CN112958393B - Automatic antistatic liquid equipment that coats in integrated circuit guard band surface - Google Patents

Abstract

The invention relates to the technical field of integrated circuits, in particular to an automatic antistatic liquid coating device for the surface of an integrated circuit protective belt, which comprises an extrusion supporting device, a limiting storage device, a plugging side plate device, a linkage discharge device, a supporting and fixing device, a bearing and connecting device, an ash removal smearing device, an extrusion transmission device and a discharge conical opening, wherein the extrusion supporting device is connected with a lifting tray device, the extrusion supporting device is fixedly connected with the limiting storage device, the right end of the limiting storage device is fixedly connected with the plugging side plate device, the plugging side plate device is connected with the linkage discharge device, the extrusion supporting device is fixedly connected with the supporting and fixing device, the supporting and fixing device is fixedly connected with the bearing and connecting device, the bearing and connecting device is connected with two ash removal smearing devices, and the two ash removal smearing devices are both rotatably connected with the extrusion transmission device, the invention firstly carries out ash removal treatment on the integrated circuit, and then coats the antistatic liquid on the integrated circuit.

Description

Automatic antistatic liquid equipment that coats in integrated circuit guard band surface

Technical Field

The invention relates to the technical field of integrated circuits, in particular to an automatic antistatic liquid coating device for the surface of an integrated circuit protection belt.

Background

The antistatic liquid has an antistatic lasting effective period of several months to more than one year (at normal temperature and humidity), obviously reduces the surface resistance of the plastic product, makes the surface resistance reach 10 to 7 to 10 to 9 ohms, has the advantages of antistatic, high efficiency and durability, no toxicity, RoHS (RoHS) conformity, proper compatibility with resin and no influence on the processing and use performance of the product, and is dissolved in organic solvents such as alcohols, acetone, chloroform and the like. Most of the antistatic liquid is coated on the integrated circuit, and the prior art directly coats the antistatic liquid on the integrated circuit, so that the service life of the antistatic liquid can be reduced.

Disclosure of Invention

The invention aims to provide equipment for automatically coating antistatic liquid on the surface of an integrated circuit protective belt.

An automatic antistatic liquid coating equipment on surface of integrated circuit protective belt, comprising an extrusion supporting device, a limit storage device, a plugging side plate device, a linkage discharging device, a supporting and fixing device, a bearing and connecting device, an ash cleaning smearing device, an extrusion transmission device and a discharge conical opening, wherein the extrusion supporting device is connected with the limit storage device, the extrusion supporting device is fixedly connected with the limit storage device, the right end of the limit storage device is fixedly connected with the plugging side plate device, the plugging side plate device is connected with the linkage discharging device, the extrusion supporting device is fixedly connected with the supporting and fixing device, the supporting and fixing device is fixedly connected with the bearing and connecting device, the bearing and connecting device is connected with two ash cleaning smearing devices, and the two ash cleaning smearing devices are rotationally connected with the extrusion transmission device, a discharge cone opening is fixedly connected below the bearing and connecting device.

Extrusion supporting device include bearing face, supporting leg I, breach, rectangular channel, extrusion traveller, spring I and stripper plate, two supporting leg I of below fixedly connected with of bearing face left end, the right-hand member of bearing face is provided with the breach, is provided with the rectangular channel on the bearing face, fixedly connected with extrusion traveller in the rectangular channel, the cover is equipped with spring I on the extrusion traveller, stripper plate sliding connection in the rectangular channel and with extrusion traveller sliding connection, spring I is located between rectangular channel and the stripper plate.

The limiting storage device comprises an opening frame and falling rollers, the right end of the opening frame is rotatably connected with a plurality of falling rollers, the falling rollers are divided into a front group and a rear group, the opening frame is fixedly connected above the bearing surface, and the extrusion plate is slidably connected in the opening frame.

The side blocking plate device comprises a side blocking plate, a lifting sliding opening and a lifting sliding column, the lifting sliding opening is formed in the side blocking plate, the lifting sliding column is fixedly connected into the lifting sliding opening, and the side blocking plate is fixedly connected to the right end of the opening frame.

Linkage eduction gear include fixed plate, elevating screw, motor, lifting slide and discharge plate, the fixed plate be provided with two, two fixed plates are fixed connection respectively in the upper and lower both sides of side closure plate right-hand member, elevating screw's both ends rotate with two fixed plates respectively and are connected, be located fixedly connected with motor on the fixed plate of top, the output shaft of motor rotates with the fixed plate that is located the top to be connected, the output shaft and the elevating screw fixed connection of motor, elevating slide passes through threaded connection with elevating screw, elevating slide sliding connection in elevating slide and with elevating slide sliding column sliding connection, elevating slide's left end fixedly connected with discharge plate.

The supporting and fixing device comprises a supporting surface, supporting legs II and a falling opening, the two supporting legs II are fixedly connected below the right end of the supporting surface, the falling opening is formed in the supporting surface, the supporting surface is fixedly connected with the supporting surface, and the falling opening is the same as the cross section of the notch and is located below the notch.

The bearing and connecting device comprises connecting plates, vertical supporting plates, transverse sliding ports, transverse sliding columns, springs II, top backup plates and nuts, wherein the number of the connecting plates and the number of the vertical supporting plates are two, the two connecting plates are fixedly connected between the two vertical supporting plates, the two connecting plates and the two vertical supporting plates are fixedly connected with a supporting surface, the two vertical supporting plates are provided with the two transverse sliding ports, the four transverse sliding ports are internally and fixedly connected with the two transverse sliding columns, the four groups of transverse sliding columns are sleeved with the springs II, the outer ends of the four groups of transverse sliding columns are respectively and slidably connected with the top backup plates, the outer ends of the four groups of transverse sliding columns are respectively connected with the nuts through threads, the four groups of nuts are respectively contacted with the four top backup plates, and the outer ends of the four groups of springs II are respectively and tightly propped against the four top backup plates.

The deashing paint the device including extrusion slide, deashing board, storage chamber, feed liquor pipe and paint the cotton, the extrusion slide be provided with two, the deashing board with store the equal fixed connection in chamber between two extrusion slides, store the chamber and be hollow structure design, store fixedly connected with feed liquor pipe and intercommunication on the chamber, the below fixedly connected with who stores the chamber paints the cotton, paint the cotton and pass through the through-hole and store intracavity portion intercommunication, the deashing paint the device and be provided with two, four extrusion slides respectively with four group's sideslip travelers sliding connection, four group's spring II's the inner four extrusion slides of tight top respectively.

Extrusion transmission include driving roller and switching shaft, fixedly connected with switching shaft on the driving roller, fixedly connected with drive arrangement on the switching shaft, extrusion transmission be provided with two, two switching shafts rotate respectively and connect between two sets of extrusion slides.

The discharging conical opening is internally provided with a drying device and is fixedly connected below the two vertical supporting plates.

The equipment for automatically coating the surface of the integrated circuit protection belt with the antistatic liquid has the beneficial effects that:

can store the integrated circuit board of different thickness, carry out the deashing to integrated circuit board earlier and handle, the dust finishes the back, with antistatic liquid even scribble on integrated circuit board.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly fixed or limited otherwise, the terms "mounted," "connected" and "connected" are to be understood broadly, and for example, they may be fixed or detachable, or they may be directly or indirectly connected through an intermediate medium, or they may be connected inside two components. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

FIG. 1 is a schematic structural diagram of an apparatus for automatically coating the surface of an integrated circuit protection tape with an antistatic liquid according to the present invention;

FIG. 2 is a schematic view of the apparatus;

FIG. 3 is a schematic view of a spacing storage device;

FIG. 4 is a schematic structural view of a side plate blocking device and a linkage discharging device;

FIG. 5 is a schematic view of the supporting and fixing device;

FIG. 6 is a schematic view of the load bearing attachment and discharge cone configuration;

FIG. 7 is a schematic view of the ash removal coating device;

fig. 8 is a schematic view of the extrusion actuator.

In the figure: the extrusion supporting device 1; 1-1 of a bearing surface; support leg I1-2; 1-3 of a gap; 1-4 rectangular grooves; 1-5 of an extrusion sliding column; a spring I1-6; 1-7 of an extrusion plate; a limiting storage device 2; an opening frame 2-1; a falling roller 2-2; plugging the side plate device 3; 3-1 of a side blocking plate; 3-2 of a lifting sliding port; 3-3 of a lifting sliding column; a linkage discharge device 4; a fixing plate 4-1; 4-2 of a lifting screw rod; 4-3 of a motor; 4-4 of a lifting sliding plate; 4-5 of a discharge plate; a supporting and fixing device 5; a support surface 5-1; a support leg II 5-2; 5-3 of a dropping opening; carrying connection means 6; a connecting plate 6-1; 6-2 of vertical supporting plates; 6-3 of a transverse moving sliding port; 6-4 of a sliding column is transversely moved; spring II 6-5; 6-6 of a top backup plate; 6-7 parts of a nut; a soot cleaning and smearing device 7; an extrusion slide 7-1; 7-2 of an ash cleaning plate; a storage chamber 7-3; 7-4 of a liquid inlet pipe; 7-5 parts of cotton; a squeezing transmission 8; a driving roller 8-1; a transfer shaft 8-2; discharge cone 9.

Detailed Description

The first embodiment is as follows:

the embodiment is described below by combining fig. 1-8, and an automatic antistatic liquid coating device for the surface of an integrated circuit protection belt comprises an extrusion supporting device 1, a limiting storage device 2, a blocking side plate device 3, a linkage discharging device 4, a supporting and fixing device 5, a bearing and connecting device 6, an ash cleaning and smearing device 7, an extrusion transmission device 8 and a discharge conical opening 9, wherein the extrusion supporting device 1 is connected with the limiting storage device 2, the extrusion supporting device 1 is fixedly connected with the limiting storage device 2, the right end of the limiting storage device 2 is fixedly connected with the blocking side plate device 3, the blocking side plate device 3 is connected with the linkage discharging device 4, the extrusion supporting device 1 is fixedly connected with the supporting and fixing device 5, the supporting and fixing device 5 is fixedly connected with the bearing and connecting device 6, the bearing and connecting device 6 is connected with two ash cleaning and smearing devices 7, the two ash removing and smearing devices 7 are rotatably connected with an extrusion transmission device 8, and a discharge conical opening 9 is fixedly connected below the bearing and connecting device 6.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-8, the extrusion and support device 1 includes a support surface 1-1, a support leg I1-2, a notch 1-3, the device comprises rectangular grooves 1-4, extrusion sliding columns 1-5, springs I1-6 and extrusion plates 1-7, wherein two supporting legs I1-2 are fixedly connected below the left end of a bearing surface 1-1, a gap 1-3 is formed in the right end of the bearing surface 1-1, the rectangular grooves 1-4 are formed in the bearing surface 1-1, the extrusion sliding columns 1-5 are fixedly connected in the rectangular grooves 1-4, the springs I1-6 are sleeved on the extrusion sliding columns 1-5, the extrusion plates 1-7 are slidably connected in the rectangular grooves 1-4 and slidably connected with the extrusion sliding columns 1-5, and the springs I1-6 are located between the rectangular grooves 1-4 and the extrusion plates 1-7;

the bearing surface 1-1 plays a role in bearing connection and providing a fixed space for the whole device, the two supporting legs I1-2 play a role in supporting, the notch 1-3 can provide a falling space for the integrated circuit board, the rectangular groove 1-4 can provide a sliding space for the extrusion plate 1-7 and limit the extrusion plate 1-7, the extrusion plate 1-7 can only slide left and right, the extrusion sliding column 1-5 can limit the extrusion plate 1-7 in the vertical direction, a sleeved space can also be provided for the spring I1-6, the elastic force generated by the spring I1-6 is utilized to act on the extrusion plate 1-7, the extrusion plate 1-7 has a tendency of moving right, and the integrated circuit board is extruded.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-8, the limiting storage device 2 includes an open frame 2-1 and a plurality of falling rollers 2-2, the right end of the open frame 2-1 is rotatably connected with the plurality of falling rollers 2-2, the plurality of falling rollers 2-2 are divided into a front group and a rear group, the open frame 2-1 is fixedly connected above a bearing surface 1-1, and an extrusion plate 1-7 is slidably connected in the open frame 2-1;

the opening frame 2-1 can limit the position of the integrated circuit board, and the integrated circuit board can be contacted with the plurality of falling rollers 2-2 when falling, so that the integrated circuit board can fall conveniently, and the large friction cannot be generated.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-8, the plugging side plate device 3 includes a side plugging plate 3-1, a lifting sliding port 3-2 and a lifting sliding column 3-3, the lifting sliding port 3-2 is arranged on the side plugging plate 3-1, the lifting sliding column 3-3 is fixedly connected in the lifting sliding port 3-2, and the side plugging plate 3-1 is fixedly connected to the right end of the opening frame 2-1;

the side blocking plate 3-1 plays a role in blocking, the lifting sliding port 3-2 can provide a sliding space for the lifting sliding plate 4-4, the lifting sliding plate 4-4 can only slide up and down, and the lifting sliding plate 4-4 can be limited after the lifting sliding column 3-3 is arranged, so that the lifting sliding plate 4-4 can only slide up and down.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-8, the linkage discharging device 4 includes two fixing plates 4-1, a lifting screw 4-2, a motor 4-3, a lifting slide plate 4-4 and a discharging plate 4-5, the two fixing plates 4-1 are respectively and fixedly connected to the upper and lower sides of the right end of the side blocking plate 3-1, two ends of the lifting screw 4-2 are respectively and rotatably connected to the two fixing plates 4-1, the motor 4-3 is fixedly connected to the upper fixing plate 4-1, an output shaft of the motor 4-3 is rotatably connected to the upper fixing plate 4-1, an output shaft of the motor 4-3 is fixedly connected to the lifting screw 4-2, the lifting slide plate 4-4 is connected to the lifting screw 4-2 through a thread, the lifting sliding plate 4-4 is connected in the lifting sliding opening 3-2 in a sliding manner and is connected with the lifting sliding column 3-3 in a sliding manner, and the left end of the lifting sliding plate 4-4 is fixedly connected with the discharging plate 4-5;

the two fixing plates 4-1 play a role of bearing connection, provide a rotating space for the lifting screw rod 4-2, start the motor 4-3, the motor 4-3 can drive the lifting screw rod 4-2 to rotate, the rotating lifting screw 4-2 can drive the lifting sliding plate 4-4 to slide up and down, the lifting sliding plate 4-4 can drive the discharging plate 4-5 to move up and down, the discharging plate 4-5 is composed of a plurality of plates fixed by screws, the thickness of the discharge plate 4-5 is adjusted according to the thickness of the integrated circuit board, so that the thickness of the discharge plate 4-5 is the same as that of the integrated circuit board, the discharge plate 4-5 can conveniently drive only one integrated circuit board to move downwards at a time, and the integrated circuit board enters the falling opening 5-3 and is conveyed between the two driving rollers 8-1.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1-8, the supporting and fixing device 5 comprises a supporting surface 5-1, supporting legs II5-2 and a falling opening 5-3, two supporting legs II5-2 are fixedly connected below the right end of the supporting surface 5-1, the falling opening 5-3 is arranged on the supporting surface 5-1, the supporting surface 5-1 is fixedly connected with a bearing surface 1-1, and the falling opening 5-3 has the same section as the gap 1-3 and is positioned below the gap 1-3;

the supporting surface 5-1 plays a role in supporting and fixing, the lowest surface of the two supporting legs II5-2 and the lowest surface of the two supporting legs I1-2 are positioned on the same horizontal plane, the device can be placed on the ground smoothly, and the falling opening 5-3 can provide a falling space for the integrated circuit board.

The seventh embodiment:

the embodiment is described below with reference to fig. 1-8, the bearing and connecting device 6 includes two connecting plates 6-1, two vertical support plates 6-2, two lateral sliding ports 6-3, two lateral sliding columns 6-4, a spring II6-5, a top support plate 6-6 and a nut 6-7, the two connecting plates 6-1 and the two vertical support plates 6-2 are both fixedly connected between the two vertical support plates 6-2, the two connecting plates 6-1 and the two vertical support plates 6-2 are both fixedly connected with a support surface 5-1, the two vertical support plates 6-2 are both provided with two lateral sliding ports 6-3, the four lateral sliding ports 6-3 are both fixedly connected with two lateral sliding columns 6-4, the four groups of lateral sliding columns 6-4 are both sleeved with a spring II6-5, the outer ends of the four groups of transverse sliding columns 6-4 are connected with top backup plates 6-6 in a sliding mode, the outer ends of the four groups of transverse sliding columns 6-4 are connected with nuts 6-7 through threads, the four groups of nuts 6-7 are respectively contacted with the four top backup plates 6-6, and the outer ends of the four groups of springs II6-5 respectively support against the four top backup plates 6-6;

the two connecting plates 6-1 and the two vertical supporting plates 6-2 both play a role of bearing and connecting, the transverse sliding opening 6-3 can provide a sliding space for the extrusion sliding seat 7-1, the transverse sliding column 6-4 can provide a sliding space for the extrusion sliding seat 7-1, so that the extrusion sliding seat 7-1 can only slide left and right, the elastic potential energy generated by the spring II6-5 is utilized to act on the extrusion sliding seat 7-1 to generate the trend of inward movement, thereby ensuring that the integrated circuit board can be extruded, and the top backup plate 6-6 can provide a spacing space for the outer end of the spring II6-5 to ensure that the spring II6-5 only generates inward elastic force, the nut 6-7 can fix the top backup plate 6-6, and the four top backup plates 6-6 are convenient to take down, and the ash cleaning plate 7-2 and the daubing cotton 7-5 are replaced.

The specific implementation mode is eight:

the present embodiment is described below with reference to fig. 1-8, the ash cleaning smearing device 7 includes two extrusion sliders 7-1, two ash cleaning plates 7-2, a storage cavity 7-3, a liquid inlet pipe 7-4 and smearing cotton 7-5, the two extrusion sliders 7-1 are provided, the two ash cleaning plates 7-2 and the storage cavity 7-3 are both fixedly connected between the two extrusion sliders 7-1, the storage cavity 7-3 is designed in a hollow structure, the liquid inlet pipe 7-4 is fixedly connected to the storage cavity 7-3 and is communicated with the storage cavity, the smearing cotton 7-5 is fixedly connected to the lower portion of the storage cavity 7-3, the smearing cotton 7-5 is communicated with the interior of the storage cavity 7-3 through a through hole, the two ash cleaning smearing devices 7 are provided, the four extrusion sliders 7-1 are respectively connected with four sets of lateral moving sliding columns 6-4 in a sliding manner, the inner ends of the four groups of springs II6-5 respectively tightly support the four extrusion sliding seats 7-1;

antistatic liquid is added into the storage cavity 7-3 through the liquid inlet pipe 7-4, the antistatic liquid is stored in the storage cavity 7-3 and can flow to the smearing cotton 7-5 through the through hole, the extrusion slide seat 7-1 plays a role in bearing and connecting and can drive the ash cleaning plates 7-2 and the storage cavity 7-3 to move inwards, when the integrated circuit board falls down from the space between the two ash cleaning plates 7-2, the two ash cleaning plates 7-2 can perform ash cleaning treatment on the integrated circuit board, the integrated circuit board after ash cleaning can continuously fall down, and after the integrated circuit board after ash cleaning is finished passes through the two smearing cotton 7-5, the antistatic liquid can be evenly smeared on the integrated circuit board.

The specific implementation method nine:

the embodiment is described below with reference to fig. 1 to 8, the extrusion transmission device 8 includes a transmission roller 8-1 and an adapter shaft 8-2, the transmission roller 8-1 is fixedly connected with the adapter shaft 8-2, the adapter shaft 8-2 is fixedly connected with a driving device, the extrusion transmission device 8 is provided with two adapter shafts 8-2, and the two adapter shafts 8-2 are respectively and rotatably connected between two groups of extrusion sliding seats 7-1;

the starting driving device drives the two driving rollers 8-1 to rotate inwards at the same time through the two transfer shafts 8-2, so that the integrated circuit board can be driven to move downwards, and the distance between the two driving rollers 8-1 can be changed, so that the integrated circuit boards with different thicknesses can be driven to move downwards.

The detailed implementation mode is ten:

the embodiment is described below with reference to fig. 1-8, a drying device is arranged in the discharge cone opening 9, and the discharge cone opening 9 is fixedly connected below the two vertical supporting plates 6-2;

the discharge cone mouth 9 can provide a unified roll-off mouth for the integrated circuit board that processing was accomplished, conveniently collects, is provided with drying device in the discharge cone mouth 9 moreover for integrated circuit board's drying rate.

The working principle of the equipment for automatically coating the surface of the integrated circuit protection belt with the antistatic liquid is as follows:

the bearing surface 1-1 plays a role in bearing connection and providing a fixed space for the whole device, the two supporting legs I1-2 play a role in supporting, the notch 1-3 can provide a falling space for the integrated circuit board, the rectangular groove 1-4 can provide a sliding space for the extrusion plate 1-7 and limit the same, the extrusion plate 1-7 can only slide left and right, the extrusion sliding column 1-5 can limit the vertical direction of the extrusion plate 1-7, the spring I1-6 can also provide a sleeved space, the elastic force generated by the spring I1-6 is utilized to act on the extrusion plate 1-7, the extrusion plate 1-7 generates a trend of moving right to extrude the integrated circuit board, the opening frame 2-1 can limit the integrated circuit board, and the integrated circuit board can be contacted with the plurality of falling rollers 2-2 when falling, the falling of the integrated circuit board is facilitated, too large friction cannot be generated, the side blocking plate 3-1 plays a blocking role, the lifting sliding port 3-2 can provide a sliding space for the lifting sliding plate 4-4, the lifting sliding plate 4-4 can only slide up and down, the lifting sliding plate 4-4 can be limited after the lifting sliding column 3-3 is arranged, the lifting sliding plate 4-4 can only slide up and down, the two fixing plates 4-1 play a bearing connection role, a rotating space is provided for the lifting screw rod 4-2, the motor 4-3 is started, the motor 4-3 can drive the lifting screw rod 4-2 to rotate, the rotating lifting screw rod 4-2 can drive the lifting sliding plate 4-4 to slide up and down, and the lifting sliding plate 4-4 can drive the discharging plate 4-5 to move up and down, the discharging plate 4-5 is composed of a plurality of plates fixed by screws, the thickness of the discharging plate 4-5 is adjusted according to the thickness of the integrated circuit board, the thickness of the discharging plate 4-5 is the same as that of the integrated circuit board, the discharging plate 4-5 can conveniently drive only one integrated circuit board to move downwards at a time, the integrated circuit board enters the falling port 5-3, the supporting surface 5-1 plays a role in supporting and fixing, the lowest surface of the two supporting legs II5-2 and the lowest surface of the two supporting legs I1-2 are positioned on the same horizontal plane, the device can be placed on the ground flatly, the falling port 5-3 can provide a falling space for the integrated circuit board, the two connecting plates 6-1 and the two vertical supporting plates 6-2 both play a role in bearing and connecting, the transverse sliding port 6-3 can provide a sliding space for the extrusion sliding seat 7-1, the transverse sliding column 6-4 can provide a sliding space for the extrusion sliding seat 7-1 to only slide left and right, the elastic potential energy generated by the spring II6-5 is utilized to act on the extrusion sliding seat 7-1 to generate the trend of inward movement, the integrated circuit board can be extruded and driven to move downwards, the top backup plate 6-6 can provide a limiting space for the outer end of the spring II6-5 to ensure that the spring II6-5 only generates inward elastic force, the nut 6-7 can fix the top backup plate 6-6, the four top backup plates 6-6 are conveniently taken down to replace the ash cleaning plate 7-2 and paint the cotton 7-5, the antistatic liquid is added into the storage cavity 7-3 through the liquid inlet pipe 7-4, the antistatic liquid is stored in the storage cavity 7-3, the antistatic liquid can flow to the daubing cotton 7-5 through the through holes, the extrusion slide seat 7-1 plays a role in bearing connection and can drive the ash cleaning plates 7-2 and the storage cavity 7-3 to move inwards, when the integrated circuit board falls down from the space between the two ash cleaning plates 7-2, the two ash cleaning plates 7-2 can carry out ash cleaning treatment on the integrated circuit board, the integrated circuit board after ash cleaning can continuously fall down, when the integrated circuit board after ash cleaning passes through the two daubing cottons 7-5, the antistatic liquid can be uniformly daubed on the integrated circuit board, the driving device is started to drive the two driving rollers 8-1 to simultaneously rotate inwards through the two transfer shafts 8-2, so that the integrated circuit board can be driven to move downwards, the distance between the two driving rollers 8-1 can be changed, and the integrated circuit boards with different thicknesses and can be driven to move downwards, the discharge cone mouth 9 can provide a unified roll-off mouth for the integrated circuit board that processing was accomplished, conveniently collects, is provided with drying device in the discharge cone mouth 9 moreover for integrated circuit board's drying rate.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (8)

1. The utility model provides an automatic antistatic liquid equipment that coats in integrated circuit guard band surface, includes extrusion supporting device (1), spacing storage device (2), shutoff curb plate device (3), linkage eduction gear (4), supports fixing device (5), bears connecting device (6), the deashing paints device (7), extrusion transmission (8) and discharge taper mouth (9), its characterized in that: the device is characterized in that a limiting storage device (2) is connected to the extrusion supporting device (1), the limiting storage device (2) is fixedly connected to the extrusion supporting device (1), a plugging side plate device (3) is fixedly connected to the right end of the limiting storage device (2), a linkage discharging device (4) is connected to the plugging side plate device (3), a supporting and fixing device (5) is fixedly connected to the extrusion supporting device (1), a bearing and connecting device (6) is fixedly connected to the supporting and fixing device (5), two ash cleaning and smearing devices (7) are connected to the bearing and connecting device (6), an extrusion transmission device (8) is rotatably connected to each of the two ash cleaning and smearing devices (7), and a discharging conical opening (9) is fixedly connected to the lower portion of the bearing and connecting device (6);

the extrusion supporting device (1) comprises a supporting surface (1-1), supporting legs I (1-2), notches (1-3), rectangular grooves (1-4), extrusion sliding columns (1-5), springs I (1-6) and extrusion plates (1-7), wherein the two supporting legs I (1-2) are fixedly connected below the left end of the supporting surface (1-1), the notches (1-3) are arranged at the right end of the supporting surface (1-1), the rectangular grooves (1-4) are arranged on the supporting surface (1-1), the extrusion sliding columns (1-5) are fixedly connected in the rectangular grooves (1-4), the springs I (1-6) are sleeved on the extrusion sliding columns (1-5), the extrusion plates (1-7) are slidably connected in the rectangular grooves (1-4) and are slidably connected with the extrusion sliding columns (1-5), the spring I (1-6) is positioned between the rectangular groove (1-4) and the extrusion plate (1-7);

the limiting storage device (2) comprises an opening frame (2-1) and falling rollers (2-2), the right end of the opening frame (2-1) is rotatably connected with the falling rollers (2-2), the falling rollers (2-2) are divided into a front group and a rear group, the opening frame (2-1) is fixedly connected above the bearing surface (1-1), and the extrusion plate (1-7) is slidably connected in the opening frame (2-1).

2. The apparatus of claim 1, wherein the apparatus comprises: the side plate plugging device (3) comprises a side plugging plate (3-1), a lifting sliding opening (3-2) and a lifting sliding column (3-3), wherein the lifting sliding opening (3-2) is formed in the side plugging plate (3-1), the lifting sliding column (3-3) is fixedly connected in the lifting sliding opening (3-2), and the side plugging plate (3-1) is fixedly connected to the right end of the opening frame (2-1).

3. The apparatus of claim 2, wherein the apparatus comprises: the linkage discharge device (4) comprises two fixing plates (4-1), two lifting screw rods (4-2), two motors (4-3), two lifting sliding plates (4-4) and two discharge plates (4-5), wherein the two fixing plates (4-1) are respectively and fixedly connected to the upper side and the lower side of the right end of the side blocking plate (3-1), the two ends of each lifting screw rod (4-2) are respectively and rotatably connected with the two fixing plates (4-1), the motor (4-3) is fixedly connected to the fixing plate (4-1) above, an output shaft of each motor (4-3) is rotatably connected with the fixing plate (4-1) above, and an output shaft of each motor (4-3) is fixedly connected with the lifting screw rods (4-2), the lifting sliding plate (4-4) is connected with the lifting screw rod (4-2) through threads, the lifting sliding plate (4-4) is connected in the lifting sliding port (3-2) in a sliding mode and is connected with the lifting sliding column (3-3) in a sliding mode, and the discharging plate (4-5) is fixedly connected to the left end of the lifting sliding plate (4-4).

4. The apparatus of claim 3, wherein the apparatus comprises: the supporting and fixing device (5) comprises a supporting surface (5-1), two supporting legs II (5-2) and a falling opening (5-3), wherein the two supporting legs II (5-2) are fixedly connected to the lower portion of the right end of the supporting surface (5-1), the falling opening (5-3) is formed in the supporting surface (5-1), the supporting surface (5-1) is fixedly connected with the bearing surface (1-1), and the falling opening (5-3) is identical to the section of the notch (1-3) and is located below the notch (1-3).

5. The apparatus of claim 4, wherein the apparatus comprises: the bearing and connecting device (6) comprises connecting plates (6-1), vertical supporting plates (6-2), transverse sliding openings (6-3), transverse sliding pillars (6-4), springs II (6-5), top leaning plates (6-6) and nuts (6-7), wherein the number of the connecting plates (6-1) and the number of the vertical supporting plates (6-2) are two, the two connecting plates (6-1) are fixedly connected between the two vertical supporting plates (6-2), the two connecting plates (6-1) and the two vertical supporting plates (6-2) are fixedly connected with a supporting surface (5-1), the two vertical supporting plates (6-2) are respectively provided with the two transverse sliding openings (6-3), the four transverse sliding openings (6-3) are respectively and fixedly connected with the two transverse sliding pillars (6-4), the four groups of transverse sliding columns (6-4) are all sleeved with springs II (6-5), the outer ends of the four groups of transverse sliding columns (6-4) are all connected with top backup plates (6-6) in a sliding mode, the outer ends of the four groups of transverse sliding columns (6-4) are all connected with nuts (6-7) through threads, the four groups of nuts (6-7) are respectively contacted with the four top backup plates (6-6), and the outer ends of the four groups of springs II (6-5) respectively support against the four top backup plates (6-6).

6. The apparatus of claim 5, wherein the apparatus comprises: the ash cleaning and smearing device (7) comprises two extrusion sliding seats (7-1), two ash cleaning plates (7-2), two storage cavities (7-3), two liquid inlet pipes (7-4) and two smearing cotton (7-5), the two extrusion sliding seats (7-1) are fixedly connected between the two extrusion sliding seats (7-1), the storage cavities (7-3) are designed to be hollow structures, the liquid inlet pipes (7-4) are fixedly connected and communicated with the storage cavities (7-3), the smearing cotton (7-5) is fixedly connected below the storage cavities (7-3), the smearing cotton (7-5) is communicated with the interior of the storage cavities (7-3) through holes, and the two ash cleaning and smearing devices (7) are arranged, the four extrusion sliding seats (7-1) are respectively connected with the four groups of transverse sliding columns (6-4) in a sliding manner, and the inner ends of the four groups of springs II (6-5) respectively push against the four extrusion sliding seats (7-1).

7. The apparatus of claim 6, wherein the apparatus comprises: the extrusion transmission device (8) comprises a transmission roller (8-1) and a transfer shaft (8-2), the transmission roller (8-1) is fixedly connected with the transfer shaft (8-2), the transfer shaft (8-2) is fixedly connected with a driving device, the extrusion transmission device (8) is provided with two transfer shafts (8-2), and the two transfer shafts (8-2) are respectively and rotatably connected between two groups of extrusion sliding seats (7-1).

8. The apparatus of claim 7, wherein the apparatus comprises: a drying device is arranged in the discharge conical opening (9), and the discharge conical opening (9) is fixedly connected below the two vertical supporting plates (6-2).

Images