CN215197980U - Online coating machine rotating device for cylindrical electrical appliance element - Google Patents

Abstract

The utility model discloses an online coating machine rotary device for cylindrical electrical components, online coating machine rotary device includes rotary driving mechanism, delivery track, stock stop, locating component, centre gripping subassembly and rotary mechanism, the delivery track is fixed in the below of coating machine through the support, the delivery track comprises left side track and right side track, rotary driving mechanism sets up in the middle part of the outside of left side track, rotary driving mechanism is perpendicular to the left side track, and rotary driving mechanism's working end is towards the inboard of left side track, the left and right sides bottom of centre gripping subassembly with the delivery track phase-match, rotary mechanism set up in the inboard of centre gripping subassembly, locating component set up in the outside of right side track; the utility model discloses can make the coating valve with the even coating of product surface, use manpower sparingly, improve production efficiency greatly, have good market using value.

Description

Online coating machine rotating device for cylindrical electrical appliance element

Technical Field

The utility model relates to an electronic product transfer equipment technical field especially involves an online coating machine rotary device for cylindrical electrical components.

Background

The three-proofing coating is to coat a layer of thin three-proofing paint on the surface of a product, which is the most commonly used protection mode for coating the surface after welding at present, and can isolate sensitive electronic components from a severe environment, greatly improve the safety and reliability of the electronic product and prolong the service life of the electronic product, protect circuits/components from 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 product, at present, for products needing 360-degree rotary coating, such as motor rotors, cylindrical electrical components and the like, the common method in the market is to tilt a coating head or manually feed and unload (off-line) to carry out rotary coating on the products, but the operations often cause uneven coating of the products and low coating efficiency, wasting manpower.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects existing in the prior art, the utility model provides an online coating machine rotating device for cylindrical electrical components.

The utility model provides a technical document, an online coating machine rotary device for cylindrical electrical components, online coating machine rotary device sets up in the below of coating valve, and the coating valve is installed on the coating machine, and online coating machine rotary device includes rotary drive mechanism, delivery track, stock stop, locating component, centre gripping subassembly and rotary mechanism, the delivery track is fixed in the below of coating machine through the support, the delivery track comprises left side track and right side track, rotary drive mechanism sets up in the middle part of the outside of left side track, rotary drive mechanism is perpendicular to the left side track, and rotary drive mechanism's work end is towards the inboard of left side track, the left and right sides bottom of centre gripping subassembly with the delivery track phase-match, rotary mechanism sets up in the inboard of centre gripping subassembly, the utility model discloses a conveying track, including the right side track, locating component, stop gauge, clamping assembly, conveying track, locating component, stop gauge, retaining assembly, clamping assembly, conveying track, retaining assembly, stop gauge, locating component, stop gauge, the locating component, stop gauge, the locating component, the stop gauge is used for blocking control the clamping assembly is in conveying track is last, rotary drive is used for the drive rotary mechanism rotates.

Preferably, the centre gripping subassembly comprises left side splint and right side splint, the bottom outside of left side splint take hang on the left side track, the bottom outside of right side splint take hang on the right side track, the inboard of left side splint with the inboard of right side splint is used for the installation rotary mechanism.

Preferably, rotary mechanism includes hold-in range, initiative rotating assembly and two at least driven rotating assembly, initiative rotating assembly's both ends equally divide do not with the centre of left side splint with the centre of right side splint is rotated and is connected, two at least driven rotating assembly parallel arrangement respectively in initiative rotating assembly's the left and right sides, and every driven rotating assembly about both ends equally divide do not with left side splint with right side splint rotate and connect, the hold-in range encircle in initiative rotating assembly and two at least driven rotating assembly's synchronizing wheel is last.

Preferably, the initiative rotating assembly comprises a left bearing, a rotating shaft, a synchronizing wheel, a positioning pin, a clamping die, a jacking block, a jacking shaft, a copper sleeve, a compression spring, a right bearing and a right fixing shaft, the left bearing is arranged in the middle of the left clamping plate, a fixed end of the rotating shaft is arranged in the left bearing, the synchronizing wheel is arranged on the rotating shaft, a product is arranged in the middle of the clamping die, the left end part of the clamping die is fixed on the outer side of the synchronizing wheel through the positioning pin, the fixed end of the right fixing shaft is arranged in the middle of the right clamping plate, the right bearing sleeve is arranged at the working end of the right fixing shaft, the compression spring sleeve is arranged at the working end of the right fixing shaft, the right end part of the compression spring is fixed on the right bearing, and the inner fixing sleeve of the copper sleeve is arranged at the left end part of the compression spring, one end of the jacking shaft is fixed on the outer side of the copper sleeve, and the jacking block is fixed on the other end of the jacking shaft.

Preferably, the driven rotation assembly and the driving rotation assembly have the same structure.

Preferably, the fixed end of the rotating shaft extends to the outer side of the middle part of the left side clamping plate, and a female clutch is fixedly arranged on the extending part of the fixed end of the rotating shaft.

Preferably, rotary driving mechanism includes vertical propelling movement slip table cylinder, rotary driving motor and sub-clutch, vertical propelling movement slip table cylinder set up perpendicularly in the orbital outside middle part in left side, rotary driving motor set up in on the slide of vertical propelling movement slip table cylinder, sub-clutch set up in rotary driving motor's output, sub-clutch with female clutch phase-match rotates through rotary driving motor, and then makes the female clutch of sub-clutch drive rotate.

Preferably, the locating component comprises a first locating pushing cylinder and a second locating pushing cylinder, the first locating pushing cylinder and the second locating pushing cylinder are respectively and vertically arranged on the outer side of the right side rail, and the working ends of the first locating pushing cylinder and the second locating pushing cylinder face the outer side of the right side clamping plate.

Preferably, the stock stop includes left side fender material jacking cylinder, right side fender material jacking cylinder and striker plate, left side fender material jacking cylinder set up in the orbital right-hand member portion outside in left side, right side fender material jacking cylinder set up in the orbital right-hand member portion outside in right side, both ends are equallyd divide and are do not fixed in about the striker plate left side fender material jacking cylinder with the upper portion output of right side fender material jacking cylinder.

Compared with the prior art, the beneficial effects are that: the utility model discloses a rotary mechanism accomplishes the centre gripping of product, rotates through rotary driving mechanism drive rotary mechanism, and then makes 360 degrees rotations of product, and the product can make the coating valve evenly coat the product surface in rotatory, uses manpower sparingly, has improved production efficiency greatly, has good market using 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 clamping assembly and the rotating mechanism of the present invention;

fig. 3 is a schematic structural view of the active rotating assembly of the present invention;

reference numerals: 1. a coating valve; 2. a rotation driving mechanism; 3. a conveying track; 4. a stock stop mechanism; 5. a positioning assembly; 6. a clamping assembly; 7. a rotation mechanism; 21. a sliding table cylinder is longitudinally pushed; 22. a rotary drive motor; 23. a sub-clutch; 31. a left side rail; 32. a right side rail; 41. a left material blocking jacking cylinder; 42. a right material blocking jacking cylinder; 43. a striker plate; 51. a first positioning pushing cylinder; 52. a second positioning pushing cylinder; 61. a left side clamping plate; 62. a right side splint; 71. a synchronous belt; 72. an active rotation assembly; 73. a driven rotating assembly; 74. a female clutch; 721. a left side bearing; 722. a rotating shaft; 723. a synchronizing wheel; 724. positioning pins; 725. clamping the mold; 726. a jacking block; 727. jacking the shaft; 728. a copper sleeve; 729. a compression spring; 730. a right side bearing; 731 right side fixed axle; 732. and (5) producing the product.

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.

As shown in fig. 1 to fig. 3, a first embodiment of the present invention: an online coating machine rotating device for cylindrical electrical components is arranged below a coating valve 1, the coating valve 1 is installed on a coating machine, the online coating machine rotating device comprises a rotary driving mechanism 2, a conveying track 3, a material stopping mechanism 4, a positioning component 5, a clamping component 6 and a rotating mechanism 7, the conveying track 3 is fixed below the coating machine through a support, the conveying track 3 consists of a left track 31 and a right track 32, the rotary driving mechanism 2 is arranged in the middle of the outer side of the left track 31, the rotary driving mechanism 2 is perpendicular to the left track 31, the working end of the rotary driving mechanism 2 faces the inner side of the left track 31, the bottoms of the left side and the right side of the clamping component 6 are matched with the conveying track 3, and the rotating mechanism 7 is arranged on the inner side of the clamping component 6, the utility model discloses a conveying track, including conveying track 3, locating component 5, stop gauge 4, clamping component 6, conveying track 3, locating component 5 set up in the outside of right side track 32, stop gauge 4 set up in conveying track 3 discharge end, rotary mechanism 7 is used for placing product 732, clamping component 6 is used for the centre gripping rotary mechanism 7, conveying track 3 is used for clamping component 6 carries from a left side to the right side, locating component 5 is used for carrying extremely clamping component 6 location on the conveying track 3 to prevent the off tracking, stop gauge 4 is used for blockking control clamping component 6 is in on the conveying track 3, rotary drive is used for the drive rotary mechanism 7 rotates.

Preferably, the clamping assembly 6 is composed of a left clamping plate 61 and a right clamping plate 62, the bottom outer side of the left clamping plate 61 is hung on the left rail 31, the bottom outer side of the right clamping plate 62 is hung on the right rail 32, and the inner sides of the left clamping plate 61 and the right clamping plate 62 are used for installing the rotating mechanism 7.

Preferably, the rotating mechanism 7 comprises a synchronous belt 71, a driving rotating assembly 72 and at least two driven rotating assemblies 73, two ends of the driving rotating assembly 72 are respectively connected with the middle of the left clamping plate 61 and the middle of the right clamping plate 62 in a rotating manner, at least two driven rotating assemblies 73 are respectively arranged on the left side and the right side of the driving rotating assembly 72 in a parallel manner, the left end and the right end of each driven rotating assembly 73 are respectively connected with the left clamping plate 61 and the right clamping plate 62 in a rotating manner, and the synchronous belt 71 is wound on synchronous wheels 723 of the driving rotating assembly 72 and the at least two driven rotating assemblies 73.

Preferably, the driving rotation assembly 72 includes a left bearing 721, a rotation shaft 722, a synchronizing wheel 723, a positioning pin 724, a clamping mold 725, a tightening block 726, a tightening shaft 727, a copper sleeve 728, a compression spring 729, a right bearing 730 and a right fixing shaft 731, the left bearing 721 is disposed in the middle of the left clamping plate 61, the fixed end of the rotation shaft 722 is installed in the left bearing 721, the synchronizing wheel 723 is sleeved on the rotation shaft 722, a product 732 is installed in the middle of the clamping mold 725, the left end of the clamping mold 725 is fixed outside the synchronizing wheel 723 by the positioning pin 724, the fixed end of the right fixing shaft 731 is disposed in the middle of the right clamping plate 62, the right bearing 730 is sleeved on the working end of the right fixing shaft 731, the compression spring 729 is sleeved on the working end of the right fixing shaft 731, and the right end of the compression spring 729 is fixed on the right bearing 730, the inner side of the copper sleeve 728 is fixedly sleeved at the left end of the compression spring 729, one end of the jacking shaft 727 is fixed at the outer side of the copper sleeve 728, the jacking block 726 is fixed at the other end of the jacking shaft 727, and the product 732 is placed in the clamping mold 725 in advance.

Preferably, the structure of the driven rotation assembly 73 is the same as that of the driving rotation assembly 72, and at least two driven rotation assemblies 73 are respectively disposed at the left and right sides of the driving rotation assembly 72.

Preferably, the fixed end of the rotating shaft 722 extends to the outer side of the middle part of the left clamping plate 61, the extending part of the fixed end of the rotating shaft 722 is fixedly provided with a female clutch 74, the sub-clutch 23 is driven to rotate by the rotary driving motor 22, the female clutch 74 drives the driving rotating assembly 72 to rotate, and the driven rotating assembly 73 synchronously rotates by the synchronous belt 71.

Preferably, rotary driving mechanism 2 includes vertical propelling movement slip table cylinder 21, rotary driving motor 22 and sub-clutch 23, vertical propelling movement slip table cylinder 21 set up perpendicularly in the outside middle part of left side track 31, rotary driving motor 22 set up in on the slide of vertical propelling movement slip table cylinder 21, sub-clutch 23 set up in rotary driving motor 22's output, sub-clutch 23 with female clutch 74 phase-match rotates through rotary driving motor 22, and then makes sub-clutch 23 drive female clutch 74 rotate.

Preferably, the positioning assembly 5 is composed of a first positioning pushing cylinder 51 and a second positioning pushing cylinder 52, the first positioning pushing cylinder 51 and the second positioning pushing cylinder 52 are respectively and vertically arranged on the outer side of the right rail 32, the working ends of the first positioning pushing cylinder 51 and the second positioning pushing cylinder 52 are both towards the outer side of the right clamping plate 62, and the clamping assembly 6 is tightly jacked to the conveying rail 3 through the synchronous working of the first positioning pushing cylinder 51 and the second positioning pushing cylinder 52.

Preferably, the stock stop 4 includes left side material blocking jacking cylinder 41, right side material blocking jacking cylinder 42 and stock stop 43, left side material blocking jacking cylinder 41 set up in the right end outside of left side track 31, right side material blocking jacking cylinder 42 set up in the right end outside of right side track 32, both ends are equallyd divide and are do not fixed in about stock stop 43 left side material blocking jacking cylinder 41 with the upper portion output of right side material blocking jacking cylinder 42, left side material blocking jacking cylinder 41 and right side material blocking jacking cylinder 42 make stock stop 43 play and block the effect when being in the extending state.

The utility model discloses a theory of operation: placing a product 732 in a clamping die 725 of a rotating mechanism 7, firstly pressing a jacking block 726, enabling a copper sleeve 728 to enable a compression spring 729 to be in a compression state by pressing the jacking block 726, further enabling the jacking block 726 to be spaced from the right end of the clamping die 725, then fixing the left end of the clamping die 725 on a synchronizing wheel 723 through a positioning pin 724, then loosening the jacking block 726, enabling the jacking block 726 to jack the right end of the clamping die 725 under the elastic action of the compression spring 729, enabling a material blocking mechanism 4 to be in a contraction state to play a role in blocking, then pushing a clamping assembly 6 from the left side of a conveying track 3, conveying the clamping assembly 6 to a proper position through the material blocking mechanism 4, then enabling a positioning assembly 5 to work to position the clamping assembly 6 from the right side of the clamping assembly 6, enabling a longitudinal pushing sliding table cylinder 21 to work to drive a working end of a sub-clutch 23 of a rotating driving motor 22 to be linked with a female clutch 74, at this moment, the rotary driving motor 22 works, the sub-clutch 23 drives the main clutch 74 to rotate, and then the driving rotary component 72 and the driven rotary component 73 simultaneously rotate through the synchronous belt 71, then the coating valve 1 sequentially coats the product 732, after the leveling coating is finished, the material blocking mechanism 4 works, the left material blocking jacking cylinder 41 and the right material blocking jacking cylinder 42 are in an extending state, the clamping component 6 slides out of the conveying track 3 rightwards, and the online coating work is completed.

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 (9)

1. An online coating machine rotating device for cylindrical electrical components is arranged below a coating valve, and the coating valve is installed on a coating machine, and is characterized in that the online coating machine rotating device comprises a rotary driving mechanism, a conveying track, a material blocking mechanism, a positioning assembly, a clamping assembly and a rotating mechanism, wherein the conveying track is fixed below the coating machine through a support, the conveying track consists of a left track and a right track, the rotary driving mechanism is arranged in the middle of the outer side of the left track, the rotary driving mechanism is perpendicular to the left track, the working end of the rotary driving mechanism faces towards the inner side of the left track, the bottoms of the left side and the right side of the clamping assembly are matched with the conveying track, the rotating mechanism is arranged on the inner side of the clamping assembly, and the positioning assembly is arranged on the outer side of the right track, the stock stop set up in the delivery track discharge end, rotary mechanism is used for placing the product, the centre gripping subassembly is used for the centre gripping rotary mechanism, the delivery track is used for the centre gripping subassembly is carried from a left side to the right side, locating component be used for with carry extremely the last centre gripping subassembly location of delivery track to prevent the off tracking, the stock stop is used for blockking control the centre gripping subassembly is in on the delivery track, rotary drive is used for the drive rotary mechanism rotates.

2. The in-line coater rotary apparatus for cylindrical electrical components as claimed in claim 1 wherein said clamping assembly is comprised of a left clamp plate and a right clamp plate, said left clamp plate having its bottom outer side depending from said left track and said right clamp plate having its bottom outer side depending from said right track, said left clamp plate inner side and said right clamp plate inner side being adapted to mount said rotary mechanism.

3. The on-line coater rotating apparatus for cylindrical electrical components as claimed in claim 2 wherein said rotating mechanism comprises a synchronous belt, a driving rotating assembly and at least two driven rotating assemblies, said driving rotating assembly having two ends respectively connected to the middle of said left clamping plate and the middle of said right clamping plate, said at least two driven rotating assemblies respectively disposed in parallel on the left and right sides of said driving rotating assembly, and each of said driven rotating assemblies having left and right ends respectively connected to said left clamping plate and said right clamping plate, said synchronous belt being wound around the synchronous wheels of said driving rotating assembly and said at least two driven rotating assemblies.

4. The on-line coater rotating apparatus for cylindrical electrical components as claimed in claim 3, wherein said active rotating assembly comprises a left bearing, a rotating shaft, a synchronizing wheel, a positioning pin, a clamping mold, a tightening block, a tightening shaft, a copper sleeve, a compression spring, a right bearing and a right fixing shaft, said left bearing is disposed in the middle of said left clamping plate, said fixing end of said rotating shaft is installed in said left bearing, said synchronizing wheel is sleeved on said rotating shaft, a product is installed in the middle of said clamping mold, the left end of said clamping mold is fixed to the outer side of said synchronizing wheel by said positioning pin, said fixing end of said right fixing shaft is disposed in the middle of said right clamping plate, said right bearing is sleeved on the working end of said right fixing shaft, said compression spring is sleeved on the working end of said right fixing shaft, the right-hand member portion of compression spring is fixed in on the right side bearing, the fixed cover of inboard of copper sheathing is located compression spring's left end portion, the one end of puller spindle is fixed in the outside of copper sheathing, the puller block is fixed in the other end of puller spindle.

5. The in-line coater rotary device for cylindrical electrical components as claimed in claim 4 wherein the structure of said driven rotary assembly is the same as the structure of said driving rotary assembly.

6. The in-line coater rotating apparatus for cylindrical electrical components as claimed in claim 4, wherein said fixed end of said rotating shaft is extended to the outside of the middle portion of said left side clamping plate, and said fixed end extended portion of said rotating shaft is fixedly provided with a female clutch.

7. The on-line coater rotating device for cylindrical electrical components as claimed in claim 6 wherein said rotary driving mechanism comprises a longitudinal push sliding table cylinder, a rotary driving motor and a sub-clutch, said longitudinal push sliding table cylinder is vertically disposed in the middle of the outer side of said left track, said rotary driving motor is disposed on the sliding plate of said longitudinal push sliding table cylinder, said sub-clutch is disposed at the output end of said rotary driving motor, said sub-clutch is matched with said female clutch, and is rotated by said rotary driving motor, so that said sub-clutch drives said female clutch to rotate.

8. The on-line coater rotating apparatus for cylindrical electrical components as claimed in claim 2, wherein said positioning assembly is composed of a first positioning pushing cylinder and a second positioning pushing cylinder, said first positioning pushing cylinder and said second positioning pushing cylinder are vertically disposed on the outer side of said right rail respectively, and the working ends of said first positioning pushing cylinder and said second positioning pushing cylinder are facing the outer side of said right clamping plate.

9. The on-line coating machine rotating device for the cylindrical electrical elements of claim 1, wherein the material blocking mechanism comprises a left material blocking jacking cylinder, a right material blocking jacking cylinder and a material blocking plate, the left material blocking jacking cylinder is arranged at the outer side of the right end part of the left track, the right material blocking jacking cylinder is arranged at the outer side of the right end part of the right track, and the left end and the right end of the material blocking plate are equally divided into the left material blocking jacking cylinder and the upper output end of the right material blocking jacking cylinder.

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