CN209736951U

CN209736951U - Full-automatic filter core assembly quality

Info

Publication number: CN209736951U
Application number: CN201920121241.XU
Authority: CN
Inventors: 沈为龙
Original assignee: Shanghai Foresight Robotics Co Ltd
Current assignee: Shanghai Forsyte Robot Co ltd
Priority date: 2019-01-24
Filing date: 2019-01-24
Publication date: 2019-12-06
Anticipated expiration: 2029-01-24

Abstract

The utility model discloses a full-automatic filter element assembling device, which is used for assembling a filter element after winding and comprises a cutting unit, an O-shaped ring assembling unit, an air tightness detecting unit, a Y-shaped ring assembling unit, a labeling unit and a tape winding unit; the input port of the input port connecting device of the cutting unit, the input port of O type circle assembly unit is connected to the output port of cutting unit, the input port of gas tightness detecting element is connected to the output port of O type circle assembly unit, the input port of Y type circle assembly unit is connected to the output port of gas tightness detecting element, the input port of labelling the unit is connected to the output port of Y type circle assembly unit, the output port of labelling the unit is connected and is twined the output port of sticky tape unit, twine the output port connecting device's of sticky tape unit output port. The utility model provides a pair of full-automatic filter core assembly quality can realize automatic production, need not artificial intervention in the whole assembling process, does not occupy the storage, the purpose that information can be traced.

Description

Full-automatic filter core assembly quality

Technical Field

The utility model relates to a filter core field of making, concretely relates to full-automatic filter core assembly quality.

Background

The filter element of our common water purification industry is generally composed of a double-layer fiber structure, namely, a so-called coarse net, a membrane, a fine net and the like, which is composed of a fine fiber layer and an outer coarse fiber layer. This structure effectively reduces pressure loss and maintains stable filtration efficiency. The pore diameters of the micropores of the filter element are distributed in a gradient manner along the diameter direction, and during filtering, the part with large pore diameter can sufficiently contain larger particle impurities, so that the filter element is prevented from being blocked quickly, and good shape rigidity is provided; the part with small pore diameter can block fine particles, thereby ensuring the filtering precision, avoiding the defects of quick blockage and short service life of a filter element with high precision, reducing the filtering resistance, reducing the energy consumption of equipment and prolonging the service life of the filter element.

The filter element needs to be assembled in the later period after being wound, the processes of cutting redundant parts on two sides, sealing, winding adhesive tapes and the like are included, the traditional manual assembly is low in efficiency and high in cost, secondary pollution can be caused, and the market demand cannot be met. Semi-automatic filter element production equipment developed later is all horizontal equipment, and the filter element is horizontal in the assembling process, and the requirement for filter element positioning is increased by the aid of the horizontal semi-automatic equipment. And the automatic production can not be connected, so that the storage requirement is greatly increased, and the difficulty of information tracing is also increased.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of full-automatic filter core assembly quality can realize automatic production, need not artificial intervention in the whole assembling process, does not occupy the storage, the purpose that information can be traced.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a full-automatic filter element assembling device is used for assembling a wound filter element and comprises a cutting unit, an O-shaped ring assembling unit, an air tightness detection unit, a Y-shaped ring assembling unit, a labeling unit and a tape winding unit; the input port of the cutting unit is connected with the input port of the device, the output port of the cutting unit is connected with the input port of the O-shaped ring assembling unit, the output port of the O-shaped ring assembling unit is connected with the input port of the air tightness detecting unit, the output port of the air tightness detecting unit is connected with the input port of the Y-shaped ring assembling unit, the output port of the Y-shaped ring assembling unit is connected with the input port of the labeling unit, the output port of the labeling unit is connected with the output port of the adhesive tape winding unit, and the output port of the adhesive tape winding unit is connected with the output port;

The filter core after coiling gets into in the cutting unit, the cutting unit cuts and peels off the both sides of filter core, and the filter core after will cutting and peeling off transmits to O type circle assembly unit, O type circle assembly unit is at the one end assembly O type circle of filter core, and transmit the filter core after assembling O type circle extremely gas tightness detecting element, gas tightness detecting element carries out the gas tightness to the filter core and detects, and will detect qualified filter core transmission extremely Y type circle assembly unit, Y type circle assembly unit assembles Y type circle at the other end of filter core, and transmit the filter core after assembling Y type circle extremely label unit, label unit labels on the filter core surface, and will label the filter core after transmit to twine the sticky tape unit, twine sticky tape unit twine the sticky tape on the filter core surface to export the filter core.

Further, the cutting unit comprises a transmission rail, two cutting subunits and two stripping subunits, the two cutting subunits are symmetrically located on the left side and the right side of the transmission rail, the two stripping subunits are symmetrically located on the left side and the right side of the transmission rail, and the stripping subunits are located behind the cutting subunits.

Further, the conveying track comprises a lifting servo motor for adjusting the height of the conveying track.

Furthermore, the O-shaped ring assembly unit comprises an O-shaped ring vibration disc, an O-shaped ring conveying line, an O-shaped ring two-dimensional linear module and an O-shaped ring cylinder, wherein the output port of the cutting unit is connected with the O-shaped ring two-dimensional linear module, the O-shaped ring two-dimensional linear module is connected with the O-shaped ring vibration disc through the O-shaped ring conveying line, the O-shaped ring cylinder is installed on the O-shaped ring two-dimensional linear module, the O-shaped ring two-dimensional linear module comprises an O-shaped ring one-dimensional linear module I and an O-shaped ring one-dimensional linear module II which are perpendicular to each other, the O-shaped ring in the O-shaped ring vibration disc is transmitted to the O-shaped ring two-dimensional linear module through the O-shaped ring conveying line, and the O-shaped ring is positioned at one end of the filter, the O-shaped ring cylinder extends out, and the O-shaped ring is assembled at one end of the filter element.

Further, gas tightness detecting element is including detecting cylinder I, detecting cylinder II, detection cavity and vacuum pump, it fixes to detect cylinder I and II symmetries of detection cylinder the both sides of detecting the cavity, the filter core is located in detecting the cavity, and the one end of installing O type circle in the filter core is fixed detect cylinder I, and the one end of not installing O type circle is fixed detect cylinder II is last, it connects to detect cylinder I the vacuum pump when detecting cylinder I and detecting cylinder II and support the filter core both ends simultaneously, detects through the vacuum pump evacuation the gas tightness of filter core.

Further, the Y-shaped ring assembly unit comprises a Y-shaped ring vibration disc, a Y-shaped ring one-dimensional linear model I, a Y-shaped ring one-dimensional linear module II, a Y-shaped ring conveying line, a grabbing subunit and a holding subunit; the Y-shaped ring one-dimensional linear model I is connected with the grabbing subunit, the Y-shaped ring one-dimensional linear module II is connected with the clasping subunit, and the Y-shaped ring conveying line is connected with the Y-shaped ring vibrating disc and the grabbing unit.

further, the labeling unit comprises an ejector pin, a rotating motor, a label one-dimensional linear module, a labeling machine and an ejector pin cylinder, the ejector pin is located on the label one-dimensional linear module, the ejector pin is connected with the rotating motor and the ejector pin cylinder, the cylinder pushes the ejector pin to enter the filter element, and the rotating motor drives the filter element to rotate, so that the labeling machine can attach the label to the filter element.

Further, the tape winding unit includes a transfer line, a tape supplying sub-unit, and a winding sub-unit; the adhesive tape supply subunit and the winding subunit are respectively positioned at two sides of the conveying line; the winding subunit comprises a rotating motor, a pressing cylinder and a positioning pin, the positioning pin is positioned above the filter element in the conveying line, the pressing cylinder is positioned above the positioning pin, and the rotating motor is positioned above the pressing cylinder; the adhesive tape supply sub-unit comprises an adhesive tape roll, a pressing block, a feeding air cylinder, a sliding table pressing air cylinder and a cutter, wherein the cutter is located above an outlet of the pressing block, an inlet of the pressing block is connected with the adhesive tape roll, the outlet of the pressing block is opposite to the filter core, the sliding table pressing air cylinder is located on one side of the conveying unit, the pressing block, the sliding table pressing air cylinder and the cutter are all installed on a feeding plate, and the feeding plate is connected with the feeding air cylinder.

Further, the conveying line comprises a double-station bottom plate.

The utility model has the advantages that: the utility model discloses well cutting unit, O type circle assembly unit, gas tightness detecting element, Y type circle assembly unit, label the unit and twine the sticky tape unit and connect gradually for the filter core can assemble in automatic transmission to next unit, need not set up storage unit in each unit and carry out storage filter core. And simultaneously the utility model discloses a full automatic device makes whole assembly process need not artificial interference, has improved the production efficiency of filter core greatly, can also avoid the instability factor that manual operation brought.

Drawings

Fig. 1 is the utility model relates to a full-automatic filter core assembly quality's connection schematic diagram.

Fig. 2 is a schematic structural diagram of the middle cutting unit of the present invention.

Fig. 3 is the utility model discloses well O type circle assembly unit's schematic structure.

Fig. 4 is the structure diagram of the air tightness detecting unit of the present invention.

Fig. 5 is the utility model discloses well Y type circle assembly unit's schematic structure.

Fig. 6 is a schematic structural diagram of the labeling unit of the present invention.

Fig. 7 is a schematic structural diagram of the middle wound tape unit of the present invention.

in the figure: 1 cutting unit, 2O type circle assembly cell, 3 gas tightness detecting element, 4Y type circle assembly cell, 5 labelling unit, 6 twine the sticky tape unit, 11 transmission tracks, 12 cutting subunit, 13 strip the material subunit, 21O type circle vibration dish, 22O type circle two-dimensional linear module, 23O type circle cylinder, 31 detect cylinder I, 33 detect cylinder II, 32 detect the cavity, 34 vacuum pump, 41Y type circle vibration dish, 42Y type circle transfer chain, 43Y type circle one-dimensional linear module II, 44 hugs the subunit, 45 snatch the subunit, 51 label one-dimensional linear module, 52 labeller, 53 rotating electrical machines, 61 twines the module, 62 rotating electrical machines, 63 slip table compress tightly the cylinder, 64 supply module, 65 pay-off cylinder, 66 sticky tape book, 67 duplex position bottom plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings.

As shown in the attached drawing 1, the utility model provides a full-automatic filter element assembling device for assembling the filter element after winding, which comprises a cutting unit 1, an O-shaped ring assembling unit 2, an air tightness detecting unit 3, a Y-shaped ring assembling unit 4, a labeling unit 5 and a tape winding unit 6; the filter core after coiling gets into cutting unit 1, cutting unit 1 cuts and peels off the both sides of filter core, and transmit the filter core after peeling off the cutting to O type circle assembly cell 2, O type circle assembly cell 2 assembles O type circle in the one end of filter core, and transmit the filter core after assembling O type circle to gas tightness detecting element 3, gas tightness detecting element 3 carries out the gas tightness to the filter core and detects, and transmit the qualified filter core that will detect to Y type circle assembly cell 4, Y type circle assembly cell 4 assembles Y type circle at the other end of filter core, and transmit the filter core after assembling Y type circle to labelling unit 5, labelling unit 5 labels on the filter core surface, and transmit the filter core after will labeling to twine sticky tape unit 6, twine sticky tape unit twines the sticky tape on the filter core surface, and export the filter core.

Referring to fig. 2, the cutting unit 1 includes a conveying track 11, two cutting subunits 12 and two stripping subunits 13, the two cutting subunits 12 are symmetrically located at the left and right sides of the conveying track 11, the two stripping subunits 13 are symmetrically located at the left and right sides of the conveying track 11, and the stripping subunits 13 are located behind the cutting subunits 13. The transmission track includes lift servo motor for the height of adjustment transmission track, and specific altitude mixture control adjusts according to the height and the technological parameter of filter core. The motion track of the filter element on the transmission track is from the cutting subunit to the stripping subunit, so that the redundant winding film at the two ends of the filter element is cut and stripped. Specifically, the conveying track comprises a rotary servo motor, an even-dividing synchronous belt, a synchronous belt wheel, a lifting servo motor and the like, so that the filter element is conveyed.

Referring to the attached drawing 3, the O-ring assembling unit 2 comprises an O-ring vibration disc 21, an O-ring conveying line, an O-ring two-dimensional linear module 22 and an O-ring cylinder 23, wherein an output port of the cutting unit is connected with the O-ring two-dimensional linear module 22, the O-ring two-dimensional linear module is connected with the O-ring vibration disc 21 through the O-ring conveying line, the O-ring cylinder is installed on the O-ring two-dimensional linear module, the O-ring two-dimensional linear module comprises an O-ring one-dimensional linear module i and an O-ring one-dimensional linear module ii which are perpendicular to each other, the O-ring in the O-ring vibration disc is conveyed into the O-ring two-dimensional linear module through the O-ring conveying line, the O-ring is positioned at one end of the filter element by moving the O-ring one-dimensional linear module i and the O-, Grabbing and peeling off so that the O-shaped ring is assembled at one end of the filter element.

Referring to fig. 4, the air tightness detecting unit 3 includes a detecting cylinder i 31, a detecting cylinder ii 33, a detecting chamber 32 and a vacuum pump 34, the detecting cylinder i 31 and the detecting cylinder ii 33 are symmetrically fixed at two sides of the detecting chamber 32, the filter element is located in the detecting chamber 32, one end of the filter element, where the O-ring is installed, is fixed at the detecting cylinder i 31, one end, where the O-ring is not installed, is fixed at the detecting cylinder ii 33, the detecting cylinder i 31 is connected with the vacuum pump 34, when the detecting cylinder i 31 and the detecting cylinder ii 33 simultaneously abut against two ends of the filter element and are compressed, so that two sides of the filter element are closed and fixed, at this time, the vacuum pump 34 is used for vacuumizing to detect the air tightness of the filter element, and when the vacuum pump is.

Referring to fig. 5, the Y-shaped ring assembly unit 4 includes a Y-shaped ring vibration plate 41, a Y-shaped ring one-dimensional linear model i, a 43Y-shaped ring one-dimensional linear module ii, a 42Y-shaped ring conveying line, a 45 grabbing subunit and a 44 clasping subunit; the Y-shaped ring one-dimensional linear model I is connected with the grabbing subunit 45 and used for adjusting the upper position and the lower position of the grabbing subunit; the Y-shaped ring one-dimensional linear module II 43 is connected with the enclasping subunit 44 and is used for adjusting the upper position and the lower position of the enclasping subunit; the Y-ring transfer line 42 connects the Y-ring vibration plate 41 and the grasping unit 45. Specifically, the grabbing subunit 45 comprises a servo motor, a gear I, a clamping jaw I and the like, and the gear is controlled to rotate through the rotation of the servo motor, so that the clamping jaw is controlled to stretch and retract, and the grabbing purpose is achieved; the clasping subunit 44 comprises an air cylinder II and a clamping jaw II, and the purpose of clasping is achieved by stretching of the air cylinder. The grabbing subunit is used for grabbing the Y-shaped ring and positioning the Y-shaped ring at one end of the filter element, which is not provided with the O-shaped ring, and meanwhile, the clasping subunit is used for propping open and fixing the Y-shaped ring on the filter element.

Referring to fig. 6, the labeling unit 5 includes a thimble, a rotating motor 53, a one-dimensional linear module 51, a labeling machine 52 and a thimble cylinder, the thimble is located on the one-dimensional linear module, and the one-dimensional linear module can drive the thimble to move, and the thimble is connected to the rotating motor and the thimble cylinder, when the filter element is transferred to the fixed position of the unit, the one-dimensional linear module drives the thimble to move above the filter element, the cylinder drives the thimble to enter the filter element and fix the filter element, the rotating motor 53 drives the filter element to rotate, so that the labeling machine located on one side of the filter element can attach the label to the filter element.

Referring to fig. 7, the tape winding unit includes a conveying line, a tape supplying sub-unit, and a winding sub-unit; the adhesive tape supply subunit and the winding subunit are respectively positioned at two sides of the conveying line; the winding subunit comprises a rotating motor 62, a pressing cylinder, a winding module and a positioning pin, wherein the positioning pin is positioned above the filter element in the conveying line, the pressing cylinder is positioned above the positioning pin, the rotating motor 62 is positioned above the pressing cylinder, the pressing cylinder is arranged on the winding module, and the winding module can adjust the upper and lower positions of the pressing cylinder and the positioning pin; the adhesive tape supply subunit comprises an adhesive tape roll 66, a pressing block, a feeding cylinder 65, a sliding table pressing cylinder 63 and a cutter, wherein the cutter is positioned above an outlet of the pressing block, the inlet of the pressing block is connected with the adhesive tape roll 66, the outlet of the pressing block is just opposite to the filter core, the sliding table pressing cylinder 63 is positioned on one side of the conveying unit, the pressing block, the sliding table pressing cylinder 63 and the cutter are all installed on a feeding plate, and the feeding cylinder 65 is connected with the feeding plate. When the feeding plate is pushed out, the pressing block and the adhesive tape at the outlet of the pressing block are close to the filter element, and at the moment. The filter core rotates under the drive that rotates motor 62 for the sticky tape winding is on the filter core, twines the sticky tape and accomplishes afterwards, and the cutter cuts off the sticky tape, and simultaneously, the slip table compresses tightly the afterbody that cylinder 63 compressed tightly the sticky tape on the filter core, and simultaneously, it is rotatory to rotate the motor and drive the filter core, makes the sticky tape afterbody flattened. The transfer chain includes duplex position bottom plate 67, and duplex position bottom plate is used for placing two filter cores.

The utility model discloses well cutting unit, O type circle assembly unit, gas tightness detecting element, Y type circle assembly unit, label the unit and twine the sticky tape unit and connect gradually for the filter core can assemble in automatic transmission to next unit, need not set up storage unit in each unit and carry out storage filter core. And simultaneously the utility model discloses a full automatic device makes whole assembly process need not artificial interference, has improved the production efficiency of filter core greatly, can also avoid the instability factor that manual operation brought.

The above description is only a preferred embodiment of the present invention, and the embodiment is not intended to limit the scope of the present invention, so that all the structural changes equivalent to the contents of the description and the drawings of the present invention are included in the scope of the appended claims of the present invention.

Claims

1. A full-automatic filter element assembling device is used for assembling a wound filter element and is characterized by comprising a cutting unit, an O-shaped ring assembling unit, an air tightness detecting unit, a Y-shaped ring assembling unit, a labeling unit and a tape winding unit; the input port of the cutting unit is connected with the input port of the device, the output port of the cutting unit is connected with the input port of the O-shaped ring assembling unit, the output port of the O-shaped ring assembling unit is connected with the input port of the air tightness detecting unit, the output port of the air tightness detecting unit is connected with the input port of the Y-shaped ring assembling unit, the output port of the Y-shaped ring assembling unit is connected with the input port of the labeling unit, the output port of the labeling unit is connected with the output port of the adhesive tape winding unit, and the output port of the adhesive tape winding unit is connected with the output port;

2. The fully automatic filter element assembling device according to claim 1, wherein the cutting unit comprises a conveying track, two cutting subunits and two stripping subunits, the two cutting subunits are symmetrically located at the left side and the right side of the conveying track, the two stripping subunits are symmetrically located at the left side and the right side of the conveying track, and the stripping subunits are located behind the cutting subunits.

3. The fully automated filter cartridge assembly apparatus of claim 2, wherein the transport track includes a lift servo motor for adjusting the height of the transport track.

4. The fully automatic filter element assembling device according to claim 1, wherein the O-ring assembling unit comprises an O-ring vibration disc, an O-ring conveying line, an O-ring two-dimensional linear module and an O-ring air cylinder, wherein the output port of the cutting unit is connected with the O-ring two-dimensional linear module, the O-ring two-dimensional linear module is connected with the O-ring vibration disc through the O-ring conveying line, the O-ring air cylinder is installed on the O-ring two-dimensional linear module, the O-ring two-dimensional linear module comprises an O-ring one-dimensional linear module I and an O-ring one-dimensional linear module II which are perpendicular to each other, the O-ring in the O-ring vibration disc is conveyed into the O-ring two-dimensional linear module through the O-ring conveying line, and the O-ring one-dimensional linear module I and the O-ring one-dimensional linear module II move in, and positioning the O-shaped ring at one end of the filter element, extending out of the O-shaped ring cylinder, and assembling the O-shaped ring at one end of the filter element.

5. The full-automatic filter core assembly quality of claim 1, characterized in that, gas tightness detecting element is including detecting cylinder I, detecting cylinder II, detection cavity and vacuum pump, detecting cylinder I is fixed with II symmetries of detecting cylinder the both sides of detecting the cavity, the filter core is located detect in the cavity, and the one end of installing O type circle in the filter core is fixed detecting cylinder I, and the one end of not installing O type circle is fixed on detecting cylinder II, detecting cylinder I connects the vacuum pump, when detecting cylinder I and detecting cylinder II supported the filter core both ends simultaneously, through the vacuum pump evacuation detection the gas tightness of filter core.

6. The full-automatic filter element assembling device according to claim 1, wherein the Y-shaped ring assembling unit comprises a Y-shaped ring vibration disc, a Y-shaped ring one-dimensional linear model I, a Y-shaped ring one-dimensional linear module II, a Y-shaped ring conveying line, a grabbing sub-unit and a holding sub-unit; the Y-shaped ring one-dimensional linear model I is connected with the grabbing subunit, the Y-shaped ring one-dimensional linear module II is connected with the clasping subunit, and the Y-shaped ring conveying line is connected with the Y-shaped ring vibrating disc and the grabbing unit.

7. The fully automatic filter element assembling apparatus according to claim 1, wherein the labeling unit comprises a thimble, a rotating motor, a one-dimensional label linear module, a labeling machine, and a thimble cylinder, the thimble is disposed on the one-dimensional label linear module, and the thimble is connected to the rotating motor and the thimble cylinder, the cylinder pushes the thimble into the filter element, and the rotating motor rotates the filter element, so that the labeling machine attaches the label to the filter element.

8. The fully automated cartridge assembly apparatus of claim 1, wherein the taping unit includes a conveyor line, a tape supply subunit, and a winding subunit; the adhesive tape supply subunit and the winding subunit are respectively positioned at two sides of the conveying line; the winding subunit comprises a rotating motor, a pressing cylinder and a positioning pin, the positioning pin is positioned above the filter element in the conveying line, the pressing cylinder is positioned above the positioning pin, and the rotating motor is positioned above the pressing cylinder; the adhesive tape supply sub-unit comprises an adhesive tape roll, a pressing block, a feeding air cylinder, a sliding table pressing air cylinder and a cutter, wherein the cutter is located above an outlet of the pressing block, an inlet of the pressing block is connected with the adhesive tape roll, the outlet of the pressing block is opposite to the filter core, the sliding table pressing air cylinder is located on one side of the conveying unit, the pressing block, the sliding table pressing air cylinder and the cutter are all installed on a feeding plate, and the feeding plate is connected with the feeding air cylinder.

9. The fully automated cartridge assembly apparatus of claim 8, wherein the conveyor line includes a dual station floor.