CN115301510B - Automatic glue homogenizing device for glue packaging of round tube shell - Google Patents

Abstract

The application relates to an automatic glue homogenizing device for glue packaging of a round tube shell, which relates to the technical field of glue packaging and comprises a base and a glue homogenizing mechanism, wherein the glue homogenizing mechanism comprises: the spin frame is rotatably arranged on the base through a rotating shaft; the placing plates are detachably arranged on the glue homogenizing frame through the connecting assembly and are used for placing the tube shells after glue is smeared; the driving component is arranged on the base and used for driving the spin frame to rotate. According to the application, glue is smeared on two ends of the tube shell, the tube shell is placed on the placing plate, the placing plate is mounted on the glue homogenizing frame, and then the driving assembly is started to drive the glue homogenizing frame to rotate, so that the time spent in glue homogenizing is shortened, the consistency of glue homogenizing of the tube shell is improved, the packaging efficiency of the metal tube shell is improved, and the packaging quality of the tube shell is also improved.

Description

Automatic glue homogenizing device for glue packaging of round tube shell

Technical Field

The application relates to the technical field of glue packaging, in particular to an automatic glue homogenizing device for glue packaging of a round tube shell.

Background

In the packaging process of the central glass tube and the metal outer sleeve of the polarization maintaining optical fiber beam splitter, the tail fiber of the central glass tube needs to be fixed at the center of the metal tube shell by using glue, so that glue needs to be smeared on the inner side walls of the two ends of the metal tube shell for fixing the tail fiber, and then each metal tube shell is manually turned at regular time, so that the glue is prevented from flowing randomly, and the glue is prevented from interfering and uniform packaging effect is achieved.

But the manual operation is inconvenient, so that the time spent in the glue coating process is prolonged, and the packaging efficiency of the metal tube shell is reduced.

Disclosure of Invention

In order to improve the packaging efficiency of the metal tube shell, the application provides an automatic glue homogenizing device for packaging the round tube shell by glue.

The application provides an automatic glue homogenizing device for glue packaging of a round tube shell, which adopts the following technical scheme:

the utility model provides an automatic even mucilage binding of circular for shell glue encapsulation is put, includes the base, sets up on the base and is used for carrying out even mechanism of gluing to the shell of pipe, even mechanism of gluing includes:

the spin coating frame is rotatably arranged on the base through a rotating shaft;

the placing plates are detachably arranged on the glue homogenizing frame through the connecting assembly and are used for placing the tube shells after glue is smeared;

the driving assembly is arranged on the base and used for driving the spin frame to rotate.

Through adopting above-mentioned technical scheme, install the tail optical fiber in the tube shell for the tail optical fiber both ends stretch outside the tube shell, then paint glue on the inside wall at tube shell both ends, then place the tube shell on placing the board, will place the board and pass through coupling assembling fixed mounting and glue the frame on, drive assembly starts to drive glue the frame rotation even afterwards, thereby glue the tube shell evenly, thereby need not artifical the rotation and glue the tube shell evenly, when glue the tube shell evenly to glue the frame, can treat the tube shell of glue evenly simultaneously and glue and install on placing the board, thereby shortened the time that glue evenly spent, and consistency when also having improved the tube shell glue evenly has been improved, therefore metal tube shell encapsulation efficiency has been improved, the encapsulation quality of tube shell has also been improved simultaneously.

Optionally, a plurality of place the board joint and install on even gluey frame, coupling assembling includes:

the blocking plate is rotatably arranged on the glue homogenizing frame and is abutted against the placing plate to position the placing plate;

the connecting screw is in threaded connection with the blocking plate and is in threaded connection with the spin coater frame for positioning.

Through adopting above-mentioned technical scheme, twist connecting screw and even gluey frame and break away from, then rotate the barrier plate and keep away from and place the board, then can take down and place the board and change, after the change is accomplished, rotate the barrier plate and contradict and fix a position on placing the board, then twist connecting screw threaded connection and to evenly glue and fix a position on the frame to placing the board to the realization is placed the board change and is fixed a position.

Optionally, place the board on and placed a plurality of shells, place the board on and be provided with a plurality of positioning mechanism that are used for carrying out the location to the shell, positioning mechanism includes:

the positioning table is arranged on the placing plate and provided with a positioning surface attached to the pipe shell;

the sliding plate is arranged on the placing plate in a sliding manner;

the two positioning assemblies are respectively arranged on the placing plate and the sliding plate and are positioned at two sides of the tube shell, and meanwhile, the two positioning assemblies can be abutted and sleeved at two ends of the tube shell for positioning;

and the moving assembly is arranged on the sliding plate and used for driving the sliding plate to move.

Through adopting above-mentioned technical scheme, paste the shell and put on the locating surface, then promote the shell and be close to the locating component who is connected with placing the board for the one end of shell is contradicted and is fixed a position on the locating component, then moves the subassembly and starts to drive the board that slides and another one locating component and be close to the shell, consequently two locating component conflict are on the shell both ends, and two locating component can overlap and establish on the shell both ends moreover, so realize locating the shell, move the board position that slides at last, thereby the convenience when having improved the shell location has shortened the time spent when the shell is installed, consequently improved the encapsulation efficiency of shell.

And the locating component is contradicted and the cover is established on the tube shell both ends and is fixed a position, and the while location is supported to the tube shell, thereby the stability of tube shell when having improved the even glue of tube shell has reduced the tube shell and has taken place the probability that slides and cause the tube shell damage, and the tube shell pastes earlier and puts and fix a position the back and remove again on the locating surface, thereby has reduced the probability that glue on the tube shell both ends contacts with the locating component, has consequently reduced glue and has infected on the locating component and make the probability that glue reduces on the tube shell, thereby has improved the even glue quality of tube shell, in order to this quality that has improved the tube shell.

Optionally, the positioning assembly includes:

the positioning ring is arranged on the placing plate;

the positioning pipes are arranged on the positioning rings, and two ends of the pipe shell are abutted against the two positioning rings and are spliced on the two positioning pipes for positioning;

the support ring is arranged on the positioning ring and extends to one side far away from the tube shell and is in a round table shape, and the diameter of one end of the support ring far away from the positioning ring is smaller than that of one end close to the positioning ring and is used for supporting the tail fiber and blocking glue thrown out of the tube shell.

Through adopting above-mentioned technical scheme, pass the support ring with the tail fiber, then promote the tube shell and be close to the holding ring, make tube shell one end conflict on the holding ring, and tube shell one end grafting is installed and is fixed a position on the holding tube, then pass the holding ring that is located the board that slides with the tail fiber, then the board that slides removes and drives the holding tube that is located the board that slides and the holding ring is close to the tube shell, make two holding rings conflict on tube shell both ends and peg graft and set up and fix a position on two holding tubes, consequently, the probability of taking place the displacement when having reduced the tube shell spin, the quality of spin has been improved, two holding rings support the tail fiber simultaneously, thereby the probability that the tail fiber takes place the skew when having reduced the spin, consequently, the encapsulation quality of tube shell has been improved.

Meanwhile, the supporting ring extends to one side far away from the tube shell, so that the contact probability of the supporting ring and glue in the tube shell is reduced, the probability that glue is stained on the supporting ring to reduce the encapsulation quality of the tube shell is reduced, the encapsulation quality of the tube shell is improved, the supporting ring can also block the glue flying out of the tube shell during glue homogenizing, and the probability that the glue flies out to pollute the environment is reduced, so that the encapsulation quality of the tube shell is improved, and the probability that the glue flies out to pollute the environment is reduced.

Optionally, the moving assembly includes:

the positioning block is arranged on the placing plate and provided with a positioning groove;

the locating rod is arranged on the sliding plate in a sliding manner;

the spring is arranged on the sliding plate and connected with the positioning rod, and when two ends of the tube shell are abutted against the two positioning rings, the positioning rod is inserted and arranged on the positioning groove for positioning under the action of the spring.

Through adopting above-mentioned technical scheme, the pulling locating lever is kept away from the constant head tank, then remove the board that slides and drive registration arm and go with the holding ring and remove, when the shell is contradicted on the holding ring, the locating lever is pegged graft under the spring action and is installed and fix a position on the constant head tank, thereby fix a position the pipe shell, consequently, fix a position the holding ring through constant head tank and locating lever cooperation, thereby the probability that causes the damage to the shell because it is too big to push the shell when having reduced to remove, and also reduced the probability that the effect reduces to the shell location that makes to the shell that the shell strength is too little, consequently, the quality of the shell has been improved, therefore also improved the quality of shell when realizing removing the board position that slides.

Optionally, the locating piece slides along the axis direction of the tube shell and sets up on placing the board, threaded connection has the set screw that supports tightly to carry out the location on placing the board on the locating piece.

Through adopting above-mentioned technical scheme, twist set screw and keep away from and place the board, then remove the slip board and keep away from the holding ring of being connected with placing the board, then with new tube shell with place the holding ring of board connection conflict and with the cooperation of pegging graft of locating tube, then remove the slip board and drive holding ring and locating tube and be close to the tube shell for the tube shell is contradicted with two holding rings, then twists set screw and supports tightly to fix a position on placing the board, thereby can adapt to the tube shell to the difference and fix a position, thereby improved locating component's accommodation.

Optionally, the holding ring all can dismantle the setting through fixed subassembly and place the board and slide on the board, fixed subassembly includes:

the fixing ring is arranged on the outer side wall of the positioning ring and is abutted against the placing plate;

and the fixing screw penetrates through the fixing ring and is in threaded connection with the placing plate.

Through adopting above-mentioned technical scheme, contradict the fixed ring and place on the board, then pass fixed ring threaded connection with set screw and place on the board to this fixed mounting holding ring, and reverse operation can dismantle the holding ring, thereby can change the holding ring as required, consequently improved the holding ring to the accommodation of tube shell.

Optionally, the locating ring, the locating pipe and the supporting ring are all provided with two and all are semi-annular and cooperate to support and locate the tube shell and the tail fiber, and two locating ring one end is rotated and is connected together and the other end is in the same place through locating screw rod fixed connection.

Through adopting above-mentioned technical scheme, twist set screw and holding ring and break away from, then can rotate one of them holding ring and keep away from fixed holding ring and holding ring, then can clear up two holding ring insidely, can put into the holding ring with the tail fiber afterwards, then rotate holding ring and be close to fixed holding ring and holding ring, two holding ring cooperations support the location to the tail fiber to the convenience of placing the holding ring with the tail fiber has been improved, the convenience of clearing up the holding ring inside has also been improved simultaneously.

Optionally, set up the mounting hole that link up even gluey frame looks both sides wall that is on the back of the body on the even gluey frame, place the board joint and install on the mounting hole, coupling assembling is provided with two and is located the mounting hole both sides and contradicts respectively and fix a position on placing the board and be on the both sides wall that is on the back of the body, two the baffle homoenergetic is accomplished and is blocked the mounting hole.

By adopting the technical scheme, the placing plate is abutted against one of the blocking plates to be positioned, and the other blocking plate is opened, so that the placing plate can be installed from two sides of the installation hole, the convenience in installing the placing plate is improved, and the packaging efficiency of the tube shell is improved; the blocking plates are used for positioning the placing plates, meanwhile, the blocking plates are also used for blocking the probability of environmental pollution caused by the fact that glue moves to the outside from the mounting holes, and the glue on the mounting holes and the blocking plates is cleaned conveniently after the two blocking plates are opened, so that the packaging efficiency of the tube shell is further improved.

Optionally, the driving assembly includes:

the motor is arranged on the base;

the first synchronous wheel is arranged on the rotating shaft;

the second synchronizing wheel is arranged on the motor output shaft and is connected with the first synchronizing wheel through a synchronous belt.

Through adopting above-mentioned technical scheme, the motor starts to drive the second synchronizing wheel and rotates, and the second synchronizing wheel rotates and drives first synchronizing wheel and pivot rotation through the hold-in range, and the pivot rotates and drives even gluey frame rotation to this realizes that the motor starts to drive even gluey frame rotation.

In summary, the present application includes at least one of the following beneficial technical effects:

glue is smeared at two ends of the tube shell, then the tube shell is placed on the placing plate, then the placing plate is mounted on the glue homogenizing frame, and then the driving assembly is started to drive the glue homogenizing frame to rotate, so that the time spent in glue homogenizing is shortened, the consistency of glue homogenizing of the tube shell is improved, the packaging efficiency of the metal tube shell is improved, and meanwhile, the packaging quality of the tube shell is also improved.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a schematic view of the structure of the connecting assembly and positioning mechanism of the present application, wherein one of the blocking plates is in an open state;

FIG. 3 is a schematic view of the structure of the placement plate and positioning mechanism of the present application;

FIG. 4 is a schematic cross-sectional view of A-A of FIG. 3;

fig. 5 is a schematic view of the moving assembly of the present application in which the positioning block and the positioning screw are exploded.

Reference numerals: 1. a base; 11. a support base; 12. a tube shell; 2. a glue homogenizing mechanism; 21. a spin frame; 211. a rotating shaft; 212. a mounting hole; 213. a plug-in groove; 22. placing a plate; 23. a drive assembly; 24. a motor; 25. a first synchronizing wheel; 26. a second synchronizing wheel; 27. a synchronous belt; 3. a connection assembly; 31. a blocking plate; 32. a connecting screw; 4. a positioning mechanism; 41. a positioning table; 42. a slip plate; 43. a positioning surface; 5. a positioning assembly; 51. a positioning ring; 52. a positioning tube; 53. a support ring; 531. a clearance hole; 54. positioning a screw; 55. a fixing plate; 6. a moving assembly; 61. a positioning block; 62. a positioning rod; 621. a horizontal section; 622. a vertical section; 63. a spring; 64. a positioning groove; 65. a set screw; 66. a positioning plate; 7. a fixing assembly; 71. a fixing ring; 72. and (5) fixing the screw.

Detailed Description

The application will be described in further detail below with reference to the accompanying drawings 1-5.

The embodiment of the application discloses an automatic glue homogenizing device for glue packaging of a round tube shell.

Referring to fig. 1, the automatic glue homogenizing device for glue packaging of a round tube shell comprises a base 1, two supporting seats 11 horizontally arranged on the upper surface of the base 1 at intervals, and a glue homogenizing mechanism 2 arranged on the base 1 and used for homogenizing glue of the tube shell 12.

Referring to fig. 1 and 2, the spin mechanism 2 includes a spin frame 21, a plurality of placement plates 22 and a driving assembly 23, the spin frame 21 is rotatably mounted on two support seats 11 through a rotating shaft 211, and the rotating shaft 211 is provided with two and fixedly mounted on two opposite side walls of the spin frame 21; the side wall of the spin frame 21 adjacent to the rotating shaft 211 is provided with a mounting hole 212, the mounting hole 212 penetrates through two opposite side walls of the spin frame 21, the two opposite side walls of the mounting hole 212 are provided with inserting grooves 213, the inserting grooves 213 are communicated with the two side walls of the spin frame 21 provided with the mounting hole 212, and a plurality of groups of inserting grooves 213 are arranged at intervals up and down.

Referring to fig. 1 and 2, a driving assembly 23 is disposed on the base 1 and is used for driving the spin frame 21 to rotate, the driving assembly 23 includes a motor 24, a first synchronous wheel 25 and a second synchronous wheel 26, the motor 24 is fixedly mounted on the upper surface of the base 1, and the axis of an output shaft of the motor 24 coincides with the axis of the rotating shaft 211; the first synchronizing wheel 25 is coaxially and fixedly mounted on the rotating shaft 211, while the second synchronizing wheel 26 is fixedly mounted on the output shaft of the motor 24, and the second synchronizing wheel 26 is connected with the first synchronizing wheel 25 through a synchronous belt 27.

Referring to fig. 1 and 2, a plurality of placing plates 22 are detachably arranged on a spin frame 21 through a connecting assembly 3, and the placing plates 22 are arranged in one-to-one correspondence with a plurality of groups of inserting grooves 213, and meanwhile, the placing plates 22 are in a horizontal state and are inserted and installed on two inserting grooves 213 in the same horizontal direction; the two connecting assemblies 3 are arranged on two sides of the mounting hole 212, and the two connecting assemblies 3 respectively abut against two opposite side walls of the placing plate 22 for positioning; the connecting assembly 3 comprises a blocking plate 31 and a connecting screw rod 32, wherein the bottom end of the blocking plate 31 is horizontally and rotatably arranged on the side wall of the spin frame 21 provided with the mounting hole 212 and positioned below the mounting hole 212, the top end of the blocking plate 31 vertically extends to the upper side of the mounting hole 212, and meanwhile, the blocking plate 31 is abutted against the outer side wall of the spin frame 21 and can completely block the mounting hole 212; the connecting screw 32 is in threaded connection with the top end of the blocking plate 31, and the connecting screw 32 is in a horizontal state and is in threaded connection with the side wall of the spin frame 21.

Referring to fig. 1 and 2, one of the connection screws 32 is twisted to be separated from the spin frame 21, then the blocking plate 31 is rotated to open the mounting holes 212, then the placing plate 22 is inserted and mounted on the two insertion grooves 213 of the same horizontal direction, so that the placing plate 22 is abutted against the other blocking plate 31 to be positioned, then the opened blocking plate 31 is closed, the connection screw 32 is twisted to be screwed onto the spin frame 21 to position the blocking plate 31, and the two blocking plates 31 are abutted against the opposite side walls of the placing plate 22 to be positioned, and simultaneously the two blocking plates 31 completely block the mounting holes 212.

Referring to fig. 1 and 2, a plurality of cartridges 12 are mounted on each of the placement plates 22, and the cartridges 12 are in a horizontal state with axes parallel to the axis of the rotation shaft 211; firstly, installing tail fibers into a tube shell 12, enabling the tail fibers to extend out of two ends of the tube shell 12, then coating glue on inner side walls of two ends of the tube shell 12, then installing the tube shell 12 on a placing plate 22, then installing the placing plate 22 on a plugging slot 213 in a plugging manner, and then starting a motor 24 to drive a glue homogenizing frame 21 to rotate, wherein the glue homogenizing frame 21 rotates to drive the placing plate 22 and the tube shell 12 to rotate, so that glue homogenizing is carried out on two ends of the tube shell 12.

Referring to fig. 2 and 3, the placement plate 22 is provided with a plurality of positioning mechanisms 4 for positioning the tube shells 12, and the plurality of positioning mechanisms 4 are arranged in one-to-one correspondence with the plurality of tube shells 12; the positioning mechanism 4 comprises a positioning table 41, a sliding plate 42 and two positioning assemblies 5, wherein the positioning table 41 is fixedly arranged on the upper surface of the placing plate 22, and a circular arc-shaped positioning surface 43 which is attached to the pipe shell 12 is formed on the positioning table 41, so that the pipe shell 12 is placed on the positioning surface 43 for supporting and positioning; the sliding plate 42 is slidably mounted on the upper surface of the placement plate 22 and is located on one side of the positioning table 41, and the sliding direction of the sliding plate 42 is parallel to the axis of the tube housing 12.

Referring to fig. 2 and 3, two positioning assemblies 5 are respectively disposed on the placement plate 22 and the sliding plate 42, while two positioning assemblies 5 are disposed on two sides of the tube shell 12, and the two positioning assemblies 5 are abutted against and sleeved on two ends of the tube shell 12 to perform positioning, wherein one positioning assembly 5 is disposed on the upper surface of the placement plate 22 located on one side of the positioning table 41 far from the sliding plate 42, and one positioning assembly 5 is disposed on the upper surface of the sliding plate 42, and the positioning assembly 5 located on the placement plate 22 is taken as an example below to explain.

Referring to fig. 3 and 4, the positioning assembly 5 includes a positioning ring 51, a positioning tube 52 and a supporting ring 53, the positioning ring 51, the positioning tube 52 and the supporting ring 53 are connected together and the axis coincides with the axis of the tube shell 12, two positioning rings 51, 52 and 53 are arranged up and down oppositely, the two positioning rings 51, 52 and 53 are semi-circular and cooperate to form a ring, the positioning ring 51, 52 and 53 at the upper part are fixedly connected together, and the positioning ring 51, 52 and 53 at the lower part are fixedly connected together; the inner diameter of the positioning ring 51 is larger than the inner diameter of the tube shell 12 and smaller than the outer diameter of the tube shell 12, the outer diameter of the positioning ring 51 is larger than the outer diameter of the tube shell 12, and the positioning tube 52 is coaxially and fixedly arranged on the side wall of the positioning ring 51, which is close to one side of the positioning table 41; after the tube shell 12 is attached to the positioning surface 43, the tube shell 12 is pushed to be capable of abutting against the positioning ring 51 and being inserted and mounted on the positioning tube 52 for positioning.

Referring to fig. 3 and 4, vertical fixing plates 55 are fixedly installed on the upper surfaces of the placement plate 22 and the sliding plate 42, two positioning rings 51 positioned at both sides of the tube housing 12 and positioned below are detachably connected with the two fixing plates 55 through fixing assemblies 7, the fixing assemblies 7 comprise fixing rings 71 and fixing screws 72, the fixing rings 71 are fixedly installed on the outer side walls of the positioning rings 51 positioned below, the fixing rings 71 are arc-shaped and abut against the side walls of the fixing plates 55, and meanwhile, the positioning rings 51 are placed on the top ends of the fixing plates 55; the fixing screw 72 passes horizontally through the fixing ring 71, and the fixing screw 72 is screwed to the fixing plate 55 for positioning.

Referring to fig. 3 and 4, the supporting rings 53 are integrally arranged on the inner side wall of the positioning ring 51, the supporting rings 53 extend out of the positioning ring 51 and are positioned on one side of the positioning ring 51 far away from the pipe shell 12, meanwhile, the two supporting rings 53 are matched to form a truncated cone shape, and the diameter of one end of the supporting ring 53 far away from the positioning ring 51 is smaller than that of one end close to the positioning ring 51; the inside diameter of the two supporting rings 53 is matched to form a avoidance hole 531 for the tail fiber to pass through, so that the avoidance hole 531 on the two supporting rings 53 is matched to support and position the tail fiber, and the two supporting rings 53 are matched to block the glue flying out of the tube shell 12.

Referring to fig. 3 and 4, one end of the two fixing rings 51 is rotatably connected together by a horizontal rotating rod, and the other end of the two fixing rings 51 is fixedly connected together by a fixing screw 54, and the fixing screw 54 is screw-coupled to the fixing ring 51 located above and screw-coupled to the fixing ring 51 located below for fixing. Therefore, the positioning screw 54 is screwed to be separated from the positioning ring 51 positioned below, and then the positioning ring 51, the supporting ring 53 and the positioning tube 52 positioned above can be rotated to be far away from the positioning ring 51, the supporting ring 53 and the positioning tube 52 positioned below, so that the positioning ring 51 and the avoidance hole 531 are opened, and meanwhile, glue in the supporting ring 53 can be cleaned conveniently; when the positioning rings 51 need to be closed, the two positioning rings 51 are turned to abut against each other, and the positioning screw 54 is screwed onto the positioning rings 51, so that the two positioning rings 51, the two positioning pipes 52 and the two supporting rings 53 are fixed.

Referring to fig. 3 and 4, the package 12 with the tail fiber installed is placed on the positioning surface 43, the positioning ring 51 is opened, the tail fiber is placed in the avoidance holes 531 at two sides of the package 12, then the positioning ring 51 is closed, then the package 12 is pushed to move horizontally so that one end of the package 12 is abutted against the positioning ring 51 and is inserted into the positioning tube 52, then the sliding plate 42 is moved to drive the positioning assembly 5 positioned on the sliding plate 42 to be close to the package 12, two ends of the package 12 are abutted against the two positioning rings 51 and are inserted into the two positioning tubes 52, and the support rings 53 positioned at two sides of the package 12 support the tail fiber.

Referring to fig. 3 and 4, the positioning mechanism 4 further includes a moving assembly 6, where the moving assembly 6 is disposed on the sliding plate 42 and is used to drive the sliding plate 42 to move; the moving assembly 6 comprises a positioning block 61, a positioning rod 62 and a spring 63, wherein the positioning block 61 is horizontally and slidably arranged on the upper surface of the placing plate 22, the sliding directions of the positioning block 61 and the sliding plate 42 are parallel to the axial direction of the tube shell 12, meanwhile, the positioning block 61 is positioned on one side of the sliding plate 42, the upper surface of the positioning block 61 is in threaded connection with a vertical positioning screw 65, and the positioning screw 65 abuts against the placing plate 22 and is used for positioning the positioning block 61.

Referring to fig. 3 and 5, a positioning groove 64 is formed in a side wall of the positioning block 61, which is close to one side of the sliding plate 42, the positioning rod 62 comprises a horizontal section 621 and a vertical section 622 which are integrally arranged together, the horizontal section 621 is in a horizontal state, the vertical section 622 vertically extends upwards to above the sliding plate 42, the horizontal section 621 horizontally slides to penetrate through the sliding plate 42 and extend out of the sliding plate 42, a positioning disc 66 is fixedly arranged on the horizontal section 621 and between the sliding plate 42 and the positioning block 61, a spring 63 is sleeved on the positioning rod 62, and two ends of the spring 63 are abutted against the sliding plate 42 and the positioning disc 66; when the two ends of the tube shell 12 are abutted against the two positioning rings 51, the positioning rods 62 are inserted and arranged on the positioning grooves 64 under the action of the springs 63 to position the sliding plate 42, so that the tube shell 12 is positioned.

The working principle of the embodiment of the application is as follows:

the tail fiber is installed in the tube shell 12 and penetrates out of two ends of the tube shell 12, glue is smeared on inner side walls of two ends of the tube shell 12, the locating ring 51 and the avoiding holes 531 are opened, the tail fiber is placed in the two avoiding holes 531 on two sides of the tube shell 12, then the tube shell 12 is attached to the locating surface 43, then the tube shell 12 is pushed to be close to the locating ring 51 connected with the placing plate 22, the tube shell 12 is abutted to the locating ring 51 and is inserted into the locating tube 52, then the sliding plate 42 is moved to be close to the tube shell 12, the two ends of the tube shell 12 are abutted to the two locating ring 51 and are inserted into the two locating tubes 52 for locating, meanwhile, the two avoiding holes 531 are used for supporting and locating the tail fiber on two sides of the tube shell 12, and the locating rod 62 is inserted into the locating groove 64 under the action of the spring 63 for locating, so that the tube shell 12 is installed on the placing plate 22, a plurality of tube shells 12 can be installed on the placing plate 22 by the same method, and the tube shell 12 can be taken down by the reverse operation.

The twisting connecting screw 32 is separated from the spin frame 21, then the blocking plate 31 is opened, then the placing plate 22 is inserted and installed on two inserting grooves 213 on the same horizontal direction, the placing plate 22 is pushed to collide with the other blocking plate 31 for positioning, then the blocking plate 31 is closed, the twisting connecting screw 32 is connected to the spin frame 21 in a threaded manner for positioning, therefore, the two blocking plates 31 are in collision with the placing plate 22 for positioning, then the motor 24 is started to drive the spin frame 21 to rotate, the spin frame 21 rotates to drive the placing plate 22 and the tube shell 12 to rotate for spin, so that spin is not needed to be manually performed, and when spin is performed on the tube shell 12, the tube shell 12 after spin is simultaneously taken down and the tube shell 12 to be spin is placed, so that the time spent for spin is shortened, and the packaging efficiency of the metal tube shell 12 is improved.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. An automatic glue homogenizing device for glue packaging of a round tube shell is characterized in that: including base (1), set up on base (1) and be used for carrying out even mechanism (2) of gluing to tube shell (12), even mechanism (2) include:

the spin coater comprises a spin coater frame (21), wherein the spin coater frame (21) is rotatably arranged on a base (1) through a rotating shaft (211);

the placing plates (22) are detachably arranged on the spin frame (21) through the connecting component (3) and used for placing the tube shells (12) after glue is smeared;

the driving assembly (23) is arranged on the base (1) and used for driving the spin frame (21) to rotate;

place board (22) on and placed a plurality of shells (12), be provided with a plurality of positioning mechanism (4) that are used for carrying out location to shells (12) on placing board (22), positioning mechanism (4) include:

a positioning table (41), wherein the positioning table (41) is arranged on the placing plate (22) and is provided with a positioning surface (43) attached to the pipe shell (12);

a sliding plate (42), wherein the sliding plate (42) is arranged on the placing plate (22) in a sliding way;

the two positioning assemblies (5) are respectively arranged on the placing plate (22) and the sliding plate (42) and are positioned at two sides of the tube shell (12), and the two positioning assemblies (5) can be abutted and sleeved at two ends of the tube shell (12) for positioning;

a moving assembly (6), wherein the moving assembly (6) is arranged on the sliding plate (42) and is used for driving the sliding plate (42) to move;

the positioning assembly (5) comprises:

a positioning ring (51), the positioning ring (51) being arranged on the placement plate (22);

the positioning pipes (52) are arranged on the positioning rings (51), and two ends of the pipe shell (12) are abutted against the two positioning rings (51) and are inserted into the two positioning pipes (52) for positioning;

the support ring (53), support ring (53) set up on holding ring (51) and stretch to keeping away from tube shell (12) one side and be the round platform form, holding ring (53) keep away from holding ring (51) one end diameter and be less than and be close to holding ring (51) one end diameter and be used for supporting the tail fiber and can block the glue that throws away in tube shell (12).

2. The automatic glue homogenizing device for encapsulating a round tube shell with glue according to claim 1, wherein: a plurality of place board (22) joint is installed on spin frame (21), coupling assembling (3) include:

the blocking plate (31) is rotatably arranged on the spin frame (21) and is abutted against the placing plate (22) for positioning the placing plate (22);

the connecting screw rod (32), connecting screw rod (32) threaded connection is on barrier plate (31) and threaded connection is fixed a position on spin frame (21).

3. The automatic glue homogenizing device for encapsulating a round tube shell with glue according to claim 1, wherein: the moving assembly (6) comprises:

the positioning block (61) is arranged on the placing plate (22) and provided with a positioning groove (64);

the positioning rod (62) is arranged on the sliding plate (42) in a sliding way;

the spring (63), spring (63) set up on sliding plate (42) and be connected with locating lever (62), works as when shell (12) both ends conflict on two holding rings (51), locating lever (62) peg graft under spring (63) effect and set up and fix a position on constant head tank (64).

4. An automatic glue homogenizing device for encapsulating a round tube shell with glue according to claim 3, wherein: the locating block (61) is slidably arranged on the placing plate (22) along the axis direction of the pipe shell (12), and the locating screw (65) which is tightly abutted on the placing plate (22) for locating is connected to the locating block (61) in a threaded mode.

5. The automatic glue homogenizing device for encapsulating a round tube shell with glue according to claim 1, wherein: the locating rings (51) are detachably arranged on the placing plate (22) and the sliding plate (42) through fixing assemblies (7), and the fixing assemblies (7) comprise:

the fixing ring (71) is arranged on the outer side wall of the positioning ring (51) and is abutted against the placing plate (22);

and a fixing screw (72), wherein the fixing screw (72) passes through the fixing ring (71) and is connected with the placing plate (22) in a threaded manner.

6. The automatic glue homogenizing device for encapsulating a round tube shell with glue according to claim 1, wherein: the positioning rings (51), the positioning pipes (52) and the supporting rings (53) are respectively provided with two semi-annular supporting rings which are matched with the semi-annular supporting rings to support and position the pipe shell (12) and the tail fiber, one ends of the two positioning rings (51) are rotationally connected together, and the other ends of the two positioning rings are fixedly connected together through the positioning screw rods (54).

7. The automatic glue homogenizing device for encapsulating the circular tube shell with glue according to claim 2, wherein: the utility model discloses a device for preventing and treating the motor vehicle, including even glue frame (21), place board (22) joint and install on mounting hole (212), coupling assembling (3) are provided with two and are located mounting hole (212) both sides and conflict respectively and fix a position on placing board (22) both sides wall opposite to each other, two baffle plate (31) homoenergetic is accomplished and is blocked mounting hole (212) in mounting hole (212) have been seted up on even glue frame (21) and link up both sides wall opposite to each other.

8. The automatic glue homogenizing device for encapsulating a round tube shell with glue according to claim 1, wherein: the drive assembly (23) comprises:

a motor (24), the motor (24) being arranged on the base (1);

a first synchronizing wheel (25), wherein the first synchronizing wheel (25) is arranged on the rotating shaft (211);

and the second synchronous wheel (26) is arranged on the output shaft of the motor (24) and is connected with the first synchronous wheel (25) through a synchronous belt (27).