阅读说明：本技术 一种过滤器滤芯组装设备 (Filter element assembling equipment ) 是由 王华程 于 2021-11-02 设计创作，主要内容包括：本发明公开了一种多晶制绒机制绒滚筒组装设备,包括工作板、自动送料机构、滚筒输送线、无纺布装配装置、自动套滤网装置、滚筒盖上料装配装置、热收缩膜装配机构、滚筒内部包装机构、吹风装置和贴标装置；所述滚筒输送线安装于工作板的中部,所述自动送料机构安装于滚筒输送线的一侧,所述无纺布装配装置、自动套滤网装置、滚筒盖上料装配装置、热收缩膜装配机构、吹风装置和贴标装置从右到左依次安装于滚筒输送线的上方,所述滚筒内部包装机构安装于自动套滤网装置的后侧；本发明自动化程度高,能够较大的节省人力,具有良好的市场应用价值。(The invention discloses a polycrystal texturing machine texturing roller assembling device which comprises a working plate, an automatic feeding mechanism, a roller conveying line, a non-woven fabric assembling device, an automatic filter screen sleeving device, a roller cover feeding assembling device, a heat shrinkable film assembling mechanism, a roller internal packaging mechanism, a blowing device and a labeling device, wherein the working plate is arranged on the working plate; the automatic feeding mechanism is arranged on one side of the roller conveying line, the non-woven fabric assembling device, the automatic filter screen sleeving device, the roller cover feeding assembling device, the thermal shrinkage film assembling mechanism, the blowing device and the labeling device are sequentially arranged above the roller conveying line from right to left, and the roller internal packaging mechanism is arranged on the rear side of the automatic filter screen sleeving device; the invention has high automation degree, can greatly save labor and has good market application value.)

1. A polycrystal texturing machine texturing roller assembly device is characterized by comprising a working plate, an automatic feeding mechanism, a roller conveying line, a non-woven fabric assembly device, an automatic filter screen sleeving device, a roller cover feeding assembly device, a heat shrinkable film assembly mechanism, a roller internal packaging mechanism, a blowing device and a labeling device; the automatic feeding mechanism is arranged on one side of the roller conveying line, the non-woven fabric assembling device, the automatic filter screen sleeving device, the roller cover feeding assembling device, the thermal shrinkage film assembling mechanism, the blowing device and the labeling device are sequentially arranged above the roller conveying line from right to left, and the roller internal packaging mechanism is arranged on the rear side of the automatic filter screen sleeving device.

2. The polycrystalline wool making machine texturing cylinder assembly device according to claim 1, wherein the automatic feeding mechanism comprises a feeding mounting base, a first driving motor, a cylinder feed hopper, a blanking hopper, a sliding knife plate, a first driving positioning plate, a first ejecting swing arm and an ejecting connecting rod; the feeding mounting base is vertically mounted on the working plate, the first driving motor is mounted at the lower end of the feeding mounting base through the first driving positioning plate, the sliding knife plate is connected in a sliding groove of the rear wall of the feeding mounting base in a sliding mode, the roller feeding hopper is mounted on the rear wall of the upper end of the feeding mounting base, the blanking hopper is mounted on the front wall of the upper end of the feeding mounting base, the ejection swing arm is mounted at the output end of the first driving motor, one end of the ejection connecting rod is connected with the sliding knife plate, and the other end of the ejection connecting rod is connected with the ejection swing arm.

3. The polycrystalline wool making machine wool making roller assembly equipment according to claim 1, wherein the roller conveying line comprises a second driving motor, a filtering supporting bottom plate, a second driving positioning plate, a plurality of conveying supporting plates, a conveying track, a track supporting plate, a roller supporting plate and a plurality of roller shifting assemblies; the utility model discloses a filter support plate, including filter support plate, driving motor two, drive locating plate two, filter support plate, track backup pad, conveying track, cylinder backup pad, drive motor two is fixed in the middle part of filtering backup pad upper surface through drive locating plate two, set up a plurality of transport backup pads on the filter support plate, the track backup pad is installed in the transport backup pad, the conveying track is installed in the track backup pad, the cylinder backup pad is installed in conveying orbital top, just evenly set up a plurality of cylinder draw-in grooves in the cylinder backup pad, the cylinder is stirred the subassembly and is installed in one side of cylinder draw-in groove in proper order, driving motor's output links firmly the drive wheel, the drive wheel is stirred the subassembly transmission through hold-in range and cylinder and is connected.

4. The polycrystalline wool making machine texturing cylinder assembly device according to claim 1, wherein the non-woven fabric assembly device comprises a non-woven fabric feeding device I, a non-woven fabric cutting device I, a non-woven fabric assembly support frame I, a left cylinder rotating assembly, a right cylinder rotating assembly, a transmission synchronizing shaft and a driving motor III; the non-woven fabric assembly support frame I is arranged on the working plate, the left roller rotating assembly and the right roller rotating assembly are respectively arranged on the left side and the right side of the non-woven fabric assembly support frame I, the driving motor tee is arranged on one side of the right roller rotating assembly through the driving positioning plate tee, the transmission synchronizing shaft sequentially penetrates through the left roller rotating assembly and the right roller rotating assembly to be connected with an output shaft of the driving motor tee, the non-woven fabric cutting device I is arranged in the middle of the non-woven fabric assembly support frame I, and the non-woven fabric feeding device I is arranged at the top end of the non-woven fabric assembly support frame I; the left roller rotating assembly comprises a left rotating support frame, a left lower synchronous wheel, a left upper synchronous wheel, a left synchronous belt, a first jacking positioning plate, a first jacking cylinder, a rotating support shaft, a telescopic sleeve and a rotating joint; the left lower synchronizing wheel is sleeved at the left end of the transmission synchronizing shaft, the first jacking positioning plate is installed at one side of the left rotary supporting frame, the first jacking cylinder is installed at one end of the first jacking positioning plate, the rotary supporting shaft is installed at the upper end of the left rotary supporting frame, one end of the rotary supporting shaft is connected with the output end of the first jacking cylinder, the telescopic sleeve is sleeved on the rotary supporting shaft, the upper left synchronizing wheel is sleeved on the telescopic sleeve, the upper left synchronizing wheel is sleeved with the lower left synchronizing wheel through the synchronous belt, the rotary joint is installed at one end of the rotary supporting shaft, and the right rotary drum assembly is identical to the left rotary drum assembly in structure.

5. The polycrystalline wool making machine wool making drum assembly machine of claim 1 wherein the automatic set of screen devices comprises a jaw tension assembly, a screen clamping device and an ejector lift device; the net dragon clamping device is arranged on the working plate, the ejection lifting device is arranged on one side of the net dragon clamping device, and the clamping jaw stretching assembly component is arranged above the net dragon clamping device; the ejection lifting device comprises a telescopic cylinder I, a jacking cylinder II, a jacking positioning plate II, an ejection lifting frame, a telescopic positioning plate I and an ejection cylinder chuck; the jacking lifting frame is arranged on the working plate, the jacking positioning plate II is arranged on the jacking lifting frame, the jacking cylinder II is vertically arranged on the jacking positioning plate II, the telescopic positioning plate I is arranged at the output end of the jacking cylinder II, the telescopic cylinder I is horizontally arranged on the telescopic positioning plate I, and the jacking cylinder chuck is arranged at the output end of the telescopic cylinder I; the net dragon clamping device comprises a third jacking positioning plate, a third jacking air cylinder, a clamping supporting tube, a net dragon lower clamping block, a first lower pressing air cylinder, a first lower pressing positioning plate, a net dragon upper clamping block, a plurality of sliding rods and a lower jacking cutting assembly; the clamping support tube is mounted on the working plate, the third jacking positioning plate is mounted on the clamping support tube, the third jacking air cylinder is mounted at the bottom end of the third jacking positioning plate, supporting vertical plates are arranged at the left end and the right end of the third jacking positioning plate, the first downward pressing positioning plate is mounted at the top end of the supporting vertical plate, the first downward pressing air cylinder is vertically fixed on the first downward pressing positioning plate, the upper end and the lower end of the slide rod are respectively fixed on the first downward pressing positioning plate and the third jacking supporting plate, the lower net dragon clamping block and the upper net dragon clamping block are both sleeved on the slide rod, the output end of the third jacking air cylinder is fixedly connected with the upper net dragon clamping block, and the output end of the first downward pressing air cylinder is fixedly connected with the upper net dragon clamping block; the lower top cutting assembly comprises a fourth jacking cylinder, a fourth jacking positioning plate and a cutting net keel plate; the fourth jacking positioning plate is installed in the middle of the third jacking positioning plate, the fourth jacking cylinder is vertically installed on the fourth jacking positioning plate, and the cut-off net keel plate is installed at the output end of the fourth jacking cylinder.

6. The polycrystalline wool making machine texturing drum assembly apparatus of claim 1, wherein the drum cover loading assembly device comprises a left drum loading device and a right drum loading device; the right roller feeding device and the left roller feeding device have the same structure, and are respectively arranged on the front side and the rear side of the roller conveying line; the left roller feeding device comprises a transverse moving assembly, a filter cover rotating assembly, a filter cover feeding assembly and a filter cover mounting frame; the filter cover mounting frame is arranged on the working plate, the filter cover feeding assembly is arranged at the top end of the filter cover feeding frame, the filter cover rotating assembly is arranged at one end of the filter cover feeding assembly, and the transverse moving assembly is arranged below the filter cover rotating assembly; the filter cover feeding assembly comprises a filter cover feeding track, a first pushing cylinder, a filter cover pushing block, a filter cover arranging assembly body, a fifth driving motor, a fifth driving positioning plate, a glue dispensing rotating disc and a glue dispensing positioning plate; filter lid pay-off rail mounted on the top of filter lid mounting bracket, the one end in filter lid pay-off rail is installed to promotion cylinder one, the output in promotion cylinder one is installed to the filter lid ejector pad, filter lid range assembly body is installed in the orbital upper end of filter lid pay-off, the orbital one end of filter lid pay-off sets up the point and glues the through-hole, in the through-hole is glued in the point embedding rolling disc, driving motor five is fixed in the bottom of filter lid pay-off rail one end through driving locating plate five, driving motor five's output shaft links firmly with the bottom of point gluey rolling disc, the locating plate is installed in the orbital one side of filter lid pay-off to the point, set up the dispensing valve on the locating plate.

7. The polycrystalline wool making machine texturing cylinder assembly equipment according to claim 6, wherein the filter cover rotating assembly comprises a turnover base, a turnover support column, a driving motor six, a driving positioning plate six and a pushing cylinder two; the overturning support column is installed at one end of the overturning base, the driving positioning plate six is rotatably connected to the overturning support column, the driving motor six is fixed to the bottom of the driving positioning plate six, one end of the pushing cylinder two is connected with the overturning base, and the other end of the pushing cylinder two is connected with the driving positioning plate six.

8. The polycrystalline fleece machine cylinder assembly apparatus of claim 1, wherein the cylinder internal packaging mechanism comprises an internal nonwoven moving device, an internal rotating device, a second nonwoven assembly support frame, a second nonwoven feeding device and a second nonwoven cutting device; the inner non-woven fabric moving device is arranged on the working plate, the inner rotating device is arranged on the inner non-woven fabric moving device, the non-woven fabric assembly support frame II is arranged on the working plate, the non-woven fabric feeding device is arranged at the upper end of the non-woven fabric assembly support frame II, and the non-woven fabric cutting device II is arranged in the middle of the non-woven fabric assembly support frame II; the internal non-woven fabric moving device comprises an internal non-woven fabric support frame, an internal non-woven fabric support plate, a rodless cylinder, two linear sliding grooves and a long moving bottom plate; the inside non-woven fabrics backup pad is installed on inside non-woven fabrics support frame, two the straight line spout is fixed in both ends around the inside non-woven fabrics backup pad respectively, rodless cylinder is installed in the middle part of inside non-woven fabrics backup pad, long moving bottom plate passes through the straight line slider and the straight line spout sliding connection of bottom, long moving bottom plate is connected to rodless cylinder's output.

9. The polycrystalline wool making machine wool making roller assembly equipment according to claim 1, wherein the blowing device comprises a driving motor nine, a driving positioning plate nine, a rubber roller, a heating air box, an air box baffle plate and an air box supporting plate; the air box supporting plate is installed on the working plate, the heating air box is installed on the top end of the air box supporting plate, the air box baffle is installed at an air outlet of the heating air box, the driving motor nine is fixed to one side of the roller conveying line through the driving positioning plate nine, and the rubber roller is fixed to an output shaft of the driving motor nine.

10. The polycrystalline wool making machine wool making roller assembly equipment according to claim 1, wherein the labeling device comprises a labeling support frame, a labeling machine bottom plate, a chromium plating rod, a labeling machine and a telescopic cylinder III; the labeling machine is characterized in that the labeling support frame is installed on the working plate, the labeling machine bottom plate is installed on the labeling support frame, the labeling machine is installed on the rubberizing machine bottom plate, the chromium plating rod is installed above the labeling machine bottom plate, one end of the telescopic cylinder III is installed at the top end of the labeling support frame, and the other end of the telescopic cylinder III is connected with the labeling machine bottom plate.

Technical Field

The invention relates to the field of automatic assembly, in particular to a texturing roller assembly device of a polycrystalline texturing machine.

Background

The texturing roller is a commonly used roller device, is used for driving polycrystalline silicon sheets in a texturing machine by a specified stroke and a specified force, is widely applied to the field of manufacturing of solar battery sheets, is increasingly demanded under the conditions that the precision degree of the polycrystalline texturing machine is higher and higher along with the high-speed development of the polycrystalline silicon sheet industry at present, and the light storage conversion rate of the polycrystalline silicon sheets is higher and higher, is mainly assembled by various parts, and needs to be covered by a plastic film to ensure that the texturing roller is not polluted after the assembly is finished, at the present stage, a production workshop mainly depends on manually assembling various parts of the texturing roller together according to a certain sequence, but the force during manual assembly is not easy to master consistently, so that the assembly of various parts is not in place, the assembly quality and the assembly efficiency are directly influenced, and the texturing roller is easily polluted by manual assembly, so that the silicon sheets rotate on the roller during use, the silicon wafer is polluted, so that the conversion rate of the silicon wafer is low, and therefore, the prior art has defects and needs to be improved.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides a texturing roller assembly device of a polycrystalline texturing machine to solve the problems.

The invention provides technical documentation, in particular to texturing roller assembling equipment of a polycrystalline texturing machine, which comprises a working plate, an automatic feeding mechanism, a roller conveying line, a non-woven fabric assembling device, an automatic filter screen sleeving device, a roller cover feeding assembling device, a heat shrinkable film assembling mechanism, a roller internal packaging mechanism, a blowing device and a labeling device, wherein the working plate is arranged on the working plate; the automatic feeding mechanism is arranged on one side of the roller conveying line, the non-woven fabric assembling device, the automatic filter screen sleeving device, the roller cover feeding assembling device, the thermal shrinkage film assembling mechanism, the blowing device and the labeling device are sequentially arranged above the roller conveying line from right to left, and the roller internal packaging mechanism is arranged on the rear side of the automatic filter screen sleeving device.

Preferably, the automatic feeding mechanism comprises a feeding mounting base, a first driving motor, a roller feeding hopper, a blanking hopper, a sliding cutter plate, a first driving positioning plate, a material ejecting swing arm and a material ejecting connecting rod; the feeding mounting base is vertically mounted on the working plate, the first driving motor is mounted at the lower end of the feeding mounting base through the first driving positioning plate, the sliding knife plate is connected in a sliding groove of the rear wall of the feeding mounting base in a sliding mode, the roller feeding hopper is mounted on the rear wall of the upper end of the feeding mounting base, the blanking hopper is mounted on the front wall of the upper end of the feeding mounting base, the ejection swing arm is mounted at the output end of the first driving motor, one end of the ejection connecting rod is connected with the sliding knife plate, and the other end of the ejection connecting rod is connected with the ejection swing arm.

Preferably, the roller conveying line comprises a second driving motor, a second filtering supporting bottom plate, a second driving positioning plate, a plurality of conveying supporting plates, a conveying track, a track supporting plate, a roller supporting plate and a plurality of roller shifting assemblies; the utility model discloses a filter support plate, including filter support plate, driving motor two, drive locating plate two, filter support plate, track backup pad, conveying track, cylinder backup pad, drive motor two is fixed in the middle part of filtering backup pad upper surface through drive locating plate two, set up a plurality of transport backup pads on the filter support plate, the track backup pad is installed in the transport backup pad, the conveying track is installed in the track backup pad, the cylinder backup pad is installed in conveying orbital top, just evenly set up a plurality of cylinder draw-in grooves in the cylinder backup pad, the cylinder is stirred the subassembly and is installed in one side of cylinder draw-in groove in proper order, driving motor's output links firmly the drive wheel, the drive wheel is stirred the subassembly transmission through hold-in range and cylinder and is connected.

Preferably, the non-woven fabric assembling device comprises a non-woven fabric feeding device I, a non-woven fabric cutting device I, a non-woven fabric assembling support frame I, a left roller rotating assembly, a right roller rotating assembly, a transmission synchronizing shaft and a driving motor III; the non-woven fabric assembly support frame I is arranged on the working plate, the left roller rotating assembly and the right roller rotating assembly are respectively arranged on the left side and the right side of the non-woven fabric assembly support frame I, the driving motor tee is arranged on one side of the right roller rotating assembly through the driving positioning plate tee, the transmission synchronizing shaft sequentially penetrates through the left roller rotating assembly and the right roller rotating assembly to be connected with an output shaft of the driving motor tee, the non-woven fabric cutting device I is arranged in the middle of the non-woven fabric assembly support frame I, and the non-woven fabric feeding device I is arranged at the top end of the non-woven fabric assembly support frame I; the left roller rotating assembly comprises a left rotating support frame, a left lower synchronous wheel, a left upper synchronous wheel, a left synchronous belt, a first jacking positioning plate, a first jacking cylinder, a rotating support shaft, a telescopic sleeve and a rotating joint; the left lower synchronizing wheel is sleeved at the left end of the transmission synchronizing shaft, the first jacking positioning plate is installed at one side of the left rotary supporting frame, the first jacking cylinder is installed at one end of the first jacking positioning plate, the rotary supporting shaft is installed at the upper end of the left rotary supporting frame, one end of the rotary supporting shaft is connected with the output end of the first jacking cylinder, the telescopic sleeve is sleeved on the rotary supporting shaft, the upper left synchronizing wheel is sleeved on the telescopic sleeve, the upper left synchronizing wheel is sleeved with the lower left synchronizing wheel through the synchronous belt, the rotary joint is installed at one end of the rotary supporting shaft, and the right rotary drum assembly is identical to the left rotary drum assembly in structure.

Preferably, the automatic filter screen sleeving device comprises a clamping jaw stretching assembly component, a net dragon clamping device and an ejection lifting device; the net dragon clamping device is arranged on the working plate, the ejection lifting device is arranged on one side of the net dragon clamping device, and the clamping jaw stretching assembly component is arranged above the net dragon clamping device; the ejection lifting device comprises a telescopic cylinder I, a jacking cylinder II, a jacking positioning plate II, an ejection lifting frame, a telescopic positioning plate I and an ejection cylinder chuck; the jacking device comprises a jacking cylinder I, a jacking cylinder II, a telescopic positioning plate I, a telescopic cylinder I, a jacking lifting frame II, a jacking positioning plate II, a jacking cylinder II, a telescopic cylinder I, a telescopic positioning plate II, a jacking cylinder chuck and a jacking cylinder clamping head, wherein the jacking lifting frame is arranged on a working plate, the jacking positioning plate II is arranged on the jacking lifting frame, the jacking cylinder II is vertically arranged on the jacking positioning plate II, the telescopic positioning plate I is arranged at the output end of the jacking cylinder II, the telescopic cylinder I is horizontally arranged on the telescopic positioning plate I, and the jacking cylinder chuck is arranged at the output end of the telescopic cylinder I. The net dragon clamping device comprises a third jacking positioning plate, a third jacking air cylinder, a clamping supporting tube, a net dragon lower clamping block, a first lower pressing air cylinder, a first lower pressing positioning plate, a net dragon upper clamping block, a plurality of sliding rods and a lower jacking cutting assembly; the clamping support tube is mounted on the working plate, the third jacking positioning plate is mounted on the clamping support tube, the third jacking air cylinder is mounted at the bottom end of the third jacking positioning plate, supporting vertical plates are arranged at the left end and the right end of the third jacking positioning plate, the first downward pressing positioning plate is mounted at the top end of the supporting vertical plate, the first downward pressing air cylinder is vertically fixed on the first downward pressing positioning plate, the upper end and the lower end of the slide rod are respectively fixed on the first downward pressing positioning plate and the third jacking supporting plate, the lower net dragon clamping block and the upper net dragon clamping block are both sleeved on the slide rod, the output end of the third jacking air cylinder is fixedly connected with the upper net dragon clamping block, and the output end of the first downward pressing air cylinder is fixedly connected with the upper net dragon clamping block; the lower top cutting assembly comprises a fourth jacking cylinder, a fourth jacking positioning plate and a cutting net keel plate; the fourth jacking positioning plate is installed in the middle of the third jacking positioning plate, the fourth jacking cylinder is vertically installed on the fourth jacking positioning plate, and the cut-off net keel plate is installed at the output end of the fourth jacking cylinder.

Preferably, the roller cover feeding and assembling device comprises a left roller feeding device and a right roller feeding device; the right roller feeding device and the left roller feeding device have the same structure, and are respectively arranged on the front side and the rear side of the roller conveying line; the left roller feeding device comprises a transverse moving assembly, a filter cover rotating assembly, a filter cover feeding assembly and a filter cover mounting frame; the filter cover mounting frame is arranged on the working plate, the filter cover feeding assembly is arranged at the top end of the filter cover feeding frame, the filter cover rotating assembly is arranged at one end of the filter cover feeding assembly, and the transverse moving assembly is arranged below the filter cover rotating assembly; the filter cover feeding assembly comprises a filter cover feeding track, a first pushing cylinder, a filter cover pushing block, a filter cover arranging assembly body, a fifth driving motor, a fifth driving positioning plate, a glue dispensing rotating disc and a glue dispensing positioning plate; filter lid pay-off rail mounted on the top of filter lid mounting bracket, the one end in filter lid pay-off rail is installed to promotion cylinder one, the output in promotion cylinder one is installed to the filter lid ejector pad, filter lid range assembly body is installed in the orbital upper end of filter lid pay-off, the orbital one end of filter lid pay-off sets up the point and glues the through-hole, in the through-hole is glued in the point embedding rolling disc, driving motor five is fixed in the bottom of filter lid pay-off rail one end through driving locating plate five, driving motor five's output shaft links firmly with the bottom of point gluey rolling disc, the locating plate is installed in the orbital one side of filter lid pay-off to the point, set up the dispensing valve on the locating plate.

Preferably, the filter cover rotating assembly comprises an overturning base, an overturning supporting column, a driving motor six, a driving positioning plate six and a pushing cylinder two; the overturning support column is installed at one end of the overturning base, the driving positioning plate six is rotatably connected to the overturning support column, the driving motor six is fixed to the bottom of the driving positioning plate six, one end of the pushing cylinder two is connected with the overturning base, and the other end of the pushing cylinder two is connected with the driving positioning plate six.

Preferably, the roller internal packaging mechanism comprises an internal non-woven fabric moving device, an internal rotating device, a non-woven fabric assembly support frame II, a non-woven fabric feeding device II and a non-woven fabric cutting device II; the inner non-woven fabric moving device is arranged on the working plate, the inner rotating device is arranged on the inner non-woven fabric moving device, the non-woven fabric assembly support frame II is arranged on the working plate, the non-woven fabric feeding device is arranged at the upper end of the non-woven fabric assembly support frame II, and the non-woven fabric cutting device II is arranged in the middle of the non-woven fabric assembly support frame II; the internal non-woven fabric moving device comprises an internal non-woven fabric support frame, an internal non-woven fabric support plate, a rodless cylinder, two linear sliding grooves and a long moving bottom plate; the inside non-woven fabrics backup pad is installed on inside non-woven fabrics support frame, two the straight line spout is fixed in both ends around the inside non-woven fabrics backup pad respectively, rodless cylinder is installed in the middle part of inside non-woven fabrics backup pad, long moving bottom plate passes through the straight line slider and the straight line spout sliding connection of bottom, long moving bottom plate is connected to rodless cylinder's output.

Preferably, the blowing device comprises a driving motor nine, a driving positioning plate nine, a rubber roller, a heating air box, an air box baffle and an air box supporting plate; the air box supporting plate is installed on the working plate, the heating air box is installed on the top end of the air box supporting plate, the air box baffle is installed at an air outlet of the heating air box, the driving motor nine is fixed to one side of the roller conveying line through the driving positioning plate nine, and the rubber roller is fixed to an output shaft of the driving motor nine.

Preferably, the labeling device comprises a labeling support frame, a labeling machine bottom plate, a chromium plating rod, a labeling machine and a telescopic cylinder III; the labeling machine is characterized in that the labeling support frame is installed on the working plate, the labeling machine bottom plate is installed on the labeling support frame, the labeling machine is installed on the rubberizing machine bottom plate, the chromium plating rod is installed above the labeling machine bottom plate, one end of the telescopic cylinder III is installed at the top end of the labeling support frame, and the other end of the telescopic cylinder III is connected with the labeling machine bottom plate.

Compared with the prior art, the automatic feeding device has the advantages that the automatic feeding device is used for feeding a roller conveying line, the driving motor II on the roller conveying line drives the roller to stir the component to enable the roller to move forwards on the roller supporting plate, then the non-woven fabric feeding device I on the non-woven fabric assembling device is used for feeding the roller, the non-woven fabric is cut off by the non-woven fabric cutting device I, the cut non-woven fabric is driven by the driving motor III to drive the transmission synchronizing shaft to rotate, the non-woven fabric is wound on the roller by the left roller rotating component and the right roller rotating component and then is sent to the automatic filter screen sleeving device for filter screen sleeving, after the filter screen sleeving is finished, the roller conveying line continuously sends the roller to the roller, the feeding assembling device is used for feeding, the roller cover is assembled and combined with the roller, and then the filter cover is screwed with the roller by the filter cover rotating component, then, packaging the interior of the roller, blowing air to the roller through a heating air box on an air blowing device after the packaging is finished, and labeling the roller through a labeling machine on a labeling device after the air drying is finished; the automatic liquid leakage control device has high automation degree, can greatly save labor, greatly improves the possibility of liquid leakage when the roller rotates in the texturing machine, greatly improves the qualified pair of silicon wafers, improves the conversion rate of the silicon wafers to sunlight, and has 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 automatic feeding mechanism of the present invention;

FIG. 3 is a schematic view of a roller conveyor line structure according to the present invention;

FIG. 4 is a schematic view of a nonwoven fabric mounting apparatus according to the present invention;

FIG. 5 is a schematic view of an automatic screen sleeving apparatus according to the present invention;

FIG. 6 is a schematic structural view of a left roller feeding device according to the present invention;

FIG. 7 is a schematic view of a blower according to the present invention;

FIG. 8 is a schematic view of the labeling device according to the present invention;

FIG. 9 is a schematic view of the internal packaging mechanism of the roller of the present invention;

a work plate 1; an automatic feeding mechanism 2; a roller conveyor line 3; a non-woven fabric assembling device 4; a filter screen device 5 is automatically sleeved; a roller cover feeding assembly device 6; a heat shrinkable film assembling mechanism 7; a drum interior packaging mechanism 8; a blowing device 9; a labeling device 10; a feeding mounting base 21; a first driving motor 22; a drum hopper 23; a drop hopper 24; a sliding blade plate 25; a topping connecting rod 26; a second driving motor 31; a filter support floor 32; a conveyance support plate 33; the conveying rail 34; a drum supporting plate 35; the rotating shaft 36 is shifted; a toggle block 37; deep groove ball bearings 38; a third driving motor 41; the transmission synchronizing shaft 42; a non-woven fabric assembly support frame I43; a right drum rotating assembly 44; a first jacking cylinder 45; left rotating support frame 46; the positioning plate 47 is pressed down; a down-pressure cylinder 48; a hot wire plate 49; a non-woven fabric support bar 410; a nonwoven fabric wheel 411; a telescopic cylinder I51; a second jacking cylinder 52; the lifting frame 53 is ejected; a first telescopic positioning plate 54; a knockout cylinder chuck 55; driving motor four 56; driving the positioning plate four 57; stretching the fixed plate 58; a ball screw 59; a nut holder fixing block 510; the air claw fixing plate 511; a finger cylinder 512; a clamping support tube 513; a first air cylinder 514 is pressed; lifting a third positioning plate 515; a filter cover feeding rail 61; a first pushing cylinder 62; a filter cap arrangement assembly 63; driving motor five 64; dispensing positioning plate 65; transversely moving the positioning plate 66; a second telescopic cylinder 67; a traverse slide shaft 68; the push plate 69 is moved laterally; driving a positioning plate six 610; a drive motor nine 91; nine 92 driving positioning plates; a rubber roller 93; a heating air box 94; bellows baffles 95; the bellows support plate 96; labeling the supporting frame 101; a labeler base plate 102; a chrome plated rod 103; a labeling machine 104; a telescopic cylinder III 105; an inner nonwoven fabric support frame 81; an inner nonwoven fabric support plate 82; a rodless cylinder 83; a long moving bottom plate 84; an inner rotating support 85; a drive motor seven 86; a seventh driving positioning plate 87; driving a motor eight 88; driving the positioning plate eight 89; the rotating head 810 is lengthened.

Detailed Description

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, 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 an understanding of the invention, the invention is described in more detail below with reference to the accompanying drawings and specific examples. Preferred embodiments of the present invention are shown in the drawings. This 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: a polycrystal texturing machine texturing roller assembly device comprises a working plate 1, an automatic feeding mechanism 2, a roller conveying line 3, a non-woven fabric assembly device 4, an automatic filter screen sleeving device 5, a roller cover feeding assembly device 6, a heat shrinkable film assembly mechanism 7, a roller inner packaging mechanism 8, a blowing device 9 and a labeling device 10; the roller conveying line 3 is installed in the middle of the working plate 1, the automatic feeding mechanism 2 is installed on one side of the roller conveying line 3, the non-woven fabric assembling device 4, the automatic filter screen sleeving device 5, the roller cover feeding and assembling device 6, the thermal shrinkage film assembling mechanism 7, the blowing device 9 and the labeling device 10 are sequentially installed above the roller conveying line 3 from right to left, and the roller internal packaging mechanism 8 is installed on the rear side of the automatic filter screen sleeving device 5.

Further, the heat shrinkable film assembling mechanism 7 is the same as the structure of the nonwoven fabric assembling device 4.

As shown in fig. 2, in embodiment 2, based on embodiment 1, the automatic feeding mechanism 2 includes a feeding mounting base 21, a first driving motor 22, a roller feeding hopper 23, a blanking hopper 24, a sliding knife plate 25, a first driving positioning plate, a first ejecting swing arm, and an ejecting connecting rod 26; pay-off mounting base 21 is installed perpendicularly on working plate 1, driving motor one 22 is installed in pay-off mounting base 21's lower extreme through drive locating plate one, broach board 25 sliding connection is in the spout of pay-off mounting base 21 back wall, cylinder feeder hopper 23 is installed in the back wall of pay-off mounting base 21 upper end, blanking fill 24 is installed in the antetheca of pay-off mounting base 21 upper end, the liftout swing arm is installed to driving motor one 22's output, the one end and the broach board 25 of liftout connecting rod 26 are connected, and the other end is connected with the liftout swing arm.

Embodiment 3 on the basis of embodiment 1, the roller conveyor line 3 includes a second driving motor 31, a second filtering supporting bottom plate 32, a second driving positioning plate, a plurality of conveying supporting plates 33, a conveying track 34, a track supporting plate, a roller supporting plate 35, and a plurality of roller shifting assemblies; the utility model discloses a filter support plate, including filter support plate 32, drive motor two 31, drive locating plate two, filter support plate 32, track backup pad 33, track backup pad is installed on track backup pad 33, track 34 is installed in track backup pad, roll backup pad 35 is installed on the top of track 34, just evenly set up a plurality of cylinder draw-in grooves on the roll backup pad 35, the subassembly is stirred to the cylinder and is installed in one side of cylinder draw-in groove in proper order, drive motor's output links firmly the drive wheel, the drive wheel is stirred the subassembly transmission through hold-in range and cylinder and is connected.

Further, the roller toggle assembly comprises a toggle rotating shaft 36, a toggle block 37, a rotating shaft and a deep groove ball bearing 38; the poking rotating shaft 36 is rotatably installed in the roller supporting plate 35, the two ends of the poking rotating shaft 36 are respectively sleeved with a poking ring, the poking block 37 is installed on the poking rotating shaft 36, the rotating shaft is installed on the poking block 37, the two ends of the rotating shaft are rotatably sleeved with the deep groove ball bearings 38, and one end of the poking rotating shaft 36 is fixedly connected with the driven wheel.

Embodiment 4 on the basis of embodiment 1, the non-woven fabric assembling device 4 comprises a non-woven fabric feeding device i, a non-woven fabric cutting device i, a non-woven fabric assembling support frame i 43, a left roller rotating assembly, a right roller rotating assembly 44, a transmission synchronizing shaft 42 and a driving motor iii 41; the non-woven fabric assembly support frame I43 is arranged on the working plate 1, the left roller rotating assembly and the right roller rotating assembly 44 are respectively arranged on the left side and the right side of the non-woven fabric assembly support frame I43, the driving motor III 41 is arranged on one side of the right roller rotating assembly 44 through the driving positioning plate III, the transmission synchronizing shaft 42 sequentially penetrates through the left roller rotating assembly and the right roller rotating assembly 44 to be connected with an output shaft of the driving motor III 41, the non-woven fabric cutting device I is arranged in the middle of the non-woven fabric assembly support frame I43, and the non-woven fabric feeding device I is arranged at the top end of the non-woven fabric assembly support frame I43; the left roller rotating assembly comprises a left rotating support frame 46, a left lower synchronous wheel, a left upper synchronous wheel, a left synchronous belt, a first jacking positioning plate, a first jacking air cylinder 45, a rotating support shaft, a telescopic sleeve and a rotating joint; the left end at transmission synchronizing shaft 42 is cup jointed to lower left synchronizing wheel, one side in left rotation support frame 46 is installed to jacking locating plate one, one 45 one ends in jacking locating plate are installed to jacking cylinder, the swivel support shaft is installed in left rotation support frame 46's upper end, just the one end of swivel support shaft is connected with the output of jacking cylinder 45, flexible cover cup joints on the swivel support shaft, upper left synchronizing wheel cup joints on the flexible cover, cup joint through the hold-in range between upper left synchronizing wheel and the lower left synchronizing wheel, rotary joint installs the one end in the swivel support shaft, right side cylinder rotating assembly 44 is the same with left cylinder rotating assembly structure.

Embodiment 5 on the basis of embodiment 1, the automatic filter screen sleeving device 5 comprises a clamping jaw stretching assembly component, a net dragon clamping device and an ejection lifting device; the net dragon clamping device is arranged on the working plate 1, the ejection lifting device is arranged on one side of the net dragon clamping device, and the clamping jaw stretching assembly component is arranged above the net dragon clamping device; the ejection lifting device comprises a telescopic cylinder I51, a jacking cylinder II 52, a jacking positioning plate II, an ejection lifting frame 53, a telescopic positioning plate I54 and an ejection cylinder chuck 55; the ejection lifting frame 53 is installed on the working plate 1, the second jacking positioning plate is installed on the ejection lifting frame 53, the second jacking air cylinder 52 is vertically installed on the second jacking positioning plate, the first telescopic positioning plate 54 is installed at the output end of the second jacking air cylinder 52, the first telescopic air cylinder 51 is horizontally installed on the first telescopic positioning plate 54, and the ejection air cylinder chuck 55 is installed at the output end of the first telescopic air cylinder 51.

Embodiment 6 on the basis of embodiment 1, the roller cover feeding and assembling device 6 comprises a left roller feeding device and a right roller feeding device; the right roller feeding device and the left roller feeding device have the same structure, and are respectively arranged on the front side and the rear side of the roller conveying line 3; the left roller feeding device comprises a transverse moving assembly, a filter cover rotating assembly, a filter cover feeding assembly and a filter cover mounting frame; the filter cover mounting frame is arranged on the working plate 1, the filter cover feeding assembly is arranged at the top end of the filter cover feeding frame, the filter cover rotating assembly is arranged at one end of the filter cover feeding assembly, and the transverse moving assembly is arranged below the filter cover rotating assembly; the filter cover feeding assembly comprises a filter cover feeding rail 61, a first pushing cylinder 62, a filter cover pushing block, a filter cover arranging assembly body 63, a fifth driving motor 64, a fifth driving positioning plate, a glue dispensing rotating disc and a glue dispensing positioning plate 65; filter lid pay-off track 61 and install in the top of straining the lid mounting bracket, the one end in filter lid pay-off track 61 is installed to a promotion cylinder 62, strain the lid ejector pad and install in the output of a promotion cylinder 62, strain the lid and arrange assembly body 63 and install in the upper end of filter lid pay-off track 61, the one end of filter lid pay-off track 61 sets up some glue through-holes, in the through-holes are glued in the point embedding rolling disc, five 64 driving motor are fixed in the bottom of filter lid pay-off track 61 one end through five drive positioning plate, five 64 driving motor's output shaft links firmly with the bottom of gluing the rolling disc, the locating plate 65 is installed in one side of filter lid pay-off track 61 to the point, set up the dispensing valve on the locating plate 65 is glued to the point.

Embodiment 7 is based on embodiment 1, the filter cover rotating assembly includes an overturning base, an overturning support column, a driving motor six, a driving positioning plate six 610, and a pushing cylinder two; the upset support column is installed in the one end of upset base, six 610 rotation connections of drive locating plate are on the upset support column, six driving motor are fixed in the bottom of six 610 of drive locating plate, the one end and the upset base of promotion cylinder two are connected, and the other end is connected with six 610 of drive locating plate.

Embodiment 8 on the basis of embodiment 1, the roller internal packaging mechanism 8 includes an internal nonwoven fabric moving device, an internal rotating device, a second nonwoven fabric assembly support frame, a second nonwoven fabric feeding device and a second nonwoven fabric cutting device; the inner non-woven fabric moving device is arranged on the working plate 1, the inner rotating device is arranged on the inner non-woven fabric moving device, the non-woven fabric assembly support frame II is arranged on the working plate 1, the non-woven fabric feeding device is arranged at the upper end of the non-woven fabric assembly support frame II, and the non-woven fabric cutting device II is arranged in the middle of the non-woven fabric assembly support frame II; the internal non-woven fabric moving device comprises an internal non-woven fabric support frame 81, an internal non-woven fabric support plate 82, a rodless cylinder 83, two linear sliding grooves and a long moving bottom plate 84; the inner non-woven fabric support plate 82 is mounted on the inner non-woven fabric support frame 81, the two linear sliding grooves are respectively fixed at the front end and the rear end of the inner non-woven fabric support plate 82, the rodless cylinder 83 is mounted in the middle of the inner non-woven fabric support plate 82, the long moving bottom plate 84 is connected with the linear sliding grooves in a sliding mode through the linear sliding blocks at the bottom, and the output end of the rodless cylinder 83 is connected with the long moving bottom plate 84.

Embodiment 9 on the basis of embodiment 1, the blowing device 9 includes a driving motor nine 91, a driving positioning plate nine 92, a rubber roller 93, a heating air box 94, an air box baffle 95 and an air box supporting plate 96; bellows backup pad 96 is installed on working plate 1, heating bellows 94 is installed on the top of bellows backup pad 96, bellows baffle 95 is installed in the air outlet department of heating bellows 94, nine 91 driving motor are fixed in one side of cylinder transfer chain 3 through nine 92 drive locating plates, rubber running roller 93 is fixed in on nine 91 driving motor's the output shaft.

Embodiment 10 on the basis of embodiment 1, the labeling device 10 includes a labeling support frame 101, a bottom plate 102 of a labeling machine 104, a chrome-plated rod 103, a labeling machine 104 and a telescopic cylinder three 105; the labeling support frame 101 is installed on the working plate 1, the bottom plate 102 of the labeling machine 104 is installed on the labeling support frame 101, the labeling machine 104 is installed on the bottom plate of the adhesive tape sticking machine, the chromium plating rod 103 is installed above the bottom plate 102 of the labeling machine 104, one end of the telescopic cylinder III 105 is installed at the top end of the labeling support frame 101, and the other end of the telescopic cylinder III is connected with the bottom plate 102 of the labeling machine 104.

Further, the non-woven fabric cutting device comprises a lower pressure positioning plate 47, a lower pressure air cylinder 48 and a hot wire plate 49; the lower pressure positioning plate 47 is arranged on the non-woven fabric assembly support frame I43, the lower pressure air cylinder 48 is vertically arranged on the lower pressure positioning plate 47, and the hot wire plate 49 is arranged at the output end of the lower pressure air cylinder 48.

Further, the first non-woven fabric feeding device comprises a non-woven fabric unreeling bottom plate, a non-woven fabric supporting rod 410, a non-woven fabric rotating wheel 411 and a non-woven fabric guide roller set; the non-woven fabrics unreels the top of bottom plate installation in non-woven fabrics assembly support frame 43, non-woven fabrics bracing piece 410 is installed on the non-woven fabrics unreels the bottom plate, non-woven fabrics runner 411 cup joints on non-woven fabrics bracing piece 410, non-woven fabrics direction roller group installs in the middle part of non-woven fabrics assembly support frame 43.

Further, the clamping jaw stretching assembly component comprises a driving motor four 56, a driving positioning plate four 57, a stretching fixing plate 58, a ball screw 59, a screw nut seat, a nut seat fixing block 510, an air jaw fixing plate 511 and two finger cylinders 512; the fourth driving positioning device is arranged at the top end of the stretching fixing plate 58, the fourth driving motor 56 is fixed on the fourth driving fixing plate, the ball screw 59 is rotatably connected to the bottom end of the stretching fixing plate 58, the screw nut seat is sleeved on the ball screw 59, the nut seat fixing block 510 is sleeved on the screw nut seat, a sliding seat at the top end of the nut seat fixing block 510 is in sliding connection with a sliding rail on the stretching fixing plate 58, the pneumatic claw fixing plate 511 is vertically fixed on the nut seat fixing block 510, and the finger cylinder 512 is fixed on the pneumatic claw fixing plate 511.

Further, the transverse moving assembly comprises a transverse moving positioning plate 66, a telescopic cylinder II 67, two transverse moving sliding shafts 68 and a transverse moving pushing plate 69; the transverse moving positioning plate 66 is arranged on one side of the filter cover mounting frame, the telescopic cylinder II 67 is arranged on the transverse moving positioning plate 66, the two transverse moving sliding shafts 68 are arranged on the transverse moving positioning plate 66 through T-shaped clamping seats, the transverse moving pushing plate 69 is sleeved on the transverse moving sliding shafts 68, the output shaft of the telescopic cylinder II 67 is connected with the transverse moving pushing plate 69, and the overturning base is fixedly connected with the transverse moving pushing plate 69.

Further, the internal rotating device comprises an internal rotating support frame 85, a drive motor seven 86, a drive positioning plate seven 87, an internal synchronizing shaft, a drive motor eight 88, a drive positioning plate eight 89, an internal support shaft, an internal telescopic sleeve and an extension rotating head 810. (ii) a Inside rotating support frame 85 is installed in the left end of long moving bottom plate 84, drive locating plate seven 87 is installed in the right-hand member of long moving bottom plate 84, seven 86 of driving motor are installed on seven 87 of drive locating plate, the lower extreme of drive support frame is rotated and is connected inside synchronizing shaft cup joint inside lower inside synchronizing wheel on the inside synchronizing shaft, eight 88 of driving motor are fixed in the upper end of inside rotating support frame 85 through eight 89 of drive locating plate, inside back shaft runs through inside rotating support frame 85 and is connected with eight 88 of driving motor's output, inside telescope tube cup joints on inside back shaft, inside synchronizing wheel is cup jointed on inside telescope tube, go up inside synchronizing wheel and cup joint through the hold-in range down between the inside synchronizing wheel, extension rotating head 810. Fixedly connected with one end of the inner supporting shaft.

Further, the net dragon clamping device comprises a third jacking positioning plate 515, a third jacking cylinder, a third clamping support tube 513, a lower net dragon clamping block, a first lower pressing cylinder 48, a first lower pressing positioning plate 47, an upper net dragon clamping block, a plurality of slide rods and a lower jacking cutting assembly; the clamping support tube 513 is mounted on the working plate 1, the third jacking positioning plate 515 is mounted on the clamping support tube 513, the third jacking cylinder is mounted at the bottom end of the third jacking positioning plate 515, supporting vertical plates are arranged at the left end and the right end of the third jacking positioning plate 515, the first lower pressing positioning plate 47 is mounted at the top end of the supporting vertical plate, the first lower pressing cylinder 48 is vertically fixed on the first lower pressing positioning plate 47, the upper end and the lower end of a sliding rod are respectively fixed on the first lower pressing positioning plate 47 and the third jacking supporting plate, the lower net dragon clamping block and the upper net dragon clamping block are sleeved on the sliding rod, the output end of the third jacking cylinder is fixedly connected with the upper net dragon clamping block, and the output end of the first lower pressing cylinder 48 is fixedly connected with the upper net dragon clamping block; the lower top cutting assembly comprises a fourth jacking cylinder, a fourth jacking positioning plate and a cutting net keel plate; the fourth jacking positioning plate is arranged in the middle of the third jacking positioning plate 515, the fourth jacking cylinder is vertically arranged on the fourth jacking positioning plate, and the cutting net keel plate is arranged at the output end of the fourth jacking cylinder.

As shown in fig. 2-9, the working principle of the present invention is:

the technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, 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.