seventh support frame, 103-a motor and 104-a screw rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: a reflector manufacturing device for a laboratory comprises a base 1, a first support frame 2, a connecting block 3, a pressing mechanism 4, a cylinder 41, a first connecting plate 42, a second connecting plate 43, a first spring 44, a pressing block 45, a fixing mechanism 5, a first slide rail 51, a first slide block 52, a connecting frame 53, an object stage 54, a fixing frame 55, a clamping mechanism 6, a second slide rail 61, a clamp 62, a second spring 63, an auxiliary mechanism 7, a first rack 71, a second support frame 72, a first rotating shaft 73, a first gear 74, a second gear 75, a second rack 76, a feeding mechanism 8, a third support frame 81, a feeding frame 82, a guide rod 83, a second slide block 84, a baffle 85, a third spring 86, a linkage mechanism 9, a first wedge-shaped block 91, a fourth support frame 92, a fifth support frame 93, a second wedge-shaped block 94, a fourth spring 95, a feeding mechanism 10, a sixth support frame 101, a pressing mechanism 4, a pressing blocks 45, a first connecting plate 42, a second connecting plate 43, an auxiliary mechanism 7, a second spring 71, a second spring 72, a second spring, a second support frame 72, a second support frame 73, a second support frame 74, a second support frame 73, a second support frame, a third support frame, a second support frame 74, a second support frame, seventh support frame 102, motor 103 and lead screw 104, base 1 rear portion left and right sides upper portion all is equipped with first support frame 2, is connected with connecting block 3 between two first support frames 2, and connecting block 3 bottom is equipped with down mechanism 4, is equipped with fixed establishment 5 on the base 1, and fixed establishment 5 cooperates with down mechanism 4.

The bottom of connecting block 3 is equipped with cylinder 41, and the bottom of cylinder 41 is equipped with first connecting plate 42, and the inboard slidingtype of first connecting plate 42 is equipped with second connecting plate 43, and it has two first springs 44 to wind on the second connecting plate 43, and first spring 44 is connected between first connecting plate 42 and second connecting plate 43, and second connecting plate 43 bottom is equipped with briquetting 45.

The inboard two first slide rails 51 that are connected with of base 1 upper portion, the first slide rail 51 inboard of the left and right sides all is equipped with first slider 52 slidingtype, is connected with link 53 between two first slider 52 tops, and the link 53 top is equipped with objective table 54, and the objective table 54 top is equipped with fixed frame 55.

The left and right sides of the objective table 54 are provided with second slide rails 61, the second slide rails 61 are provided with two clamps 62 in a sliding manner, the two clamps 62 on the same second slide rail 61 are matched with each other, the two second slide rails 61 are wound with two second springs 63, and the second springs 63 are connected between the second slide rails 61 and the clamps 62.

The fixture 62 is provided with a first rack 71, the left side and the right side of the top of the connecting frame 53 are provided with second support frames 72, the inner side of the upper portion of each second support frame 72 is rotatably provided with a first rotating shaft 73, the inner side of each first rotating shaft 73 is provided with a first gear 74, the first gear 74 is meshed with the first racks 71 on the upper side and the lower side, the outer side of each first rotating shaft 73 is provided with a second gear 75, the front portion of the outer side of the first sliding rail 51 is provided with a second rack 76, and the second rack 76 is matched with the second gear 75.

The upper parts of the two first supporting frames 2 are respectively provided with a third supporting frame 81, the front sides of the third supporting frames 81 on the left side and the right side are connected with a feeding frame 82, the left side and the right side of the feeding frame 82 are respectively provided with a guide rod 83, the guide rods 83 are provided with second sliding blocks 84 in a sliding mode, the bottoms of the second sliding blocks 84 are provided with baffle plates 85, the baffle plates 85 are connected with the feeding frame 82 in a sliding mode, third springs 86 are wound on the guide rods 83, and the third springs 86 are connected between the guide rods 83 and the second sliding blocks 84.

The left side and the right side of the fixing frame 55 are both provided with first wedge blocks 91, the outer side of the baffle 85 is provided with a fourth support frame 92, the inner side of the fourth support frame 92 is slidably provided with a fifth support frame 93, the bottom of the fifth support frame 93 is provided with a second wedge block 94, the second wedge block 94 is matched with the first wedge block 91, the fifth support frame 93 is wound with a fourth spring 95, and the fourth spring 95 is connected between the fourth support frame 92 and the fifth support frame 93.

Two sixth support frames 101 are connected between the tops of the two first slide rails 51, a seventh support frame 102 is arranged at the front part of the base 1, a motor 103 is installed at the top of the seventh support frame 102, screw rods 104 are rotatably connected between the sixth support frames 101 at the front side and the rear side, output shafts of the motors 103 of the screw rods 104 are connected, and the screw rods 104 are in threaded connection with the connecting frame 53.

When people need to manufacture the reflector for a laboratory, firstly, people put the mirror frame in the fixing mechanism 5, then people enable the fixing mechanism 5 to operate, the fixing mechanism 5 enables the mirror frame to move backwards, meanwhile, people put the lens in the mirror frame, people enable the pressing mechanism 4 to operate, when the mirror frame moves to the last side, the pressing mechanism 4 is matched with the fixing mechanism 5, the lens is embedded into the mirror frame, the reflector is manufactured, then people enable the fixing mechanism 5 to restore the original position, the reflector moves forwards to the original position, people take the reflector out of the fixing mechanism 5, after the manufacturing work of the reflector is completed completely, people enable the pressing mechanism 4 and the fixing mechanism 5 to stop operating, and if the device is used again, the steps are repeated.

When the air cylinder 41 is opened, the air cylinder 41 operates to enable the first connecting plate 42 to move up and down repeatedly, and further enable the second connecting plate 43 to move up and down repeatedly, so that the first spring 44 and the pressing block 45 move up and down repeatedly, when the pressing block 45 moves down to be in contact with the lens on the lens frame, the first connecting plate 42 continues to move down, the first connecting plate 42 slides down on the second connecting plate 43, the first spring 44 is changed from an initial state to a compressed state, so that the pressing block 45 continues to move down slowly, the lens is embedded into the lens frame, the purpose of automatic pressing down is achieved, then the air cylinder 41 operates to enable the first connecting plate 42 to move back to the original position upwards, at the moment, the first spring 44 resets from the compressed state, and the pressing block 45 moves back to the original position.

People put the picture frame on the fixed frame 55, then manually push the connecting frame 53 backwards, the connecting frame 53 moves to enable the first sliding block 52 to slide backwards in the first sliding rail 51, meanwhile, the object stage 54 moves backwards, further, the fixed frame 55 moves backwards, so that the picture frame moves backwards, thereby facilitating people to feed materials, after the mirror is manufactured, people manually push the connecting frame 53 back to the original position, enabling the fixed frame 55 and the mirror to move back to the original position forwards, and then people take the mirror down from the fixed frame 55.

The left or right clamp 62 is manually slid outwards on the second slide rail 61 according to the handle position of the mirror frame, the second spring 63 connected with the clamp is changed to a compressed state from an initial state, then the mirror frame is placed on the fixed frame 55, part of the frame of the mirror frame is positioned between the left or right clamps 62, then the left or right clamp 62 is released, the second spring 63 connected with the left or right clamp is still in the compressed state, the left or right clamp 62 clamps the mirror frame by elasticity, when the objective table 54 moves backwards, the objective table 54 drives the second slide rail 61 to move backwards, and further the clamp 62 and the second spring 63 move backwards, at the moment, the left or right clamp 62 can prevent the mirror frame from falling off the fixed frame 55 in the moving process, after the mirror is manufactured, the clamp 62 and the mirror move forwards and in the original position, then the left or right clamp 62 is pulled outwards again, the mirror is then removed and the left or right clamp 62 is released by the person, whereupon the second spring 63 connected thereto is reset from the compressed state, and the spring force causes the left or right clamp 62 to move back into position.

When the connecting frame 53 and the clamp 62 move forward, the connecting frame 53 will drive the second supporting frame 72 to move forward, and thus the first rotating shaft 73, moves forward, thereby moving the first gear 74 and the second gear 75 forward, in addition, the jig 62 moves the first rack 71 and the mirror forward, and when the second gear 75 is moved to be engaged with the second rack 76, the second rack 76 rotates the second gear 75, the first gear 74 is rotated by rotating the first rotating shaft 73, the first gear 74 is rotated to move the first rack 71 outward, and the jig 62 is moved outward, at which time the person takes out the mirror and continues to put on the unprocessed mirror frame, the connecting frame 53 and the clamp 62 are then moved back into position, while the second rack 76 reverses the rotation of the second gear 75, thereby moving the clamp 62 inwardly to clamp the frame, thus achieving the purpose of automatic clamping.

People put the lens in the material loading frame 82, the lens falls to the top of the baffle 85 due to gravity, when the spectacle frame gradually moves to the position under the material loading frame 82, people manually enable the baffle 85 to slide outwards in the material loading frame 82, and further enable the second sliding block 84 to slide outwards on the guide rod 83, the third spring 86 is changed into a compression state from an initial state, meanwhile, the lens drops to the spectacle frame from the baffle 85 due to gravity, then people loosen the baffle 85, the third spring 86 is reset from the compression state, the baffle 85 is moved back to the original position due to elasticity, and at the moment, people can continue to put the lens in the material loading frame 82.

When the fixing frame 55 moves backwards, the fixing frame 55 drives the first wedge-shaped block 91 to move backwards, when the first wedge-shaped block 91 is moved to be in contact with the second wedge-shaped block 94, the first wedge-shaped block 91 makes the second wedge-shaped block 94 move outwards, and further the fifth support frame 93 moves outwards, so that the fourth support frame 92 moves outwards, and further the baffle 85 moves outwards, and at the same time, the lens on the baffle 85 drops onto the mirror frame due to gravity, so that the purpose of automatic blanking is achieved, when the first wedge-shaped block 91 is separated from the second wedge-shaped block 94, the baffle 85 moves back to the original position by the third spring 86, after the mirror is manufactured, the fixing frame 55 drives the first wedge-shaped block 91 to move back to the original position, when the first wedge-shaped block 91 is moved to be in contact with the second wedge-shaped block 94, the first wedge-shaped block 91 makes the second wedge-shaped block 94 move inwards, and further the fifth support frame 93 slides inwards in the fourth support frame 92, the fourth spring 95 is changed from the initial state to the compressed state, and when the first wedge block 91 is separated from the second wedge block 94, the fourth spring 95 is reset from the compressed state, so that the second wedge block 94 moves back to the original position.

After people put the mirror frame, the motor 103 is started, the output shaft of the motor 103 rotates to drive the screw rod 104 to rotate, the screw rod 104 rotates to enable the connecting frame 53 to move backwards, so that the mirror frame moves backwards, the purpose of automatic feeding is achieved, when the mirror frame moves to the last side, people close the motor 103, then the pressing block 45 moves downwards to enable the lens to be embedded into the mirror frame, then people enable the motor 103 to rotate reversely, further the connecting frame 53 and the reflector move forwards to the original position, people close the motor 103 again, and the reflector is taken out.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.