CN111707452A

CN111707452A - Lens clamping tool device

Info

Publication number: CN111707452A
Application number: CN202010500627.9A
Authority: CN
Inventors: 张涛; 王秋红; 胡晓庆; 杨海卉; 韦凤慈; 王华奥; 胡文红
Original assignee: Anhui Technical College of Mechanical and Electrical Engineering
Current assignee: Anhui Technical College of Mechanical and Electrical Engineering
Priority date: 2020-06-04
Filing date: 2020-06-04
Publication date: 2020-09-25
Anticipated expiration: 2040-06-04
Also published as: CN111707452B

Abstract

The invention relates to a lens clamping jig device which comprises two sets of assembling components and a jig component, wherein the assembling components are used for distributing a plurality of lenses one by one to be placed in positioning holes uniformly distributed on the jig component, a detection auxiliary component for detecting the lenses in the jig component is arranged between the two sets of assembling components, and the detection auxiliary component alternately detects the lenses between the two sets of assembling components. According to the invention, the first movable seat moves on the first guide plate to push the distribution barrel to move longitudinally, the second movable seat moves on the second guide plate to push the distribution barrel to move transversely, and finally, the arrangement of the adjusting part in the distribution barrel enables the distribution barrel to put one lens at a time, so that the lenses are placed in the positioning holes one by one; the sub-packaging assembly and the jig assembly are divided into two groups and are respectively arranged on two sides of the detection auxiliary assembly, the detection auxiliary assembly can alternately move between the two sub-packaging assemblies to assist in detection, time is saved, and detection efficiency is improved.

Description

Lens clamping tool device

Technical Field

The invention relates to the technical field of jigs, in particular to a lens clamping jig device.

Background

The detection of the spectacle lenses is important because the lenses are important components of any pair of spectacles and have great influence on the overall quality of the spectacles, and in recent years, the number of people wearing myopia spectacles, fashion spectacles, sunglasses and presbyopic spectacles is increased, and if the spectacles with poor quality lenses are worn, consumers may feel dizzy and uncomfortable, and even the vision of the consumers is worse.

After the spectacle lens is machined, optical detection is needed to be carried out, and the light transmittance, the refractive index and other data of the spectacle lens are detected.

Disclosure of Invention

In order to meet the requirement for optical rapid detection of the spectacle lenses, the invention provides a lens clamping jig device.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

the utility model provides a lens clamping tool device, includes two sets of dress subassemblies and tool subassembly, the partial shipment subassembly is used for placing a plurality of lens distribution one by one in each locating hole of evenly distributed on the tool subassembly, two sets of be provided with between the partial shipment subassembly right in the tool subassembly the lens carries out the detection auxiliary assembly that detects, it is two sets of to detect auxiliary assembly detect in turn between the partial shipment subassembly.

The sub-packaging assembly comprises a workbench, a jig body can be detachably placed on the workbench through a positioning block, the upper surface of the workbench is provided with a first guide plate on one side of the jig body, a first moving seat is arranged above the first guide plate in a sliding mode, a second guide plate fixedly connected with a connecting seat is arranged above the first moving seat in a sliding mode, a second moving seat is arranged above the second guide plate in a sliding mode, and a distribution barrel fixedly connected with the side face of the second moving seat is arranged on the second moving seat.

The upper surfaces of the first guide plate and the second guide plate are provided with a sliding groove and a tooth groove, the first moving seat and the second moving seat are composed of a sliding seat and a gear motor, a machine body of the gear motor is fixed on the sliding seat, a gear of an output shaft of the gear motor is meshed with the tooth groove, and the gear motor rolls in the tooth groove to drive the sliding seat to move in the sliding groove.

The lens distributing fixture is characterized in that a plurality of lenses are stacked in the distributing barrel, the blanking end of the distributing barrel corresponds to each positioning hole formed in the upper surface of the fixture body, and the side surface of the distributing barrel is provided with an adjusting piece used for distributing the lenses into the positioning holes one by one.

The adjusting part comprises an upper baffle and a lower baffle, the height difference between the upper baffle and the lower baffle is one, the thicknesses of the lenses are equal, the upper baffle and the lower baffle are parallel and staggered, and the lengths of the upper baffle and the lower baffle are equal to the distance between the left inner wall and the right inner wall of the blanking end.

The upper baffle plate is fixedly connected with the lower baffle plate through a connecting rod, a limiting groove is fixedly connected with the transverse midpoint of the connecting rod, a rotating sheet with one end capable of sliding in the limiting groove is arranged in the limiting groove, and the other end of the rotating sheet is fixedly connected to a first motor arranged on the side face of the distributing barrel.

The detection auxiliary assembly comprises a toothed plate, the toothed plate is fixed on the workbench and is far away from one side of the first guide plate, a moving frame is arranged above the toothed plate in a sliding mode, the moving frame is meshed with side teeth of the toothed plate in a rotating mode through gears of an output shaft of a moving motor to move, a plurality of upper detection equipment installation stations are fixedly arranged above the moving frame, a connecting plate is fixedly connected to the lower portion of the sliding seat, the connecting plate and the distribution cylinder are different in distance of one row of lenses, a plurality of groups of lower detection equipment installation stations are arranged on the connecting plate, and the lower detection equipment installation stations correspond to the upper detection equipment installation stations one to one.

The invention has the beneficial effects that:

according to the invention, the first moving seat moves on the first guide plate to push the distribution barrel to move longitudinally, the second moving seat moves on the second guide plate to push the distribution barrel to move transversely, and finally, the arrangement of the adjusting part in the distribution barrel enables the distribution barrel to put one lens at a time, so that the lenses are placed in the positioning holes one by one, full-automatic operation is realized, manual operation is avoided, operator fatigue is avoided, time is saved, and efficiency is improved.

The split charging assembly and the jig assembly are divided into two groups and are respectively arranged on two sides of the detection auxiliary assembly, so that the detection auxiliary assembly can perform reciprocating motion between the two groups of the split charging assemblies to realize detection, the time is saved, and the detection efficiency is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is an overall perspective view of the present invention;

FIG. 2 is a first perspective view of the dispensing assembly of the present invention;

FIG. 3 is a second perspective view of the dispensing assembly of the present invention;

figure 4 is a third perspective view of the racking assembly of the present invention;

FIG. 5 is a perspective view of the inspection aid assembly of the present invention;

FIG. 6 is a schematic cross-sectional view of a jig assembly of the present invention;

fig. 7 is a schematic view of an adjustment member of the present invention.

In the figure: 1. a dispensing assembly; 11. a work table; 12. a first guide plate; 121. a chute; 122. a tooth socket; 123. a through groove; 13. a first movable base; 131. a slide base; 132. a gear motor; 14. a connecting seat; 15. a second guide plate; 16. a second movable base; 17. a dispensing cartridge; 171. a receiving opening; 172. a discharging end; 18. an adjustment member; 181. a lower baffle plate; 182. an upper baffle plate; 183. a connecting rod; 184. a limiting groove; 185. a rotating sheet; 186. a first motor; 19. positioning blocks; 2. a jig component; 21. a jig body; 22. positioning holes; 23. a lens; 24. mounting a plate; 3. detecting an auxiliary component; 31. a toothed plate; 32. a movable frame; 33. a moving motor; 34. installing a station on the upper detection equipment; 35. a connector tile; 36. and installing stations of lower detection equipment.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be described more clearly and more completely with reference to the drawings in the following embodiments, and it is understood that the described embodiments are only a part of the present invention, rather than all of the present invention, and based on the embodiments, other embodiments obtained by those skilled in the art without inventive exercise are within the protection scope of the present invention.

As shown in fig. 1 to 7, a lens clamping jig device comprises two sets of assembling components 1 and jig components 2, wherein the assembling components 1 are used for placing a plurality of lenses 23 one by one in each positioning hole 22 uniformly distributed on the jig components 2, a detection auxiliary component 3 for detecting the lenses 23 in the jig components 2 is arranged between the two sets of assembling components 1, and the detection auxiliary component 3 detects the lenses in the two sets of assembling components 1 in turn.

The sub-packaging assembly 1 comprises a workbench 11, a jig body 21 is detachably placed on the workbench 11 through a positioning block 19, a first guide plate 12 is arranged on one side of the jig body 21 on the upper surface of the workbench 11, a first moving seat 13 is arranged above the first guide plate 12 in a sliding mode, a second guide plate 15 fixedly connected with a connecting seat 14 is arranged above the first moving seat 13, a second moving seat 16 is arranged above the second guide plate 15 in a sliding mode, and a distribution barrel 17 fixedly connected with the side surface of the second moving seat 16 is arranged on the second moving seat 16.

The upper surfaces of the first guide plate 12 and the second guide plate 15 are both provided with a sliding groove 121 and a tooth groove 122, the first moving seat 13 and the second moving seat 16 are both composed of a sliding seat 131 and a gear motor 132, the body of the gear motor 132 is fixed on the sliding seat 131, a gear of an output shaft of the gear motor 132 is meshed with the tooth groove 122, and the gear motor 132 rolls in the tooth groove 122 to drive the sliding seat 131 to move in the sliding groove 121.

A plurality of lenses 23 are stacked inside the dispensing tube 17, the blanking end 172 of the dispensing tube 17 corresponds to each positioning hole 22 formed on the jig body 21, and the side surface of the dispensing tube 17 is provided with an adjusting member 18 for distributing the lenses 23 into the positioning holes 22 one by one.

The adjusting member 18 comprises an upper baffle 182 and a lower baffle 181, the height difference between the upper baffle 182 and the lower baffle 181 is the thickness of one lens 23, the upper baffle 182 and the lower baffle 181 are parallel and staggered, and the length of the upper baffle 182 and the length of the lower baffle 181 are the same as the distance between the left inner wall and the right inner wall of the blanking end 172. When the height difference between the upper baffle 182 and the lower baffle 181 is the thickness of one lens 23, the lower baffle 181 is withdrawn, when the upper baffle 182 enters, the upper baffle 182 with the front end being an inclined plane is directly inserted into the middle of the two lenses 23 at the bottom, so as to separate the two lenses, the lens 23 at the bottom is put down later, and the rest lenses 23 are blocked to avoid falling, the upper baffle 182 and the lower baffle 181 are parallel and staggered, so that the lenses can enter into the blanking end 172 one by one and enter into the blanking end 172 in turn, the lenses 23 fall one by one, the lengths of the lenses are the same with the width of the inner wall of the blanking end 172, and the upper and lower lenses 23 which are stacked together can be thoroughly separated.

The upper baffle 182 and the lower baffle 181 are fixedly connected through a connecting rod 183, a limiting groove 184 is fixedly connected at the transverse midpoint of the connecting rod 183, a rotating piece 185 with one end capable of sliding in the limiting groove 184 is arranged in the limiting groove 184, and the other end of the rotating piece 185 is fixedly connected to a first motor 186 arranged on the side surface of the distribution barrel 17. The first motor 186 rotates to drive the rotating sheet 185 to rotate, one end of the rotating sheet 185 is provided with a cylinder, and the cylinder slides up and down in the limiting groove 184 in the rotating process of the rotating sheet 185, so that the rotating sheet 185 drives the limiting groove 184 to perform left-right reciprocating translation, and then the upper baffle 182 and the lower baffle 181 enter the blanking end 172 in turn to perform screening and one-by-one blanking on the lenses 23 inside.

The detection auxiliary assembly 3 comprises a toothed plate 31, the toothed plate 31 is fixed on one side, far away from the first guide plate 12, of the workbench 11, a moving frame 32 is arranged above the toothed plate 31 in a sliding mode, the moving frame 32 is meshed with teeth on the side face of the toothed plate 31 in a rotating mode through gears of an output shaft of a moving motor 33 and is moved, a plurality of upper detection device installation stations 34 are fixedly arranged above the moving frame 32, a connecting plate 35 is fixedly connected to the lower portion of the sliding seat 131, the distance between the connecting plate 35 and the distribution barrel 17 is different by one row of lenses, a plurality of groups of lower detection device installation stations 36 are arranged on the connecting plate 35, the lower detection device installation stations 36 correspond to the upper detection device installation stations 34 one by one, and the number of the lower detection device installation stations is equal to the number. The connector plate 35 is fixed to the slide carriage 131 through the through slot 123 and slides in the through slot 123, and the upper inspection equipment mounting station 34 and the lower inspection equipment mounting station 36 can be used to mount the equipment required for the related lens test, thereby assisting the inspection of the lens.

When in use: starting the gear motor 132 on the first moving seat 13 and the second moving seat 16, wherein the gear motor 132 on the first moving seat 13 rotates in the tooth slot 122 of the first guide plate 12 to drive the sliding seat 131 of the first moving seat 13 to slide in the sliding slot 121 of the first guide plate 12, and the sliding seat 131 of the first moving seat 13 drives the connecting seat 14 and the second guide plate 15 above the connecting seat 14 to move, so as to provide longitudinal movement for the dispensing cartridge 17 and adjust the longitudinal position of the dispensing cartridge 17; the gear motor 132 on the second movable base 16 rotates in the tooth slot 122 on the second guiding plate 15, and drives the sliding base 131 of the second movable base 16 to slide in the sliding slot 121 on the second guiding plate 15, and the sliding base 131 of the second movable base 16 drives the dispensing cylinder 17 fixed with the sliding base to move transversely, so that the transverse position of the dispensing cylinder 17 is adjusted.

Between uses of the dispensing cartridge 17, a user places a plurality of lenses 23 in the corresponding mounting plates 24, and then stacks the mounting plates 24 and drops the lenses directly from the receiving opening 171 into the dispensing cartridge 17, and the lowermost mounting plate 24 is stopped by the upper baffle 182 or the lower baffle 181 located in the discharge opening so as not to fall down when received in the dispensing cartridge 17.

When the automatic feeding device is used, the first motor 186 is started, the rotation of the first motor 186 drives the rotation of the rotation piece 185, one end of the rotation piece 185 slides in the limiting groove 184, so that the limiting groove 184 moves left and right, the left and right movement of the limiting groove 184 drives the connecting rod 183 fixed with the limiting groove 184 to move left and right, the left and right movement of the connecting rod 183 drives the upper baffle plate 182 and the lower baffle plate 181 to move left and right, so that the upper baffle plate 182 enters the feeding end 172 in turn, when the lower baffle plate 181 enters and the upper baffle plate 182 withdraws, the mounting plate 24 in the dispensing tube 17 moves downwards and is blocked by the lower baffle plate 181, then the lower baffle plate 181 withdraws, the upper baffle plate 182 enters through the front end of the inclined plane to separate the lowest mounting plate 24 from the mounting plate 24 above the lower mounting plate 24, so that the lowest mounting plate 24 falls into the positioning hole 22 of the jig body 21 at the corresponding position, similarly, the mounting plates 24 are distributed one by one to the remaining positioning holes 22, so that the mounting plates 24 are distributed in the respective positioning holes 22.

When the dispensing cylinder 17 on the left sub-packaging assembly 1 completes the dispensing task of the first row of lenses 23 on the left jig body 21, the moving motor 33 is started to rotate, the moving motor 33 rotates on the teeth on the side surface of the toothed plate 31 through the gear of the output shaft to drive the moving frame 32 to move towards the left sub-packaging assembly 1, when the moving frame 32 moves to the first row of the left jig body 21, the dispensing cylinder 17 enters the second row of the jig body 21 under the driving of the first moving seat 13, so that the two rows do not interfere with each other, and then the lens detection equipment in the related industry corresponding to the upper detection equipment mounting station 34 and the lower detection equipment mounting station 36 is used for detection. When last check out test set installation station 34 is in the first row of tool body 21 on left side partial shipment subassembly 1 and assists the detection, the distribution section of thick bamboo 17 on the right side partial shipment subassembly 1 also accomplishes the lens 23 distribution task of first row on right side tool body 21, enter into the second row and distribute, the check out test set on last check out test set installation station 34 accomplishes the back to left side lens 23, the first row of tool body 21 to right side partial shipment subassembly 1 aligns the detection under the removal of removal frame 32, thereby reciprocating motion about so assists quick detection.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a lens clamping tool device which characterized in that: including two components dress subassembly (1) and tool subassembly (2), partial shipment subassembly (1) is arranged in placing a plurality of lens (23) distribution one by one in each locating hole (22) of evenly distributed on tool subassembly (2), and is two sets of be provided with between partial shipment subassembly (1) right in tool subassembly (2) lens (23) carry out the detection auxiliary assembly (3) that detect, it is two sets of to detect auxiliary assembly (3) detect in turn between partial shipment subassembly (1).

2. The lens clamping jig device of claim 1, characterized in that: sub-packaging subassembly (1) includes workstation (11), can dismantle through locating piece (19) on workstation (11) and place tool body (21) workstation (11) upper surface one side of tool body (21) is provided with first baffle (12), first baffle (12) top is slided and is provided with first removal seat (13), connecting seat (14) fixedly connected with second baffle (15) are passed through to the top of first removal seat (13), the top of second baffle (15) is slided and is provided with the second and removes seat (16), the side fixedly connected with of second removal seat (16) distributes a section of thick bamboo (17).

3. The lens clamping jig device of claim 2, characterized in that: the upper surfaces of the first guide plate (12) and the second guide plate (15) are respectively provided with a sliding groove (121) and a tooth groove (122), the first moving seat (13) and the second moving seat (16) are respectively composed of a sliding seat (131) and a gear motor (132), the body of the gear motor (132) is fixed on the sliding seat (131), a gear of an output shaft of the gear motor (132) is meshed with the tooth groove (122), and the gear motor (132) rolls in the tooth groove (122) to drive the sliding seat (131) to move in the sliding groove (121).

4. The lens clamping jig device of claim 2, characterized in that: the lens dispensing device is characterized in that a plurality of lenses (23) are stacked in the dispensing tube (17), the blanking end (172) of the dispensing tube (17) corresponds to each positioning hole (22) formed in the upper surface of the jig body (21), and an adjusting piece (18) is arranged on the side surface of the dispensing tube (17) and used for distributing the lenses (23) to the positioning holes (22) one by one.

5. The lens clamping jig device of claim 4, characterized in that: the adjusting piece (18) comprises an upper baffle (182) and a lower baffle (181), the height difference between the upper baffle (182) and the lower baffle (181) is equal to the thickness of the lens (23), the upper baffle (182) and the lower baffle (181) are parallel and staggered, and the lengths of the upper baffle (182) and the lower baffle (181) are equal to the distance between the left inner wall and the right inner wall of the blanking end (172).

6. The lens clamping jig device of claim 5, characterized in that: the upper baffle (182) and the lower baffle (181) are fixedly connected through a connecting rod (183), a limiting groove (184) is fixedly connected to the transverse midpoint of the connecting rod (183), a rotating sheet (185) with one end capable of sliding in the limiting groove (184) is arranged in the limiting groove (184), and the other end of the rotating sheet (185) is fixedly connected to a first motor (186) arranged on the side face of the distribution barrel (17).

7. The lens clamping jig device of claim 4, characterized in that: the jig assembly (2) further comprises a mounting plate (24) used for accommodating the lenses (23), the mounting plate (24) is accommodated in the positioning holes (22) and is in one-to-one correspondence with the positioning holes, and through holes which penetrate through and are aligned are formed in the surfaces of the jig body (21), the mounting plate (24) and the workbench (11).

8. The lens clamping jig device of claim 3, characterized in that: the detection auxiliary assembly (3) comprises a toothed plate (31), the toothed plate (31) is fixed on one side, far away from the first guide plate (12), of the workbench (11), a moving frame (32) is arranged above the toothed plate (31) in a sliding mode, the moving frame (32) is rotationally engaged with the side teeth of the toothed plate (31) through a gear of an output shaft of a moving motor (33) to realize movement, a plurality of upper detection equipment mounting stations (34) are fixedly arranged above the moving frame (32), a connecting plate (35) is fixedly connected below the sliding seat (131), the connection plate (35) and the dispensing cylinder (17) are different by the distance of a row of lenses, a plurality of groups of lower detection equipment mounting stations (36) are arranged on the connecting plate (35), the lower detection equipment mounting stations (36) are in one-to-one correspondence with the upper detection equipment mounting stations (34).