CN114682430A

CN114682430A - Multi-tube type filter element tube wall gluing equipment

Info

Publication number: CN114682430A
Application number: CN202210370597.3A
Authority: CN
Inventors: 王彦群
Original assignee: Individual
Current assignee: Zhejiang Baisheng Water Industrial Equipment Co ltd
Priority date: 2022-04-10
Filing date: 2022-04-10
Publication date: 2022-07-01
Anticipated expiration: 2042-04-10
Also published as: CN114682430B

Abstract

The invention relates to a gluing device for the tube wall of a multi-tube filter element, which comprises a first support frame, a second support frame, a fixed frame, a first guide plate, a second guide plate, a mounting frame and the like; the right side of the first support frame is provided with a second support frame, the top of the first support frame and the top of the second support frame are fixedly connected with a fixed frame, the top of the fixed frame is fixedly connected with a first guide plate, the top right front of the fixed frame is fixedly connected with a second guide plate, and the right side of the second support frame is provided with a mounting frame. The glue brushing roller can be tightly adhered to the outer wall of the pipeline of the multi-pipe filter element under the action of the rotating adhering mechanism, so that the gluing quality can be ensured.

Description

Multi-tube type filter element tube wall gluing equipment

Technical Field

The invention relates to the field of filter element manufacturing, in particular to a multi-tube type filter element tube wall gluing device.

Background

The multitube filter core needs to carry out the rubber coating to a plurality of pipe wall outsides of filter core before installing the vortex pipe and handles, and current rubber coating mode is mostly artifical rubber coating, and the workman holds the gluey rifle and is facing to the pipe wall outside spraying of filter core, rotates the filter core after having scribbled one and is next in the spraying, and all pipe walls are all scribbled gluey and are carried out installation next step again.

Artifical rubber coating uses gluey rifle direct spraying in the pipe wall outside, can make glue uneven distribution like this, then can lead to the cyclone tube to install insecurely when follow-up installation cyclone tube, glue still can spout the other positions of multi-tube filter core when the rubber coating, also relatively more troublesome in the follow-up clearance, artifical rubber coating efficiency ratio is lower, production speed is slower.

In order to solve the above problems, it is necessary to provide a multi-tube filter element tube wall gluing device capable of automatically and uniformly gluing and automatically rotating the filter element.

Disclosure of Invention

The invention aims to provide a gluing device for the tube wall of a multi-tube type filter element, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a multitube filter core pipe wall rubber coating equipment, including first support frame, the second support frame, fixed frame, first guide plate, the second guide plate, a mounting bracket, rubber coating mechanism and automatic rotary mechanism, first support frame right side is provided with a second support frame, fixed frame of first support frame and second support frame top fixedly connected with, first guide plate of top fixedly connected with of fixed frame, second guide plate of top right front fixedly connected with of fixed frame, second support frame right side is provided with a mounting bracket, rubber coating mechanism installs in the mounting bracket, rubber coating mechanism is used for giving the rubber coating of multitube filter core, automatic rotary mechanism installs in the mounting bracket, automatic rotary mechanism is used for rotating the multitube filter core.

In one embodiment, the glue coating mechanism comprises a first air cylinder, a sliding plate, a first rotating shaft, a rotating frame, guide posts, fixing rods, a fixing ring, a fixed glue storage barrel, connecting plates, a glue guide tube, a glue brushing roller, a second rotating shaft, a rotating glue storage barrel and a rotating clinging mechanism, wherein the first air cylinder is installed at the top of the mounting frame, the sliding plate is connected to the top of the mounting frame in a sliding manner, an output shaft of the first air cylinder is connected to the sliding plate, the first rotating shaft is connected to the rear end of the sliding plate in a rotating manner, the rotating frame is fixedly connected to the bottom of the first rotating shaft, the two guide posts are symmetrically and fixedly connected to the front and back of the outer wall of the rotating frame, the fixed glue storage barrel is installed in the rotating frame, the fixing rods are fixed to the left and right sides of the top of the mounting frame, the fixing rings are fixedly connected to the rear ends of the inner sides of the two fixing rods, and the annular array at the bottom of the rotating frame is provided with a plurality of connecting plates, the bottom ring array of fixed glue storage bucket is connected with a plurality of rubber pipes of leading, and every other end of leading the rubber pipe all connects at the top of a second axis of rotation, and the equal fixed connection in bottom of every second axis of rotation rotates inside the glue storage bucket, and every outside of rotating the glue storage bucket all installs a brush and glues the cylinder, all installs one between per two connecting plates and rotates and paste tight mechanism, rotates and pastes tight mechanism and be used for making the brush glue cylinder paste the outer wall of tight multitube filter core.

In one embodiment, the rotating and sticking mechanism comprises a first fixing plate, a guide rod, a first spring, a sliding block, a first connecting shaft, a torsional spring and a rotating block, wherein the first fixing plate is fixed at each end of each connecting plate, the guide rod is connected in each first fixing plate in a sliding manner, the sliding block is connected at each end of each connecting plate in a sliding manner, the sliding block is fixedly connected with the guide rod, the first spring is connected between each sliding block and the corresponding first fixing plate, the first connecting shaft is fixed on one side, away from the connecting plate, of each sliding block, the rotating block is connected between two first connecting shafts between every two connecting plates in a rotating manner, and the torsional spring is connected between each rotating block and the two sliding blocks on two sides.

In one embodiment, the automatic rotating mechanism comprises a ratchet wheel, a third rotating shaft, a first bevel gear and a second bevel gear, the carousel, first carriage, the pawl, second spring and first slide bar, the bottom of mounting bracket is rotated and is connected with a third axis of rotation, the front side of third axis of rotation is fixed with a ratchet, the rear end of third axis of rotation is fixed with a first helical gear, the mounting bracket internal rotation is connected with a carousel, connecting axle bottom fixedly connected with second helical gear at carousel middle part, first helical gear and the meshing of second helical gear, the antetheca right side below sliding connection of mounting bracket has a first carriage, the left end of first carriage articulates there is a pawl, be connected with a second spring between pawl and the first carriage, the bottom right front of sliding plate is fixed with a first slide bar, the bottom fixed connection of first slide bar is on first carriage.

In one embodiment, the rubber belt conveyor further comprises a first scraper and a rubber collecting box, wherein the first scraper is fixed on the outer side of each rotating block, and the rubber collecting box is fixed at the bottom of each first scraper.

In one embodiment, the glue storage barrel further comprises second scrapers, wherein two second scrapers are fixed at the bottom of each rotating block and are just positioned inside the rotating glue storage barrel.

In one embodiment, the device further comprises a third support frame, a second air cylinder, a second sliding frame and a rubber pad, wherein the third support frame is fixed on the left side of the first support frame, the second air cylinder is installed at the top of the third support frame, the second sliding frame is connected in the fixed frame in a sliding mode, an output shaft of the second air cylinder is connected to the second sliding frame, and the rubber pad is installed on the right wall of the second sliding frame.

In one embodiment, the sliding device further comprises a second fixing plate, a third spring, a second connecting shaft, a third sliding frame, sliding rails, sliding blocks and a fourth spring, wherein the two second fixing plates are symmetrically fixed on the top of the right wall of the first supporting frame front and back, the two sliding rails are symmetrically fixed between the second supporting frame and the mounting frame front and back, the third sliding frame is connected to the tops of the two sliding rails in a sliding mode, the second connecting shaft is fixed to the middle portion of the left wall of the third sliding frame, the third spring is connected between the third sliding frame and the two second fixing plates, the two sliding blocks are connected in a sliding mode in the center of the rotary table in a central symmetry mode, and the fourth spring is connected between each sliding block and the rotary table.

In one embodiment, the spring support further comprises a second sliding rod and a fifth spring, the second sliding rod is connected to the upper middle position of the mounting frame in a sliding mode, the fifth spring is connected between the second sliding rod and the mounting frame, and the fifth spring is sleeved on the second sliding rod.

In one embodiment, the device further comprises a first guide plate and a second guide plate, the first guide plate is installed on the inner rear wall of the fixing frame, and the second guide plate is installed on the inner front wall on the right side of the fixing frame.

Has the advantages that: 1. the glue brushing roller can be tightly adhered to the outer wall of the pipeline of the multi-pipe filter element under the action of the rotating adhering mechanism, so that the gluing quality can be ensured.

2. The gluing mechanism is matched with the automatic rotating mechanism, so that the multi-tube filter element can automatically rotate by a certain angle after glue is brushed, and a pipeline which is not brushed with glue is transferred to the lower part of the gluing mechanism, so that the gluing speed is increased.

3. When promoting the multitube filter core and getting into the carousel, the right wall mounting of second carriage has the rubber pad, and the rubber pad can avoid the filter core to receive the damage when promoting the multitube filter core.

4. Be provided with two sliders at the carousel both ends, two sliders can press from both sides the multitube filter core tightly at the carousel top, and the filter core removes when can avoiding the carousel to rotate, and the third carriage is mutually supported with two sliders, and when propelling movement a new multitube filter core, the third carriage can strut two sliders, ensures that the multitube filter core can get into in the carousel.

5. The surface friction coefficients of the first guide plate and the second guide plate are relatively large, the multi-tube filter element can be in contact with the first guide plate and the second guide plate when moving rightwards, and the position of the multi-tube filter element can be automatically adjusted by rotating under the action of the first guide plate and the second guide plate, so that one pipeline of the multi-tube filter element is just positioned under the gluing mechanism.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic partial three-dimensional structure of the gluing mechanism of the invention.

Fig. 3 is a schematic partial perspective view of the glue spreading mechanism of the present invention.

Fig. 4 is an enlarged view of the structure of the pawl of the present invention.

Fig. 5 is a schematic partial perspective view of the glue spreading mechanism of the present invention.

FIG. 6 is an enlarged view of the rotary tightening mechanism according to the present invention.

Fig. 7 is an exploded view of the structure of the glue brushing roller of the present invention.

Fig. 8 is a schematic perspective view of the second cylinder according to the present invention.

Fig. 9 is a schematic perspective view of a third carriage according to the present invention.

FIG. 10 is an enlarged view of the slider structure according to the present invention.

Labeled as: 1. a first support frame 101, a second support frame 102, a fixed frame 103, a first guide plate 104, a second guide plate 105, a third support frame 2, a mounting frame 201, a first cylinder 202, a sliding plate 203, a first rotating shaft 204, a rotating frame 2041, a guide post 205, a fixed rod 206, a fixed ring 207, a fixed glue storage barrel 208, a connecting plate 2081, a first fixed plate 2082, a guide rod 2083, a first spring 2084, a sliding block 2085, a first connecting shaft 2086, a torsion spring 209, a glue guide tube 210, a rotating block 211, a first scraper 212, a glue receiving box 213, a glue brushing roller 214, a second rotating shaft 215, a rotating glue storage barrel 216, a second scraper, 3, a ratchet wheel 301, a third rotating shaft 302, a first bevel gear 303, a second bevel gear 304, a ratchet wheel 305, a first sliding frame 306, a rotating disc 307, a pawl and a second spring, 308. the sliding device comprises a first sliding rod, a second air cylinder, a second sliding frame, a first rubber pad, a second fixing plate, a second spring, a second connecting shaft, a third sliding frame, a sliding rail, a sliding block, a fourth spring, a sliding rod, a sliding block 409, a fourth spring, a second sliding rod, a sliding rail, a fifth spring, a first guide plate, a second guide plate and a second guide plate, wherein the first sliding rod, the second air cylinder, the second sliding frame, the sliding rail, the sliding block, the second sliding rod, the sliding block, the second sliding rod, the sliding block, and the second guide plate are arranged in a same mode.

Detailed Description

The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention. The conditions in the embodiments can be further adjusted according to specific conditions, and simple modifications of the method of the present invention based on the concept of the present invention are within the scope of the claimed invention.

Example 1

A gluing device for the tube wall of a multi-tube filter element is disclosed, as shown in figures 1-10, and comprises a first support frame 1, a second support frame 101, a fixed frame 102, a first guide plate 103, a second guide plate 104, a mounting frame 2, a gluing mechanism and an automatic rotating mechanism, wherein the second support frame 101 is arranged on the right side of the first support frame 1, the first support frame 1 and the second support frame 101 are both H-shaped, the top parts of the first support frame 1 and the second support frame 101 are fixedly connected with the fixed frame 102, the right side of the fixed frame 102 is not provided with a baffle plate, the top part of the fixed frame 102 is fixedly connected with the first guide plate 103, the right front part of the top part of the fixed frame 102 is fixedly connected with the second guide plate 104, the first guide plate 103 and the second guide plate 104 are used for controlling the moving direction of the multi-tube filter element, corners of the first guide plate 103 and the second guide plate 104, which are contacted with the multi-tube filter element, the right side of the second support frame 101 is provided with the mounting frame 2, glue coating mechanism installs in mounting bracket 2, and glue coating mechanism is used for giving the multitube filter core rubber coating, and automatic rotary mechanism installs in mounting bracket 2, and automatic rotary mechanism is used for rotating the multitube filter core.

Before gluing, the multi-tube filter element is pushed into the fixing frame 102 from the position between the first guide plate 103 and the second guide plate 104, the multi-tube filter element entering the fixing frame can push the multi-tube filter element at the front side to the right, after entering one multi-tube filter element in the automatic rotating mechanism, feeding is stopped, then the gluing mechanism is started, the gluing mechanism can coat the outer wall of one pipeline of the multi-tube filter element with glue, then when the gluing mechanism is reset, the gluing mechanism can drive the automatic rotating mechanism to rotate for a certain angle, then the gluing mechanism continues to operate to coat the outer wall of the next pipeline of the multi-tube filter element with glue, after all the outer walls of all the pipelines of the multi-tube filter element are coated with glue, the gluing mechanism is closed, the multi-tube filter element is continuously pushed into the fixing frame 102, the glued multi-tube filter element can slide out from the right end of the equipment, and then a new multi-tube filter element is pushed into the automatic rotating mechanism, the function of automatically gluing the multi-tube filter element is realized.

Example 2

On the basis of the embodiment 1, as shown in fig. 2-3 and fig. 5-7, the glue coating mechanism includes a first cylinder 201, a sliding plate 202, a first rotating shaft 203, a rotating frame 204, a guide post 2041, a fixing rod 205, a fixing ring 206, a fixed glue storage barrel 207, a connecting plate 208, a glue guide tube 209, a glue brushing roller 213, a second rotating shaft 214, a rotating glue storage barrel 215 and a rotating and sticking mechanism, the top of the mounting frame 2 is provided with the first cylinder 201, an output shaft of the first cylinder 201 is arranged downward, an output shaft of the first cylinder 201 penetrates through the mounting frame 2 and is connected with the mounting frame in a sliding manner, the top of the mounting frame 2 is connected with the sliding plate 202 in a sliding manner, the first cylinder 201 controls the sliding plate 202 to slide up and down in the mounting frame 2, the rear end of the sliding plate 202 is connected with the first rotating shaft 203 in a rotating manner, the bottom of the first rotating shaft 203 is fixedly connected with the rotating frame 204, the first rotating shaft 203 rotates along with the rotating frame 204, two guide posts 2041 are symmetrically and fixedly connected to the outer wall of the rotating frame 204 in a front-back manner, the guide posts 2041 are small sections of cylinders, a fixed glue storage barrel 207 is installed in the rotating frame 204, the fixed glue storage barrel 207 is used for storing glue, a fixing rod 205 is fixed to each of the left side and the right side of the top of the mounting frame 2, a fixing ring 206 is fixedly connected to the rear end of the inner side of each fixing rod 205, two inclined slideways are symmetrically formed in the front-back direction of the fixing ring 206, the guide posts 2041 can just enter the inclined slideways of the fixing ring 206, a section of blocking rod is further arranged at the outlet of the inclined slideways of the fixing ring 206 and can block the guide posts 2041 from moving, a plurality of connecting plates 208 are arranged in an annular array at the bottom of the rotating frame 204, a plurality of glue guide tubes 209 are connected in an annular array at the bottom of the fixed glue storage barrel 207, and glue can flow into the glue guide tubes 209, the other end of every rubber guide pipe 209 is all connected at the top of a second axis of rotation 214, second axis of rotation 214 is inside to be hollow, and it has a plurality of through-holes to open on the outer wall of second axis of rotation 214, the equal fixed connection in bottom of every second axis of rotation 214 is inside one rotates and stores up gluey bucket 215, glue in the rubber guide pipe 209 can flow in through second axis of rotation 214 and rotate and store up gluey bucket 215 inside, it has a plurality of through-holes to rotate the outer wall of storing up gluey bucket 215, a brush gluey cylinder 213 is all installed to every outside of rotating and storing up gluey bucket 215, it is interior that glue in the bucket 215 gets into brush gluey cylinder 213 through the through-hole to rotate to store up gluey, it pastes tight mechanism to all to install one rotation between per two connecting plates 208, it is used for making brush gluey cylinder 213 paste the outer wall of tight filter core to rotate to paste tight mechanism.

When a multi-tube filter element is pushed to the bottom of the gluing mechanism, the first air cylinder 201 is started, the first air cylinder 201 pushes the sliding plate 202 to slide downwards, the sliding plate 202 drives the first rotating shaft 203, the rotating frame 204, the guide column 2041, the fixed glue storage barrel 207, the connecting plate 208, the glue guide tube 209, the glue brushing roller 213, the second rotating shaft 214, the rotating and sticking mechanism and the rotating glue storage barrel 215 to move downwards, after the middle part of the inner side of the glue brushing roller 213 is contacted with the outer wall of one pipeline of the multi-tube filter element, the glue brushing roller 213, the second rotating shaft 214 and the rotating glue storage barrel 215 are abutted against the outer wall of one pipeline of the multi-tube filter element under the action of the rotating and sticking mechanism along with the continuous descending of the sliding plate 202, at the moment, the guide column 2041 just enters an inclined slide way in the fixed ring 206, and then the guide column 2041 drives the first rotating shaft 203, the rotating frame 204, the fixed glue storage barrel 207, the sliding plate and the sliding plate 215, The connecting plate 208, the rubber guide tube 209, the rubber brushing roller 213, the second rotating shaft 214, the rotating pasting mechanism and the rotating rubber storage barrel 215 rotate along an inclined slide way in the fixing ring 206, the four groups of rubber brushing rollers 213, the second rotating shaft 214 and the rotating rubber storage barrel 215 rotate along the outer wall of one pipeline of the multi-pipe filter core while rotating along the guide post 2041, the rubber in the fixing rubber storage barrel 207 flows into the second rotating shaft 214 through the rubber guide tube 209, the second rotating shaft 214 is hollow, a plurality of through holes are uniformly formed in the outer wall of the second rotating shaft 214, the rubber in the second rotating shaft 214 flows into the rotating rubber storage barrel 215, a plurality of through holes are also formed in the outer wall of the rotating rubber storage barrel 215, the rubber in the rotating rubber storage barrel 215 flows into the rubber brushing roller 213 through the through holes, the rubber is smeared on the pipe wall of the multi-pipe filter core by the rubber brushing roller 213, so that the outer wall of one pipeline of the multi-pipe filter core is smeared with rubber, when the guide post 2041 moves to the bottom of the inclined slideway in the fixed ring 206, the first air cylinder 201 is controlled to pull the sliding plate 202 upwards, the sliding plate 202 drives the first rotating shaft 203, the rotating frame 204, the guide post 2041, the fixed glue storage barrel 207, the connecting plate 208, the glue guide tube 209, the glue brushing roller 213, the second rotating shaft 214, the rotating tightening mechanism and the rotating glue storage barrel 215 to move upwards, the guide post 2041 can move and reset along the inclined slideway in the fixed ring 206, and simultaneously drives the first rotating shaft 203, the rotating frame 204, the fixed glue storage barrel 207, the connecting plate 208, the glue guide tube 209, the glue brushing roller 213, the second rotating shaft 214, the rotating tightening mechanism and the rotating glue storage barrel 215 to rotate and reset, when the glue brushing roller 213 is not in contact with the tube wall any more, the glue brushing roller 213, the second rotating shaft 214 and the rotating glue storage barrel 215 can restore to the original state under the action of the rotating tightening mechanism, and when the sliding plate 202 resets, the first air cylinder 201 is closed, the function of automatically coating the pipe wall of the multi-pipe filter element with glue is realized.

As shown in fig. 6, the rotating and fastening mechanism includes a first fixing plate 2081, a guide bar 2082, a first spring 2083, a sliding block 2084, a first connecting shaft 2085, a torsion spring 2086 and a rotating block 210, wherein two ends of each connecting plate 208 are fixed with a first fixing plate 2081, a guide bar 2082 is connected in each first fixing plate 2081 in a sliding manner, the guide bar 2082 passes through the first fixing plate 2081, two ends of each connecting plate 208 are connected with a sliding block 2084 in a sliding manner, the sliding block 2084 is fixedly connected with the guide bar 2082, the guide bar 2082 provides a guiding function for the sliding block 2084, a first spring 2083 is connected between each sliding block 2084 and the corresponding first fixing plate 2081, the first spring 2083 is used for restoring the sliding block 2084, one side of each sliding block 2084 away from the connecting plate 208 is fixed with a first connecting shaft 2085, and a rotating block 210 is connected between two first connecting shafts 2085 between each two connecting plates 208, the rotating blocks 210 can rotate around the first connecting shafts 2085, the first connecting shafts 2085 can slide in the rotating blocks 210, a torsion spring 2086 is connected between each rotating block 210 and the two sliding blocks 2084 on the two sides, and the torsion springs 2086 are used for resetting the rotating blocks 210.

When the inner wall of the glue brushing roller 213 is in contact with the tube wall of the multi-tube filter element, as the glue brushing roller 213 continues to descend, the top of the glue brushing roller 213 swings outwards around the contact point, the rolling bottom of the glue brushing swings inwards around the contact point, when the glue brushing roller 213 swings, the second rotating shaft 214 and the rotating glue storage barrel 215 are driven to swing, the second rotating shaft 214 swings to enable the rotating block 210 to rotate along the first connecting shaft 2085 while moving backwards, the torsion spring 2086 is twisted at the same time, the first connecting shaft 2085 and the sliding block 2084 slide backwards along the guide rod 2082 along with the rotating block 210, and the first spring 2083 is compressed, so that the glue brushing roller 213 is attached to one tube wall of the multi-tube filter element, after glue is coated, the glue brushing roller 213 moves upwards and gradually separates from the tube wall, the first connecting shaft 2085 and the sliding block 2084 slide inwards under the action of the first spring 2083, and drives the rotating block 210 to reset, meanwhile, the rotating block 210 can also rotate to reset under the action of the torsion spring 2086, and the rotating block 210 can drive the glue brushing roller 213, the second rotating shaft 214 and the rotating glue storage barrel 215 to reset, so that the function that the glue brushing roller 213 clings to the pipe wall of the multi-pipe filter core is realized.

As shown in fig. 2-4, the automatic rotating mechanism includes a ratchet 3, a third rotating shaft 301, a first bevel gear 302, a second bevel gear 303, a rotating plate 304, a first sliding frame 305, a pawl 306, a second spring 307 and a first sliding rod 308, the bottom of the mounting frame 2 is rotatably connected with the third rotating shaft 301, the front end of the third rotating shaft 301 passes through the mounting frame 2, the front side of the third rotating shaft 301 is fixed with the ratchet 3, the ratchet 3 can only rotate counterclockwise, the ratchet 3 can drive the third rotating shaft 301 to rotate, the rear end of the third rotating shaft 301 is fixed with the first bevel gear 302, the third rotating shaft 301 drives the first bevel gear 302 to rotate, the mounting frame 2 is rotatably connected with the rotating plate 304, the rotating plate 304 can drive the multi-tube filter element at the top of the rotating plate to rotate, the bottom of the connecting shaft at the middle part of the rotating plate 304 is fixedly connected with the second bevel gear 303, the first bevel gear 302 is meshed with the second bevel gear 303, the first bevel gear 302 can drive the second bevel gear 303 to rotate, the second bevel gear 303 drives the turntable 304 to rotate, a first sliding frame 305 is slidably connected to the lower right of the front wall of the mounting frame 2, the first sliding frame 305 can slide up and down on the front side of the mounting frame 2, a pawl 306 is hinged to the left end of the first sliding frame 305, the pawl 306 can drive the ratchet 3 to rotate counterclockwise when ascending along with the first sliding frame 305, a second spring 307 is connected between the pawl 306 and the first sliding frame 305, the pawl 306 can swing rightward and compress the second spring 307 when descending along with the first sliding frame 305 and contacting with the ratchet 3, a first sliding rod 308 is fixed to the right front of the bottom of the sliding plate 202, the bottom of the first sliding rod 308 is fixedly connected to the first sliding frame 305, and the sliding plate 202 drives the first sliding frame 305 to slide up and down through the first sliding frame 308.

When the gluing mechanism moves downwards for gluing, the multi-tube filter core stops at the top of the rotating disc 304, the first sliding rod 308 descends along with the multi-tube filter core, the first sliding rod 308 descends to push the first sliding frame 305, the pawl 306 and the second spring 307 to move downwards, when the gluing mechanism moves upwards, the first sliding rod 308 slides upwards along with the multi-tube filter core, the first sliding rod 308 ascends to drive the first sliding frame 305, the pawl 306 and the second spring 307 to move upwards, when the pawl 306 moves downwards to contact with the ratchet 3, the second spring 307 on the right side of the top of the pawl 306 is compressed, the pawl 306 swings rightwards, the ratchet 3 does not rotate, when the pawl 306 moves upwards, the pawl 306 drives the ratchet 3 to rotate for a certain angle, the ratchet 3 drives the first bevel gear 302 to rotate through the third rotating shaft 301, the first bevel gear 302 is meshed with the second bevel gear 303, and the second bevel gear 303 rotates along with the first bevel gear 306, the second bevel gear 303 drives the turntable 304 to rotate through the connecting shaft, the turntable 304 rotates to enable the multi-tube filter element at the top of the turntable to rotate, the gluing mechanism is matched with the automatic rotating mechanism, after the gluing mechanism coats each tube wall, the gluing mechanism ascends to enable the automatic rotating mechanism to operate and drive the multi-tube filter element to rotate by a certain angle, the part without gluing in the multi-tube filter element can rotate under the gluing mechanism, and the function of driving the multi-tube filter element to rotate is achieved.

Example 3

On the basis of embodiment 2, as shown in fig. 5, the glue dispensing device further includes a first scraper 211 and a glue collecting box 212, the outer side of each rotating block 210 is fixed with one first scraper 211, the edge of the first scraper 211 faces the direction of the glue brushing roller 213, one side of the first scraper 211 away from the glue brushing roller 213 is an arc-shaped round angle, the bottom of each first scraper 211 is fixed with one glue collecting box 212, and the glue collecting box 212 is used for containing glue dripping from the first scraper 211 and the glue brushing roller 213.

When the rubber coating, first scraper 211 and receipts glue box 212 can remove along with turning block 210, and when brushing gluey cylinder 213 rotated, first scraper 211 can be scraped the glue that overflows on brushing gluey cylinder 213, and glue drips along first scraper 211 in receiving gluey box 212, and glue that overflows in brushing gluey cylinder 213 also can drip in receiving gluey box 212, realizes avoiding the function that glue drips on the filter element face.

As shown in fig. 7, a second scraper 216 is further included, two second scrapers 216 are fixed to the bottom of each rotating block 210, the two second scrapers 216 are located just inside the rotating glue storage barrel 215, and the second scrapers 216 are used for stirring the glue in the rotating glue storage barrel 215.

During gluing, the second scrapers 216 move along with the rotating block 210, and when the rotating glue storage barrel 215 rotates along with the glue brushing roller 213, the two second scrapers 216 stir the glue in the rotating glue storage barrel 215, so that the glue can flow out from the through hole on the outer wall of the rotating glue storage barrel 215, and meanwhile, the function that the glue is automatically solidified and blocks the through hole of the rotating glue storage barrel 215 is also avoided.

As shown in fig. 8, the filter further includes a third support frame 105, a second cylinder 4, a second sliding frame 401 and a rubber pad 402, the third support frame 105 is fixed on the left side of the first support frame 1, the second cylinder 4 is installed at the top of the third support frame 105, an output shaft of the second cylinder 4 faces right, a slide way in the left-right direction is formed in the fixed frame 102, the second sliding frame 401 is connected in the fixed frame 102 in a sliding manner, the right wall of the second sliding frame 401 is an arc surface, an output shaft of the second cylinder 4 is connected to the second sliding frame 401, the second cylinder 4 drives the second sliding frame 401 to slide left and right, the rubber pad 402 is installed on the right wall of the second sliding frame 401, and the rubber pad 402 can prevent the multi-tube filter element from being damaged.

After the multi-tube filter elements on the rotary disc 304 are coated with glue, a second air cylinder 4 on the third support frame 105 is started, the second air cylinder 4 can push a second sliding frame 401 rightwards, the second sliding frame 401 drives a rubber pad 402 to move rightwards, the second sliding frame 401 and the rubber pad 402 can be in contact with the multi-tube filter elements in the fixed frame 102 in the process of moving rightwards, the multi-tube filter elements in the fixed frame 102 can be pushed into the rotary disc 304, the glue-coated multi-tube filter elements in the rotary disc 304 can slide out from the right side of the equipment, after pushing is completed, the second air cylinder 4 drives the second sliding frame 401 and the rubber pad 402 to move leftwards to reset, then, a multi-tube filter element is manually placed into the fixed frame 102, or a feeding device is aligned to the middle inlet of the fixed frame 102, and the function of automatically pushing the multi-tube filter elements is realized.

As shown in fig. 9, the sliding frame further comprises a second fixing plate 403, a third spring 404, a second connecting shaft 405, a third sliding frame 406, sliding rails 407, a sliding block 408 and a fourth spring 409, wherein two second fixing plates 403 are symmetrically fixed at the front and back of the top of the right wall of the first support frame 1, two sliding rails 407 are symmetrically fixed at the front and back between the second support frame 101 and the mounting frame 2, a third sliding frame 406 is connected at the top of the two sliding rails 407 in a sliding manner, the third sliding frame 406 slides left and right along the two sliding rails 407, a second connecting shaft 405 is fixed at the middle part of the left wall of the third sliding frame 406, the second connecting shaft 405 is located just below the inner sliding way of the fixing frame 102, the second sliding frame 401 can contact with the second connecting shaft 405, a third spring 404 is connected between the third sliding frame 406 and the two second fixing plates 403, the third spring 404 is used for resetting the third sliding frame 406 to slide leftwards, two sliding blocks 408 are connected to the inner center of the rotary table 304 in a sliding manner, the two sliding blocks 408 are arranged in front and at the back initially, the bottoms of the two sliding blocks 408 are located on the outer side of the inclined plane of the right end of the third sliding frame 406, a fourth spring 409 is connected between each sliding block 408 and the rotary table 304, and the fourth spring 409 is used for enabling the two sliding blocks 408 to slide inwards and clamp the multi-tube filter element.

When the second sliding frame 401 and the rubber pad 402 slide to the right, the bottom of the right wall of the second sliding frame 401 contacts with the second connecting shaft 405, the second sliding frame 401 drives the third sliding frame 406 to slide to the right along the two sliding rails 407 through the second connecting shaft 405, and simultaneously stretches the two third springs 404, the right end of the third sliding frame 406 is an outward inclined surface, the third sliding frame 406 slides to the right to push the two sliding blocks 408 at the top of the rotating disc 304 outwards, the two fourth springs 409 are stretched, after the second sliding frame 401 pushes a new multi-tube filter core into the top of the rotating disc 304, the second sliding frame 401 moves to the left to reset under the action of the second cylinder 4, the third sliding frame 406 slides to the left to reset under the action of the two fourth springs 409, and drives the second connecting shaft 405 to move to the left, and the third sliding frame 406 slides to the left to separate from the two sliding blocks 408, the two slide blocks 408 slide back inward under the action of the two fourth springs 409 and clamp the multiple cartridges from both sides, thus achieving the function of clamping the multiple cartridges on the turntable 304.

As shown in fig. 3, the sliding device further comprises a second sliding rod 5 and a fifth spring 501, the second sliding rod 5 is connected to the upper middle position of the mounting frame 2 in a sliding manner, the second sliding rod 5 slides up and down in the mounting frame 2, the fifth spring 501 is connected between the second sliding rod 5 and the mounting frame 2, the fifth spring 501 is sleeved on the second sliding rod 5, and the fifth spring 501 can reduce the descending speed of the sliding plate 202.

When cylinder 201 promoted sliding plate 202 downwards, in order to avoid the rubber coating mechanism to descend too fast and lead to the rubber coating inhomogeneous, set up a second slide bar 5 at the middle part position on the upper side of mounting bracket 2, sliding plate 202 slided downwards can contact with second slide bar 5, can reduce the speed that sliding plate 202 descends under the effect of fifth spring 501, can ensure like this that the rubber coating mechanism scribbles the outer wall of multitube filter core and glue, realizes guaranteeing the function of rubber coating mechanism rubber coating effect.

As shown in fig. 8, the fixing frame 102 further includes a first guide plate 6 and a second guide plate 601, the first guide plate 6 is mounted on the inner rear wall of the fixing frame 102, the outer surface friction coefficient of the first guide plate 6 is relatively large, the second guide plate 601 is mounted on the inner front wall on the right side of the fixing frame 102, and the outer surface friction coefficient of the second guide plate 601 is relatively large.

After the fixed frame 102 is got into to the multitube filter core, the state diverse of multitube filter core, when second carriage 401 and rubber pad 402 promote the multitube filter core in the right side, the pipe wall of multitube filter core can earlier with first deflector 6 contact, the coefficient of surface friction of first deflector 6 is great, when the multitube filter core contacts with first deflector 6, the multitube filter core can rotate earlier, when two pipe walls of multitube filter core and first deflector 6 contact, the outer wall of multitube filter core front side also can contact with second deflector 601, the multitube filter core can not rotate again this moment, the multitube filter core will be promoted by the right side, can ensure like this that the multitube filter core is after getting into carousel 304, there is a pipeline just in time under rubber coating mechanism, realize just setting the function of multitube filter core position.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A gluing device for the tube wall of a multi-tube filter element is characterized by comprising a first support frame (1), a second support frame (101), a fixed frame (102), a first guide plate (103), a second guide plate (104), an installation frame (2), a gluing mechanism and an automatic rotating mechanism, wherein the second support frame (101) is arranged on the right side of the first support frame (1), the fixed frame (102) is fixedly connected to the tops of the first support frame (1) and the second support frame (101), the first guide plate (103) is fixedly connected to the top of the fixed frame (102), the second guide plate (104) is fixedly connected to the right front of the top of the fixed frame (102), the installation frame (2) is arranged on the right side of the second support frame (101), the gluing mechanism is installed in the installation frame (2), the gluing mechanism is used for gluing a plurality of tubes of filter elements, and the automatic rotating mechanism is installed in the installation frame (2), an automatic rotation mechanism is used to rotate the multi-tube cartridge.

2. The gluing device for the tube wall of the multi-tube filter element according to claim 1, wherein the gluing mechanism comprises a first air cylinder (201), a sliding plate (202), a first rotating shaft (203), a rotating frame (204), a guide post (2041), a fixed rod (205), a fixed ring (206), a fixed glue storage barrel (207), a connecting plate (208), a glue guide tube (209), a glue brushing roller (213), a second rotating shaft (214), a rotating glue storage barrel (215) and a rotating and sticking mechanism, the top of the mounting rack (2) is provided with the first air cylinder (201), the top of the mounting rack (2) is slidably connected with the sliding plate (202), an output shaft of the first air cylinder (201) is connected to the sliding plate (202), the rear end of the sliding plate (202) is rotatably connected with the first rotating shaft (203), the bottom of the first rotating shaft (203) is fixedly connected with the rotating frame (204), two guide posts (2041) are symmetrically and fixedly connected to the outer wall of the rotating frame (204) in a front-back manner, a fixed glue storage barrel (207) is installed in the rotating frame (204), a fixing rod (205) is fixed to the left side and the right side of the top of the mounting frame (2), a fixing ring (206) is fixedly connected to the rear end of the inner side of each fixing rod (205), a plurality of connecting plates (208) are arranged in an annular array at the bottom of the rotating frame (204), a plurality of glue guide tubes (209) are connected to an annular array at the bottom of the fixed glue storage barrel (207), the other end of each glue guide tube (209) is connected to the top of a second rotating shaft (214), the bottom of each second rotating shaft (214) is fixedly connected to the inside of a rotating glue storage barrel (215), a glue brushing roller (213) is installed outside each rotating glue storage barrel (215), and a rotating and sticking mechanism is installed between each two connecting plates (208), the rotary attaching mechanism is used for attaching the glue brushing roller (213) to the outer wall of the multi-tube filter core.

3. The gluing device for the pipe wall of the multi-pipe filter element according to claim 2, wherein the rotating and sticking mechanism comprises a first fixing plate (2081), a guide rod (2082), a first spring (2083), a sliding block (2084), a first connecting shaft (2085), a torsion spring (2086) and a rotating block (210), wherein a first fixing plate (2081) is fixed at each end of each connecting plate (208), a guide rod (2082) is connected in each first fixing plate (2081) in a sliding manner, a sliding block (2084) is connected at each end of each connecting plate (208) in a sliding manner, the sliding block (2084) is fixedly connected with the guide rod (2082), a first spring (2083) is connected between each first fixing plate (2081) and each corresponding first fixing plate (2084), and a first connecting shaft (2085) is fixed at one side of each sliding block (2084) far away from the connecting plates (208), a rotating block (210) is rotationally connected between the two first connecting shafts (2085) between every two connecting plates (208), and a torsion spring (2086) is connected between each rotating block (210) and the two sliding blocks (2084) on the two sides.

4. A multi-tube filter element tube wall gluing device according to claim 3, wherein the automatic rotating mechanism comprises a ratchet wheel (3), a third rotating shaft (301), a first helical gear (302), a second helical gear (303), a turntable (304), a first sliding frame (305), a pawl (306), a second spring (307) and a first sliding rod (308), the bottom of the mounting frame (2) is rotatably connected with the third rotating shaft (301), the ratchet wheel (3) is fixed on the front side of the third rotating shaft (301), the first helical gear (302) is fixed on the rear end of the third rotating shaft (301), the turntable (304) is rotatably connected in the mounting frame (2), the second helical gear (303) is fixedly connected to the bottom of a connecting shaft in the middle of the turntable (304), the first helical gear (302) is meshed with the second helical gear (303), the first sliding frame (305) is slidably connected to the lower right side of the mounting frame (2), a pawl (306) is hinged at the left end of the first sliding frame (305), a second spring (307) is connected between the pawl (306) and the first sliding frame (305), a first sliding rod (308) is fixed at the right front of the bottom of the sliding plate (202), and the bottom of the first sliding rod (308) is fixedly connected to the first sliding frame (305).

5. The gluing device for the tube wall of the multi-tube filter element according to claim 4, which is characterized by further comprising a first scraper (211) and a glue collecting box (212), wherein the first scraper (211) is fixed on the outer side of each rotating block (210), and the glue collecting box (212) is fixed at the bottom of each first scraper (211).

6. The gluing device for the tubular wall of the multi-tubular filter element according to claim 5, further comprising second scrapers (216), wherein two second scrapers (216) are fixed to the bottom of each rotating block (210), and the two second scrapers (216) are positioned inside the rotating glue storage barrel (215).

7. The gluing equipment for the pipe wall of the multi-pipe type filter element according to claim 6, which is characterized by further comprising a third support frame (105), a second air cylinder (4), a second sliding frame (401) and a rubber pad (402), wherein the third support frame (105) is fixed on the left side of the first support frame (1), the second air cylinder (4) is installed at the top of the third support frame (105), the second sliding frame (401) is connected to the fixed frame (102) in a sliding mode, an output shaft of the second air cylinder (4) is connected to the second sliding frame (401), and the rubber pad (402) is installed on the right wall of the second sliding frame (401).

8. The gluing equipment for the pipe wall of the multi-pipe type filter element according to claim 7, which further comprises a second fixing plate (403), a third spring (404), a second connecting shaft (405), a third sliding frame (406), sliding rails (407), sliding blocks (408) and a fourth spring (409), wherein the two second fixing plates (403) are symmetrically fixed at the front and back of the top of the right wall of the first support frame (1), the two sliding rails (407) are symmetrically fixed at the front and back between the second support frame (101) and the mounting frame (2), the top of the two sliding rails (407) is jointly and slidably connected with the third sliding frame (406), the middle of the left wall of the third sliding frame (406) is fixedly provided with the second connecting shaft (405), the third spring (404) is respectively connected between the third sliding frame (406) and the two second fixing plates (403), and the two sliding blocks (408) are slidably connected at the center inside of the rotary table (304), a fourth spring (409) is connected between each sliding block (408) and the rotary disc (304).

9. The gluing device for the tube wall of the multi-tube filter element as claimed in claim 8, further comprising a second sliding rod (5) and a fifth spring (501), wherein the second sliding rod (5) is slidably connected to the middle upper position of the mounting frame (2), the fifth spring (501) is connected between the second sliding rod (5) and the mounting frame (2), and the fifth spring (501) is sleeved on the second sliding rod (5).

10. A device for gluing the walls of multi-tubular filter elements according to claim 9, characterised in that it comprises a first guide plate (6) and a second guide plate (601), the first guide plate (6) being mounted on the inner rear wall of the fixed frame (102) and the second guide plate (601) being mounted on the inner front wall of the fixed frame (102) on the right side.