CN111359843B - Dispensing device for optical digital converter - Google Patents

Abstract

The invention discloses an optical digital converter dispensing device which comprises a rotary base, an extrusion module, a flexible module, a clamping module, an optical digital converter, a negative pressure module and a nut. The device can accurately paint the soldering paste on each position of the contact of the optical digital converter by arranging the steel mesh, can reduce the waste of the soldering paste, thereby improving the utilization rate of materials, can change different painting areas according to different optical digital converters by arranging the flexible module, thereby increasing the flexible processing capacity of the device, and can replace the traditional clamping mode by arranging the clamping module, thereby preventing the clamp from damaging the body of the optical digital converter in the process of clamping the optical digital converter.

Description

Dispensing device for optical digital converter

Technical Field

The invention relates to the technical field of photoelectron, in particular to a dispensing device of an optical digital converter.

Background

The a/D conversion is used to convert analog quantity with continuous time and continuous amplitude into digital signal with discrete time and discrete amplitude, so that the a/D conversion generally needs 4 processes of sampling, holding, quantizing and encoding. In practical circuits, some of the processes are combined, for example, sampling and holding, quantization and coding are often implemented simultaneously in the conversion process, wherein the optical digital converter needs to be coated with solder paste at metal contacts when being mounted on a PCB, but the coating speed of the conventional dispensing method is too slow, and the solder paste is not uniform on the metal contacts, so that a cold joint phenomenon is easily caused after reflow.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a dispensing device of an optical digital converter, which solves the problems that the coating speed of the traditional dispensing method is too slow, the soldering paste is not uniform on a metal contact, and the phenomenon of insufficient soldering is easy to occur after reflow.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an optics digital converter adhesive deposite device, includes rotating base, extrusion module, flexible module, clamping module, optics digital converter, negative pressure module and nut, rotating base's upper surface is provided with the extrusion module, and the top of extrusion module is provided with flexible module, and nut, screw rod and holding piece fixedly connected with clamping module are passed through to flexible module top, and clamping module's left is provided with negative pressure module, clamping module's upper surface overlap joint has optics digital converter.

The extrusion module comprises a tail end extrusion gear, a head end driving gear, an extrusion screw, an extrusion driving motor bracket, an extrusion cylinder, an extrusion piston, an extrusion cylinder bracket and an extrusion cylinder bracket supporting column, the tail end extrusion gear is rotationally connected with the rotating base, the outer surface gear of the tail end extrusion gear is connected with a head end driving gear, an extrusion driving motor is arranged below the head end driving gear, an output shaft of the extrusion driving motor is fixedly connected with the head end driving gear, and extrusion driving motor passes through extrusion driving motor support fixed connection with rotating base, the through-hole has been seted up at the center of terminal extrusion gear, and through-hole internal thread is connected with the extrusion lead screw, and the top fixedly connected with extrusion piston of extrusion lead screw, the surface of extrusion piston has cup jointed the recipient, and the surface of recipient has cup jointed the recipient support, and recipient support passes through recipient support fixed connection with rotating base.

The flexible module comprises an arc reducing piece, a reducing outer ring gear, an inner ring support, a supporting outer ring, a connecting rod, a flexible driving gear, a flexible driving motor support, a flexible driving motor, an inner ring support reinforcing plate, a reinforcing plate pillar and a reducing outer ring gear limiting sleeve, the arc reducing piece is arranged above the extrusion cylinder, the reducing outer ring gear is arranged on the outer side of the arc reducing piece and is movably connected with the arc reducing piece through the connecting rod, the outer ring of the arc reducing piece is movably connected with the inner ring support, the outer ring of the inner ring support is fixedly connected with the inner ring support reinforcing plate, the inner ring support reinforcing plate is fixedly connected with the rotary base through the reinforcing plate pillar, the upper surface of the inner ring support reinforcing plate is fixedly connected with the supporting outer ring, the outer side of the reducing outer ring gear is slidably connected with the reducing outer ring gear limiting sleeve, and the reducing outer ring gear limiting sleeve is fixedly connected with the top end of the extrusion cylinder support pillar, the outer surface gear of reducing outer lane gear is connected with flexible driving gear, and the below of flexible driving gear is provided with flexible driving motor, flexible driving motor's output shaft and flexible driving gear fixed connection to flexible driving motor's surface has cup jointed flexible driving motor support, flexible driving motor support and recipient support column fixed connection.

The clamping module comprises a steel mesh, a sucker arm, an arc fixing plate, an anti-rotation sliding rod, a clamping lead screw, an arc fixing plate pillar, a lead screw driving gear, a clamping driving motor and a clamping driving motor bracket, the upper surface of the supporting outer ring is fixedly connected with a screw rod, the top end of the screw rod is connected with a clamping sheet through a nut thread, the inner part of the clamping sheet is clamped with the steel mesh, the upper surface of the steel mesh is lapped with an optical digital converter, the middle part of the upper surface of the optical digital converter is lapped with the sucker, the top end of the sucker is fixedly connected with the sucker arm, one end of the sucker arm, which is far away from the sucker, is connected with the clamping lead screw through a thread, the left side of the clamping lead screw is provided with the anti-rotation sliding rod, the anti-, and the arc fixing plate is rotatably connected with the clamping screw, the bottom end of the clamping screw is fixedly connected with a screw driving gear, the outer surface gear of the screw driving gear is connected with a clamping gear, a clamping driving motor is arranged above the clamping gear, the output shaft of the clamping driving motor is fixedly connected with the clamping gear, and the clamping driving motor is fixedly connected with the rotating base through a clamping driving motor support.

The negative pressure module comprises a vacuum pump, a vacuum pump support, a vacuum pump input pipe, a leather hose and a sucker output pipe, the top fixedly connected with sucker output pipe of the sucker, the top fixedly connected with leather hose of the sucker output pipe, one end fixedly connected with vacuum pump input pipe of the sucker far away from the leather hose, the bottom fixedly connected with vacuum pump of the vacuum pump input pipe, and the vacuum pump and the rotating base are fixedly connected through the vacuum pump support.

Preferably, the number of the arc reducing sheets is six, and the arc reducing sheets are circularly arrayed on the inner ring of the inner ring support.

Preferably, the number of the inner ring support reinforcing plates is three, and the inner ring support reinforcing plates are circularly arrayed on the upper surface of the rotating base.

Preferably, the number of the reducing outer ring gear limiting sleeves is three, and the reducing outer ring gear limiting sleeves are circularly arrayed on the outer surface of the reducing outer ring gear.

Preferably, the number of the screws is four, and the screws are circularly arrayed on the upper surface of the support outer ring.

Compared with the prior art, the invention provides a glue dispensing device of an optical digital converter, which has the following beneficial effects: the device can accurately paint the soldering paste on each position of the contact of the optical digital converter by arranging the steel mesh, can reduce the waste of the soldering paste, thereby improving the utilization rate of materials, can change different painting areas according to different optical digital converters by arranging the flexible module, thereby increasing the flexible processing capacity of the device, and can replace the traditional clamping mode by arranging the clamping module, thereby preventing the clamp from damaging the body of the optical digital converter in the process of clamping the optical digital converter.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

FIG. 2 is a schematic view of the structure of the clamping piece of the present invention.

FIG. 3 is a schematic structural view of a lead screw driving gear according to the present invention.

FIG. 4 is a schematic view of the structure of the extrusion driving motor according to the present invention.

Fig. 5 is a schematic structural diagram of a flexible module according to the present invention.

FIG. 6 is a schematic structural diagram of a reducing outer ring gear limiting sleeve of the invention.

In the figure: 1-rotating the base; 2-extruding the module; 201-end extrusion gear; 202-a head end drive gear; 203-extruding a lead screw; 204-extrusion drive motor; 205-extruding the driving motor bracket; 206-an extrusion cylinder; 207-extrusion piston; 208-a container holder; 209-the extrusion container support post; 3-a flexible module; 301-arc diameter-changing sheet; 302-reducing outer ring gear; 303-inner ring support; 304-supporting the outer ring; 305-a connecting rod; 306-a flexible drive gear; 307-flexible drive motor mount; 308-a flexible drive motor; 309-inner ring support reinforcing plate; 310-reinforcement plate pillars; 311-reducing outer ring gear spacing sleeve; 4-a clamping module; 401-steel mesh; 402-a suction cup; 403-suction arm; 404-arc fixing plate; 405-an anti-rotation slide bar; 406-clamping the lead screw; 407-arc fixing plate support; 408-a lead screw drive gear; 409-a clamping gear; 410-a grip drive motor; 411-clamping the driving motor bracket; 5-an optical digital converter; 6-negative pressure module; 601-vacuum pump; 602-vacuum pump holder; 603-vacuum pump input pipe; 604-leather hose; 605-sucker output tube; 7-a nut; 701-a screw rod; 702-a clamping piece.

Detailed Description

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

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, the present invention provides a technical solution: the utility model provides an optics digital converter adhesive deposite device, including rotating base 1, extrusion module 2, flexible module 3, clamping module 4, optics digital converter 5, negative pressure module 6 and nut 7, rotating base 1's upper surface is provided with extrusion module 2, extrusion module 2's top is provided with flexible module 3, nut 7 is passed through to flexible module 3 top, screw rod 701 and holding piece 702 fixedly connected with clamping module 4, clamping module 4's left is provided with negative pressure module 6, clamping module 4's upper surface overlap joint has optics digital converter 5.

The extrusion module 2 comprises a tail end extrusion gear 201, a head end driving gear 202, an extrusion screw 203, an extrusion driving motor 204, an extrusion driving motor support 205, an extrusion cylinder 206, an extrusion piston 207, an extrusion cylinder support 208 and an extrusion cylinder support column 209, wherein the tail end extrusion gear 201 is rotatably connected with the rotating base 1, the outer surface gear of the tail end extrusion gear 201 is connected with the head end driving gear 202, the extrusion driving motor 204 is arranged below the head end driving gear 202, the output shaft of the extrusion driving motor 204 is fixedly connected with the head end driving gear 202, the extrusion driving motor 204 is fixedly connected with the rotating base 1 through the extrusion driving motor support 205, the center of the tail end extrusion gear 201 is provided with a through hole, the through hole is internally threaded with the extrusion screw 203, the top end of the extrusion screw 203 is fixedly connected with the extrusion piston 207, the outer surface of the extrusion piston 207 is sleeved with the extrusion cylinder 206, the outer surface of the extrusion container 206 is sleeved with an extrusion container bracket 208, and the extrusion container bracket 208 is fixedly connected with the rotating base 1 through an extrusion container bracket supporting column 209.

FIG. 5 is a schematic structural diagram of a flexible module of the present invention, wherein the flexible module 3 includes an arc diameter-changing plate 301, a diameter-changing outer ring gear 302, an inner ring bracket 303, a supporting outer ring 304, a connecting rod 305, a flexible driving gear 306, a flexible driving motor bracket 307, a flexible driving motor 308, an inner ring bracket reinforcing plate 309, a reinforcing plate pillar 310 and a diameter-changing outer ring gear limiting sleeve 311, the arc diameter-changing plate 301 is disposed above the extrusion cylinder 206, the diameter-changing outer ring gear 302 is disposed outside the arc diameter-changing plate 301, the diameter-changing outer ring gear 302 is movably connected with the arc diameter-changing plate 301 through the connecting rod 305, the outer ring of the arc diameter-changing plate 301 is movably connected with the inner ring bracket 303, the outer ring of the inner ring bracket reinforcing plate 303 is fixedly connected with the inner ring bracket reinforcing plate 309, the inner ring bracket reinforcing plate 309 is fixedly connected with the rotating base 1 through the reinforcing plate pillar 310, the upper surface of the inner ring bracket reinforcing plate is fixedly connected with the supporting outer ring 304, the outside sliding connection of reducing outer ring gear 302 has reducing outer ring gear stop collar 311, the top fixed connection of reducing outer ring gear stop collar 311 and recipient support column 209, the surface gear connection of reducing outer ring gear 302 has flexible driving gear 306, the below of flexible driving gear 306 is provided with flexible driving motor 308, the output shaft and the flexible driving gear 306 fixed connection of flexible driving motor 308, and flexible driving motor support 307 has been cup jointed to the surface of flexible driving motor 308, flexible driving motor support 307 and recipient support column 209 fixed connection.

As shown in fig. 1 and fig. 3, wherein the clamping module 4 comprises a steel mesh 401, a suction cup 402, a suction cup arm 403, an arc fixing plate 404, an anti-rotation sliding rod 405, a clamping screw 406, an arc fixing plate support 407, a screw driving gear 408, a clamping gear 409, a clamping driving motor 410 and a clamping driving motor support 411, the upper surface of the support outer ring 304 is fixedly connected with a screw 701, the top end of the screw 701 is in threaded connection with a clamping plate 702 through a nut 7, the steel mesh 401 is clamped inside the clamping plate 702, the optical digital converter 5 is lapped on the upper surface of the steel mesh 401, the suction cup 402 is lapped in the middle of the upper surface of the optical digital converter 5, the suction cup arm 403 is fixedly connected to the top end of the suction cup 402, the clamping screw 406 is in threaded connection with one end of the suction cup arm far from the suction cup 402, the anti-rotation sliding rod 405 is arranged on the left side of the clamping screw 406, the anti-rotation sliding rod 405 is in sliding connection with the suction cup arm 403, the top fixedly connected with circular arc fixed plate 404 of sucking disc arm 403, circular arc fixed plate 404 passes through circular arc fixed plate pillar 407 fixed connection with rotating base 1, and circular arc fixed plate 404 rotates with centre gripping lead screw 406 to be connected, the bottom fixedly connected with lead screw drive gear 408 of centre gripping lead screw 406, lead screw drive gear 408's surface gear connection has centre gripping gear 409, centre gripping gear 409's top is provided with centre gripping driving motor 410, centre gripping driving motor 410's output shaft and centre gripping gear 409 fixed connection, centre gripping driving motor 410 passes through centre gripping driving motor support 411 fixed connection with rotating base 1.

As shown in fig. 1, the negative pressure module 6 includes a vacuum pump 601, a vacuum pump support 602, a vacuum pump input pipe 603, a leather hose 604 and a suction cup output pipe 605, the suction cup output pipe 605 is fixedly connected to the top end of the suction cup 402, the leather hose 604 is fixedly connected to the top end of the suction cup output pipe 605, the vacuum pump input pipe 603 is fixedly connected to one end of the leather hose 604 far away from the suction cup 402, the vacuum pump 601 is fixedly connected to the bottom end of the vacuum pump input pipe 603, and the vacuum pump 601 is fixedly connected to the rotating base 1 through the vacuum pump support 602.

When the optical digital converter is used, a user firstly places the optical digital converter 5 below the sucker 402, then starts the vacuum pump 601, generates negative pressure in the sucker 402 through the leather hose 604, so as to suck the optical digital converter 5 on the lower surface of the sucker 402, at this time, drives the clamping gear 409 to rotate by starting the clamping driving motor 410, because the clamping gear 409 is in gear connection with the lead screw driving gear 408, the lead screw driving gear 408 rotates, and because the lead screw driving gear 408 is fixedly connected with the clamping lead screw 406, the clamping lead screw 406 rotates, drives the sucker 402 to move downwards through the sucker arm 403, and makes the lower surface of the optical digital converter 5 fit with the facing surface of the steel mesh 401, at this time, starts the flexible driving motor 308, rotates the reducing outer ring gear 302 through the flexible driving gear 306, at this time, the reducing outer ring gear 302 pulls the circular arc reducing disc 301 to rotate through the connecting rod 305, thereby change the diameter that six circular arc reducing blades 301 enclose into central round hole, when the diameter of round hole is the same with the diagonal of optics digital converter 5 upper surface, stop flexible driving motor 308's rotation, at this moment start extrusion driving motor 204, extrusion driving motor 204 drives terminal extrusion gear 201 through head end driving gear 202 and rotates, because terminal extrusion gear 201 and extrusion lead screw 203 threaded connection, so extrusion lead screw 203 can reciprocate under terminal extrusion gear 201's effect, thereby drive extrusion piston 207 reciprocates, and then promote the solder paste in the extrusion cylinder 206 and move to the lower surface of steel mesh 401, glue the solder paste in the contact department of optics digital converter 5.

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 (5)

1. The utility model provides an optics digital converter adhesive deposite device, includes rotating base (123), extrusion module (2), flexible module (3), centre gripping module (4), optics digital converter (5), negative pressure module (6) and nut (7), its characterized in that: an extrusion module (2) is arranged on the upper surface of the rotating base (1), a flexible module (3) is arranged above the extrusion module (2), a clamping module (4) is fixedly connected above the flexible module (3) through a nut (7), a screw (701) and a clamping sheet (702), a negative pressure module (6) is arranged on the left side of the clamping module (4), and an optical digital converter (5) is lapped on the upper surface of the clamping module (4);

the extrusion module (2) comprises a tail end extrusion gear (201), a head end driving gear (202), an extrusion screw rod (203), an extrusion driving motor (204), an extrusion driving motor support (205), an extrusion cylinder (206), an extrusion piston (207), an extrusion cylinder support (208) and an extrusion cylinder support pillar (209), wherein the tail end extrusion gear (201) is rotatably connected with the rotating base (1), the outer surface gear of the tail end extrusion gear (201) is connected with the head end driving gear (202), the extrusion driving motor (204) is arranged below the head end driving gear (202), an output shaft of the extrusion driving motor (204) is fixedly connected with the head end driving gear (202), the extrusion driving motor (204) is fixedly connected with the rotating base (1) through the extrusion driving motor support (205), and a through hole is formed in the center of the tail end extrusion gear (201), an extrusion screw rod (203) is connected with the through hole in an internal thread mode, an extrusion piston (207) is fixedly connected to the top end of the extrusion screw rod (203), an extrusion cylinder (206) is sleeved on the outer surface of the extrusion piston (207), an extrusion cylinder support (208) is sleeved on the outer surface of the extrusion cylinder (206), and the extrusion cylinder support (208) is fixedly connected with the rotating base (1) through an extrusion cylinder support pillar (209);

the flexible module (3) comprises an arc diameter-changing sheet (301), a diameter-changing outer ring gear (302), an inner ring support (303), a supporting outer ring (304), a connecting rod (305), a flexible driving gear (306), a flexible driving motor support (307), a flexible driving motor (308), an inner ring support reinforcing plate (309), a reinforcing plate support column (310) and a diameter-changing outer ring gear limiting sleeve (311), wherein the arc diameter-changing sheet (301) is arranged above the extrusion cylinder (206), the diameter-changing outer ring gear (302) is arranged on the outer side of the arc diameter-changing sheet (301), the diameter-changing outer ring gear (302) is movably connected with the arc diameter-changing sheet (301) through the connecting rod (305), the outer ring of the arc diameter-changing sheet (301) is movably connected with the inner ring support (303), the outer ring of the inner ring support (303) is fixedly connected with the inner ring support reinforcing plate (309), and the inner ring support reinforcing plate (309) is fixedly connected with the rotary base (1) through the reinforcing plate support column (310), the upper surface of the inner ring support reinforcing plate (309) is fixedly connected with a support outer ring (304), the outer side of the reducing outer ring gear (302) is connected with a reducing outer ring gear limiting sleeve (311) in a sliding mode, the reducing outer ring gear limiting sleeve (311) is fixedly connected with the top end of the extrusion container support supporting column (209), the outer surface gear of the reducing outer ring gear (302) is connected with a flexible driving gear (306), a flexible driving motor (308) is arranged below the flexible driving gear (306), an output shaft of the flexible driving motor (308) is fixedly connected with the flexible driving gear (306), the outer surface of the flexible driving motor (308) is sleeved with a flexible driving motor support (307), and the flexible driving motor support (307) is fixedly connected with the extrusion container support supporting column (209);

the clamping module (4) comprises a steel mesh (401), a sucker (402), a sucker arm (403), an arc fixing plate (404), an anti-rotation sliding rod (405), a clamping lead screw (406), an arc fixing plate support (407), a lead screw driving gear (408), a clamping gear (409), a clamping driving motor (410) and a clamping driving motor support (411), wherein the upper surface of the supporting outer ring (304) is fixedly connected with a screw rod (701), the top end of the screw rod (701) is in threaded connection with a clamping sheet (702) through a nut (7), the steel mesh (401) is clamped inside the clamping sheet (702), the upper surface of the steel mesh (401) is lapped with an optical digital converter (5), the sucker (402) is lapped at the middle part of the upper surface of the optical digital converter (5), the sucker arm (403) is fixedly connected with the sucker arm (403), and the end, far away from the sucker (402), of the sucker arm (403) is in threaded connection with the clamping lead screw (406), an anti-rotation slide rod (405) is arranged on the left side of the clamping screw (406), the anti-rotation slide rod (405) is connected with a sucker arm (403) in a sliding way, the top end of the sucker arm (403) is fixedly connected with an arc fixing plate (404), the arc fixing plate (404) is fixedly connected with the rotating base (1) through an arc fixing plate strut (407), the arc fixing plate (404) is rotationally connected with the clamping screw rod (406), the bottom end of the clamping screw rod (406) is fixedly connected with a screw rod driving gear (408), the outer surface gear of the screw rod driving gear (408) is connected with a clamping gear (409), a clamping driving motor (410) is arranged above the clamping gear (409), the output shaft of the clamping driving motor (410) is fixedly connected with the clamping gear (409), the clamping driving motor (410) is fixedly connected with the rotating base (1) through a clamping driving motor bracket (411);

negative pressure module (6) include vacuum pump (601), vacuum pump support (602), vacuum pump input tube (603), leather hose (604) and sucking disc output tube (605), the top fixedly connected with sucking disc output tube (605) of sucking disc (402), the top fixedly connected with leather hose (604) of sucking disc output tube (605), one end fixedly connected with vacuum pump input tube (603) of sucking disc (402) are kept away from in leather hose (604), the bottom fixedly connected with vacuum pump (601) of vacuum pump input tube (603), vacuum pump (601) and rotating base (1) are through vacuum pump support (602) fixed connection.

2. The dispensing apparatus of claim 1, wherein: the number of the arc reducing pieces (301) is six, and the arc reducing pieces (301) are circularly arrayed in the inner ring of the inner ring support (303).

3. The dispensing apparatus of claim 1, wherein: the number of the inner ring support reinforcing plates (309) is three, and the inner ring support reinforcing plates (309) are circularly arrayed on the upper surface of the rotating base (1).

4. The dispensing apparatus of claim 1, wherein: the number of the reducing outer ring gear limiting sleeves (311) is three, and the reducing outer ring gear limiting sleeves (311) are circularly arrayed on the outer surface of the reducing outer ring gear (302).

5. The dispensing apparatus of claim 1, wherein: the number of the screws (701) is four, and the screws (701) are circularly arrayed on the upper surface of the support outer ring (304).

Images