CN110615272A - Production device and production method for intelligent optical lens production - Google Patents

Abstract

The invention discloses a production device for producing an intelligent optical lens, which comprises a base, a fulcrum column, a lever plate, a dislocation connecting plate, a dislocation sliding mechanism, a limit limiting plate A, a limit limiting plate B, a limiting column, a limiting block A and a limiting block B, wherein the upper surface of the base is an inclined plane, the bottom end of the fulcrum column is fixedly connected with the upper surface of the base, the lever plate comprises a lower surface, an upper surface, one side and the other side, the lower surface of the lever plate is rotatably connected with the top end of the fulcrum column through a rotating shaft, a cover cap comprises a cover cavity, the cover intracavity, the fixed spacing version that sets up in middle part of shroud, the shroud is close to lever plate one side and the fixed dislocation connecting plate that sets up respectively of position of opposite side, and dislocation slide mechanism contains vertical connecting plate A, vertical connecting plate B, spring, slide bar, slide opening, installation cavity A, binding ring A, installation cavity B, binding ring B and elastic webbing. After the optical lens is continuously proportioned, the optical lens can be conveyed to the corresponding chamber for dispersion.

Description

Production device and production method for intelligent optical lens production

Technical Field

The invention relates to a production device and a production method for intelligent optical lens production, and belongs to the technical field of optical lens production.

Background

The mode of carrying out independent processing with each optical lens correspondence dispersion in each cavity can avoid the interact between the lens, reaches the result of use of dispersion production, can have the strip not wadding, avoids the confusion. However, after continuous dosing of the optical lens, delivery to the corresponding chamber for dispensing is not achieved.

In order to solve the technical problems, a new technical scheme is especially provided.

Disclosure of Invention

The invention aims to provide a production device and a production method for producing an intelligent optical lens, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an intelligence apparatus for producing for optical lens piece, includes base, fulcrum post, lever plate, dislocation connecting plate, dislocation slide mechanism, limit limiting plate A, limit limiting plate B, spacing post, stopper A and stopper B, and the upper surface of base is the inclined plane, the upper surface of the bottom fixed connection base of fulcrum post, and the lever plate contains lower surface, upper surface, one side and opposite side, and the lower surface of lever plate rotates through the pivot and the top of fulcrum post to be connected, and the shroud contains the cover chamber in the cover chamber, the fixed spacing version that sets up in middle part of shroud, the position that the shroud is close to lever plate one side and opposite side is fixed respectively and is set up the dislocation connecting plate, but the dislocation connecting plate passes through dislocation slide mechanism and the upper surface dislocation gliding connection of lever plate, dislocation slide mechanism contains vertical connecting plate A, vertical connecting plate B, The spring, a slide bar, a slide hole, an installation cavity A, a binding ring A, an installation cavity B, a binding ring B and an elastic band, wherein the top of the vertical connecting plate A is fixedly connected with a dislocation connecting plate, the bottom end of the vertical connecting plate B is fixedly connected with the upper surface of a lever plate, one end of the spring is fixedly connected with the vertical connecting plate A, the other end of the spring is fixedly connected with the vertical connecting plate B, the vertical connecting plate A is provided with the slide hole matched with the slide bar, one end of the slide bar stretches into the slide hole and is connected with the vertical connecting plate A in a sliding fit manner through the slide hole, the other end of the slide bar is provided with the installation cavity A, the installation cavity A is internally and fixedly provided with the binding ring A, the vertical connecting plate B is provided with the installation cavity B matched with the installation cavity A, the installation cavity B is internally and fixedly provided with the binding ring B, one end of the elastic band is fixedly connected with the binding ring A, the cover cap and the upper surface of the lever plate are combined to form a limiting cavity, a feeding opening of the limiting cavity is arranged in the limiting cavity close to one side of the lever plate, the lever plate comprises a first lever state that the horizontal line height of one side of the lever plate is higher than the horizontal line height of the other side of the lever plate, the lens does not slide into the limiting cavity, a second lever state that the horizontal line height of one side of the lever plate, which enables the lever plate to move through the gravity of the lens when the lens slides into the limiting cavity, is lower than the horizontal line height of the other side of the lever plate, a limiting plate A and a limiting plate B are arranged on the lever plate, a limiting cavity is formed between the limiting plate A and the limiting plate B, the bottom end of the limiting column is fixedly connected with the upper surface of the base, a limiting block A used for limiting the descending limit position of one side of the lever plate and a limiting block B used for limiting, the last fixed surface of base sets up the oblique push cylinder, the oblique push cylinder is located between lever plate below fulcrum post and the lever plate one side, the cylinder contains the cylinder pole, the cylinder pole contains the catch end, the fixed binding ring C that sets up of push end of cylinder pole, on the lever plate on the fulcrum post and the lever plate and be close to the fixed position setting of fulcrum post and bind ring C matched with binding ring D, the mode fixed link binding ring C that the binding is connected is passed through to wire rope's one end, wire rope's the other end is through the mode fixed link binding ring D that the binding is connected.

Preferably, dislocation slide mechanism still includes protruding piece and with protruding piece matched with cavity piece, the fixed protruding piece that sets up in other one end of slide bar, fixed setting and protruding piece matched with cavity piece on the vertical connecting plate B, set up the elastic webbing on the protruding piece and dodge hole A, set up the elastic webbing on the cavity piece and dodge hole B.

Preferably, the convex block and the concave block are respectively made of rubber materials with smooth surfaces.

Preferably, this apparatus for producing is used in intelligent optical lens piece production still includes guide mechanism, and guide mechanism contains stock guide A and stock guide B, and stock guide A and stock guide B are fixed connection base respectively, form the guide chamber between stock guide A and the stock guide B, the spring contains natural open state and deformation state, when the spring is in the natural open state, the spacing chamber of limit is not aimed at the guide chamber, when the spring is in the deformation state, the spacing chamber of limit is aimed at and is connected with the guide chamber.

Preferably, the production device for producing the intelligent optical lens further comprises smooth rubber bulges, and the guide plate A and the guide plate B are respectively provided with the smooth rubber bulges in the guide cavity.

Preferably, still be provided with another a set of spacing post, stopper A and stopper B on the base, another a set of spacing post, stopper A and stopper B are located the below of lever plate opposite side, the upper surface of the bottom fixed connection base of the spacing post that is located lever plate opposite side below, stopper A and stopper B, its top lateral part is fixed and is provided with stopper A and stopper B.

An intelligent optical lens production method, comprising the step of conveying the optical lenses subjected to continuous batching to corresponding chambers for dispersion by using the production device for intelligent optical lens production according to claim 1

Compared with the prior art, the invention has the beneficial effects that: after the optical lenses are continuously proportioned, the optical lenses can be conveyed to the corresponding chambers for dispersion.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a sectional view a-a of fig. 1.

Fig. 3 is a sectional view B-B of fig. 1.

Fig. 4 is an enlarged view of a portion a of fig. 2.

Fig. 5 is a schematic structural view of the lens of fig. 1 when it is not slid into the limiting cavity and a continuous ingredient sliding plate is provided on the cover.

Fig. 6 is a cross-sectional view of fig. 5C-C.

FIG. 7 is a schematic view of the lever plate with the cylinder rod in the home position.

FIG. 8 is a schematic view of the cylinder rod in its advanced end position moving from the home position of FIG. 7.

Fig. 9 is a schematic structural view of the continuous dosing mechanism of the present invention.

Fig. 10 is a cross-sectional view taken along line D-D of fig. 9.

Fig. 11 is a reference view showing a state of use of the continuous dispensing mechanism.

Fig. 12 is a cross-sectional view E-E of fig. 11.

Fig. 13 is a sectional view F-F of fig. 11.

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 obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to the attached drawings of the specification, the invention provides a technical scheme that: the utility model provides an intelligence apparatus for producing is used in optical lens production, including base 100, fulcrum post 101, lever plate 102, dislocation connecting plate 103, dislocation slide mechanism 150, limit limiting plate A104, limit limiting plate B105, spacing post 106, stopper A107 and stopper B108, the upper surface of base 100 is inclined plane 109, the bottom fixed connection of fulcrum post 101 is the upper surface of base 100, lever plate 102 contains the lower surface, the upper surface, one side and opposite side, the lower surface of lever plate 102 rotates with the top of fulcrum post 101 through the pivot to be connected, shroud 110 contains cover cavity 111, in cover cavity 111, the middle part of shroud 110 is fixed and is set up limiting plate 112, the position that shroud 110 is close to lever plate 102 one side and opposite side respectively fixes and sets up dislocation connecting plate 103, dislocation connecting plate 103 can misplace slidable connection through dislocation slide mechanism and the upper surface of lever plate 102, dislocation slide mechanism contains vertical connecting plate A113, The device comprises a vertical connecting plate B114, a spring 115, a sliding rod 116, a sliding hole 117, an installation cavity A118, a binding ring A119, an installation cavity B120, a binding ring B121 and an elastic belt 122, wherein the top of the vertical connecting plate A113 is fixedly connected with a dislocation connecting plate 103, the bottom end of the vertical connecting plate B114 is fixedly connected with the upper surface of a lever plate 102, one end of the spring 115 is fixedly connected with the vertical connecting plate A113, the other end of the spring 115 is fixedly connected with the vertical connecting plate B114, the vertical connecting plate A113 is provided with the sliding hole 117 matched with the sliding rod 116, one end of the sliding rod 116 extends into the sliding hole 117 and is connected with the vertical connecting plate A113 in a sliding fit manner through the sliding hole 117, the other end of the sliding rod 116 is provided with the installation cavity A118, the installation cavity A119 is fixedly arranged in the installation cavity A118, the vertical connecting plate B114 is provided with the installation cavity B120 matched with the installation cavity A118, the installation cavity B120 is fixedly provided with the binding ring B121, one, the other end of the elastic band 122 is fixedly connected with a binding ring B121 in a binding connection mode, the cover cap 110 and the upper surface of the lever plate 102 are combined to form a limiting cavity 123, a limiting cavity feeding opening 124 is arranged in the limiting cavity 123 close to one side of the lever plate 102, the lever plate 102 comprises a first lever state that the horizontal line height of one side of the lever plate 102 is higher than the horizontal line height of the other side of the lever plate 102 and does not slide into the lens 139 in the limiting cavity 123 and a second lever state that the horizontal line height of one side of the lever plate 102 is lower than the horizontal line height of the other side of the lever plate 102 when the horizontal line height of one side of the lever plate 102 is higher than the horizontal line height of the other side of the lever plate 102 and slides into the lens 139 in the limiting cavity 123, a limiting plate A104 and a limiting plate B105 are arranged on the lever plate 102, a limiting cavity 123 is formed between the limiting, a limiting block A107 used for limiting the descending limit position of one side of the lever plate 102 and a limiting block B108 used for limiting the descending limit position of the lens 139 when the lever plate 102 is in the second lever state are fixedly arranged on the side part of the top end of the limiting column 106, a diagonal pushing cylinder 125 is fixedly arranged on the upper surface of the base 100, the diagonal pushing cylinder 125 is positioned between the fulcrum column 101 below the lever plate 102 and one side of the lever plate 102, the cylinder 125 comprises a cylinder rod 126, the cylinder rod 126 comprises a pushing end, a binding ring C127 is fixedly arranged on the pushing end of the cylinder rod 126, a binding ring D128 matched with the binding ring C127 is fixedly arranged between the fulcrum column 101 and the lever plate 102 on the lever plate 102 and close to the fulcrum column 101, one end of a steel wire rope 129 is fixedly connected with the binding ring C127 in a binding connection mode, the other end of the steel wire rope 129 is fixedly connected with the binding ring D128 in a binding connection mode, wherein the length of the steel wire rope 129 can be relatively long, when the lever plate 102 is switched through the fulcrum column 101 (the horizontal line on one side of the lever plate 102 is higher than the horizontal line on the other side or the horizontal line on one side of the lever plate 102 is lower than the horizontal line on the other side), a certain movable (length) space is avoided, and meanwhile, by utilizing the principle that the motion amplitude close to the fulcrum position is small during lever motion, the position of the lever plate 102 fixedly connected with the cylinder rod 126 through the steel wire rope 129 is selected, so that the influence of the connection of the lever plate 102 and the cylinder rod 126 on the lever motion of the lever plate 102 is avoided to the greatest extent, and the cylinder 125 can be fixedly linked with the inclined plane 109 of the base 100 through the support column 153.

Preferably, the dislocation sliding mechanism further comprises a convex block 130 and a concave block 131 matched with the convex block 130, the other end of the sliding rod 116 is fixedly provided with the convex block 130, the vertical connecting plate B114 is fixedly provided with the concave block 131 matched with the convex block 130, the convex block 130 is provided with an elastic band avoiding hole a132, and the concave block 131 is provided with an elastic band avoiding hole B133.

Preferably, the protruding block 130 and the cavity block 131 are made of rubber materials with smooth surfaces; in particular, each lever plate 102 is provided with a combination of a cylinder 125, a binding ring C127, a binding ring D128 and a wire rope 129 to push the lever rods separately, and if two adjacent lever plates 102 are to be synchronized.

Preferably, the production device for producing the intelligent optical lens further comprises a material guiding mechanism, the material guiding mechanism comprises a material guiding plate a135 and a material guiding plate B136, the material guiding plate a135 and the material guiding plate B136 are respectively and fixedly connected to the base 100, a material guiding cavity 134 is formed between the material guiding plate a135 and the material guiding plate B136, the spring 115 comprises a natural opening state and a deformation state, when the spring 115 is in the natural opening state, the limit limiting cavity 123 is not aligned with the material guiding cavity 134, and when the spring 115 is in the deformation state, the limit limiting cavity 123 is aligned with and connected with the material guiding cavity 134.

Preferably, the production device for producing the intelligent optical lens further comprises smooth rubber protrusions 137, and in the material guide cavity 134, the smooth rubber protrusions 137 are respectively arranged on the material guide plate a135 and the material guide plate B136; it should be noted that, during the transportation process of the lens 139, the portion of the lens 139 that may be connected to the lens 139 should be buffered by the rubber layer or the rubber protrusion 138, so as to avoid the possible damage to the lens 139 during the transportation process.

Preferably, another set of limiting column 106, limiting block a107 and limiting block B108 is further disposed on the base 100, the other set of limiting column 106, limiting block a107 and limiting block B108 is located below the other side of the lever plate 102, the bottom ends of the limiting columns 106, limiting block a107 and limiting block B108 located below the other side of the lever plate 102 are fixedly connected to the upper surface of the base 100, and the side portion of the top end of the base is fixedly provided with the limiting block a107 and limiting block B108.

Compared with the prior art, the optical lens 139 of the invention can be conveyed to a corresponding chamber for dispersion after continuous batching, wherein the structure of the continuous batching can include a vertical supporting column A1, a base 100, a vertical supporting column B3, a batching guide mechanism (not shown in the figure), a lever plate 102, a rotating shaft 5, a supporting column 101, a cover cap 110, a continuous batching sliding plate 8, a feeding funnel 9, a rubber buffer material guide bulge 10, a limiting block a107 and a limiting block B108, the bottom end of the vertical supporting column A1 is fixedly connected with one side of the upper surface of the base 100, the bottom end of the vertical supporting column B3 is fixedly connected with the other side of the upper surface of the base 100, the vertical supporting column A1, the base 100 and the vertical supporting column B3 enclose a cavity 13, the batching guide mechanism comprises a guide sloping plate a14 and a guide sloping plate B15, one end of the guide sloping plate a14 and one end of the guide sloping plate B15 are respectively fixedly, the other ends of the guide sloping plate A14 and the guide sloping plate B15 are respectively fixedly connected with the top end side part of a vertical supporting column B3, a lens 139 guide channel 16 is formed between the guide sloping plate A14 and the guide sloping plate B15, the bottom end of the supporting column 101 is fixedly connected with the base 100 in the cavity 13, the middle part of the lever plate 102 is rotatably connected with the top end of the supporting column 101 through a rotating shaft 5, the lever plate 102 comprises an upper surface, a cover 110 is arranged on the upper surface of the lever plate 102, a continuous ingredient sliding plate 8 and the cover 110 are combined to form a guide limiting cavity 123, the lever plate 102 comprises one side and the other side, a lens 139 rolling inlet 18 is arranged at the position of the guide limiting cavity 123 close to one side of the lever plate 102, a continuous ingredient sliding plate 8 is arranged at the position of the other side of the lever plate 102, a feeding funnel 9 is fixedly arranged at the top end of, the material outlet 19 of the feeding funnel 9 faces the cavity 13 and faces the vertical supporting column A1, a rubber buffer material guiding protrusion 10 is fixedly arranged on the vertical supporting column A1, the guiding limiting cavity 123 contains a state of not rolling into the lens 139 and a state of rolling into the lens 139, when the guiding limiting cavity 123 is in the state of not rolling into the lens 139, the gravity of the ingredient sliding plate 8 is continued to make the horizontal line height of one side of the lever plate 102 higher than the horizontal line height of the other side of the lever plate 102, the guiding limiting cavity 123 is in the state of rolling into the lens 139, the gravity of the lens 139 makes the horizontal line height of one side of the lever plate 102 lower than the horizontal line height of the other side, the bottom end of the limiting column 106 is fixedly connected with the base 100, the side part at the bottom end of the limiting column 106 is fixedly provided with a limiting block A107 for limiting the descending limit position of one side of the lever plate 102 and a limiting block B108 for limiting, the ingredient guide mechanism further comprises rubber buffer bulges 20, the rubber buffer bulges 20 are uniformly distributed on the guide sloping plate A14 and the guide sloping plate B15 in the guide channel 16 of the lens 139, and the rubber buffer bulges 20 are rubber buffer bulges 20 with smooth arc-shaped surfaces; the rubber buffer bulge 20 is fixedly connected with the guide sloping plate A14 or the guide sloping plate B15; preferably, the base 100 has an included angle of 20-35 degrees with the horizontal; the fixed connection is fixed connection in a welding connection mode, a clamping connection mode and/or a bolt connection mode; the limiting block A107 and the limiting block B108 are made of rubber materials respectively; preferably, rubber buffering arc-shaped protrusions 21 are uniformly distributed on the inner side wall of the feeding hopper 9. And in the process of batching, the optical lenses 139 can be put into the feeding funnel 9 in turn by a conveying belt or manually in a manner of manual placement according to a certain frequency, for example, every 2 seconds to 3 seconds, the feeding funnel 9 comprises a material outlet 19, the material outlet 19 of the feeding funnel 9 faces to the cavity 13 and faces to the vertical supporting column A1, the vertical supporting column A1 is fixedly provided with a rubber buffer material guiding bulge 10, the guiding limit cavity 123 comprises a state of not rolling into the lenses 139 and a state of rolling into the lenses 139, when the guiding limit cavity 123 is in the state of not rolling into the lenses 139, the gravity of the batching sliding plate 8 is continued to make the horizontal line height on one side of the lever plate 102 higher than the horizontal line height on the other side of the lever plate 102, the guiding limit cavity 123 is in the state of rolling into the lenses 139, the gravity of the lenses 139 makes the horizontal line height on one side of the lever plate 102 lower than the horizontal line, the bottom end of the limiting column 106 is fixedly connected with the base 100, the side part of the bottom end of the limiting column 106 is fixedly provided with a limiting block A107 used for limiting the descending limit position of one side of the lever plate 102 and a limiting block B108 used for limiting the descending limit position of the lens 139 in the guide limiting cavity 123 towards one side of the lever plate 102, the position of the lever plate 102 is switched, the rolling inlet 18 of the lens 139 in the guide limiting cavity 123 is immediately blocked by the lever acting force when the lens 139 rolls into the guide limiting cavity 123, and simultaneously the cover 110 and the continuous ingredient sliding plate 8 which are close to the other side of the lever are upwards lifted by the acting force of the lever to form a guide track, so that the use effect of continuous single-cavity ingredient is achieved; with this continuous dosing, the lens 139 can be delivered by the present invention to achieve delivery of the lens 139 to the corresponding chamber for dispensing.

The conveying mode is specifically that a structure comprising a base 100, a fulcrum column 101, a lever plate 102, a dislocation connecting plate 103, a dislocation sliding mechanism, a limit plate A104, a limit plate B105, a limit column 106, a limit block A107 and a limit block B108 is combined is adopted, the upper surface of the base 100 is an inclined plane 109, the bottom end of the fulcrum column 101 is fixedly connected with the upper surface of the base 100, the lever plate 102 comprises a lower surface, an upper surface, one side and the other side, the lower surface of the lever plate 102 is rotatably connected with the top end of the fulcrum column 101 through a rotating shaft, a cover 110 comprises a cover cavity 111, a limit plate 112 is fixedly arranged at the middle part of the cover 110 in the cover cavity 111, the dislocation connecting plates 103 are fixedly arranged at positions of one side and the other side of the cover 110 close to the lever plate 102 respectively, the dislocation connecting plate 103 is connected with the upper surface of the lever plate 102 in a dislocation sliding manner through a, The device comprises a vertical connecting plate B114, a spring 115, a sliding rod 116, a sliding hole 117, an installation cavity A118, a binding ring A119, an installation cavity B120, a binding ring B121 and an elastic belt 122, wherein the top of the vertical connecting plate A113 is fixedly connected with a dislocation connecting plate 103, the bottom end of the vertical connecting plate B114 is fixedly connected with the upper surface of a lever plate 102, one end of the spring 115 is fixedly connected with the vertical connecting plate A113, the other end of the spring 115 is fixedly connected with the vertical connecting plate B114, the vertical connecting plate A113 is provided with the sliding hole 117 matched with the sliding rod 116, one end of the sliding rod 116 extends into the sliding hole 117 and is connected with the vertical connecting plate A113 in a sliding fit manner through the sliding hole 117, the other end of the sliding rod 116 is provided with the installation cavity A118, the installation cavity A119 is fixedly arranged in the installation cavity A118, the vertical connecting plate B114 is provided with the installation cavity B120 matched with the installation cavity A118, the installation cavity B120 is fixedly provided with the binding ring B121, the other end of the elastic band 122 is fixedly connected with a binding ring B121 by binding connection, the cover cap 110 is combined with the upper surface of the lever plate 102 to form a limiting cavity 123, a limiting cavity feeding opening 124 is arranged in the limiting cavity 123 near one side of the lever plate 102, the lever plate 102 comprises a first lever state that the horizontal line height of one side of the lever plate 102 is higher than the horizontal line height of the other side of the lever plate 102, the lens 139 is not slid into the limiting cavity 123, and a second lever state that the horizontal line height of one side of the lever plate 102 is lower than the horizontal line height of the other side of the lever plate 102 by the gravity of the lens 139 when the lens 139 is slid into the limiting cavity 123, a limiting plate A104 and a limiting plate B105 are arranged on the lever plate 102, a limiting cavity 123 is formed between the limiting plate A104 and the limiting plate B105, the bottom end of the limiting column 106 is fixedly connected with the upper surface, a limiting block A107 used for limiting the descending limit position of one side of the lever plate 102 and a limiting block B108 used for limiting the descending limit position of the lens 139 when the lever plate 102 is in the second lever state are fixedly arranged on the side portion of the top end of the limiting column 106, a diagonal pushing cylinder 125 is fixedly arranged on the upper surface of the base 100, the diagonal pushing cylinder 125 is positioned between the fulcrum column 101 below the lever plate 102 and one side of the lever plate 102, the cylinder 125 comprises a cylinder rod 126, the cylinder rod 126 comprises a pushing end, a binding ring C127 is fixedly arranged on the pushing end of the cylinder rod 126, a binding ring D128 matched with the binding ring C127 is fixedly arranged between the fulcrum column 101 and the lever plate 102 on the lever plate 102 and close to the fulcrum column 101, one end of a steel wire rope 129 is fixedly connected with the binding ring C127 in a binding connection mode, and the other end of the steel wire rope 129 is fixedly connected with the binding ring D128 in a binding connection mode; normally, when the limit cavity 123 is clamped with the lens 139, the lever plate 102 is in the second lever state, the user can start the air cylinder 125, the spring 115 is in a compression deformation state by the oblique pushing force of the air cylinder 125, the limit cavity 123 is aligned with the material guide cavity 134, and the lever plate 102 in the second lever state is pushed to be pushed into the first lever state, because the limit cavity 123 is aligned with and communicated with the material guide cavity 134, the using effect of conveying the lens 139 by the weight of the lens 139 is achieved, so that the lens 139 which is finished by blending is conveyed to a station to be processed in a dispersing manner again.

The design to be explained is: the control circuit involved in the design to control the operation of each component and the corresponding control process is the prior art. And the types and/or sizes of the components of the invention only need to be matched with each other, and the parts which are not mentioned, such as the connection relation of the motor type, the cylinder type or the circuit module, and the like can be understood as the prior art, so that the principle of the invention can be realized.

On the basis of the scheme of the invention, a person skilled in the art can make up for some deficiencies in the details of the invention through logical analysis and/or reasoning, so that the technical scheme of the invention is more perfect and optimized. The present invention may have the defects mentioned in the background, which may be the defects that the inventor has not had before, but in a technical development, it is difficult to develop a technology without any defects, the solution of the defects can be understood as the prior art, and the people using the present invention are limited to the users who need the environmental use mentioned in the background and can continuously choose to use the defects. Based on this, what is claimed in the present application is only a part of the principle of the solution corresponding to the problems in the background art, and other parts, for example, how to implement the technical solution of the present application more optimally on the basis of the principle of the present application, obviously, the technical solution described clearly in the present application is only limited to the technical problems to be solved in the background art, and other parts can be completed in other developments and patent applications, and other technical personnel in the field can continuously improve the technology of the solution of the present application and apply patent to achieve the optimal using effect, all belonging to the known ways in the field.

The drawings are only for purposes of illustrating the principles of the invention as will be readily understood by those of ordinary skill in the art. Because of the limitation of the page size of the patent application document, in order to present the principle more clearly, the proportional size between each component in the drawings may be inconsistent with the actual product, and it can be understood by those skilled in the art that, for example, the structural principle of highlighting a certain part in the drawings, the part is intentionally drawn to be larger, and the other part is too small, and the like, all of which can be understood in this situation.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Based on the situation that no product has advantages and disadvantages, the invention is only used for specific environments in the background technology, for example, scenes mentioned in the background technology, such as price factors, inconvenience in carrying and the like are considered by some users, the purchase of the application is not recommended, and the product is only used for and recommended to users who need to mention scenes in the background technology and can accept and ignore other negative factors.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the two elements may be directly connected or indirectly connected through an intermediate medium, and the two elements may be connected internally or in an interaction relationship, unless otherwise specifically limited, and the specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

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.

Claims (7)

1. The utility model provides an intelligence apparatus for producing for optical lens piece, its characterized in that: the upper surface of the base is an inclined plane, the upper surface of the base is fixedly connected with the upper surface of the base, the lever plate comprises a lower surface, an upper surface, one side and the other side, the lower surface of the lever plate is rotatably connected with the top end of the fulcrum column through a rotating shaft, a cover cap comprises a cover cavity, a limit plate is fixedly arranged in the middle of the cover cap, the positions of the cover cap, which are close to one side and the other side of the lever plate, are respectively fixedly provided with a dislocation connecting plate, the dislocation connecting plate is connected with the upper surface of the lever plate in a dislocation sliding manner through a dislocation sliding mechanism, the dislocation sliding mechanism comprises a vertical connecting plate A, a vertical connecting plate B, a spring, a sliding rod, a sliding hole, an installation cavity A and a binding ring A, The mounting cavity B, the binding ring B and the elastic band are installed, the top of the vertical connecting plate A is fixedly connected with a dislocation connecting plate, the bottom end of the vertical connecting plate B is fixedly connected with the upper surface of the lever plate, one end of the spring is fixedly connected with the vertical connecting plate A, the other end of the spring is fixedly connected with the vertical connecting plate B, a sliding hole matched with the sliding rod is arranged on the vertical connecting plate A, one end of the sliding rod extends into the sliding hole and is connected with the vertical connecting plate A in a sliding fit manner through the sliding hole, the other end of the sliding rod is provided with the mounting cavity A, the mounting cavity B matched with the mounting cavity A is arranged on the vertical connecting plate B, the binding ring B is fixedly arranged in the mounting cavity B, one end of the elastic band is fixedly connected with the binding ring A in a binding connection manner, the other end of the elastic band is fixedly connected with the binding ring B in a binding connection manner, the cover cap is combined with the, in the limit cavity, a limit cavity feeding opening is arranged at a position close to one side of the lever plate, the lever plate comprises a first lever state that the horizontal line at one side of the lever plate is higher than the horizontal line at the other side of the lever plate and does not slide into the lens in the limit cavity and a second lever state that the horizontal line at one side of the lever plate is lower than the horizontal line at the other side of the lever plate through the gravity of the lens when the lens slides into the limit cavity, a limit plate A and a limit plate B are arranged on the lever plate, a limit cavity is formed between the limit plate A and the limit plate B, the bottom end of the limit post is fixedly connected with the upper surface of the base, the side part at the top end of the limit post is fixedly provided with a limit block A for limiting the descending limit position at one side of the lever plate and a limit block, the last fixed surface of base sets up the diagonal push cylinder, and the diagonal push cylinder is located between lever plate below fulcrum post and lever plate one side, and the cylinder contains the cylinder pole, and the cylinder pole contains the catch end, and the fixed binding ring C that sets up of push end of cylinder pole the fixed position that just is close to the fulcrum post on the lever plate sets up and binds ring C matched with binding ring D, and the mode fixed link binding ring C that connects is passed through to the one end of wire rope, and the mode fixed link binding ring D that connects is passed through to the other end of wire rope.

2. The production apparatus for intelligent optical lens production according to claim 1, characterized in that: the dislocation slide mechanism still includes protruding piece and with protruding piece matched with cavity piece, the other end of slide bar is fixed to be set up protruding piece, vertical connecting plate B is last fixed to be set up with protruding piece matched with cavity piece, set up the elastic webbing on the protruding piece and dodge hole A, set up the elastic webbing on the cavity piece and dodge hole B.

3. The production apparatus for intelligent optical lens production according to claim 2, characterized in that: the convex block and the concave cavity block are respectively made of rubber materials with smooth surfaces.

4. The production apparatus for intelligent optical lens production according to claim 1, characterized in that: this apparatus for producing is used in production of intelligence optical lens piece still includes guide mechanism, and guide mechanism contains stock guide A and stock guide B, and stock guide A and stock guide B are fixed connection base respectively, form the guide chamber between stock guide A and the stock guide B, the spring contains nature open state and deformation state, when the spring is in nature open state, the guide chamber is aimed at to the spacing chamber in limit, when the spring is in deformation state, the spacing chamber in limit is aimed at and is connected with the guide chamber.

5. The intelligent production device for optical lenses according to claim 4, wherein: this apparatus for producing is used in production of intelligence optical lens piece still includes smooth rubber arch in the guide intracavity, set up smooth rubber arch on direction version A and the stock guide B respectively.

6. The production apparatus for intelligent optical lens production according to claim 1, characterized in that: still be provided with another a set of spacing post, stopper A and stopper B on the base, another a set of spacing post, stopper A and stopper B are located the below of lever plate opposite side, the upper surface of the spacing post of spacing post, stopper A and stopper B that is located lever plate opposite side below fixed connection base in bottom, fixed stopper A and the stopper B that sets up of its top lateral part.

7. A production method of an intelligent optical lens is characterized by comprising the following steps: the intelligent production device for producing optical lenses, according to claim 1, is used for conveying the optical lenses after continuous batching to the corresponding chambers for dispersing.