CN109080924B - Filter shell labeling equipment - Google Patents

Abstract

The filter shell labeling equipment comprises a workbench, a turntable feeding mechanism, a shell feeding mechanism, a feeding detection mechanism, a rubber head mounting mechanism, a label laminating mechanism, a label hot-pressing mechanism and a shell blanking structure, wherein the turntable feeding mechanism is arranged on the workbench, and the shell feeding mechanism, the feeding detection mechanism, the rubber head mounting mechanism, the label laminating mechanism, the label hot-pressing mechanism and the shell blanking structure are sequentially arranged on the workbench around the turntable feeding mechanism; according to the filter shell labeling equipment, the workbench, the turntable feeding mechanism, the shell feeding mechanism, the feeding detection mechanism, the rubber head mounting mechanism, the label laminating mechanism, the label hot-pressing mechanism and the shell blanking structure are arranged, so that the process operations of feeding, rubber head mounting, label tearing, labeling, hot-pressing label, blanking and the like of the filter shell are completed, and a manual operation mode is replaced, so that the production and processing efficiency and the processing precision can be effectively improved.

Description

Filter shell labeling equipment

Technical Field

The invention relates to the technical field of filter production, in particular to a filter shell labeling device.

Background

The filter functions to allow a signal of a certain frequency to pass smoothly, while a signal of another frequency is greatly suppressed, which is essentially a frequency selective circuit. In the filter, a frequency range through which a signal can pass is called a passband or passband; conversely, the frequency range in which the signal is greatly attenuated or completely suppressed is called the stop band; the demarcation frequency between the pass band and the stop band is referred to as the cut-off frequency; the voltage gain of the ideal filter in the passband is constant, and the voltage gain in the stopband is zero; there is a transition band of a certain frequency range between the pass band and the stop band of the actual filter.

As shown in fig. 1, a filter housing 10 is disclosed, the filter housing 10 includes a housing body 11, a first fixed clamping block 12 and a second fixed clamping block 13, the first fixed clamping block 12 and the second fixed clamping block 13 are respectively disposed at two sides of the housing body 11, the first fixed clamping block 12 and the second fixed clamping block 13 mutually surround to form a containing cavity 14, and clamping gaps 15 are disposed at the bottom of the first fixed clamping block 12 and the bottom of the second fixed clamping block 13; round holes 16 for mounting the rubber heads are formed in four opposite corners of the shell body 11.

In the process of manufacturing the filter housing 10, it is necessary to perform a labeling process for the injection-molded filter housing 10. The existing filter housing 10 labeling processing needs to be subjected to technological operations such as feeding, glue head installation, label tearing, labeling, hot-pressing label and blanking, and the existing processing mode is generally to manually carry out assembly line processing operation, so that the production efficiency is low, and defects of label missing or label attaching unevenness are easy to occur, so that the quality of production and processing is low.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides the filter shell labeling equipment which can replace manual labeling process processing on the filter shell and has higher production efficiency and production quality.

The aim of the invention is realized by the following technical scheme:

the filter shell labeling equipment comprises a workbench, a rotary table feeding mechanism, a shell feeding mechanism, a feeding detection mechanism, a rubber head mounting mechanism, a label laminating mechanism, a label hot-pressing mechanism and a shell blanking structure, wherein the rotary table feeding mechanism is mounted on the workbench, and the shell feeding mechanism, the feeding detection mechanism, the rubber head mounting mechanism, the label laminating mechanism, the label hot-pressing mechanism and the shell blanking structure are sequentially arranged on the workbench around the rotary table feeding mechanism;

the turntable feeding mechanism comprises a feeding turntable, a turntable driving assembly and a plurality of positioning jigs, wherein the feeding turntable is rotatably arranged on the workbench, the turntable driving assembly is connected with the feeding turntable, and each positioning jig is respectively arranged on the feeding turntable;

the positioning jig comprises an installation bottom plate, a first positioning block, a second positioning block and a bearing bottom plate, wherein the installation bottom plate is arranged on the feeding turntable, the first positioning block and the second positioning block are respectively arranged on the installation bottom plate, a positioning area is arranged between the first positioning block and the second positioning block, and the bearing bottom plate is arranged on the positioning area;

the bearing bottom plate is provided with a clamping convex block, and the top of the clamping convex block is provided with a first abutting column and a second abutting column at intervals;

the two sides of the clamping convex block are provided with a first clamping area and a second clamping area, the first clamping area is provided with a plurality of first clamping columns, each first clamping column is arranged on the first clamping area at intervals, the second clamping area is provided with a plurality of second clamping columns, and each second clamping column is arranged on the second clamping area at intervals.

In one embodiment, the rotary table driving assembly comprises a rotary table driving motor and a speed reducer, wherein the rotary table driving motor is connected with the speed reducer, and the speed reducer is connected with the feeding rotary table.

In one embodiment, each positioning jig is disposed around a central position of the feeding turntable.

In one embodiment, the first positioning block and the second positioning block are both in an L-shaped structure.

In one embodiment, the mounting base plate is provided with a plurality of mounting round holes.

In one embodiment, the inner side wall of the mounting round hole is provided with a thread structure.

In one embodiment, the bearing bottom plate is of a cuboid structure.

In one embodiment, the first clamping column and the second clamping column are rubber clamping columns.

In one embodiment, the mounting base plate is a cuboid structure.

In one embodiment, the feed turntable is a disk.

Compared with the prior art, the invention has at least the following advantages:

according to the filter shell labeling equipment, the workbench, the turntable feeding mechanism, the shell feeding mechanism, the feeding detection mechanism, the rubber head mounting mechanism, the label laminating mechanism, the label hot-pressing mechanism and the shell blanking structure are arranged, so that the process operations of feeding, rubber head mounting, label tearing, labeling, hot-pressing label, blanking and the like of the filter shell are completed, and a manual operation mode is replaced, so that the production and processing efficiency and the processing precision can be effectively improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a filter housing;

FIG. 2 is a schematic diagram of a filter housing labeling apparatus according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a positioning jig of a turntable feeding mechanism of the filter housing labeling apparatus in fig. 2;

fig. 4 is a schematic structural view of a housing feeding mechanism of the filter housing labeling apparatus in fig. 2;

FIG. 5 is a schematic view of a head mounting mechanism of the filter housing labeling apparatus of FIG. 2;

fig. 6 is a schematic structural view of a label attaching mechanism of the filter housing labeling apparatus in fig. 2.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

In one embodiment, the filter housing labeling device comprises a workbench, a rotary table feeding mechanism, a housing feeding mechanism, a feeding detection mechanism, a rubber head mounting mechanism, a label laminating mechanism, a label hot-pressing mechanism and a housing blanking mechanism, wherein the rotary table feeding mechanism is mounted on the workbench, and the housing feeding mechanism, the feeding detection mechanism, the rubber head mounting mechanism, the label laminating mechanism, the label hot-pressing mechanism and the housing blanking mechanism are sequentially arranged on the workbench around the rotary table feeding mechanism; the turntable feeding mechanism comprises a feeding turntable, a turntable driving assembly and a plurality of positioning jigs, wherein the feeding turntable is rotatably arranged on the workbench, the turntable driving assembly is connected with the feeding turntable, and each positioning jig is respectively arranged on the feeding turntable; the positioning jig comprises an installation bottom plate, a first positioning block, a second positioning block and a bearing bottom plate, wherein the installation bottom plate is arranged on the feeding turntable, the first positioning block and the second positioning block are respectively arranged on the installation bottom plate, a positioning area is arranged between the first positioning block and the second positioning block, and the bearing bottom plate is arranged on the positioning area; the bearing bottom plate is provided with a clamping convex block, and the top of the clamping convex block is provided with a first abutting column and a second abutting column at intervals; the two sides of the clamping convex block are provided with a first clamping area and a second clamping area, the first clamping area is provided with a plurality of first clamping columns, each first clamping column is arranged on the first clamping area at intervals, the second clamping area is provided with a plurality of second clamping columns, and each second clamping column is arranged on the second clamping area at intervals. According to the filter shell labeling equipment, the workbench, the turntable feeding mechanism, the shell feeding mechanism, the feeding detection mechanism, the rubber head mounting mechanism, the label laminating mechanism, the label hot-pressing mechanism and the shell blanking structure are arranged, so that the process operations of feeding, rubber head mounting, label tearing, labeling, hot-pressing label, blanking and the like of the filter shell are completed, and a manual operation mode is replaced, so that the production and processing efficiency and the processing precision can be effectively improved.

In order to better explain the above-mentioned filter housing labelling apparatus, the idea of the above-mentioned filter housing labelling apparatus is better understood. Referring to fig. 2, a filter housing labeling apparatus 20 includes a workbench 100, a turntable feeding mechanism 200, a housing feeding mechanism 300, a feeding detection mechanism 400, a rubber head mounting mechanism 500, a label laminating mechanism 600, a label hot pressing mechanism 700 and a housing blanking structure 800, wherein the turntable feeding mechanism 200 is mounted on the workbench 100, and the housing feeding mechanism 300, the feeding detection mechanism 400, the rubber head mounting mechanism 500, the label laminating mechanism 600, the label hot pressing mechanism 700 and the housing blanking structure 800 are sequentially disposed on the workbench 100 around the turntable feeding mechanism 200.

It should be noted that, the housing feeding mechanism 300 is used for feeding the filter housing 10 to the turntable feeding mechanism 200; the turntable feeding mechanism 200 is used for sequentially conveying the filter housing 10 to the positions of the feeding detection mechanism 400, the rubber head mounting mechanism 500, the label attaching mechanism 600, the label hot pressing mechanism 700 and the housing blanking structure 800; the feeding detection mechanism 400 is used for carrying out in-place detection operation on the filter housing 10 conveyed in place by the turntable feeding mechanism 200; the rubber head mounting mechanism 500 is used for performing rubber head mounting operation on the filter housing 10 transferred in place by the turntable feeding mechanism 200; the label attaching mechanism 600 is used for performing label attaching operation on the filter housing 10 transferred in place by the turntable feeding mechanism 200; the label hot-pressing mechanism 700 is used for performing label hot-pressing operation on the filter housing 10 transferred in place by the turntable feeding mechanism 200; the housing blanking structure 800 is used for performing blanking transfer operation on the filter housing 10 transferred in place by the turntable feeding mechanism 200.

Referring to fig. 2 again, the turntable feeding mechanism 200 includes a feeding turntable 210, a turntable driving assembly 220, and a plurality of positioning jigs 230, wherein the feeding turntable 210 is rotatably mounted on the workbench 100, the turntable driving assembly 220 is connected with the feeding turntable 210, and each positioning jig 230 is respectively disposed on the feeding turntable 210. In the present embodiment, each positioning jig 230 is disposed around the center of the feeding turntable. In this embodiment, the feeding turntable 210 is a disk.

Further, the turntable driving assembly 220 includes a turntable driving motor and a decelerator, the turntable driving motor is connected with the decelerator, and the decelerator is connected with the feeding turntable 210.

It should be noted that, the turntable driving motor is used for providing power for the feeding turntable 210, so that the feeding turntable 210 rotates, and the speed reducer is used for adjusting the speed of the feeding turntable 210, so that the feeding turntable 210 can be installed at a certain speed according to the actual production situation to perform rotation operation, and thus the production operation of each mechanism is matched.

Referring to fig. 3, the positioning fixture 230 includes a mounting base 231, a first positioning block 232, a second positioning block 233 and a bearing base 234, the mounting base 231 is disposed on the feeding turntable 210, the first positioning block 232 and the second positioning block 233 are respectively disposed on the mounting base 231, a positioning area 235 is disposed between the first positioning block 232 and the second positioning block 233, and the bearing base 234 is disposed on the positioning area 235. In this embodiment, the first positioning block 232 and the second positioning block 233 are both in an L-shaped structure, so that the position of the bearing bottom plate 234 is defined; as another example, the load floor 234 has a rectangular parallelepiped structure so as to be able to cooperate with the filter housing 10; the installation bottom plate 231 is provided with a plurality of installation round holes, and the inner side walls of the installation round holes are provided with screw structures, so that the installation bottom plate 231 can be installed on the workbench 100 through connecting pieces such as screws or bolts, and the installation and the disassembly operations are convenient; as another example, the mounting base 231 has a rectangular parallelepiped structure, and thus, the overall structural strength can be improved.

Referring to fig. 3 again, a clamping protrusion 234a is disposed on the bottom board 234, and a first abutting column 234b and a second abutting column 234c are disposed at intervals on top of the clamping protrusion 234 a.

It should be noted that, the filter housing 10 is placed on the positioning jig 230 through the housing feeding mechanism 300, the positioning jig 230 carries out the operation of carrying the filter housing 10 through the carrying base plate 234, at this time, the clamping projection 234a on the carrying base plate 234 is clamped and fixed with the clamping gap 15 of the filter housing 10, so that the filter housing 10 can be fixed on the carrying base plate 234, and meanwhile, the carrying base plate 234 is abutted with the filter housing 10 through the first abutting post 234b and the second abutting post 234c, so that the filter housing 10 can be precisely fed and placed on the positioning jig 230, and the processing precision of each station can be improved.

After the filter housing 10 is placed on the bottom plate 234, the first positioning block 232 and the second positioning block 233 abut against each side surface of the filter housing 10, and thus, the position of the filter housing 10 is restricted.

In order to further improve the fixing strength of the positioning jig 230 to the filter housing 10, a first clamping area and a second clamping area are disposed on two sides of the clamping projection 234a, a plurality of first clamping columns 234d are disposed on the first clamping area, each first clamping column 234d is disposed on the first clamping area at intervals, a plurality of second clamping columns 234e are disposed on the second clamping area, each second clamping column 234e is disposed on the second clamping area at intervals, and in this embodiment, the first clamping columns 234d and the second clamping columns 234e are rubber clamping columns.

It should be noted that, when the clamping projection 234a is clamped and fixed with the clamping gap 15 of the filter housing 10, the clamping projection 234a abuts against one side surface of the clamping gap 15 through the first clamping column 234d on the first clamping area, and simultaneously, the clamping projection 234a abuts against the other side surface of the clamping gap 15 through the second clamping column 234e on the second clamping area, so that the filter housing 10 can be clamped and fixed through the elastic force of the first clamping column 234d and the second clamping column 234e, and meanwhile, the first clamping column 234d and the second clamping column 234e are rubber clamping columns, so that damage to the filter housing 10 during clamping and placing can be prevented, and the quality of production and processing can be improved.

In order to further improve the fixing strength of the positioning jig 230 to the filter housing 10, and prevent the filter housing 10 from being shifted in position during the conveying and processing process, the first positioning block 232 and the second positioning block 233 are respectively provided with four positioning elastic assemblies 236, and the four positioning elastic assemblies 236 are disposed around the bearing bottom plate 234.

Referring to fig. 3 again, the positioning elastic assembly 236 includes a positioning elastic rod 236a, a positioning spring and a positioning elastic pressing block 236b, the positioning spring is sleeved on the positioning elastic rod 236a, a positioning blocking column is disposed at an end of the positioning elastic rod 236a, one end of the positioning spring is abutted to the positioning blocking column, and the other end of the positioning spring is connected to the positioning elastic pressing block 236 b.

In an embodiment, a first positioning rod mounting hole and a first positioning press block mounting groove are formed in one side surface of the first positioning block 232, the first positioning rod mounting hole and the first positioning press block mounting groove are penetrated by the positioning elastic rod 236a, and the positioning elastic press block 236b is arranged in the first positioning press block mounting groove, so that the installation and fixing operation of the positioning elastic assembly 236 on the first positioning block 232 can be completed; similarly, a second positioning rod mounting hole and a second positioning press block mounting groove are formed in the second positioning block 233, the second positioning rod mounting hole and the second positioning press block mounting groove are formed in a penetrating mode, the positioning elastic rod 236a penetrates through the second positioning rod mounting hole, and the positioning elastic press block 236b is arranged in the second positioning press block mounting groove, so that the installation and fixing operation of the positioning elastic assembly 236 on the second positioning block 233 can be completed.

When the filter housing 10 is placed on the bottom plate 234, each side of the filter housing 10 will contact the positioning elastic members 236 on the first positioning block 232 and the second positioning block 233, and when the positioning elastic pressing block 236b on the positioning elastic member 236 contacts the side of the filter housing 10, the side of the filter housing 10 is pressed and fixed under the action of the elastic force of the positioning spring, so that the filter housing 10 can be fixed on the positioning jig 230 without being in low-cost position, thereby improving the precision of the machining of the more stations.

Further, a plurality of positioning elastic bumps 236c are provided on the positioning elastic pressing block 236b, each positioning elastic bump 236c is arranged on the positioning elastic pressing block 236b in a rectangular array, and the positioning elastic bumps 236c are silica gel bumps; by arranging the plurality of positioning elastic protruding blocks 236c on the positioning elastic pressing block 236b, on one hand, the elastic acting force of the positioning elastic pressing block 236b on the filter housing 10 can be improved, so that the filter housing 10 can be better fixed on the positioning jig 230, and on the other hand, each positioning elastic protruding block 236c can prevent the filter housing 10 from being crushed or being pressed and marked in the process of pressing and fixing, so that the quality of production and processing is improved.

As shown in fig. 4, the case feeding mechanism 300 is described as follows:

the filter housing feeding mechanism 300 comprises a feeding support seat 310, a feeding conveying device 320 and a feeding carrying device 330, wherein a first feeding limiting plate 311 and a second feeding limiting plate 312 are arranged on the feeding support seat 310, and a feeding conveying region 313 is arranged between the first feeding limiting plate 311 and the second feeding limiting plate 312; in this embodiment, the first loading limiting plate 311 and the second loading limiting plate 312 are disposed on the loading support base 310 in parallel.

Further, the feeding conveying device 320 comprises a feeding conveying belt 321 and a feeding driving assembly 322, the feeding conveying belt 321 is arranged on the feeding conveying area 313, and the feeding driving assembly 322 is connected with the feeding conveying belt 321; in this embodiment, the feeding driving assembly 322 is a motor.

It should be noted that, the filter housing 10 is placed on the feeding conveying area 313 by a manual or corresponding manipulator, the position of the filter housing 10 is limited by the first feeding limiting plate 311 and the second feeding limiting plate 312, then the filter housing 10 is conveyed by the feeding conveying belt 321 on the feeding conveying area 313, and the feeding conveying belt 321 is driven by the feeding driving assembly 322 to convey the filter housing 10 to the feeding conveying device 330.

Referring to fig. 4 again, the loading and transporting device 330 includes a loading support 331, a loading traversing assembly 332, a loading lifting assembly 333 and a loading clamping assembly 334, wherein the loading support 331 is disposed on the loading support base 310, the loading traversing assembly 332 is disposed on the loading support 331, the loading lifting assembly 333 is connected with the loading traversing assembly 332, and the loading clamping assembly 334 is connected with the loading lifting assembly 333.

Further, the feeding and traversing assembly 332 includes a feeding and traversing slide plate 332a and a feeding and traversing driving member 332b, the feeding and traversing slide plate 332a is disposed on the feeding support 331, and the feeding and traversing driving member 332b is connected to the feeding and traversing slide plate 332 a; in this embodiment, the feeding traversing driving member 332b is an air cylinder.

The feeding lateral movement assembly 332 further comprises a feeding lateral movement baffle 332c, a feeding lateral movement guide column 332d and a feeding lateral movement limiting block 332e, the feeding lateral movement baffle 332c is fixedly installed on the feeding support frame 331, a feeding lateral movement limiting hole is formed in the feeding lateral movement baffle 332c, the feeding lateral movement guide column 332d slides to penetrate through the feeding lateral movement limiting hole, the feeding lateral movement sliding plate 332a is connected with the end portion of the feeding lateral movement guide column 332d, and the feeding lateral movement limiting block 332e is arranged on one end, far away from the feeding lateral movement sliding plate 332a, of the feeding lateral movement guide column 332 d.

It should be noted that, the feeding traversing driving member 332b is configured to drive the feeding traversing sliding plate 332a to reciprocate on the feeding supporting frame 331, so that the feeding lifting assembly 333 and the feeding clamping assembly 334 on the feeding traversing sliding plate 332a perform reciprocating displacement between the feeding conveyor 321 and the positioning fixture 230. When the feeding traversing slide plate 332a performs reciprocating displacement, the feeding traversing guide column 332d starts the guiding function, so that the movement operation of the feeding traversing slide plate 332a is more stable, and meanwhile, when the feeding traversing limiting block 332e abuts against the feeding traversing baffle plate 332c, the position limiting function is achieved, so that the movement displacement operation of the feeding traversing slide plate 332a is more accurate.

Referring to fig. 4 again, the feeding lifting assembly 333 includes a feeding lifting member 333a and a feeding lifting plate 333b, the feeding lifting member 333a is disposed on the feeding lateral sliding plate 332a, the feeding lifting plate 333b is connected to the feeding lifting member 333a, and the feeding lifting member 333a is configured to drive the feeding lifting plate 333b to perform a reciprocating displacement close to or far from the feeding conveyor 321.

Further, the feeding clamping assembly 334 includes a feeding rotary driving member 334a and a feeding clamping jaw 334b, wherein the feeding rotary driving member 334a is disposed on the feeding lifting plate 333b, and the feeding clamping jaw 334b is connected with the feeding rotary driving member 334 a. In this embodiment, the feeding lifter is a lifting cylinder, and the feeding rotary driving member is a rotary motor.

It should be noted that, when the feeding traversing slide plate 332a moves to the discharging end of the feeding conveyor 321, the feeding lifting member 333a drives the feeding lifting plate 333b to displace toward the feeding conveyor 321, so that the feeding clamping assembly 334 moves to the clamping station, then the filter housing 10 on the feeding conveyor 321 is clamped and fixed by the feeding clamping claw 334b, and then moves to the positioning jig 230 under the linkage operation of the feeding traversing assembly 332 and the feeding lifting assembly 333, at this time, the feeding rotating driving member drives the feeding clamping claw 334b to rotate, so as to adjust the angle of the filter housing 10 on the feeding clamping claw 334b, and thus the filter housing 10 can be accurately placed on the positioning jig 230.

Referring again to fig. 4, the feeding clamping jaw 334b includes a first feeding clamping block, a second feeding clamping block, and a clamping jaw driving portion, wherein the first feeding clamping block and the second feeding clamping block are respectively connected with the clamping jaw driving portion, and the clamping jaw driving portion is connected with the feeding rotary driving member, and in this embodiment, the clamping jaw driving portion is a clamping cylinder.

Further, the feeding clamping interfaces are respectively arranged on the first feeding clamping block and the second feeding clamping block, the feeding clamping elastic blocks are arranged on the feeding clamping interfaces, the feeding clamping interfaces are arranged on the first feeding clamping block and the second feeding clamping block, so that the two sides of the filter housing 10 can be clamped and positioned, the clamping force can be improved, and the filter housing 10 can be prevented from being clamped.

It should be noted that, when the feeding clamping jaw 334b performs the clamping operation, the clamping jaw driving portion drives the first feeding clamping block and the second feeding clamping block to move close to each other, so as to clamp and position two sides of the filter housing 10, and thus, clamp and fix the filter housing 10 is completed.

According to the filter housing feeding mechanism 300, the feeding supporting seat 310, the feeding conveying device 320 and the feeding carrying device 330 are arranged, so that manual feeding placement operation on the filter housing 10 can be replaced, the production and processing efficiency can be effectively improved, and the production and processing precision is higher.

Referring to fig. 2 again, after the filter housing feeding mechanism 300 places the filter housing 10 on the positioning jig 230, the filter housing is rotated by the feeding turntable 210 and transferred to the feeding detection mechanism 400 for detection. Specifically, the feeding detection mechanism 400 includes a detection support frame 410 and a detection sensor 420, the detection support frame 410 is disposed on the workbench 100, and the detection sensor 420 is disposed on the detection support frame 410. In the present embodiment, the detection sensor 420 is a ccd vision detector.

It should be noted that, after the feeding turntable 210 transfers the filter housing 10 into place, the detection sensor 420 is located above the positioning jig 230, and at this time, the detection sensor 420 performs imaging detection on the filter housing 10 on the positioning jig 230, thereby determining whether the positioning jig 230 is provided with the filter housing 10, so as to ensure that each station can perform processing operation on the filter housing 10.

Referring to fig. 5, the following describes the head mounting mechanism 500:

the rubber head mounting mechanism 500 comprises a rubber head mounting plate 520, a pressing device 510, a rubber head feeding device 530, a rubber head feeding device 540 and a rubber head jacking device 550, wherein the rubber head mounting plate 520 is mounted on the workbench 100, and the feeding turntable 210 is positioned between the pressing device 510 and the rubber head jacking device 550.

The compressing device 510 comprises a compressing support frame 511, a compressing block 512 and a compressing lifting assembly 513, wherein the compressing support frame 511 is installed on the rubber head installing plate 520, the compressing lifting assembly 513 is installed on the compressing support frame 511, the compressing lifting assembly 513 is connected with the compressing block 512, and a buffering elastic layer is arranged on the surface of the compressing block 512. In this embodiment, the pressing lifting assembly 513 is a lifting cylinder, and the buffer elastic layer is a rubber layer.

It should be noted that, the pressing block 512 is located above the positioning jig 230, and when the feeding turntable 210 transfers the filter housing 10 on the positioning jig 230 to the lower side of the pressing block 512, the pressing lifting assembly 513 drives the pressing block 512 to move downward, so as to press and fix the filter housing 10 on the positioning jig 230.

Referring to fig. 5 again, the rubber head feeding device 530 includes a vibration disc 531, a feeding transmission pipe 532, a feeding air tap 533 and an air blowing valve 534, the vibration disc 531 is disposed on the rubber head mounting plate 520, the feeding transmission pipe 532 is connected to a discharge end of the vibration disc 531, the feeding air tap 533 is communicated with the feeding transmission pipe 532, and the air blowing valve 534 is connected to the feeding air tap 533; in this embodiment, the vibration disc is a vibration disc, the air valve is a high-pressure air valve, and the feeding conveying pipeline is a hose.

It should be noted that, the rubber head parts are fed and transferred into the feeding and transferring pipeline 532 through the vibration disc 531, so that the rubber head parts are sequentially stacked in the feeding and transferring pipeline 532, and when the rubber head parts are required to be fed and placed, the air blowing valve 534 is started, so that the rubber head parts in the feeding air nozzle 533 are fed one by one to the rubber head feeding device 540 under the pressure of air pressure.

Referring again to FIG. 5, head feed device 540 includes a head feed mounting frame 541, a head feed slide 542, and a head feed drive 543, head feed mounting frame 541 is disposed on head mounting plate 520, head feed slide 542 is slidably disposed on head feed mounting frame 541, head feed drive 543 is connected to head feed slide 542, head feed slide 542 has a head placement hole, and head placement hole is aligned with feed air cap 533. In this embodiment, the rubber head feeding driving part is a cylinder, and the rubber head feeding slide plate is a cuboid structure.

It should be noted that, the rubber head placing hole is aligned with the feeding air nozzle 533, so that the rubber head parts are fed into the rubber head placing hole of the rubber head feeding slide plate 542 through the feeding air nozzle 533, and after the rubber head feeding is placed, the rubber head feeding driving part 543 drives the rubber head feeding slide plate 542 to move on the rubber head feeding mounting frame 541, so that the rubber head parts on the rubber head feeding slide plate 542 are transferred to the rubber head jacking device 550.

Referring to fig. 5 again, the glue head jacking device 550 includes a jacking driving assembly 551, a jacking block 552 and a jacking rod 553, wherein the jacking driving assembly 551 is disposed on the glue head feeding mounting frame 541, the jacking driving assembly 551 is connected with the jacking block 552, the jacking rod 553 is connected with the jacking block 552, a jacking limit bump is disposed at an end of the jacking rod 553, and a glue head limit groove is formed in the jacking limit bump. The glue head feeding slide plate 542 is located between the pressing block 512 and the lifting rod 553, the lifting block 552 is aligned with the pressing block 512, the glue head feeding driving part 543 is used for driving the glue head feeding slide plate 542 to perform reciprocating displacement close to or far away from the pressing block 512, and the lifting driving component 551 is used for driving the lifting rod 553 to slide through the glue head placing hole. In this embodiment, the jacking driving assembly is a jacking cylinder.

Further, referring to fig. 3 again, two glue head guiding holes 237 are respectively formed on the first positioning block 232 and the second positioning block 233, each glue head guiding hole 237 is respectively communicated with each round hole 16 of the filter housing 10, and four glue head placing holes are provided, and when the glue head feeding slide 542 moves to the lifting station, each glue head placing hole is aligned with the corresponding glue head guiding hole 237.

It should be noted that, when the glue head feeding slide plate 542 moves to the lifting station, the lifting driving assembly 551 drives the lifting block 552 to perform lifting motion, so that the lifting rod 553 slides to penetrate through the glue head placing hole, meanwhile, the glue head limiting groove in the lifting limiting projection and the glue head part in the glue head placing hole bear and limit positions, then the glue head part is conveyed into the corresponding glue head guiding hole 237, the highest glue head part is installed in the round hole 16 of the filter housing 10 under the guiding action of the glue head guiding hole 237, and in the installation process of the glue head part, the pressing block 512 plays a role of pressing the filter housing 10, so that the glue head part can be smoothly installed and pressed into the round hole 16 of the filter housing 10.

In order to enable the rubber head feeding device 530 to feed the rubber head parts to the rubber head placing holes, and improve the precision of feeding processing, the rubber head mounting mechanism 500 further comprises a rubber head feeding adjusting device 560, the rubber head feeding adjusting device 560 comprises a feeding adjusting bracket 561, a feeding adjusting motor 562, a feeding adjusting rotating shaft 563, a feeding adjusting telescopic cylinder 564 and a feeding adjusting clamping jaw, the feeding adjusting bracket 561 is mounted on the rubber head mounting plate 520, the feeding adjusting rotating shaft 563 is rotatably mounted on the feeding adjusting bracket 561, the feeding adjusting motor 562 is connected with the feeding adjusting rotating shaft 563, the feeding adjusting motor 562 is used for driving the feeding adjusting rotating shaft 563 to rotate on the feeding adjusting bracket 561, the feeding adjusting telescopic cylinder 564 is connected with the feeding adjusting rotating shaft 563, the feeding adjusting clamping jaw is connected with the feeding adjusting telescopic cylinder 564, and the feeding adjusting telescopic cylinder 564 is used for driving the feeding adjusting clamping jaw to stretch and stretch, and the feeding adjusting clamping jaw 533 is connected with the feeding air tap 533.

It should be noted that, when the feeding air tap 533 performs the operation of placing the rubber head, the rubber head feeding adjusting device 560 drives the feeding adjusting shaft 563 to rotate through the feeding adjusting motor 562, so that the feeding air tap 533 on the feeding adjusting jaw performs the angle adjustment, and then drives the feeding adjusting jaw to perform the telescopic motion through the feeding adjusting telescopic cylinder 564, so that the feeding air tap 533 moves to the corresponding rubber head placing hole, and finally starts to place the rubber head component in the feeding air tap 533 in the rubber head placing hole through the air blowing valve 534. Through the UNICOM operation of material loading adjustment motor 562 and material loading adjustment telescopic cylinder 564, so, move the material loading air cock 533 and place the hole department and carry out the material loading of rubber head and place the operation to each rubber head.

According to the rubber head mounting mechanism 500, the rubber head mounting plate 520, the pressing device 510, the rubber head feeding device 530, the rubber head feeding device 540 and the rubber head jacking device 550 are arranged, so that the rubber head parts can be mounted in the round holes of the filter housing 10 instead of being manually fed, the production and processing efficiency can be improved, the occurrence of neglected loading or wrong loading can be prevented, and the production and processing precision is improved.

Referring again to fig. 6, the label applying mechanism 600 is described as follows:

the label attaching mechanism 600 comprises a label mounting seat 610, a label adsorption and transfer device 620, a label feeding device 630 and a label cutting device 640, wherein a first label mounting bar 611 and a second label mounting bar 612 are arranged on the label mounting seat 610, and a label mounting area is arranged between the first label mounting bar 611 and the second label mounting bar 612; in the present embodiment, the first labeling installation rail 611 and the second labeling installation rail 612 are disposed on the labeling installation base 610 in parallel; the first labeling installation shelves 611 and the second labeling installation shelves 612 are respectively provided with a plurality of installation fixing holes.

It should be noted that, the labeling mounting seat 610 is mounted on the workbench 100, and the first labeling mounting bar 611 and the second labeling mounting bar 612 are provided, so that the structural strength of the labeling mounting seat 610 can be improved, and meanwhile, the position of the labeling mounting region can be limited, thereby improving the mounting precision.

Referring to fig. 6 again, the label absorbing and transferring device 620 includes a label bearing bracket 621, a label lateral moving mounting plate 622, a label transferring slide 623, a label transferring driving component 624, a label absorbing air tap 625 and a label absorbing lifting component 626, wherein the label bearing bracket 621 is arranged on the label mounting area, the label lateral moving mounting plate 622 is arranged at the top of the label bearing bracket 621, the label transferring slide 623 is slidingly arranged on the label lateral moving mounting plate 622, the label transferring driving component 624 is connected with the label transferring slide 623, the label absorbing lifting component 626 is arranged on the label transferring slide 623, and the label absorbing air tap 625 is connected with the label absorbing lifting component 626. In this embodiment, the label transfer driving component 524 is a linear stepper motor, a label lateral movement guide bar is provided on the label lateral movement mounting plate 622, the label transfer slider 623 slides through the label lateral movement guide bar, and the label adsorption lifting component 626 is an air cylinder.

It should be noted that, the label transfer slide 623 is driven by the label transfer driving component 624 to perform reciprocating displacement on the label pasting carrier 621, when the feeding turntable 210 conveys the filter housing 10 to the label pasting mechanism 600, the label transfer slide 623 drives the label adsorption nozzle 625 to move between the positioning jig 230 and the label feeding device 630, when the label transfer slide 623 moves to the feeding station of the label feeding device 630, the label adsorption lifting component 626 drives the label adsorption nozzle 625 to descend, then the label on the label feeding device 630 is adsorbed by the label adsorption nozzle 625, and finally the label is conveyed and pasted to the filter housing 10 of the positioning jig 230 by the linkage operation of the label adsorption lifting component 626 and the label transfer driving component 624.

Referring to fig. 6 again, the label feeding device 630 includes a label feeding turntable 631, a rotary driving assembly 632, a label placing jig 633 and a guiding roller 634, wherein the label feeding turntable 631, the label placing jig 633 and the guiding roller 634 are sequentially disposed on the label bearing bracket 621, the rotary driving assembly 632 is connected with the label feeding turntable 631, and the label placing jig 633 is provided with a label guiding groove; in this embodiment, the rotary driving assembly is a motor, and the guide roller is a unidirectional rotation shaft.

It should be noted that, the label roller is installed on the feeding turntable 631, the label braid of the label roller is wound around the guide roller 634, thereby playing a role in guiding and conveying through the guide roller 634, the guide roller 634 is connected with a corresponding driving motor, and the rotation operation of the label feeding turntable 631 is driven by the rotation operation of the guide roller 634 and the rotation driving component 632, so, the label braid of the label roller can be conveyed to the label guide groove of the label placing jig 633, the label placing jig 633 plays a role in bearing the label braid, and the label guide groove plays a role in defining the position of the label braid, thereby improving the precision of production and processing.

Referring again to fig. 6, the label cutting device 640 includes a cutting mounting rack 641, a cutting lifting plate 642, a cutting lifting driving member 643 and a cutting tool, the cutting mounting rack 641 is disposed on the label holding jig 633, the cutting lifting driving member 643 is disposed on the cutting mounting rack 641, the cutting lifting plate 642 is connected with the cutting lifting driving member 643, the cutting tool is disposed on the cutting lifting plate 642, and the cutting tool is aligned with the label guiding slot. In this embodiment, the cutting lift drive is a lift cylinder.

It should be noted that, when the label braid is transferred onto the label guiding slot, the cutting lifting driving member 643 drives the cutting lifting plate 642 to descend, so as to drive the cutting tool to descend and perform cutting operation on the label braid in the label guiding slot, and after the cutting operation is completed, the label adsorbing air tap 625 loads the cut label onto the filter housing 10 of the positioning jig 230.

Referring again to fig. 6, the label attaching mechanism 600 further includes a label gluing device 650, where the label gluing device 650 includes a glue storage tank 651, a gluing nozzle 652 and a gluing pump 653, the glue storage tank 651 is disposed on the label attaching support 621, the gluing nozzle 652 is communicated with the glue storage tank 651, a glue outlet hole is formed in a label guide groove of the label placing jig 633, the gluing nozzle 652 is disposed in the glue outlet hole, and the gluing pump 653 is connected with the glue storage tank 651.

When the label tape is fed into the label guide groove, the glue pump 653 is activated to spray the glue in the glue storage tank 651 from the glue nozzle 652 onto the label tape in the label guide groove, so that the cut label tape has adhesiveness.

The label attaching mechanism 600 of the present invention can replace manual cutting and labeling operation on the filter housing by providing the label attaching mount 610, the label adsorbing and transferring device 620, the label feeding device 630 and the label cutting device 640, thereby improving the efficiency of production and processing and the precision of label attaching and processing.

Referring to fig. 2 again, the label hot pressing mechanism 700 includes a hot pressing block 710 and a hot pressing lifting cylinder 720, wherein the hot pressing block 710 is connected with the hot pressing lifting cylinder 720.

It should be noted that, after the feeding turntable 210 transfers the filter housing 10 on the positioning jig 230 to the label hot pressing mechanism 700, the hot pressing lifting cylinder 720 drives the hot pressing block 710 to descend, so that the hot pressing block 710 is attached to the surface of the filter housing 10, and then the heating operation is performed through the heating tube installed in the hot pressing block 710, so that the glue on the label attached to the filter housing 10 is dried, thereby completing the label hot pressing operation of the filter housing 10.

Referring to fig. 2 again, the shell blanking structure 800 includes a blanking conveyor belt 810 and a blanking manipulator 820, where the blanking conveyor belt 810 and the blanking manipulator 820 are respectively disposed on the workbench 100.

It should be noted that, after the feeding turntable 210 transfers the filter housing 10 on the positioning jig 230 to the housing blanking structure 800, the blanking manipulator 820 carries the filter housing 10 on the feeding turntable 210 to the blanking conveyor 810, and then performs the blanking transfer on the filter housing 10 by the blanking conveyor 810, thereby completing the labeling operation of the filter housing.

Compared with the prior art, the invention has at least the following advantages:

according to the filter housing labeling equipment 20, the workbench 100, the turntable feeding mechanism 200, the housing feeding mechanism 300, the feeding detection mechanism 400, the rubber head mounting mechanism 500, the tag laminating mechanism 600, the tag hot-pressing mechanism 700 and the housing blanking mechanism 800 are arranged, so that the process operations of feeding, rubber head mounting, tag tearing, labeling, hot-pressing and blanking of the filter housing 10 are completed, and a manual operation mode is replaced, so that the production and processing efficiency and the processing precision can be effectively improved.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (1)

1. The filter shell labeling equipment is characterized by comprising a workbench, a rotary table feeding mechanism, a shell feeding mechanism, a feeding detection mechanism, a rubber head mounting mechanism, a label laminating mechanism, a label hot-pressing mechanism and a shell blanking structure, wherein the rotary table feeding mechanism is mounted on the workbench, and the shell feeding mechanism, the feeding detection mechanism, the rubber head mounting mechanism, the label laminating mechanism, the label hot-pressing mechanism and the shell blanking structure are sequentially arranged on the workbench around the rotary table feeding mechanism;

the turntable feeding mechanism comprises a feeding turntable, a turntable driving assembly and a plurality of positioning jigs, wherein the feeding turntable is rotatably arranged on the workbench, the turntable driving assembly is connected with the feeding turntable, and each positioning jig is respectively arranged on the feeding turntable;

the positioning jig comprises an installation bottom plate, a first positioning block, a second positioning block and a bearing bottom plate, wherein the installation bottom plate is arranged on the feeding turntable, the first positioning block and the second positioning block are respectively arranged on the installation bottom plate, a positioning area is arranged between the first positioning block and the second positioning block, and the bearing bottom plate is arranged on the positioning area;

the bearing bottom plate is provided with a clamping convex block, and the top of the clamping convex block is provided with a first abutting column and a second abutting column at intervals;

a first clamping area and a second clamping area are arranged on two side surfaces of the clamping convex block, a plurality of first clamping columns are arranged on the first clamping area, the first clamping columns are arranged on the first clamping area at intervals, a plurality of second clamping columns are arranged on the second clamping area, and the second clamping columns are arranged on the second clamping area at intervals;

the rotary table driving assembly comprises a rotary table driving motor and a speed reducer, wherein the rotary table driving motor is connected with the speed reducer, and the speed reducer is connected with the feeding rotary table; each positioning jig is arranged around the center of the feeding turntable; the first positioning block and the second positioning block are of an L-shaped structure; a plurality of mounting round holes are formed in the mounting bottom plate; a thread structure is arranged on the inner side wall of the mounting round hole; the bearing bottom plate is of a cuboid structure; the first clamping column and the second clamping column are rubber clamping columns; the mounting bottom plate is of a cuboid structure; the feeding turntable is a disc;

the first positioning block and the second positioning block are respectively provided with positioning elastic assemblies, the four positioning elastic assemblies are arranged and surround the bearing bottom plate;

the positioning elastic assembly comprises a positioning elastic rod, a positioning spring and a positioning elastic pressing block, wherein the positioning spring is sleeved on the positioning elastic rod, a positioning baffle column is arranged at the end part of the positioning elastic rod, one end of the positioning spring is abutted with the positioning baffle column, and the other end of the positioning spring is connected with the positioning elastic pressing block;

a first positioning rod mounting hole and a first positioning press block mounting groove are formed in one side surface of the first positioning block, a second positioning rod mounting hole and a second positioning press block mounting groove are formed in the second positioning block, the corresponding first positioning rod mounting hole or second positioning rod mounting hole is penetrated by the positioning elastic rod, and the positioning elastic press block is arranged in the corresponding first positioning press block mounting groove or second positioning press block mounting groove;

the positioning elastic pressing block is provided with a plurality of positioning elastic convex blocks, each positioning elastic convex block is arranged on the positioning elastic pressing block in a rectangular array, and the positioning elastic convex blocks are silica gel convex blocks.