CN213315942U - Rubber coating device for sealing ring - Google Patents

Abstract

The utility model provides a sealing ring gluing device, which comprises an indexing disc component, a rolling cage component, a glue dipping component, a first air blowing component and a second air blowing component, wherein the indexing disc component comprises an indexing disc and a connecting plate, the indexing disc drives the connecting plate to rotate in the vertical direction, and the rotating central line of the indexing disc is parallel to the horizontal direction; the rolling cage assembly comprises a first rolling cage and a second rolling cage, the two rolling cages are respectively connected between the index plate and the connecting plate, and the two rolling cages respectively rotate corresponding to the connecting plate; the glue dipping assembly is positioned below the rolling cage assembly and comprises a glue dipping box and a lifting driving assembly, and the lifting driving assembly drives the glue dipping box to face the rolling cage assembly; the first air blowing assembly comprises a first air blowing pipe, and an air outlet of the first air blowing pipe faces the rolling cage assembly; the second air blowing assembly comprises a second air blowing pipe, an air outlet of the second air blowing pipe faces the rolling cage assembly, the structure is adopted, the gluing process of multiple batches of sealing rings is achieved, and the gluing work efficiency of the sealing rings is improved.

Description

Rubber coating device for sealing ring

Technical Field

The utility model relates to a sealing washer production facility field specifically is a sealing washer rubber coating device is related to.

Background

The battery cover sealing ring needs to be coated with a layer of glue on the surface of the battery cover sealing ring in order to ensure the sealing performance of the battery cover sealing ring, and the specific operation is that the sealing ring is firstly arranged in a glue cage of gluing equipment, then the equipment is started, the glue cage provided with the sealing ring is placed into a glue pool, the glue is dipped for 5 seconds and then drained for 2 minutes, then air is blown by an air gun for 20 seconds, hot air is blown by the air gun for 10 minutes, a product is taken out of the glue cage, and whether the surface layer of the product is dry or not.

In the gluing process, only one gluing cage is installed on the gluing equipment, after the gluing process of one sealing ring of the gluing cage is completed, the gluing cage is disassembled, next sealing rings are installed in the gluing cage, the next sealing rings are glued, the process depends on single-station operation, the efficiency is low, and the daily production requirement cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a sealing washer rubber coating device of multistation.

In order to achieve the main purpose, the utility model provides a sealing ring gluing device comprises an indexing disc component, a rolling cage component, a glue dipping component, a first air blowing component and a second air blowing component, wherein the indexing disc component comprises an indexing disc and a connecting plate, the connecting plate is driven by the indexing disc to rotate in the vertical direction, and the rotating central line of the indexing disc is parallel to the horizontal direction; the rolling cage assembly comprises a first rolling cage and a second rolling cage, the first rolling cage and the second rolling cage are respectively connected between the index plate and the connecting plate, and the first rolling cage and the second rolling cage respectively rotate corresponding to the connecting plate; the glue dipping assembly is positioned below the rolling cage assembly and comprises a glue dipping box and a lifting driving assembly, and the lifting driving assembly drives the glue dipping box to move towards the rolling cage assembly; the first air blowing assembly comprises a first air blowing pipe, and an air outlet of the first air blowing pipe faces the rolling cage assembly; the second air blowing assembly comprises a second air blowing pipe, and an air outlet of the second air blowing pipe faces the rolling cage assembly.

According to the scheme, the index plate drives the connecting plate to rotate to drive the rolling cages connected between the connecting plate and the index plate to rotate, four stations can be designed on the sealing ring gluing device and respectively correspond to a feeding step, a glue dipping step, a residual glue blowing step and a drying step in the gluing process, and the two rolling cages respectively enter the stations corresponding to the four steps under the rotary drive of the index plate, so that at least two rolling cages simultaneously perform two steps in the four steps in the gluing device, the gluing process of a plurality of batches of sealing rings is realized simultaneously, the gluing process of the next batch of sealing rings is not required to be performed after the gluing of one batch of sealing rings is completed, and the gluing work efficiency of the sealing rings is improved.

The sealing ring gluing device comprises two rotation driving devices, rotating shafts of the rotation driving devices are respectively connected with first gears, first rolling cages and second rolling cages are respectively connected with second gears, the second gears are located on the side wall, facing the first gears, of the connecting plate, and the first gears and the second gears are respectively meshed in a one-to-one correspondence mode.

Therefore, the rotation state of the rolling cage relative to the connecting plate is driven by the rotation driving device through the meshing structure of the first gear and the second gear, and the sealing rings stacked in the rolling cage can be fully impregnated, blown with residual glue and dried through rotation of the rolling cage relative to the connecting plate.

The first rolling cage comprises two cage plates, a plurality of connecting strips, a cage cover and a lock catch assembly, wherein the cage cover is fully distributed with leak holes, the connecting strips are connected between the two cage plates, the cage cover is connected with the two cage plates along the circumferential direction of the cage cover, and the connecting strips are positioned in the first rolling cage; the hasp subassembly includes hasp seat, hasp piece and driving piece, and the hasp subassembly is located the lateral wall of cage lid, and the driving piece passes the small opening and articulates in the connecting strip, and the driving piece orientation or keep away from the hasp seat and rotate, and the hasp piece is connected with the driving piece, and the hasp seat is connected with the cooperation of hasp piece.

It is thus clear that, because the driving piece sets up the hasp seat when on the connecting strip in the cage lid and sets up on the cage lid, drive driving piece rotates towards the hasp seat and drives the hasp piece and keep away from the hasp seat and remove, makes hasp piece and hasp seat disconnection, and drive keyhole piece keeps away from the hasp seat and removes, drives the hasp piece and removes towards the hasp seat, accomplishes being connected between hasp piece and the hasp seat.

The rolling cage assembly comprises a first protective cover and a second protective cover, the first protective cover is located on the periphery of the first rolling cage, the second protective cover is located on the periphery of the second rolling cage, the first protective cover and the second protective cover are respectively and fixedly connected between a connecting plate and an index plate, the first protective cover is located between the first rolling cage and the central rotation axis of the index plate, and the second protective cover is located between the second rolling cage and the central rotation axis of the index plate.

It is thus clear that first protection casing and second protection casing roll the cage to first roll cage and second respectively and roll the cage and protect, and first protection casing and second protection casing are close to the rotatory central axis setting of graduated disk for the protection casing setting is in the inboard that rolls the cage, and the protection casing is fixed to be set up between connecting plate and graduated disk, and when making graduated disk drive roll the cage and rotate, the protection casing protects the cage all the time along with the rotation of rolling the cage.

The further scheme is that the first subassembly of blowing includes third protecting cover and third protecting cover drive assembly, and third protecting cover drive assembly drives the third protecting cover and moves towards rolling the cage subassembly, and the third protecting cover moves along the horizontal direction, and the third protecting cover is provided with a plurality of first blow vents, and first blowing pipe sets up with first blow vent one-to-one.

It is thus clear that when the graduated disk drive rolls the cage and removes the station at first subassembly place of blowing, when third protection subassembly drive third protection cover rolled the cage in this station and protects, the gas blow pipe in the third protection cover outside passes first blow vent and blows to the sealing washer in the roll cage in the third protection cover, blow again after protecting through the roll cage on this station of third protection cover earlier, make gas concentrate on in the third protection cover, thereby make the cull effect of blowing of the sealing washer in the roll cage better.

The second air blowing assembly comprises a fourth protection cover and a fourth protection cover driving assembly, the fourth protection cover driving assembly drives the fourth protection cover to move towards the rolling cage assembly, the fourth protection cover moves in the vertical direction, the fourth protection cover is provided with a plurality of second air vents, and the second air blowing pipes and the second air vents are arranged in a one-to-one correspondence mode.

It can be seen that when the indexing disc drives the rolling cage to move to the station where the second air blowing assembly is located, the fourth protection assembly drives the fourth protection cover to protect the rolling cage in the station, the air blowing pipe on the outer side of the fourth protection cover penetrates through the second air vent to blow air to the sealing ring in the rolling cage in the fourth protection cover, the rolling cage on the station is protected through the fourth protection cover firstly and then blown, air is concentrated in the fourth protection cover, and therefore the drying effect of the sealing ring in the rolling cage is better.

The further scheme is that the lifting driving assembly comprises a lifting driving motor, a transmission assembly, a plurality of third gears, a plurality of racks and a mounting frame, the lifting driving motor drives the third gears to rotate through the transmission assembly, the racks are fixed on the mounting frame and meshed with the third gears in a one-to-one correspondence mode, and the racks extend in the vertical direction.

Therefore, the rack is fixedly installed on the rack, and when the lifting driving motor drives the third gear to move, the third gear moves along the extension direction of the rack, so that the gum dipping box is driven to move towards the rolling cage assembly.

The sealing ring gluing device comprises a weighing sensor, a glue tank, a liquid supplementing valve and a liquid conveying pipe, wherein the weighing sensor detects the weight of the glue dipping tank, the weighing sensor outputs a weight signal, the glue tank is positioned above the glue dipping tank, the liquid supplementing valve is arranged at a water outlet of the glue tank and receives a liquid supplementing signal, and the liquid conveying pipe is connected between the liquid supplementing valve and the glue dipping tank.

Therefore, the weighing sensor detects the weight of the glue dipping box, the weighing sensor outputs a weight signal to a control system of the glue coating device, the control system outputs a control signal to the liquid supplementing valve after receiving the weight signal, the liquid supplementing valve opens the valve after receiving the control signal, and glue in the glue dipping box flows into the glue dipping box through gravity.

The further scheme is that two opposite sides of the impregnation box are respectively provided with avoidance grooves, and openings of the avoidance grooves face the rolling cage assembly.

Therefore, the avoiding groove corresponds to the connecting shafts which are arranged at the two ends of the rolling cage and are respectively connected with the connecting plate and the dividing plate, so that the rolling cage enters the impregnation box in a larger volume, the rotation of the rolling cage relative to the connecting plate is not influenced, and the impregnation effect is better.

The rolling cage assembly comprises a third rolling cage and a fourth rolling cage, the third rolling cage and the fourth rolling cage are respectively arranged between the connecting plate and the dividing plate, and the first rolling cage, the second rolling cage, the third rolling cage and the fourth rolling cage are arranged at equal intervals along the circumferential direction of the connecting plate.

It can be seen that four rolling cages are arranged in the rolling cage assembly, so that one rolling cage is arranged in each station on the gluing device for operation, and the gluing efficiency is effectively improved.

Drawings

Fig. 1 is a structural diagram of an embodiment of the sealing ring gluing device of the present invention.

Fig. 2 is a structural diagram of another angle of the sealing ring gluing device of the present invention.

Fig. 3 is a structural diagram of the dividing disc assembly and the rolling cage assembly in the embodiment of the sealing ring gluing device of the present invention.

Fig. 4 is a structural diagram of a rolling cage in an embodiment of the sealing ring gluing device of the present invention.

Fig. 5 is a structural diagram of the gum dipping assembly in the embodiment of the sealing ring gum coating device of the present invention.

Fig. 6 is a structural diagram of the first blowing assembly in the embodiment of the sealing ring gluing device of the present invention.

Fig. 7 is a structural diagram of a second blowing assembly in an embodiment of the sealing ring gluing device of the present invention.

The present invention will be further explained with reference to the drawings and examples.

Detailed Description

Referring to fig. 1 and 2, the sealing ring gluing device comprises a fixing frame 1, an index plate assembly 2, a rolling cage assembly 3, a glue dipping assembly 4, a first air blowing assembly 5 and a second air blowing assembly 6, wherein the index plate assembly 2, the glue dipping assembly 4, the first air blowing assembly 5 and the second air blowing assembly 6 are respectively arranged on the fixing frame 1.

The indexing disc assembly 2 comprises an indexing disc 21 and a connecting plate 22, the indexing disc 21 is connected with the connecting plate 22 through a connecting rod 23, the connecting rod 23 extends along the horizontal direction, the indexing disc 21 drives the connecting plate 22 to rotate in the vertical direction, and the rotating center line of the indexing disc 21 is parallel to the horizontal direction. In the present embodiment, the index plate 21 is a horizontal index plate 21, and the rotating plate of the index plate 21 is parallel to the connecting plate 22.

In this embodiment, the connecting plate 22 is circular, and four stations are arranged on the connecting plate 22 along the circumferential direction of the connecting plate 22, where the four stations are a feeding station 221, a glue dipping station 222, a residual glue blowing station 223, and a drying station 224, and correspond to a feeding step, a glue dipping step, a residual glue blowing step, and a drying step in the sealing ring gluing process, respectively. In this embodiment, the loading station 221 is disposed close to an operator, the glue dipping station 222 is disposed below the loading station 221, the residual glue blowing station 223 is disposed opposite to the loading station 221, the residual glue blowing station 223 is disposed far away from the operator, the drying station 224 is disposed at the top of the connecting plate 22, and the drying station 224 is disposed above the loading station 221.

The rolling cage assembly 3 comprises four rolling cages 31, the four rolling cages 31 are respectively a first rolling cage, a second rolling cage, a third rolling cage and a fourth rolling cage, the four rolling cages 31 are respectively arranged between the connecting plate 22 and the dividing plate 21, the four rolling cages 31 are arranged along the circumferential direction of the connecting plate 22 at equal intervals, the rolling cages 31 are cylindrical, and the axial direction of the rolling cages 31 is parallel to the rotating central axis of the connecting plate 22 and the connecting rod 23. Index plate 21 drive connecting plate 22 and four roll cages 31 and rotate, and four roll cages 31 get into foretell four stations respectively in proper order under the rotary drive of index plate 21 for at rubber coating device operation in-process, all have on every station to roll cage 31 and carry out the operation, a plurality of stations simultaneous operation effectively improve work efficiency.

In the present embodiment, four roller cages 31 are respectively rotated relative to the connecting plate 22, and referring to fig. 3, a second gear 32 is respectively connected to each roller cage 31, and the second gear 32 is located on the side of the connecting plate 22 away from the roller cages 31. The fixing frame 31 is provided with a rolling cage rotation driving assembly, the rolling cage rotation assembly comprises three rotation driving devices 30 and a motor frame 301, the rotation driving devices 30 are motors, the rotation driving devices 30 are arranged on the motor frame 301, and the motor frame 301 is arranged on the fixing frame 1. The rotation driving devices 33 are respectively connected with first gears, and the first gears are correspondingly engaged with the second gears 32 one by one. The three first gears are respectively arranged opposite to the glue dipping station 222, the residual glue blowing station 223 and the drying station 224, the second gear 32 on the rolling cage 31 in the feeding station 221 is not in meshed connection with the first gear, and the rolling cage 31 in the feeding station 221 does not need to rotate relative to the connecting plate 22.

Referring to fig. 4, the four rolling cages 31 have the same structure, the first rolling cage 31 includes two cage plates 33, a plurality of connecting bars 35, a cage cover 34 and a locking component 36, leak holes 37 are uniformly distributed on the cage cover 34 and the two cage plates 33, the plurality of connecting bars 35 are respectively connected between the two cage plates 33, the cage cover 34 is connected with the two cage plates 33 along the circumferential direction of the cage plates 33, and the connecting bars 35 are located on the inner side of the rolling cage 31. The locking assembly 36 comprises a locking seat 361, a locking piece 362, a mounting seat 363 and a driving piece 364, the locking assembly 36 is arranged on the outer side of the cage cover 34, a bending part 365 which is bent away from the driving piece 364 is arranged on the locking seat 361, the driving piece 364 is hinged to the mounting seat 363, the driving piece 364 can rotate around the mounting seat 363, and the mounting seat 363 is arranged on the connecting strip 35 through the leakage hole 37. The locking member 362 is provided with a curved portion 366, the locking member 362 is in the shape of a strip, and the locking member 362 is connected with the driving member 364. Since the mounting seat 363 is disposed on the connecting bar 35, the driving member 364 rotates toward the locking seat 361 to drive the bending portion 366 of the locking piece 362 to move away from the bending portion 365 of the locking seat 361, so that the locking piece 362 is disconnected from the locking seat 361, thereby opening the roller cage 31; the keyhole assembly 362 is driven to move away from the latch base 361, so as to drive the curved portion 366 of the latch assembly 362 to move towards the curved portion 365 of the latch base 361, thereby completing the connection between the latch assembly 361 and the latch base 362, and locking the roller cage 31.

In the present embodiment, the roller cage assembly 3 includes four protection hoods 38, the four protection hoods 38 and the four roller cages 31 are arranged in a one-to-one correspondence, and the four protection hoods 38 have the same structure. Four protective covers 38 are connected between the indexing disk 21 and the connecting plate 22, and the protective covers 38 always protect the roller cages 31 in a one-to-one correspondence during the rotation of the indexing disk 21. An opening 381 is formed in the shield 38, and the roller cage 31 passes through the opening 381 into the shield 38. The protection caps 38 are located on the outer peripheries of the roller cages 31, and four protection caps 38 are located between the roller cages 31 corresponding thereto and the rotational center axes of the index plate 21. The four protection hoods 38 are arranged close to the central axis of rotation of the indexing disk 21 in a concentrated manner, so that interference on the roller cage 31 at each station is avoided.

The dipping component 4 is located below the rolling cage component 3, referring to fig. 5, the dipping component 4 includes a dipping box 41 and a lifting driving component 42, the lifting driving component 42 drives the dipping box 41 to face the rolling cage component 3, so that the rolling cage 31 in the dipping station 222 can enter the dipping box 41, and the sealing ring in the rolling cage 31 can be fully dipped.

The lifting driving assembly 42 comprises a supporting plate 421, a lifting driving motor 422, a transmission assembly, four third gears 423, four racks 424 and an installation frame 425, the gum dipping box 41 is arranged on the supporting plate 421, the supporting plate 421 is arranged on the installation frame 425, the four racks 424 are respectively arranged on four corners of the installation frame 425, the racks 424 are arranged in a manner of extending along the vertical direction, and the racks 424 extend towards the rolling cage assembly 3. The lifting driving motor 422 and the transmission assembly are arranged on the side wall of the supporting plate 421, which is far away from the dipping box 41, the transmission assembly comprises a plurality of couplers 426 and a plurality of transmission rods 427, the lifting driving motor 422 is connected with the couplers 426, two opposite sides of the couplers 426 are respectively connected with the transmission rods 427, the transmission rods 427 are connected with another coupler 426 connected with another two transmission rods 427, so that the free ends of the transmission rods 427 are close to the racks 424, the four third gears 423 are respectively connected with the four transmission rods 427, the four third gears 423 and the four racks 424 are meshed in a one-to-one correspondence manner.

The sealing ring gluing device comprises a weighing sensor 7, a glue tank 8, a liquid supplementing valve and a liquid conveying pipe 9, the weighing sensor detects the weight of the glue dipping tank 41, the weighing sensor 7 outputs a weight signal to a control system of the gluing device, the liquid supplementing valve is arranged at a water outlet of the glue tank 8, the control system receives the weight signal and then outputs a control signal to the liquid supplementing valve, the liquid supplementing valve receives a liquid supplementing signal, the liquid conveying pipe 9 is connected between the liquid supplementing valve and the glue dipping tank 41, the glue tank 8 is arranged above the glue dipping tank 41, the valve is opened after the liquid supplementing valve receives the control signal, glue in the glue tank 8 flows into the glue dipping tank 41 through gravity, and the glue in the glue dipping tank 41 is supplemented in time. In this embodiment, two opposite sides of the dipping tank 41 are respectively provided with an avoiding groove 411, and an opening 412 of the avoiding groove 411 faces the roller cage 31 and is connected with the connecting shaft of the connecting plate 22 or the dividing plate 21, so that the roller cage 31 enters the dipping tank 41 in a larger volume and does not affect the rotation of the roller cage 31 relative to the connecting plate 22, and the dipping effect is better.

Referring to fig. 6, the first purge assembly 5 includes a plurality of first purge pipes 51, a third mask 52, and a third mask driving assembly 53, the third mask driving assembly 53 driving the third mask 52 to move toward the roller cage assembly 3, the third mask 52 moving in a horizontal direction. In the present embodiment, the first air blowing assembly 5 is located in the residual glue blowing station 223, and air blows to the sealing ring in the roller cage 31 to remove residual glue on the sealing ring. The top of the third protecting cover 52 is provided with a plurality of first ventilation openings 521, the plurality of first ventilation openings 521 are arranged in a collinear manner, the first air blowing pipes 51 are arranged in a one-to-one correspondence with the first ventilation openings 521, the first air blowing pipes 51 are positioned on one side of the third protecting cover 52 far away from the rolling cage assembly 3, and the air outlets of the first air blowing pipes 51 face towards the rolling cage assembly 3. In this embodiment, a plurality of first vents 521 and first air blowing pipes 51 are respectively arranged on two opposite side walls of the third protection cover 5, so that the first air blowing pipes 51 are respectively arranged on the side walls of the third protection cover 52, the air blowing range on the residual rubber blowing station 223 is wider, and the residual rubber blowing effect of the sealing ring in the roller cage 31 is better. The third shield driving assembly 53 includes a cylinder 531 and a guide rail 532, the cylinder 532 drives the third shield 51 to move along the extending direction of the guide rail 532, and the guide rail 532 extends in the horizontal direction toward the roll cage assembly 3.

Referring to fig. 7, the second blowing assembly 6 includes a plurality of second blowing pipes 61, a fourth shield 62, and a fourth shield driving assembly 63, the fourth shield driving assembly 63 drives the fourth shield 62 to move toward the roll cage assembly 3, and the fourth shield 62 moves in a vertical direction. In this embodiment, the second air blowing assembly 6 is located in the drying station 224, and air blows to the sealing ring in the roller cage 31 to remove residual glue on the sealing ring. The top of the fourth protection cover 62 is provided with a plurality of second vents 621, the plurality of second vents 621 are arranged in a collinear manner, the second air blowing pipes 61 are arranged in a one-to-one correspondence with the second vents 621, the second air blowing pipes 61 are located on one side of the fourth protection cover 62 away from the rolling cage assembly 3, and air outlets of the second air blowing pipes 61 face towards the rolling cage assembly 3. In this embodiment, a plurality of second vents 621 and second blowing pipes are respectively disposed on two opposite side walls of the fourth protection cover 62, so that the second blowing pipes 61 are respectively disposed on the side walls of the fourth protection cover 62, the blowing range on the drying station 224 is wider, and the drying effect of the sealing ring in the roller cage 31 is better. In the present embodiment, the avoiding grooves 10 are respectively formed on the third protecting cover 52 and the fourth protecting cover 62, and when the third protecting cover 52 and the fourth protecting cover 62 respectively move towards the rolling cage 31, the avoiding grooves 10 are used for avoiding the connecting shaft on the rolling cage 31, so that the rolling cage 31 can enter the protecting cover.

The index plate 21 drives the connecting plate 22 to rotate to drive the rolling cages 31 connected between the connecting plate 22 and the index plate 21 to rotate, four stations designed on the sealing ring gluing device respectively correspond to a feeding step, a glue dipping step, a residual glue blowing step and a drying step in the gluing process, the rolling cages 31 in the rolling cage assembly 3 respectively perform the stations corresponding to the four steps under the rotary drive of the index plate 21, so that the four rolling cages 31 simultaneously operate in the gluing device, a plurality of batches of sealing rings can simultaneously perform the gluing process, the next batch of sealing rings can be glued without finishing the gluing of one batch of sealing rings, and the working efficiency of the gluing of the sealing rings is improved.

In this embodiment, the roller cage 31 in the loading station 221 is manually disassembled, and the sealing ring is installed in the roller cage 31. After the roll cages 31 are installed, the indexing disc 21 is driven to rotate, the four roll cages 31 of the connecting plate 22 start to rotate, and the roll cages 31 in the feeding station 221 enter the glue dipping station 222. The lifting driving component 42 drives the rubber dipping box 41 to ascend towards the roller cage component 3, so that the roller cage 31 on the rubber dipping station 222 enters the rubber dipping box 41 to start rubber dipping, and in the rubber dipping process, the roller cage 31 rotates relative to the connecting plate 22, so that the rubber dipping of the sealing ring is more sufficient. After gum dipping is completed, the lifting driving assembly 42 drives the gum dipping box 41 to descend, the rolling cage 31 stops rotating relative to the connecting plate 22, draining is performed, and redundant gum in the rolling cage 31 drops into the gum dipping box 41. After the draining is completed, the indexing disc 21 drives the rolling cage 31 to move towards the cull blowing station 223, the third protection cover driving assembly 53 drives the third protection cover 52 to move towards the rolling cage 31 in the cull blowing station 223, the gas of the first gas blowing pipe 51 passes through the first gas vent 521 to remove cull from the sealing ring in the rolling cage 31, and the rolling cage 31 in the cull blowing station 223 keeps rotating relative to the connecting plate 22 in the gas blowing process. After the residual glue blowing step is completed, the third protection cover driving component 53 drives the third protection cover 52 to be far away from the rolling cage component 3 to move, the dividing plate 21 drives the rolling cage 31 to enter the drying station 224, the fourth protection cover driving component 63 drives the fourth protection cover 62 to move towards the rolling cage component 3, the air of the second air blowing pipe 61 passes through the second air vent 621 to dry the sealing ring in the rolling cage 31, and in the drying process, the rolling cage 31 keeps rotating relative to the connecting plate 22. And (3) moving the roller cage 31 after the drying step to the feeding station 221, disassembling and discharging the roller cage 31 in the feeding station 221 by an operator, installing the roller cage 31 after recharging, and performing the next gluing process.

It is emphasized that the above-described preferred embodiments of the present invention are merely examples of implementations, which are not intended to limit the scope of the invention, and that various changes and modifications may be made by those skilled in the art, all without departing from the spirit and scope of the invention.

Claims (10)

1. Sealing washer rubber coating device, its characterized in that includes:

the dividing disc assembly comprises a dividing disc and a connecting plate, the dividing disc drives the connecting plate to rotate in the vertical direction, and the rotating center line of the dividing disc is parallel to the horizontal direction;

the rolling cage assembly comprises a first rolling cage and a second rolling cage, the first rolling cage and the second rolling cage are respectively connected between the index plate and the connecting plate, and the first rolling cage and the second rolling cage respectively rotate corresponding to the connecting plate;

the glue dipping assembly is positioned below the cage rolling assembly and comprises a glue dipping box and a lifting driving assembly, and the lifting driving assembly drives the glue dipping box to move towards the cage rolling assembly;

the first air blowing assembly comprises a first air blowing pipe, and an air outlet of the first air blowing pipe faces the rolling cage assembly;

and the second air blowing assembly comprises a second air blowing pipe, and an air outlet of the second air blowing pipe faces the rolling cage assembly.

2. A seal ring gluing device according to claim 1, wherein:

the sealing ring gluing device comprises two rotation driving devices, rotating shafts of the rotation driving devices are respectively connected with first gears, first rolling cages and second rolling cages are respectively connected with second gears, the second gears are located on the side walls of the first gears, and the first gears and the second gears are respectively meshed in a one-to-one correspondence mode.

3. A seal ring gluing device according to claim 1, wherein:

the first rolling cage comprises two cage plates, a plurality of connecting strips, a cage cover and a lock catch assembly, leak holes are distributed in the cage cover, the connecting strips are connected between the two cage plates, the cage cover is connected with the two cage plates along the circumferential direction of the cage cover, and the connecting strips are positioned in the first rolling cage;

the locking assembly comprises a locking seat, a locking piece and a driving piece, the locking assembly is located on the outer side wall of the cage cover, the driving piece penetrates through the leakage hole and is hinged to the connecting strip, the driving piece faces towards or is far away from the locking seat and rotates, the locking piece is connected with the driving piece, and the locking seat is connected with the locking piece in a matched mode.

4. A seal ring gluing device according to claim 1, wherein:

the rolling cage assembly comprises a first protective cover and a second protective cover, the first protective cover is located on the periphery of the first rolling cage, the second protective cover is located on the periphery of the second rolling cage, the first protective cover and the second protective cover are respectively and fixedly connected between the connecting plate and the dividing discs, the first protective cover is located between the first rolling cage and the rotating central axis of the dividing discs, and the second protective cover is located between the second rolling cage and the rotating central axis of the dividing discs.

5. A seal ring gluing device according to claim 1, wherein:

first subassembly of blowing includes third protecting hood and third protecting hood drive assembly, third protecting hood drive assembly drive the third protecting hood orientation roll the cage subassembly and remove, the third protecting hood removes along the horizontal direction, the third protecting hood is provided with a plurality of first blow vents, first blowing pipe with first blow vent one-to-one sets up.

6. A seal ring gluing device according to claim 1, wherein:

the second subassembly of blowing includes fourth protection cover and fourth protection cover drive assembly, fourth protection cover drive assembly drive the fourth protection cover orientation the roll cage subassembly removes, the fourth protection cover removes along vertical direction, the fourth protection cover is provided with a plurality of second air vents, the second gas blow pipe with the setting of second air vent one-to-one.

7. A seal ring gluing device according to claim 1, wherein:

the lifting driving assembly comprises a lifting driving motor, a transmission assembly, a plurality of third gears, a plurality of racks and a mounting frame, the lifting driving motor drives the third gears to rotate through the transmission assembly, the racks are fixed on the mounting frame, the third gears are meshed with the racks in a one-to-one correspondence mode, and the racks extend in the vertical direction.

8. A seal ring gluing device according to claim 1, wherein:

the sealing washer rubber coating device includes weighing sensor, glues water tank, fluid infusion valve and transfer line, weighing sensor detects the weight of soakage case, weighing sensor output weight signal, it is located to glue the water tank the top of soakage case, the delivery port department of gluing the water tank is provided with the fluid infusion valve, the fluid infusion valve receives the fluid infusion signal, the transfer line is connected the fluid infusion valve with between the soakage case.

9. A seal ring gluing device according to claim 1, wherein:

two opposite sides of the impregnation box are respectively provided with an avoiding groove, and an opening of the avoiding groove faces the rolling cage assembly.

10. A seal ring gluing device according to any one of claims 1 to 9, wherein:

the rolling cage assembly comprises a third rolling cage and a fourth rolling cage, the third rolling cage and the fourth rolling cage are respectively arranged between the connecting plate and the dividing plate, and the first rolling cage, the second rolling cage, the third rolling cage and the fourth rolling cage are arranged at equal intervals along the circumferential direction of the connecting plate.

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