CN213000911U - Rotatable intelligent coating machine of multistation - Google Patents

Abstract

The utility model discloses a rotatable intelligent coating machine of multistation, comprising an installation base plate, parallel arrangement first some mucilage binding, second adhesive deposite device and third adhesive deposite device in proper order on the mounting plate leading flank, first some mucilage binding includes lifting unit, rotating assembly and point gum subassembly, lifting unit set up with on the mounting plate leading flank, rotating assembly set up with on the lifting unit, point gum subassembly set up with on the rotating assembly, rotating assembly includes swivel mount, stroke cylinder, revolving cylinder, shaft coupling, rotatory piece, point gum installation piece, slope connecting block, slope connecting rod and swing piece, the utility model discloses work efficiency is high, at the bottom of the defective rate, productivity ratio is high, and is with low costs, has good market using value.

Description

Rotatable intelligent coating machine of multistation

Technical Field

The utility model relates to a skilled worker field is glued to the multistation point, especially relates to a rotatable intelligent coating machine of multistation.

Background

The three-proofing coating is to coat a layer of thin three-proofing paint on the surface of the PCB, which is the most commonly used protection mode for coating the surface of the PCB after welding at present, and can isolate sensitive electronic components from the severe environment, greatly improve the safety and reliability of electronic products and prolong the service life of the electronic products, protect circuits/components from being influenced by environmental factors such as humidity, pollutants, corrosion, stress, impact, mechanical vibration, thermal stress and the like, and simultaneously can improve the mechanical strength and the insulation characteristic of the products, the main equipment of the current coating process is a coating machine carrying a single-valve or double-valve mechanism and can only carry out vertical dispensing or coating operation, but because the current PCB products are more and more diversified, the process requirements are more and more high, the coating machine on the market has single function, the working efficiency is slow, and the product problems caused in the working process, the manual solution is needed, and the labor cost is high.

The prior art has defects and needs to be improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the defect that prior art exists, the utility model provides a rotatable intelligent coating machine of multistation.

The utility model provides a technical document, a rotatable intelligent coating machine of multistation, including the mounting plate, parallel arrangement first some mucilage binding is put, second some mucilage binding is put and third some mucilage binding is put on the mounting plate front side in proper order, first some mucilage binding is put including lifting unit, rotating assembly and some mucilage binding subassemblies, lifting unit set up with on the mounting plate front side, rotating assembly set up with on the lifting unit, some mucilage binding subassemblies set up with on the rotating assembly, rotating assembly includes swivel mount, stroke cylinder, revolving cylinder, shaft coupling, rotatory piece, some mucilage binding installation piece, slope connecting block, slope connecting rod and swing block, the swivel mount set up with on the lifting unit, the swivel mount top set up revolving cylinder, the shaft coupling set up with in the swivel mount, the shaft coupling top passes the swivel mount up and connects the revolving cylinder, the shaft coupling bottom passes swivel bearing, rotatory piece setting and bearing fixed block down in proper order, the bearing fixed block set up with the swivel mount bottom, rotatory piece right flank sets up the stroke cylinder, rotatory piece leading flank sets up the installation piece is glued to the point, stroke cylinder lower extreme is connected slope connecting block one end, the slope connecting block other end is connected slope connecting rod one end, the slope connecting rod other end is connected swing piece internal surface, swing piece surface connection the installation piece internal surface is glued to the point.

Preferably, the rotating block rotates by 0-90 degrees, and the adhesive dispensing mounting block inclines by 0-60 degrees.

Preferably, a left limiting block and a right limiting block are arranged on two sides of the bottom end of the rotating frame respectively.

Preferably, the lifting assembly comprises a cylinder fixing block, a lifting cylinder, a lifting guide rail, a lifting connecting plate, a lifting connecting rod and a buffer, the lifting guide rail is arranged on the mounting bottom plate, the cylinder fixing block is arranged on the side face of the lifting guide rail, the lifting cylinder is arranged on the cylinder fixing block, the lower end of the lifting cylinder is connected with the top end of the lifting connecting rod, the bottom end of the lifting connecting rod is connected with a lifting moving block, the lifting moving block is connected with the side face of the lifting connecting plate, the inner surface of the lifting connecting plate is arranged on the lifting guide rail through the lifting sliding block, the buffer is arranged below the lifting moving block, and the buffer is arranged on the mounting.

Preferably, the dispensing assembly comprises a dispensing frame, a dispensing valve and a dispensing head, the dispensing frame is arranged on the dispensing mounting block, the dispensing valve is arranged in the dispensing frame, and the dispensing head is arranged at the lower end of the dispensing valve.

Preferably, the point is glued the installation piece leading flank and is set up detachable draw-in groove, and the point is glued the frame medial surface and is set up detachable buckle, detachable draw-in groove and detachable buckle phase-match.

Preferably, a connecting rod bearing is arranged in the front side face of the rotating block, one end of a rotating connecting rod is arranged in the connecting rod bearing, and the other end of the rotating connecting rod penetrates through the fastening plate and is arranged on the rear side face of the glue dispensing mounting block.

Preferably, a bus board unit is arranged in the mounting base plate, and a plurality of joints are arranged on the bus board unit.

Compared with the prior art, the utility model has the advantages that the utility model is provided with the first glue dispensing device, the second glue dispensing device and the third glue dispensing device, when a plurality of glues are needed for the same product, the mechanism can solve the technological requirements of at least three kinds of glue dispensing and coating in a coating machine, the production cost of a factory is reduced and the production efficiency is improved, meanwhile, when any one valve works, the other two valves are arranged above the working valve, the hidden danger that the other two glue valves collide the product during the moving coating operation of the working valve is avoided, secondly, the first glue dispensing device can perform inclined spraying in four directions, the glue is sprayed to the side surfaces of components on the product, the technology that the high components on the product need to be coated comprehensively is solved, meanwhile, the second glue dispensing device and the second glue dispensing device can both install rotating components to perform inclined spraying in four directions, the working efficiency is high, the reject ratio is low, high productivity, low cost and good market application value.

Drawings

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

fig. 2 is a schematic structural view of the rotating assembly of the present invention.

Detailed Description

It should be noted that the above technical features are continuously combined with each other to form various embodiments which are not listed above, and all the embodiments are regarded as the scope of the present invention described in the specification; moreover, modifications and variations will occur to those skilled in the art in light of the foregoing description, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

In order to facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The present invention will be described in detail with reference to the accompanying drawings.

One embodiment as shown in fig. 1-2: the utility model provides a rotatable intelligent coating machine of multistation, includes mounting plate, parallel arrangement first adhesive deposite device, second adhesive deposite device 1 and third adhesive deposite device in proper order on the mounting plate leading flank, first adhesive deposite device includes lifting unit 3, rotating assembly 4 and adhesive deposite subassembly 5, lifting unit 3 set up with on the mounting plate leading flank, rotating assembly 4 set up with on the lifting unit 3, adhesive deposite subassembly 5 set up with on the rotating assembly 4, rotating assembly 4 includes swivel mount 41, stroke cylinder 42, revolving cylinder 43, shaft coupling 44, swivel block 45, adhesive deposite installation piece 46, slope connecting block 47, slope connecting rod 48 and swing block 49, swivel mount 41 set up with on the lifting unit 3, swivel mount 41 top sets up revolving cylinder 43, shaft coupling 44 set up with in swivel mount 41, the top end of the coupler 44 upwards penetrates through the rotating frame 41 to be connected with the rotating cylinder 43, the bottom end of the coupler 44 downwards sequentially penetrates through a rotating bearing, a rotating block 45 and a bearing fixing block, the bearing fixing block is arranged at the bottom end of the rotating frame 41, the right side face of the rotating block 45 is provided with the stroke cylinder 42, the front side face of the rotating block 45 is provided with the glue dispensing mounting block 46, the lower end of the stroke cylinder 42 is connected with one end of the inclined connecting block 47, the other end of the inclined connecting block 47 is connected with one end of the inclined connecting block 48, the other end of the inclined connecting block 48 is connected with the inner surface of the swinging block 49, and the outer surface of the swinging block 49 is; firstly, mounting a mounting bottom plate on a dispenser through screws; the first lifting cylinder, the second lifting cylinder and the third lifting cylinder are respectively fixed on the mounting bottom plate through a first cylinder fixing block, a second cylinder fixing block and a third cylinder fixing block; the first lifting guide rail, the second lifting guide rail and the third lifting guide rail are fixed on the mounting base plate through screws; the first lifting connecting plate, the second lifting connecting plate and the rotating component 4 are respectively connected with the first lifting cylinder, the second lifting cylinder and the third lifting cylinder, the second glue dispensing device 1, the third glue dispensing device and the glue dispensing component 5 are respectively arranged on the first lifting connecting plate, the second lifting connecting plate and the rotating component 4, buffers are respectively arranged below the first cylinder fixing block, the second cylinder fixing block and the third cylinder fixing block, when the first dispensing device works, the second dispensing device 1 and the third dispensing device ascend, when the second dispensing device 1 descends to work, the third dispensing device is not moved, and the first dispensing device ascends, so that the height of the other two non-working dispensing devices is higher than that of the working dispensing devices when any one dispensing device works, the non-working dispensing devices are prevented from colliding with products, and coating of three processes is realized;

the rotating cylinder 43 drives the coupler 44 to rotate, the coupler 44 drives the rotating block 45 to rotate, when the rotating cylinder rotates to a certain position, the stroke cylinder 42 drives the inclined connecting block 47 to work, the inclined connecting block 47 drives the inclined connecting rod 48 to work, the inclined connecting rod 48 drives the swinging block 49 to work, and the swinging block 49 drives the rotating block 45 to tilt at an angle.

Preferably, the rotating block 45 rotates by 0-90 degrees, and the glue dispensing installation block 46 inclines by 0-60 degrees.

Preferably, a left limiting block and a right limiting block are respectively arranged on two sides of the bottom end of the rotating frame 41, and the limiting blocks are used for preventing the rotating frame 41 from descending too much when descending.

Preferably, the lifting assembly 3 comprises a cylinder fixing block, a lifting cylinder, a lifting guide rail, a lifting connecting plate, a lifting connecting rod and a buffer, the lifting guide rail is arranged on the mounting bottom plate, the cylinder fixing block is arranged on the side surface of the lifting guide rail, the lifting cylinder is arranged on the cylinder fixing block, the lower end of the lifting cylinder is connected with the top end of the lifting connecting rod, the bottom end of the lifting connecting rod is connected with a lifting moving block, the lifting moving block is connected with the side surface of the lifting connecting plate, the inner surface of the lifting connecting plate is arranged on the lifting guide rail through a lifting slider, the buffer is arranged below the lifting moving block, and the buffer is arranged on the mounting bottom; firstly, the lifting cylinder drives the lifting connecting rod to work, the lifting connecting rod drives the lifting moving block to work, the lifting moving block drives the lifting connecting plate to work, and the lifting connecting plate performs lifting sliding on the lifting sliding rail through the lifting sliding block.

Preferably, the glue dispensing assembly 5 comprises a glue dispensing frame, a glue dispensing valve and a glue dispensing head, the glue dispensing frame is arranged on the glue dispensing installation block 46, the glue dispensing valve is arranged in the glue dispensing frame, the glue dispensing head is arranged at the lower end of the glue dispensing valve, and the glue dispensing valve and the glue dispensing head can be provided with various glue dispensing valves and glue dispensing heads.

Preferably, the front side face of the glue dispensing installation block 46 is provided with a detachable clamping groove, the inner side face of the glue dispensing frame is provided with a detachable buckle, and the detachable clamping groove and the detachable buckle are matched to work.

Preferably, a connecting rod bearing is arranged in the front side surface of the rotating block 45, one end of a rotating connecting rod is arranged in the connecting rod bearing, and the other end of the rotating connecting rod penetrates through a fastening plate and is arranged on the rear side surface of the glue dispensing mounting block 46; the rotating block 45 drives the connecting rod bearing to work, the connecting rod bearing drives the rotating connecting rod to work, and the rotating connecting rod drives the glue dispensing installation block 46 to rotate.

Preferably, a manifold plate unit is arranged in the mounting base plate, a plurality of joints are arranged on the manifold plate unit, the manifold plate unit is a fixed object used for gathering a plurality of fluid channels together, and the plurality of joints are outlets.

The second difference from the above is that the first dispensing device, the second dispensing device 1 and the third dispensing device may be provided with various valves, but not limited to dispensing valves, atomizing valves, water curtain valves, injection valves, piezoelectric valves, etc. for dispensing or coating processes.

The third embodiment is different from the above embodiments in that the rotating assembly 4 can be installed at any position on the first dispensing device, the second dispensing device 1 and the third dispensing device, and the set of devices can be used for installing 3 sets of rotating assemblies 4 at most and installing one set of rotating assemblies 4 at least.

The fourth embodiment differs from the above in that the rotating assembly 4 is provided with a detachable device.

Embodiment five differs from the above in that the stroke cylinder is set as a two-stroke cylinder.

The utility model discloses a theory of operation: the mode that one dispensing device is driven to move up and down by the up-and-down movement of the guide rail and the air cylinder, and the other two dispensing devices are fixed in the height direction is utilized, so that the dispensing device and nozzles of the other two dispensing devices are in different height states in the working process; when the first dispensing device works, the cylinder moves upwards to drive the second dispensing device 1 and the third dispensing device to be lifted, so that the second dispensing device 1 and the third dispensing device are higher than the first dispensing device; when the second glue dispensing device 1 works, the air cylinder moves downwards to enable the second glue dispensing device 1 to be lower than the first glue dispensing device and the third glue dispensing device; when the third glue dispensing device works, the air cylinder moves downwards to enable the third glue dispensing device to be lower than the second glue dispensing device 1 and the first glue dispensing device; realize that any adhesive deposite device is higher than work adhesive deposite device at the height that two other non-work adhesive deposite devices of during operation wait, avoid non-work adhesive deposite device to collide the product to realize the coating of three kinds of technologies, first adhesive deposite device, second adhesive deposite device 1 and third adhesive deposite device all can rotate and the coating of slope point, for example when working: the rotary cylinder 43 drives the coupler 44 to rotate, the coupler 44 drives the rotary block 45 to rotate, when the rotary cylinder rotates to a certain position, the stroke cylinder 42 drives the inclined connecting block 47 to work, the inclined connecting block 47 drives the inclined connecting rod 48 to work, the inclined connecting rod 48 drives the swinging block 49 to work, the swinging block 49 drives the rotary block 45 to carry out angle inclination, glue dispensing and coating processing of each product is sequentially achieved, and meanwhile the problem that low-viscosity glue flows down from holes in a PCB can be solved.

It should be noted that the above technical features are continuously combined with each other to form various embodiments which are not listed above, and all the embodiments are regarded as the scope of the present invention described in the specification; moreover, modifications and variations will occur to those skilled in the art in light of the foregoing description, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. A multi-station rotatable intelligent coating machine comprises an installation base plate and is characterized in that a first dispensing device, a second dispensing device and a third dispensing device are sequentially arranged on the front side face of the installation base plate in parallel, the first dispensing device comprises a lifting assembly, a rotating assembly and a dispensing assembly, the lifting assembly is arranged on the front side face of the installation base plate, the rotating assembly is arranged on the lifting assembly, the dispensing assembly is arranged on the rotating assembly, the rotating assembly comprises a rotating frame, a stroke cylinder, a rotating cylinder, a coupler, a rotating block, a dispensing installation block, an inclined connecting rod and a swinging block, the rotating frame is arranged on the lifting assembly, the top end of the rotating frame is provided with the rotating cylinder, the coupler is arranged in the rotating frame, and the top end of the coupler upwards penetrates through the rotating frame to be connected with the rotating cylinder, the shaft coupling bottom passes swivel bearing, rotatory piece setting and bearing fixed block down in proper order, the bearing fixed block set up with the swivel mount bottom, rotatory piece right flank sets up the stroke cylinder, rotatory piece leading flank sets up the installation piece is glued to the point, stroke cylinder lower extreme is connected slope connecting block one end, the slope connecting block other end is connected slope connecting rod one end, the slope connecting rod other end is connected swing piece internal surface, swing piece surface connection the installation piece internal surface is glued to the point.

2. The multi-station rotatable intelligent coating machine as claimed in claim 1, wherein the rotation block rotates by 0-90 ° and the glue dispensing installation block tilts by 0-60 °.

3. The multi-station rotatable intelligent coating machine as claimed in claim 1, wherein a left limiting block and a right limiting block are respectively arranged on two sides of the bottom end of the rotating frame.

4. The multi-station rotatable intelligent coating machine according to claim 1, wherein the lifting assembly comprises a cylinder fixing block, a lifting cylinder, a lifting guide rail, a lifting connecting plate, a lifting connecting rod and a buffer, the lifting guide rail is arranged on the mounting base plate, a cylinder fixing block is arranged on the side surface of the lifting guide rail, a lifting cylinder is arranged on the cylinder fixing block, the lower end of the lifting cylinder is connected with the top end of the lifting connecting rod, the bottom end of the lifting connecting rod is connected with a lifting moving block, the lifting moving block is connected with the side surface of the lifting connecting plate, the inner surface of the lifting connecting plate is arranged on the lifting guide rail through a lifting slider, the buffer is arranged below the lifting moving block, and the buffer is arranged on the mounting base plate.

5. The multi-station rotatable intelligent coating machine as claimed in claim 1, wherein the dispensing assembly comprises a dispensing frame, a dispensing valve and a dispensing head, the dispensing frame is arranged on the dispensing mounting block, the dispensing valve is arranged in the dispensing frame, and the dispensing head is arranged at the lower end of the dispensing valve.

6. The multi-station rotatable intelligent coating machine according to claim 1, wherein a detachable clamping groove is formed in a front side face of the glue dispensing installation block, a detachable buckle is arranged on an inner side face of the glue dispensing frame, and the detachable clamping groove is matched with the detachable buckle.

7. A multi-station rotatable intelligent coating machine as claimed in claim 1, wherein a connecting rod bearing is provided in the front side of the rotating block, one end of a rotating connecting rod is provided in the connecting rod bearing, and the other end of the rotating connecting rod passes through a fastening plate and is provided with the rear side of the glue dispensing mounting block.

8. A multi-station rotatable intelligent coating machine as claimed in claim 1, wherein a bus bar unit is arranged in the mounting base plate, and a plurality of joints are arranged on the bus bar unit.

Images