阅读说明：本技术 一种光学零部件研发用误差检测装置 (Error detection device for research and development of optical parts ) 是由 戚志洋 于 2019-08-20 设计创作，主要内容包括：本发明公开了一种光学零部件研发用误差检测装置,包括底座、支腿、连接座、立柱、转轴和放置台,所述底座底端固定连接有支腿,所述底座上端面分别设有连接座、立柱,所述连接座设有两组,所述底座上端面中心位置镶嵌安装有轴承,所述轴承内固定插接有转轴,所述转轴顶端固定连接有用于安装放置台的连接杆,所述放置台设于两组所述连接座之间,所述放置台上安装有滑块,所述滑块顶端连接有外壳,所述滑块、外壳均相对平行设有两组,所述外壳内部固定安装有第二气缸,所述第二气缸一端连接有推杆,所述外壳靠近放置台的一端设有限位板。该光学零部件研发用误差检测装置,设计合理,使用方便,能够满足企业的使用需求。(The invention discloses an error detection device for research and development of optical parts, which comprises a base, supporting legs, connecting seats, stand columns, rotating shafts and a placing table, wherein the supporting legs are fixedly connected to the bottom end of the base, the connecting seats and the stand columns are respectively arranged on the upper end face of the base, two groups of the connecting seats are arranged, bearings are embedded in the center of the upper end face of the base, the rotating shafts are fixedly inserted in the bearings, the top ends of the rotating shafts are fixedly connected with connecting rods used for installing the placing table, the placing table is arranged between the two groups of the connecting seats, sliding blocks are arranged on the placing table, the top ends of the sliding blocks are connected with a shell, the sliding blocks and the shell are respectively arranged in two groups in parallel, second air cylinders are fixedly arranged in the shell, one ends of the second air. This error detection device is used in optical parts research and development, reasonable in design, convenient to use can satisfy the user demand of enterprise.)

1. The utility model provides an error detection device is used in development of optical component, includes base (1), landing leg (2), connecting seat (4), stand (9), pivot (17) and places platform (18), its characterized in that: the bottom end of the base (1) is fixedly connected with the supporting legs (2), the upper end face of the base (1) is respectively provided with a connecting seat (4) and a stand column (9), the connecting seats (4) are provided with two groups, the center position of the upper end face of the base (1) is embedded with a bearing (13), a rotating shaft (17) is fixedly inserted in the bearing (13), the top end of the rotating shaft (17) is fixedly connected with a connecting rod (28) used for installing a placing table (18), the placing table (18) is arranged between the two groups of connecting seats (4), a sliding block (25) is arranged on the placing table (18), the top end of the sliding block (25) is connected with a shell (5), the sliding block (25) and the shell (5) are respectively provided with two groups in parallel, a second cylinder (26) is fixedly arranged in the shell (5), one end of the second cylinder, shell (5) are close to the one end of placing platform (18) and are equipped with limiting plate (19), limiting plate (19) are connected with push rod (21), limiting plate (19), push rod (21) all are equipped with two sets ofly, place platform (18) up end fixedly connected with protective layer (23), glass lens (22) have been placed on protective layer (23), glass lens (22) are located two sets ofly between limiting plate (19), one of them is a set of limiting plate (19) one end fixedly connected with dipperstick (20), stand (9) bottom and base (1) top fixed connection, one side that stand (9) are close to place platform (18) is equipped with expansion plate (10), vacuum chuck (6) are installed to terminal surface under expansion plate (10).

2. The apparatus according to claim 1, wherein the error detecting means comprises: stand (9) top fixedly connected with roof (8), roof (8) up end fixed mounting has first cylinder (7), stand (9) inside has been seted up and has been placed chamber (30), stand (9) are close to one side of placing platform (18) and have been seted up spout (14), spout (14) with place chamber (30) intercommunication.

3. The apparatus according to claim 2, wherein: the placing cavity (30) is internally provided with a telescopic rod (15) and a pressing plate (29) respectively, the bottom end of the telescopic rod (15) is fixedly inserted into the upper end face of the pressing plate (29), the top end of the telescopic rod (15) penetrates through the top plate (8) to be connected with the first air cylinder (7), and the plane where the pressing plate (29) is located is parallel to the plane where the top plate (8) is located.

4. The apparatus according to claim 1, wherein the error detecting means comprises: slide groove (14) and clamp plate (29) fixed connection are passed to expansion plate (10) one end, expansion plate (10) are right angle structure with telescopic link (15) and arrange, the one end fixed mounting that clamp plate (29) were kept away from in expansion plate (10) has connecting pipe (16).

5. The apparatus according to claim 1, wherein the error detecting means comprises: vacuum chuck (6) top fixed mounting has connecting pipe (16), vacuum chuck (6) and connecting pipe (16) intercommunication, expansion plate (10) are passed on connecting pipe (16) top to fix the up end at expansion plate (10), the one end that vacuum chuck (6) were kept away from in connecting pipe (16) is passed through the pipeline and is connected with the aspiration pump.

6. The apparatus according to claim 1, wherein the error detecting means comprises: the motor is characterized in that a cavity (11) used for installing a second motor (12) is formed in the base (1), the top end of the second motor (12) is fixedly connected with the inner wall of the top end of the base (1), and the bottom end of the rotating shaft (17) penetrates through a bearing (13) to be connected with the top end of the second motor (12).

7. The apparatus according to claim 1, wherein the error detecting means comprises: the improved structure is characterized in that a groove (24) is formed in the upper end face of the connecting seat (4), a threaded rod (27) is installed in the groove (24), a sliding block (25) is sleeved on the threaded rod (27), one end of the connecting seat (4) far away from the placing table (18) is fixedly provided with a first motor (3), one end of the threaded rod (27) penetrates through the connecting seat (4) to be connected with the first motor (3), the bottom end of the sliding block (25) is inserted into the groove (24), and the sliding block (25) is matched with the groove (24).

8. The apparatus according to claim 1, wherein the error detecting means comprises: push rod (21) one end is passed shell (5) and is connected with second cylinder (26), push rod (21) keep away from the fixed grafting of one end of second cylinder (26) on limiting plate (19), two sets of limiting plate (19) place plane is parallel, limiting plate (19) bottom and protective layer (23) contact, one side that push rod (21) were kept away from in limiting plate (19) contacts with glass lens (22).

Technical Field

The invention belongs to the technical field of optical parts, and particularly relates to an error detection device for research and development of optical parts.

Background

The electronic equipment is composed of electronic components such as integrated circuits, transistors, electron tubes and the like, and is used for playing a role by applying electronic technology (including) software, and comprises an electronic computer, a robot controlled by the electronic computer, a numerical control or program control system and the like. The method mainly comprises the following steps: computers, air conditioners, refrigerators, washing machines, microwave ovens, printers, copiers, facsimile machines, all-in-one machines, and the like. Optical components, including an image scanner assembly that performs the core function of the copier, provide optical system components, components.

When the optical parts are produced, error detection is needed, the current optical parts still adopt a manual measurement mode for error detection, the problems of large error and low efficiency exist in manual detection, and the use requirements of enterprises cannot be met.

Disclosure of Invention

The present invention is directed to an error detection device for optical component development to solve the above-mentioned problems of the related art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an error detection device is used in research and development of optical components, includes base, landing leg, connecting seat, stand, pivot and places the platform, base bottom fixedly connected with landing leg, the base up end is equipped with connecting seat, stand respectively, the connecting seat is equipped with two sets ofly, base up end central point puts to inlay and installs the bearing, the bearing internal fixation is pegged graft there is the pivot, pivot top fixedly connected with is used for installing the connecting rod of placing the platform, it locates two sets ofly to place the platform between the connecting seat, place bench and install the slider, the slider top is connected with the shell, slider, shell homogeneous phase are equipped with two sets ofly to the parallel, the inside fixed mounting of shell has the second cylinder, second cylinder one end is connected with the push rod, the shell is close to the one end of placing the platform and is equipped with the, The push rod all is equipped with two sets ofly, place bench up end fixedly connected with protective layer, glass lens has been placed on the protective layer, glass lens locates two sets ofly between the limiting plate, one of them is a set of limiting plate one end fixedly connected with dipperstick, stand bottom and base top fixed connection, one side that the stand is close to the platform of placing is equipped with the expansion plate, vacuum chuck is installed to terminal surface under the expansion plate.

Preferably, the top end of the upright post is fixedly connected with a top plate, a first air cylinder is fixedly mounted on the upper end face of the top plate, a placing cavity is formed in the upright post, a sliding groove is formed in one side, close to the placing platform, of the upright post, and the sliding groove is communicated with the placing cavity.

Preferably, the placing cavity is internally provided with a telescopic rod and a pressing plate respectively, the bottom end of the telescopic rod is fixedly inserted into the upper end face of the pressing plate, the top end of the telescopic rod penetrates through the top plate to be connected with the first cylinder, and the plane where the pressing plate is located is parallel to the plane where the top plate is located.

Preferably, one end of the expansion plate penetrates through the sliding groove to be fixedly connected with the pressing plate, the expansion plate and the expansion rod are arranged in a right-angle structure, and a connecting pipe is fixedly arranged at one end, far away from the pressing plate, of the expansion plate.

Preferably, the vacuum chuck top fixed mounting has the connecting pipe, vacuum chuck and connecting pipe intercommunication, the expansion plate is passed on the connecting pipe top to fix at the up end of expansion plate, the one end that vacuum chuck was kept away from to the connecting pipe is passed through the pipeline and is connected with the aspiration pump.

Preferably, a cavity for installing a second motor is formed in the base, the top end of the second motor is fixedly connected with the inner wall of the top end of the base, and the bottom end of the rotating shaft penetrates through the bearing to be connected with the top end of the second motor.

Preferably, a groove is formed in the upper end face of the connecting seat, a threaded rod is installed in the groove, a sliding block is sleeved on the threaded rod, a first motor is fixedly installed at one end, far away from the placing table, of the connecting seat, one end of the threaded rod penetrates through the connecting seat to be connected with the first motor, the bottom end of the sliding block is inserted into the groove, and the sliding block is matched with the groove.

Preferably, one end of the push rod penetrates through the shell to be connected with the second cylinder, one end, far away from the second cylinder, of the push rod is fixedly inserted into the limiting plates, the planes of the two groups of limiting plates are parallel, the bottom ends of the limiting plates are in contact with the protective layer, and one side, far away from the push rod, of each limiting plate is in contact with the glass lens.

The invention has the technical effects and advantages that: the error detection device for researching and developing optical parts is characterized in that through the design of the second motor, the bearing and the placing table, the angle detected by the glass lens can be conveniently adjusted according to the detection requirement, through the design of the vacuum chuck, the connecting pipe, the expansion plate, the expansion link and the first cylinder, the position of the glass lens on the placing table can be conveniently fixed, the glass lens can be prevented from being displaced in the detection process, the problem of large detection error is solved, meanwhile, the structure is suitable for glass lenses with various sizes, the applicability of the device is improved, the measuring scale is provided with scale lines, the plane where the measuring scale is located is parallel to the plane where the glass lens is located, so that the measuring scale can conveniently measure the glass lens, the efficiency of measuring the glass lens can be improved, the protective layer is a silica gel layer, and when the position of the glass lens is fixed, the mirror surface scratch of the glass lens can be avoided at the, this error detection device is used in optical parts research and development, reasonable in design, convenient to use can satisfy the user demand of enterprise.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the connecting socket of the present invention;

FIG. 3 is a schematic view of the internal structure of the base of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3 according to the present invention;

fig. 5 is a perspective view of the expansion plate of the present invention.

In the figure: the vacuum glass placing device comprises a base 1, supporting legs 2, a first motor 3, a connecting seat 4, a shell 5, a vacuum chuck 6, a first cylinder 7, a top plate 8, a vertical column 9, a telescopic plate 10, a cavity 11, a second motor 12, a bearing 13, a sliding chute 14, a telescopic rod 15, a connecting pipe 16, a rotating shaft 17, a placing table 18, a limiting plate 19, a measuring scale 20, a push rod 21, a glass lens 22, a protective layer 23, a groove 24, a sliding block 25, a second cylinder 26, a threaded rod 27, a connecting rod 28, a pressing plate 29 and a placing cavity 30.

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.

The invention provides an error detection device for researching and developing optical parts, which comprises a base 1, supporting legs 2, connecting seats 4, upright posts 9, rotating shafts 17 and a placing table 18, wherein the bottom end of the base 1 is fixedly connected with the supporting legs 2, the upper end surface of the base 1 is respectively provided with the connecting seats 4 and the upright posts 9, the connecting seats 4 are provided with two groups, the center position of the upper end surface of the base 1 is embedded with a bearing 13, the rotating shafts 17 are fixedly inserted in the bearings 13, the top ends of the rotating shafts 17 are fixedly connected with connecting rods 28 for installing the placing table 18, the placing table 18 is arranged between the two groups of connecting seats 4, the placing table 18 is provided with a sliding block 25, the top ends of the sliding blocks 25 are connected with a shell 5, the sliding blocks 25 and the shell 5 are respectively provided with two groups in parallel, a second air cylinder 26 is fixedly arranged in the shell 5, one end of the second air, the shell 5 is close to the one end of placing platform 18 and is equipped with limiting plate 19, limiting plate 19 is connected with push rod 21, limiting plate 19, push rod 21 all are equipped with two sets ofly, place 18 up end fixedly connected with protective layer 23 of platform, glass lens 22 has been placed on the protective layer 23, glass lens 22 locates two sets ofly between the limiting plate 19, one of them is a set of 19 one end fixedly connected with dipperstick 20 of limiting plate, 9 bottoms of stand and 1 top fixed connection of base, one side that stand 9 is close to placing platform 18 is equipped with expansion plate 10, vacuum chuck 6 is installed to the terminal surface under the expansion plate 10, is equipped with the scale mark on the dipperstick 20, and dipperstick 20 place plane is parallel with glass lens 22 place plane to the dipperstick 20 of being convenient for measures glass lens 22.

Specifically, 9 top fixedly connected with roofs 8 of stand, 8 up end fixed mounting of roof have first cylinder 7, stand 9 is inside to be seted up and to place chamber 30, stand 9 has been close to one side of placing platform 18 and has been seted up spout 14, spout 14 with place chamber 30 intercommunication to the telescopic link 15 of being convenient for drives expansion plate 10 and moves.

Specifically, the placing cavity 30 is internally provided with a telescopic rod 15 and a pressing plate 29 respectively, the bottom end of the telescopic rod 15 is fixedly inserted into the upper end surface of the pressing plate 29, the top end of the telescopic rod 15 penetrates through the top plate 8 to be connected with the first cylinder 7, the plane where the pressing plate 29 is located is parallel to the plane where the top plate 8 is located, and the pressing plate 29 is convenient to drive the telescopic plate 10 to move.

Specifically, one end of the expansion plate 10 penetrates through the sliding groove 14 and is fixedly connected with the pressing plate 29, the expansion plate 10 and the expansion rod 15 are arranged in a right-angle structure, and a connecting pipe 16 is fixedly mounted at one end, far away from the pressing plate 29, of the expansion plate 10.

Specifically, 6 top fixed mounting of vacuum chuck has connecting pipe 16, vacuum chuck 6 and connecting pipe 16 intercommunication, expansion plate 10 is passed on the 16 tops of connecting pipe to fix the up end at expansion plate 10, the one end that vacuum chuck 6 was kept away from to connecting pipe 16 is passed through the pipeline and is connected with the aspiration pump, can bleed the operation to vacuum chuck 6 through connecting pipe 16, and then is convenient for fix the position of glass lens 22.

Specifically, base 1 is inside to be offered the cavity 11 that is used for installing second motor 12, second motor 12 top and base 1 top inner wall fixed connection, pivot 17 bottom is passed bearing 13 and is connected with second motor 12 top to be convenient for motor 12 to drive through pivot 17 and place platform 18 and rotate, and then be convenient for glass lens 22 adjustment measuring angle.

Specifically, recess 24 is seted up to connecting seat 4 up end, install threaded rod 27 in the recess 24, slider 25 has been put to the cover on the threaded rod 27, the one end fixed mounting that places platform 18 was kept away from to connecting seat 4 has first motor 3, threaded rod 27 one end is passed connecting seat 4 and is connected with first motor 3, insert in recess 24 slider 25 bottom, slider 25 and recess 24 looks adaptation to be convenient for slider 25 to drive shell 5 and remove.

Specifically, shell 5 is passed to push rod 21 one end and is connected with second cylinder 26, the fixed grafting of one end on limiting plate 19 that second cylinder 26 was kept away from to push rod 21, two sets of limiting plate 19 place plane is parallel, limiting plate 19 bottom and protective layer 23 contact, one side that push rod 21 was kept away from to limiting plate 19 contacts with glass lens 22, can fix glass lens 22's position, and then is convenient for measure glass lens 22, and protective layer 23 is the silica gel layer, when fixed glass lens 22 position, avoids glass lens 22's mirror surface scratch simultaneously.

Specifically, when the error detection device for research and development of optical components is used in the world, firstly, a glass lens 22 is placed on a protective layer 23 on a placing table 18, a second motor 12 is started to drive the placing table 18 to rotate through a rotating shaft 17, the angle to be measured of the glass lens 22 is adjusted, the second motor 12 is closed, then a first air cylinder 7 on a top plate 8 is started, the position of an expansion rod 15 is adjusted, a vacuum suction cup 6 is enabled to face the position of the glass lens 22, a pressing plate 29 is pushed to move downwards through the expansion rod 15, an expansion plate 10 is driven to move downwards, the vacuum suction cup 6 is further driven to move towards the position of the glass lens 22 until the vacuum suction cup 6 is adsorbed on the glass lens 22, then a second air cylinder 26 is started, a limiting plate 19 is pushed to move towards the position of the glass lens 22 through a push rod 21 until two groups of limiting plates 19 are both contacted with both, then measure glass lens 22 through dipperstick 20, this error detection device is used in optical parts research and development, reasonable in design, convenient to use can satisfy the user demand of enterprise.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.