CN210213781U - Novel optical lens piece transfer mechanism - Google Patents

Abstract

The utility model relates to a novel optical lens piece transmission mechanism, which comprises a box body; the box body is provided with a cylindrical cavity; the rotating disc, the rotating shaft and the baffle are arranged in the cavity; the rotating disc is arranged at the bottom of the cavity, the rotating shaft is vertically arranged in the cavity, one end of the rotating disc is fixedly connected to the center of the rotating disc, and the other end of the rotating disc is rotatably connected with the top of the cavity; the rotating disc and the rotating shaft can rotate around the axis of the rotating shaft; the baffle is vertically arranged in the cavity; the cavity is divided into a plurality of independent areas by the baffle, the rotating disc and the rotating shaft. The cavity of the utility model is provided with a plurality of independent areas which can continuously move from a front transmission door to a rear transmission door through the rotation of the rotating disc, so that when optical lenses are put in one side of the optical transmission mechanism, the process of taking out the optical lenses from the other side can also be carried out; thereby improving the transmission efficiency and the transmission independence of the optical lens; meanwhile, the isolation of the spaces at two sides of the transfer mechanism is ensured. In addition, the utility model has good dust-free performance.

Description

Novel optical lens piece transfer mechanism

Technical Field

The utility model relates to an optical lens piece equipment field especially relates to a novel optical lens piece transmission device.

Background

Optical glass lenses are often used in the manufacture of digital cameras, video cameras, and the like. In the production of optical lenses, the optical lenses need to be transferred between a non-dust-free workshop and a dust-free workshop, but a large amount of dust and impurities exist in the non-dust-free workshop and can affect equipment in the dust-free workshop, so that a lens transfer mechanism needs to be arranged between the non-dust-free workshop and the dust-free workshop; the production of optical lenses requires a lens transfer mechanism with high transfer efficiency and good dust-free properties. Therefore, the utility model aims to solve the problem of providing an optical lens piece transmission mechanism with high transmission efficiency and good dust-free performance.

Disclosure of Invention

The utility model overcomes prior art's is not enough, provides an optical lens piece transfer mechanism that transmission efficiency is high, dustless nature is good.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides a novel optical lens piece transfer mechanism which characterized in that: comprises a box body; the box body is provided with a cylindrical cavity; a rotating disc, a rotating shaft and a plurality of baffles are arranged in the cavity; the rotating disc is arranged at the bottom of the cavity, the rotating shaft is vertically arranged in the cavity, one end of the rotating shaft is fixedly connected to the center of the rotating disc, and the other end of the rotating shaft is rotatably connected with the top of the cavity; the rotating disc and the rotating shaft can rotate around the axis of the rotating shaft under the action of the rotating driving mechanism; the baffle is vertically arranged in the cavity, the bottom edge of the baffle is fixedly connected with the upper surface of the rotating disc, one side edge of the baffle is fixedly connected with the rotating shaft, and the other side edge and the top edge of the baffle are respectively attached to the side wall and the top surface of the cavity; the baffle, the rotating disc and the rotating shaft divide the cavity into a plurality of independent areas; openings which can be communicated with the outside are arranged on two opposite sides of the cavity, and a front transfer door and a rear transfer door are respectively arranged on the openings.

As a preferable scheme, a driven disc corresponding to the rotating disc is further arranged at the top of the cavity; the top of the rotating shaft is fixedly connected with the center of the driven disc, and the top edge of the baffle is fixedly connected with the lower surface of the driven disc; the baffle, the rotating disc, the driven disc and the rotating shaft form a plurality of independent areas in the cavity.

As a more preferable scheme, the box body is also provided with a blower which is arranged above the driven plate; the driven disc is provided with a plurality of air inlets which penetrate through the driven disc, and the air inlets can be communicated with an air opening of a blower; and at least one air inlet is formed in an independent area formed by each baffle, the rotating disc, the driven disc and the rotating shaft.

As a more preferable scheme, an activated carbon adsorption layer is arranged on the air inlet.

As a preferred scheme, the box body is also provided with a suction fan, and the suction fan is arranged below the rotating disc; the rotating disc is provided with a plurality of air outlets penetrating through the rotating disc, and the air outlets can be communicated with the air inlet of the suction fan; and each independent area formed by the baffle, the rotating disc and the rotating shaft is provided with at least one air outlet.

As a more preferable scheme, a dust collector is arranged on the air outlet.

Preferably, the barrier is partially or completely transparent.

As a preferred scheme, the box body is also provided with two portrait recognition devices; one portrait recognition device and the front transfer door are arranged on one side of the box body, and the other portrait recognition device and the rear transfer door are arranged on the other side of the box body.

As a more preferable scheme, the box body is also provided with two operation control units; one operation control unit and the front transmission door are arranged on one side of the box body, and the other operation control unit and the rear transmission door are arranged on the other side of the box body.

The beneficial technical effects of the utility model mainly lie in: the optical lens transfer mechanism is high in transfer efficiency and good in dust-free performance.

(1) The utility model forms a plurality of independent areas in the cavity through the arrangement of the baffle, the rotating disk, the driven disk and the rotating shaft, and each independent area can continuously move from the front transmission door to the rear transmission door through the rotation of the rotating disk; the arrangement can ensure that the process of putting the optical lens into one side of the optical transmission mechanism and the process of taking the optical lens out of the other side of the optical transmission mechanism can be carried out; compared with the process that the optical lens is required to be placed on one side of the traditional transfer mechanism and then the optical lens can be taken out from the other side of the traditional transfer mechanism, the transfer efficiency of the optical lens is improved, different lenses or articles can be transferred in different independent areas, and the transfer independence is guaranteed; meanwhile, the independent areas are not communicated with each other, so that the isolation of the spaces at two sides of the transfer mechanism is ensured, and the phenomenon of cross contamination is avoided.

(2) The utility model discloses set up suction fan and hair-dryer, the optical lens piece has improved the effect of dust removal from putting into taking out the process that can remove dust through the cubic, has reduced the pollution of dust to the optical lens piece, has improved the dustlessness of transfer mechanism.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic top view of a preferred embodiment of the invention.

Fig. 2 is a schematic front view of a preferred embodiment of the present invention.

Fig. 3 is a schematic structural diagram of the cavity, the blower and the suction fan of the present invention.

Fig. 4 is a cross-sectional view taken at a-a in fig. 3.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings, which are simplified schematic drawings and illustrate, by way of illustration only, the basic structure of the invention, and which therefore show only the constituents relevant to the invention. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1-4, a novel optical lens transferring mechanism includes a case 1; the shape of the box body 1 is similar to that of a cuboid, and a cylinder is inserted into the middle of the cuboid; a cylindrical cavity 2 is arranged in the cylindrical part of the box body 1; a rotating disc 21, a driven disc 22, a rotating shaft 23 and 4 baffle plates 24 are arranged in the cavity 2; the rotating disc 21 is arranged at the bottom of the cavity 2 (the upper surface of the rotating disc is kept horizontal), the center of the rotating disc 21 is arranged to be superposed with the center of the bottom of the cavity, and the rotating disc 21 is arranged in a size that the circumference of the rotating disc 21 is just completely attached to the circumferential inner wall of the cavity; the driven disc 22 is arranged at the top of the cavity 2 (the lower surface of the driven disc is kept horizontal), has the same size as the rotating disc 21 and corresponds to the rotating disc in position; the rotating shaft 23 is vertically arranged in the cavity 2, one end of the rotating shaft 23 is fixedly connected to the center of the upper surface of the rotating disc 21, and the other end of the rotating shaft 23 is fixedly connected to the center of the lower surface of the driven disc 22; the center position of the lower surface of the rotating disc 21 is also connected with a rotating driving mechanism (not shown), the rotating driving mechanism can select conventional equipment such as a motor and the like, and the rotating driving mechanism can be arranged in the cavity 2 or independently arranged in a cavity or a space of the box body 1; the upper surface of driven disk 22 is rotatably connected to the top of the cavity by conventional means; therefore, the rotary shaft 23, the rotary disk 21, and the driven disk 22 can be integrally rotated around the axis of the rotary shaft 21 by the rotary drive mechanism.

The baffle plates 24 are rectangular plate bodies, 4 baffle plates are arranged, and all the baffle plates are vertically arranged in the cavity 2; the bottom edge of the baffle plate 24 is fixedly connected with the upper surface of the rotating disc 21, the baffle plate and the rotating disc are completely attached without exposing gaps, and the top edge of the baffle plate is fixedly connected with the lower surface of the driven disc 22, the baffle plate and the driven disc are completely attached without exposing gaps; meanwhile, one side edge of the baffle plate 24 is fixedly connected with the rotating shaft, no gap is exposed between the baffle plate and the rotating shaft, and the side wall of the cavity 2 at the other side edge is completely attached; the baffle plate 24, the rotating disc 21, the driven disc 22 and the rotating shaft 23 form 4 independent areas 100 in the cavity 2; the 4 baffles 24 are all angled at 90 deg. to each other.

The cavity 2 is provided with openings which can be communicated with the outside at two opposite sides of the box body 1, and a front transmission door 3 and a rear transmission door 4 are respectively arranged on the openings.

So that when in use, the operator can open the transfer front door 3 to place the optical lens in a separate area 100 in the cavity 2; then, the rotating disc 21 is operated to rotate, and the baffle 24 is driven to rotate (the side edge of the baffle 24 is attached to the inner wall of the cavity 2 and slides), so that the independent area 100 moves to the rear transmission door 4, and an operator at the other side can smoothly take out the optical lens; meanwhile, an independent area 100 is arranged to rotate to the position of the front transfer door 3, so that an operator can take out the optical lens and complete the operation of putting in the optical lens at the same time when taking out the optical lens, thereby improving the transfer efficiency of the optical lens, and different independent areas 100 can transfer different lenses or articles, so that the transfer independence is ensured; meanwhile, the independent areas 100 are not communicated with each other, so that the isolation of the spaces at two sides of the transfer mechanism is ensured, and the phenomenon of cross contamination is avoided; the barrier 24 may be fully transparent or partially transparent (e.g., a glass window may be provided in the middle thereof) so that an operator can observe whether the opposite operator has finished the operation of inserting or removing the optical lens; the mistake that the operator at one side still places or takes out the optical lens and the operator at the other side already starts to rotate the rotating disk 21 is avoided; meanwhile, the inner wall of the cavity 2 and the side edge of the baffle plate 24 attached to the inner wall can be set to be smooth metal, glass or plastic surfaces so as to reduce abrasion during rotation.

The box body 1 is provided with a blower 5 which is arranged in an independent cavity at the upper part of the cavity 2 (namely the blower 5 is positioned above the driven disc 22); a plurality of air inlets 25 penetrating through the driven disc 22 are arranged on the driven disc 22; when the air inlet 25 and the air outlet of the blower 5 are rotated to the preset position, the air inlet and the air outlet can be overlapped to realize communication (namely, air blown out by the blower 5 can enter the cavity 2 from the air inlet 25); each independent area 100 is provided with at least one air inlet 25 and one air blower 5; meanwhile, the box body 1 is also provided with a suction fan 6 which is arranged in an independent cavity at the lower part of the cavity 2 (namely the suction fan 6 is positioned below the rotating disc 21); the rotating disc 21 is provided with a plurality of air outlets 26 which penetrate through the rotating disc 21; when the rotating shaft rotates to a preset position, the air outlet 26 is superposed with the air inlet of the suction fan 6 to realize communication (namely, the suction fan 6 can suck the air in the cavity 2 through the air outlet 26); each independent area 100 is provided with at least one air outlet 26 and one suction fan 6; during operation: an independent area 100 rotates in place and faces a front transfer door 3, an air inlet 25 is communicated with an air inlet of a blower 5, and an air outlet 26 is communicated with an air inlet of a suction fan 6; an operator puts in the optical lens, and simultaneously the blower 5 and the suction fan 6 are started to take away the dust in the independent area 100 through the operations of blowing air from the upper part and sucking air from the lower part; after the placement is finished, the air inlet 25 and the air outlet 26 in the independent area 100 are rotated by 90 degrees, and can be respectively communicated with the other blower 5 and the other suction fan 6, so that the dust removal operation is carried out again; then the independent area 100 rotates to be opposite to the transmission back door 4, the air inlet 25 and the air outlet 26 of the independent area can be communicated with the other group of blower 5 and the other group of suction fan 6, and an operator takes out the optical lens and removes dust again at the same time, so that the cleanness and dustless property of the optical lens in transmission are ensured; the air inlet 25 is provided with the activated carbon adsorption layer 251 so as to ensure the cleanness of blown air; a dust collector 261 can be arranged at the air outlet 26 to collect and remove the dust blown out of the cavity 2; the rotary disc 21 is provided with a shelf 27 above the air outlet 26 for placing optical lenses.

The box body 1 is also provided with two portrait recognition devices 7; one of the portrait recognition devices 7 is provided on one side of the box body 1 with the front transfer door 3, and the other is provided on the other side of the box body 1 with the rear transfer door 4. The image recognition device 7 scans human faces, and when a person with authority is recognized, the front transfer door 3 or the rear transfer door 4 can be opened for operation, so that the normalization and the authority of the transfer operation are guaranteed. The box body 1 is also provided with two operation control units 8; one operation control unit 8 and the front transfer door 3 are arranged on one side of the box body 1, and the other operation control unit and the rear transfer door 4 are arranged on the other side of the box body 1; the operation control unit 8 facilitates the operation of the transfer device.

In light of the foregoing, it is to be understood that various changes and modifications may be made by those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. A novel optical lens piece transfer mechanism is characterized in that: comprises a box body; the box body is provided with a cylindrical cavity; a rotating disc, a rotating shaft and a plurality of baffles are arranged in the cavity; the rotating disc is arranged at the bottom of the cavity, the rotating shaft is vertically arranged in the cavity, one end of the rotating shaft is fixedly connected to the center of the rotating disc, and the other end of the rotating shaft is rotatably connected with the top of the cavity; the rotating disc and the rotating shaft can rotate around the axis of the rotating shaft under the action of the rotating driving mechanism; the baffle is vertically arranged in the cavity, the bottom edge of the baffle is fixedly connected with the upper surface of the rotating disc, one side edge of the baffle is fixedly connected with the rotating shaft, and the other side edge and the top edge of the baffle are respectively attached to the side wall and the top surface of the cavity; the baffle, the rotating disc and the rotating shaft divide the cavity into a plurality of independent areas; openings which can be communicated with the outside are arranged on two opposite sides of the cavity, and a front transfer door and a rear transfer door are respectively arranged on the openings.

2. The novel optical lens transfer mechanism of claim 1, wherein: the top of the cavity is also provided with a driven disc corresponding to the rotating disc; the top of the rotating shaft is fixedly connected with the center of the driven disc, and the top edge of the baffle is fixedly connected with the lower surface of the driven disc; the baffle, the rotating disc, the driven disc and the rotating shaft form a plurality of independent areas in the cavity.

3. The novel optical lens transfer mechanism of claim 2, wherein: the box body is also provided with a blower which is arranged above the driven disc; the driven disc is provided with a plurality of air inlets which penetrate through the driven disc, and the air inlets can be communicated with an air opening of a blower; and at least one air inlet is formed in an independent area formed by each baffle, the rotating disc, the driven disc and the rotating shaft.

4. The novel optical lens transfer mechanism of claim 3, wherein: and the air inlet is provided with an active carbon adsorption layer.

5. The novel optical lens transfer mechanism of claim 1, wherein: the box body is also provided with a suction fan which is arranged below the rotating disc; the rotating disc is provided with a plurality of air outlets penetrating through the rotating disc, and the air outlets can be communicated with the air inlet of the suction fan; and each independent area formed by the baffle, the rotating disc and the rotating shaft is provided with at least one air outlet.

6. The novel optical lens transfer mechanism of claim 5, wherein: and a dust collector is arranged on the air outlet.

7. The novel optical lens transfer mechanism of claim 1, wherein: the baffle is partially or completely transparent.

8. The novel optical lens transfer mechanism of claim 1, wherein: the box body is also provided with two portrait recognition devices; one portrait recognition device and the front transfer door are arranged on one side of the box body, and the other portrait recognition device and the rear transfer door are arranged on the other side of the box body.

9. The novel optical lens transfer mechanism of claim 8, wherein: the box body is also provided with two operation control units; one operation control unit and the front transmission door are arranged on one side of the box body, and the other operation control unit and the rear transmission door are arranged on the other side of the box body.

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