CN205342418U - Kludge of breather valve for gauze mask - Google Patents

Abstract

The utility model discloses a kludge of breather valve for gauze mask, its characterized in that: include the frame and set up the transfer chain in the frame still be equipped with valve body loading attachment, rubber belt conveyor device, valve gap loading attachment, welding set, LOGO bat printing device, detection device and material collecting device in the frame of transfer chain department, valve body loading attachment, rubber belt conveyor device, valve gap loading attachment, welding set, LOGO bat printing device, detection device and material collecting device set gradually in between initiating terminal to the tail end of transfer chain, valve body loading attachment with the initiating terminal of transfer chain links to each other, material collecting device with the tail end of transfer chain links to each other, just valve body loading attachment, rubber belt conveyor device, valve gap loading attachment reach material collecting device all with the transfer chain links to each other. The utility model provides the equipment quality has also been guaranteed to the high packaging efficiency of breather valve.

Description

A kind of kludge of mask breather valve

Technical field

This utility model relates to the installation machine of a kind of breather valve, particularly relates to the kludge of a kind of mask breather valve.

Background technology

Universal along with industrial expansion and private car, the pollution problem of urban air is more and more severe, especially PM2.5 content overproof, has a strong impact on the health of people's trip.In order to reduce the too much harmful substance of suction, dressing mask is a kind of common precautionary measures, and with the most original integral type mask the difference is that, existing mask generally with breather valve, this improves the smoothness that wearer is breathed greatly.

In the prior art, there are some masks with breather valve, and breather valve can be breathed freely when being a kind of exhalation, breather valve air-locked a kind of structure during incoming call, including valve body valve gap and be arranged at the rubber valve plate between valve body and valve gap, during user air-breathing, valve block can cover the gas outlet of valve body, and user is only by the cloth air-breathing of mask, during expiration, being ejected one end of valve block, gas is discharged by breather valve.

But, in the prior art, when the three of breather valve assembles, installation effectiveness is low, and sealing also can not be guaranteed.Therefore, how to improve the packaging efficiency of breather valve, improve assembling quality, be those skilled in the art directions of needing to make great efforts.

Summary of the invention

This utility model purpose is to provide the kludge of a kind of mask breather valve, by using this structure, it is achieved that the automatic assembling of breather valve, improves packaging efficiency, reduces production cost.

For reaching above-mentioned purpose, the technical solution adopted in the utility model is: the kludge of a kind of mask breather valve, including frame and be arranged at the pipeline in frame, the frame at described pipeline place is additionally provided with valve body feeding device, rubber strip conveyer device, valve gap feeding device, welder, LOGO printer device, detecting device and material collecting device, described valve body feeding device, rubber strip conveyer device, valve gap feeding device, welder, LOGO printer device, detecting device and material collecting device are set in turn in the initiating terminal of described pipeline between tail end, described valve body feeding device is connected with the initiating terminal of described pipeline, described material collecting device is connected with the tail end of described pipeline, and described valve body feeding device, rubber strip conveyer device, valve gap feeding device and described material collecting device are all connected with described pipeline.

In technique scheme, described valve body feeding device includes valve body feed bin, sub-material separator, delivery track, sub-material separating device and draws material device, described valve body feed bin, sub-material separator, delivery track, sub-material separating device are arranged at the side of pipeline, described in draw material device to be arranged at the opposite side of pipeline；The discharging opening of described valve body feed bin is connected with one end of described sub-material separator, described delivery track feed end is connected with the other end of described sub-material separator, the discharge end of described delivery track is arranged at the top of described pipeline, described sub-material separating device is arranged at the surface of the discharge end of described delivery track, described delivery track is two delivery tracks being arranged side by side, respectively the first delivery track and the second delivery track.

In technique scheme, described sub-material separator includes gripper shoe, it is arranged at the material toggling mechanism in gripper shoe and product plummer, the discharging opening of the two ends of described product plummer corresponding described valve body feed bin respectively and the feed end of described delivery track are arranged, described material toggling mechanism includes keyset and is arranged on keyset, the upper guide cylinder of downside and lower guide cylinder, on described, the output shaft direction of lower guide cylinder is oppositely arranged respectively, described product plummer is installed on the top of described upper guide cylinder, described upper guide cylinder is slideably positioned in the top of described keyset, the top of described lower guide cylinder or end and described keyset are fixedly linked, the basal sliding of described lower guide cylinder is arranged in described gripper shoe.

In technique scheme, described rubber strip conveyer device includes charging tray, Pulvis Talci removes device, rubber strip pipeline, rubber strip cutting mould and rubber strip feeding device, described charging tray is installed on charging tray support, rubber strip on charging tray is removed device through Pulvis Talci and is positioned on described rubber strip pipeline, described rubber strip cutting mould is arranged on described rubber strip pipeline, described rubber strip cuts into valve block through described rubber strip cutting mould, and described valve block is positioned on described pipeline through described rubber strip feeding device.

In technique scheme, described Pulvis Talci is removed device and is included cavity, described cavity is provided with a groove, plural number it is provided with upper and lower folder cutter in described groove, the described rubber strip described groove of traverse, and the end face of described upper clamp knife is butted on the upper surface of described rubber strip, the end face of described lower clamp knife is butted on the lower surface of described rubber strip；Being sequentially provided with Pulvis Talci bearing cavity, vacuum generator and filter bag below described cavity, described Pulvis Talci bearing cavity top is connected with described cavity, is connected with described filter bag by described vacuum generator bottom described Pulvis Talci bearing cavity.

In technique scheme, described rubber strip feeding device includes feeding support and suction module, and described suction module is installed on described feeding support through a rotary cylinder；Described feeding support is installed on the side of described rubber strip pipeline, and described suction module and described rotary cylinder are arranged at the surface of described rubber strip pipeline, and described rotary cylinder is installed on described feeding support through a rotary cylinder installing plate；Described suction module includes the first suction module and the second suction module, the output shaft of described rotary cylinder is provided with a swivel plate, the center of described swivel plate is connected with the output shaft of described rotary cylinder, the two ends of described swivel plate are separately installed with described first, second suction module, and described first, second gathering mold group is connected with source of the gas through trachea respectively.

In technique scheme, described valve gap feeding device includes valve gap feed bin, valve gap delivery track and valve gap and captures module, arranging valve gap in described valve gap feed bin, described valve gap is carried through described valve gap delivery track, captures module crawl through described valve gap and is arranged on described pipeline.

In technique scheme, described welder includes 4 bond pads mechanisms and is arranged at the welding pressurizer above pipeline, welding mechanism described in 2 groups side by side and is arranged at intervals at the side of described pipeline, welding mechanism described in other two groups is arranged at the opposite side of described pipeline, and the welding mechanism of described pipeline both sides is respectively symmetrically setting；Described welding mechanism includes bonding machine mounting seat and is slidably mounted on the ultrasonic welding machine in described bonding machine mounting seat, and the corresponding described pipeline of the plumb joint of described ultrasonic welding machine is arranged.

In technique scheme, described detecting device leak-checking apparatus, on choose detecting device, photocopy detecting device and pick material device, choose detecting device on described and described leak-checking apparatus be set in turn between described welder and described LOGO printer device, described photocopy detecting device and pick material device be set in turn between described LOGO printer device and described material collecting device.

In technique scheme, described material collecting device includes sliding way and glide path, and the top of described sliding way is connected with the tail end of described pipeline, and described sliding way is arranged from top downward；The middle part of described sliding way is provided with the first groove, the top of described glide path is installed on the lower section of described first groove, and be connected with described first groove, the bottom of described first groove is provided with a demarcation strip, described demarcation strip and one separates cylinders, described demarcation strip is slidably arranged in described first groove, is separated with described glide path by described sliding way.

Owing to technique scheme is used, this utility model compared with prior art has the advantage that

1. in this utility model the kludge of mask breather valve by the valve body feeding device being arranged at frame pipeline, rubber strip conveyer device, valve gap feeding device, welder, LOGO printer device, detecting device and material collecting device, described valve body feeding device, rubber strip conveyer device, valve gap feeding device, welder, LOGO printer device, detecting device and material collecting device, these devices are set in turn in the initiating terminal of described pipeline between tail end, by the setting of these partial devices and with the use of, realize the valve body of breather valve, rubber strip and the full-automatic of valve gap assemble and detection, without manual operation, improve production efficiency, reduce production cost；

2. in this utility model, valve body feeding device is provided with two delivery tracks, respectively the first delivery track and the second delivery track, arranges two delivery tracks, reduces the spacing between adjacent valve body, improves production efficiency；Meanwhile, by the setting of sub-material separator, it is possible to the valve body in valve body feed bin is sent on two delivery tracks, it is not necessary to arrange multiple feed bin and can realize sub-material separation, both improve transfer efficiency, and also reduced production cost；

3. this utility model arranges Pulvis Talci at the delivery end of rubber strip and remove device, Pulvis Talci is removed device and is adopted blade to be scraped off by Pulvis Talci, soak than liquid, rinse simpler effective, and the problem avoiding reflux and filter, lower section increases vacuum extractor simultaneously, the Pulvis Talci scraped off is collected in filter bag, it is prevented that airborne dust, it is ensured that production environment；

4. in this utility model, rubber strip feeding adopts the rubber strip that suction module will cut to adsorb, and then passes through rotary cylinder and rubber strip is adsorbed onto the surface of pipeline, be installed on valve body, and the setting of rotary cylinder improves the loading efficiency of rubber strip；

5. being respectively provided with two groups of ultrasonic welding machines in this utility model in the both sides of pipeline, two products are carried out ultrasonic bonding simultaneously, packaging efficiency is high；

6. in this utility model, material collecting device adopts sliding way and glide path; the middle part of sliding way arranges the first groove; first groove arranges dividing plate; adopt two groups of slideways, and place collecting box often organizing slide bottom respectively, when the collecting box of a wherein slide bottom collect full after; dividing plate can be opened or closed; change an other slideway to continue to collect product, it is not necessary to shutting down and change, efficiency is high.

Accompanying drawing explanation

Fig. 1 is the structural representation in this utility model embodiment one；

Fig. 2 is the perspective view of Fig. 1；

Fig. 3 is the structural representation of valve body feeding device in this utility model embodiment one；

Fig. 4 is the structural representation of sub-material separator in this utility model embodiment one；

Fig. 5 is the perspective view of Fig. 4；

Fig. 6 is the structural representation of sub-material separating device in this utility model embodiment one；

Fig. 7 is the left view of Fig. 6；

Fig. 8 is the perspective view of Fig. 6；

Fig. 9 is the structural representation that in this utility model embodiment one, device removed by Pulvis Talci；

Figure 10 is the perspective view of Fig. 9；

Figure 11 is the structural representation of rubber strip feeding device in this utility model embodiment one；

Figure 12 is the perspective view of Figure 11；

Figure 13 is the structural representation of welding mechanism in this utility model embodiment one；

Figure 14 is the perspective view of Figure 13；

Figure 15 is the structural representation of material collecting device in this utility model embodiment one；

Figure 16 is the perspective view of Figure 15；

Figure 17 is the internal structure schematic diagram of Figure 15.

Wherein: 1, frame；11, valve body；12, valve block；13, valve gap；2, pipeline；21, leak-checking apparatus；22, detecting device is chosen on；23, photocopy detecting device；24, material device is picked；3, valve body feeding device；30, valve body feed bin；31, sub-material separator；32, sub-material separating device；33, material device is drawn；34, the first delivery track；35, the second delivery track；36, gripper shoe；37, product plummer；38, keyset；39, upper guide cylinder；300, lower guide cylinder；301, the second keyset；302, bolt；303, limiting buffer plate；304, anticollison block；305, product pressing plate；306, reflective photoelectric sensor；310, mounting bracket；311, installing plate；312, the first side plate；313, the second side plate；314, intermediate plate；315, telescopic cylinder；316, the first shim；317, the second shim；318, left plate；319, right plate；320, connecting plate；331, material hands is drawn；332, material cylinder is drawn；333, material cylinder mounting seat is drawn；334, lift cylinder；335, handle；4, rubber strip conveyer device；40, charging tray；41, device removed by Pulvis Talci；42, rubber strip pipeline；43, rubber strip cutting mould；44, rubber strip feeding device；45, charging tray support；46, the first rubber strip pipeline；47, the second rubber strip pipeline；410, cavity；411, groove；412, upper clamp knife；413, lower clamp knife；414, Pulvis Talci bearing cavity；415, vacuum generator；416, filter bag；417, upper clamp knife mounting seat；418, lower clamp knife mounting seat；419, elbow folder；420, elbow folder pull plate；421, feeding support；422, rotary cylinder；423, suction module；424, rotary cylinder installing plate；425, the first suction module；426, the second suction module；427, swivel plate；428, telescopic cylinder；429, valve；430, valve installing plate；5, valve gap feeding device；51, valve gap feed bin；52, valve gap delivery track；53, valve gap captures module；6, welder；61, welding mechanism；62, plumb joint；63, bonding machine mounting seat；64, ultrasonic welding machine；65, bonding machine installing plate；66, dial gauge mounting bracket；67, dial gauge；68, gauge head；7, LOGO printer device；8, material collecting device；81, sliding way；82, glide path；83, the first groove；84, demarcation strip；85, cylinder is separated；

Detailed description of the invention

Below in conjunction with drawings and Examples, this utility model is further described:

Embodiment one: shown in Fig. 1～17, a kind of kludge of mask breather valve, including frame 1 and be arranged at the pipeline 2 in frame 1, the frame 1 at described pipeline 2 place is additionally provided with valve body feeding device 3, rubber strip conveyer device 4, valve gap feeding device 5, welder 6, LOGO printer device 7, detecting device and material collecting device 8, described valve body feeding device 3, rubber strip conveyer device 4, valve gap feeding device 5, welder 6, LOGO printer device 7, detecting device and material collecting device 8 are set in turn in the initiating terminal of described pipeline 2 between tail end, described valve body feeding device 3 is connected with the initiating terminal of described pipeline 2, described material collecting device 8 is connected with the tail end of described pipeline 2, and described valve body feeding device 3, rubber strip conveyer device 4, valve gap feeding device 5 and described material collecting device 8 are all connected with described pipeline 2.In the present embodiment, also include a controller, described valve body feeding device 3, rubber strip conveyer device 4, valve gap feeding device 5, welder 6, LOGO printer device 7, detecting device and material collecting device 8 are all connected with described controller, and controller is for dispatching the running of whole machine.

Shown in Fig. 1～3, described valve body feeding device 3 includes valve body feed bin 30, sub-material separator 31, delivery track, sub-material separating device 32 and draws material device 33, described valve body feed bin 30, sub-material separator 31, delivery track, sub-material separating device 32 are arranged at the side of pipeline 2, described in draw material device 33 to be arranged at the opposite side of pipeline 2；The discharging opening of described valve body feed bin 30 is connected with one end of described sub-material separator 31, described delivery track feed end is connected with the other end of described sub-material separator 31, the discharge end of described delivery track is arranged at the top of described pipeline 2, described sub-material separating device 32 is arranged at the surface of the discharge end of described delivery track, described delivery track is two delivery tracks being arranged side by side, respectively the first delivery track 34 and the second delivery track 35.

Referring to Fig. 4, shown in 5, described sub-material separator 31 includes gripper shoe 36, it is arranged at the material toggling mechanism in gripper shoe 36 and product plummer 37, the discharging opening of the two ends of described product plummer 37 corresponding described valve body feed bin 30 respectively and the feed end of described delivery track are arranged, described material toggling mechanism includes keyset 38 and is arranged on keyset 38, the upper guide cylinder 39 of downside and lower guide cylinder 300, described upper guide cylinder 39, the output shaft direction of lower guide cylinder 300 is oppositely arranged respectively, described product plummer 37 is installed on the top of described upper guide cylinder 39, described upper guide cylinder 39 is slideably positioned in the top of described keyset 38, the top of described lower guide cylinder 300 or end and described keyset 38 are fixedly linked, the basal sliding of described lower guide cylinder 300 is arranged in described gripper shoe 36.

The right-hand member of described keyset 38 is further fixed on the second keyset 301, described second keyset 301 is arranged at the lower section of described keyset 38, and described second keyset 301 is perpendicular to described keyset 38 and arranges, the right-hand member of described lower guide cylinder 300 is connected with described second keyset 301 through a bolt 302.The left end of described keyset 38 is fixed with a limiting buffer plate 303, and the center of described limiting buffer plate 303 is installed on the left end of described keyset 38, and described limiting buffer plate 303 is perpendicular to described keyset 38 and arranges.The upper and lower end of described limiting buffer plate 303 is respectively equipped with an anticollison block 304, it is prevented that upper guide cylinder 39, lower guide cylinder 300 bump against on limiting buffer plate 303.

Described upper guide cylinder 39 is arranged at the right side of described keyset 38 upper end, and described upper guide cylinder 39 can be slideably positioned on described keyset 38 to the left.Described second keyset 301 is fixed on the right-hand member of described lower guide cylinder 300, and described lower guide cylinder 300 can be slideably positioned in the right in described gripper shoe 36.Simultaneously, in the present embodiment, described product plummer 37 be also arranged above a product pressing plate 305, product may be disposed between product pressing plate 305 and product plummer 37, meanwhile, product pressing plate 305 and product plummer 37 are additionally provided with a reflective photoelectric sensor 306.

Referring to Fig. 4, described in 5, under off working state, the one of product plummer 37 rectifies the discharging opening of corresponding valve body feed bin 30 and arranges, the intersection of corresponding first delivery track the 34, second delivery track 35 of the other end is arranged, and product plummer 37, upper guide cylinder 39, lower guide cylinder 300 and gripper shoe 36 are arranged on same straight line.First delivery track 34 is arranged at left side, and the second delivery track 35 is arranged at right side.During use, one valve body is delivered on product plummer 37 by valve body feed bin 30, reflective photoelectric sensor 306 detects after having product on product plummer 37, upper guide cylinder 39 first works, drive product plummer 37 to left movement, make the valve body on product plummer 37 be delivered in the first delivery track 34, then go up guide cylinder 39 and reset, wait next valve body to be delivered in product plummer 37.When next valve body is delivered on product plummer 37, reflective photoelectric sensor 306 detects after having product on product plummer 37, lower guide cylinder 300 works, keyset 38, upper guide cylinder 39 and product plummer 37 is driven to move right, the valve body on product plummer 37 is made to be delivered in the second delivery track 35, then descend guide cylinder 300 to reset, wait next valve body to be delivered on product plummer 37.So circulation, upper guide cylinder 39, lower guide cylinder 300 alternating movement, it is delivered to staggered for the valve body in valve body feed bin 30 in first delivery track the 34, second delivery track 35.Realize single track and become the function of two pass, so also can realize two-orbit feeding without being made by valve body feed bin two-orbit, effectively reduce production cost.

Referring to Fig. 3, shown in 6～8, described sub-material separating device 32 includes mounting bracket 310, be arranged in mounting bracket 310 installing plate 311 and be arranged at the shim below installing plate 311, described shim is U-shaped, including first side plate the 312, second side plate 313 and the intermediate plate 314 connecting described first side plate the 312, second side plate 313 top, described intermediate plate 314 is installed on described installing plate 311 through a telescopic cylinder 315, and the bottom of described first side plate the 312, second side plate 313 is butted in described first delivery track the 34, second delivery track 35 respectively.Described shim includes symmetrically arranged first shim 316 and the second shim 317, described first shim the 316, second shim 317 is arranged on the bearing of trend of described installing plate 311, and described first shim the 316, second shim 317 is installed on described installing plate 311 through a telescopic cylinder 315 respectively.In the present embodiment, the first shim 316 is arranged near mounting bracket 310, and the second shim is arranged near pipeline.

Shown in Figure 6, described mounting bracket 310 is U-shaped mounting bracket, including left plate 318, right plate 319 and connection left plate 318, the connecting plate 320 of right plate 319, described mounting bracket 310 is through described left plate 318, the bottom of right plate 319 is installed in described frame 1, and described left plate 318 is arranged at the left side of described first delivery track 34, described right plate 319 is arranged at the right side of described second delivery track 35, described connecting plate 320 is arranged at described first delivery track 34, the surface of the second delivery track 35, described installing plate 311 one end is installed on described connecting plate 320, the bottom of the other end is provided with described telescopic cylinder 315, and described installing plate 311 is installed vertically on described connecting plate 320 and arranges.

The side of described pipeline 2 is provided with delivery track, and opposite side arranges and draws material device 33, described in draw material device 33 to be arranged on same straight line with described delivery track.Described drawing expects that device 33 includes drawing material hands 331, draws material cylinder 332 and draw material cylinder mounting seat 333, described drawing expects that cylinder mounting seat 333 is installed in described frame 1, described draw material hands 331 through described draw material cylinder 332 be installed on described in draw in material cylinder mounting seat 333, and described in draw material hands 331 to be arranged at the top of described pipeline 2.Being provided with a lift cylinder 334 on the described output shaft drawing material cylinder 332, this draws material hands 331 to be installed on the output shaft of described lift cylinder 334.In the present embodiment, drawing the top of tail end of material hands 331 to be connected with the output shaft of lift cylinder 334, front end is provided with 4 handles 335, and two of which 335 corresponding first delivery tracks 34 of shaking hands are arranged, and two other handle 335 described second delivery tracks 35 of correspondence are arranged.

In this utility model, valve body feed bin 30 is self-feeding vibrating disk, it is possible to self-feeding, and when valve body feeding device 3 works, step is as follows:

1. valve body feed bin 30 feeding, sends into valve body in material toggling mechanism one by one, again through material toggling mechanism by valve body Alternating Transportation to the first delivery track 34 and the second delivery track 35；

2. valve body is carried by first delivery track the 34, second delivery track 35, when valve body runs to the feeding end of delivery track, telescopic cylinder is pressed for 315 times, respectively second shim the 317, first shim 316 is pressed down successively, block the valve body on first delivery track the 34, second delivery track 35, and first be provided with one piece of valve body between shim the 316, second shim 317, then again the second shim 317 is lifted；

3. drawing material cylinder 332 to stretch out, make the surface drawing material hands 331 to stretch in valve body, lift cylinder is pressed for 334 times, the handle 335 drawing material hands 331 is made to hold valve body, drawing material cylinder 332 to bounce back, by drawing material hands 331 to draw on pipeline 2 by valve body, then lift cylinder 334 drives and draws material hands 331 to rise；

4. 317 times pressures, the first shims 316 of the second shim rise, valve body 11 is promoted forward, after being provided with a valve body 11 between first shim the 316, second shim 317, first shim 316 times is pressed, second shim 317 rises, continue above-mentioned to draw material action, complete valve body and be transported in the step of pipeline 2.

In the present embodiment, the action of the first shim 316 and the second shim 317 hockets, and when the first shim 316 rises, then the second shim is pressed for 317 times.When the first shim is pressed for 316 times, then the second shim 317 rises.

Referring to Fig. 1, 2, shown in 9～12, described rubber strip conveyer device 4 includes charging tray 40, device 41 removed by Pulvis Talci, rubber strip pipeline 42, rubber strip cutting mould 43 and rubber strip feeding device 44, described charging tray 40 is installed on charging tray support 45, rubber strip on charging tray 40 is removed device 41 through Pulvis Talci and is positioned on described rubber strip pipeline 42, described rubber strip cutting mould 43 is arranged on described rubber strip pipeline, described rubber strip cuts into valve block 12 through described rubber strip cutting mould 43, described valve block 12 is positioned on the valve body 11 on described pipeline 2 through described rubber strip feeding device 4.And in the present embodiment, it is provided with two rubber strip pipelines 42 side by side, including the first rubber strip pipeline 46 and the second rubber strip pipeline 47.

Referring to Fig. 9, shown in 10, described Pulvis Talci is removed device 41 and is included cavity 410, described cavity 410 is provided with a groove 411, plural number it is provided with upper clamp knife 412, lower clamp knife 413 in described groove 411, the described rubber strip described groove 411 of traverse, and the end face of described upper clamp knife 412 is butted on the upper surface of described rubber strip, the end face of described lower clamp knife 413 is butted on the lower surface of described rubber strip；Pulvis Talci bearing cavity 414, vacuum generator 415 and filter bag 416 it is sequentially provided with below described cavity 410, described Pulvis Talci bearing cavity 414 top is connected with described cavity 410, is connected with described filter bag 416 by described vacuum generator 415 bottom described Pulvis Talci bearing cavity 414.

In the present embodiment, described upper clamp knife 412 is installed in upper clamp knife mounting seat 417, and described lower clamp knife 413 is installed in lower clamp knife mounting seat 418, and the gap between upper clamp knife mounting seat 417 and lower clamp knife mounting seat 418 constitutes described groove 411.In the present embodiment, the bottom of upper clamp knife 412 and the top of lower clamp knife 413 are arranged in described groove 411, and described lower clamp knife mounting seat 418 to the distance between the bottom of described upper clamp knife 412 less than the distance between described lower clamp knife 413 top to described lower clamp knife mounting seat 418.In the present embodiment, upper clamp knife 412 is provided with 3, and lower clamp knife 413 is provided with 2, and lower clamp knife 413 is arranged between adjacent upper clamp knife 412.During use, rubber strip is through in groove 411, due to upper clamp knife 412, lower clamp knife 413 is crisscross arranged, and the distance between the bottom of lower clamp knife 413 mounting seat extremely described upper clamp knife 412 is less than the distance between described lower clamp knife 413 top to described lower clamp knife mounting seat 418, such rubber strip is in waveform in groove 411, Pulvis Talci on rubber strip upper surface is wiped off by 3 upper clamp knifes 412, Pulvis Talci on rubber strip lower surface is wiped off by 2 lower clamp knifes 413, Pulvis Talci is made to fall in Pulvis Talci bearing cavity 414, it is drawn onto in filter bag 416 by vacuum generator 415, prevent airborne dust.

Meanwhile, in the present embodiment, the top of described cavity 410 is provided with an elbow folder 419, and described elbow folder 419, through described cavity 410, presss from both sides pull plate 420 through an elbow and is connected with the top of described upper clamp knife mounting seat 417.The setting of 419 is pressed from both sides, it is possible to for adjusting the position of upper clamp knife 412, it is simple to adjust and remove talcous dynamics by elbow.

Referring to Figure 11, shown in 12, described rubber strip feeding device 44 includes feeding support 421 and suction module 423, and described suction module 423 is installed on described feeding support 421 through a rotary cylinder 422；Described feeding support 421 is installed on the side of described rubber strip pipeline 42, described suction module 423 and described rotary cylinder 422 are arranged at the surface of described rubber strip pipeline 42, and described rotary cylinder 422 is installed on described feeding support 421 through a rotary cylinder installing plate 424；Described suction module includes the first suction module 425 and the second suction module 426, the output shaft of described rotary cylinder 422 is provided with a swivel plate 427, the center of described swivel plate 427 is connected with the output shaft of described rotary cylinder 422, the two ends of described swivel plate 427 are separately installed with described first suction module the 425, second suction module 426, and described first suction module the 425, second suction module 426 is connected with source of the gas through trachea respectively.

In the present embodiment, described suction module 423 includes a telescopic cylinder 428 and two valves being arranged side by side 429, the top of described telescopic cylinder 428 is installed on one end of described swivel plate 427, and two valves 429 are on the output shaft that valve installing plate 430 is installed on described telescopic cylinder 428.And described valve 429 is connected with described valve installing plate 430, described valve installing plate 430 is connected with source of the gas through trachea.In use, wherein the telescopic cylinder of the first suction module 425 is pressed for 428 times, source of the gas work air-breathing, being adsorbed on two valves 429 by the valve block 12 cut on first rubber strip pipeline the 46, second rubber strip pipeline 47, then rotary cylinder work, rotates 180 ° by swivel plate 427, by the first suction module 425 and the second suction module 426 reversing of position, the source of the gas of the first suction module 425 is blown, and is blown on valve body 11 by the valve block 12 on valve 429, completes the assembling of valve block 12 and valve body 11.Discharging in the middle of the process of valve block 12 at the first suction module 425, the valve block 12 on first rubber strip pipeline the 46, second rubber strip pipeline 7 is also adsorbed by the second suction module 426, so circulates.

Described valve gap feeding device 5 includes valve gap feed bin 51, valve gap delivery track 52 and valve gap and captures module 53, in described valve gap feed bin 51, valve gap 13 is set, described valve gap 13 is carried through described valve gap delivery track 52, capture module 53 through described valve gap to capture on the valve body being arranged on described pipeline 2, complete the assembling of valve gap and valve body.

Shown in Fig. 1,2,13,14, described welder 6 includes 4 bond pads mechanisms 61 and is arranged at the welding pressurizer above pipeline 2, welding mechanism 61 described in 2 groups side by side and is arranged at intervals at the side of described pipeline 2, welding mechanism 61 described in other two groups is arranged at the opposite side of described pipeline 2, and the welding mechanism 61 of described pipeline 2 both sides is respectively symmetrically setting；Described welding mechanism 61 includes bonding machine mounting seat 63 and is slidably mounted on the ultrasonic welding machine 64 in described bonding machine mounting seat 63, and the corresponding described pipeline 2 of plumb joint 62 of described ultrasonic welding machine 64 is arranged.During work, 4 bond pads mechanisms 61 work simultaneously, two groups of welding mechanisms 61 being arranged at pipeline 2 side are respectively welded the side of two products, other two groups of welding mechanisms 61 being arranged at pipeline 2 opposite side are respectively welded the opposite side of two products, valve body 11 and the valve gap 13 of breather valve are welded and fixed.

In the present embodiment, described ultrasonic welding machine 64 is installed in described bonding machine mounting seat 63 through a bonding machine installing plate 65.The tail end of described bonding machine mounting seat 63 is provided with a dial gauge mounting bracket 66, and described dial gauge mounting bracket 66 is provided with a dial gauge 67, and the gauge head 68 of dial gauge 67 is butted on the bottom of described bonding machine installing plate 65.The setting of dial gauge 67, is used for detecting ultrasonic welding machine 64 and is provided that and no be arranged in parallel with frame 1, if be arranged in parallel with pipeline 2, it is ensured that the welding mechanism 61 welding quality to breather valve.

Shown in Figure 15～17, described material collecting device 8 includes sliding way 81 and glide path 82, and the top of described sliding way 81 is connected with the tail end of described pipeline 2, and described sliding way 81 is arranged from top downward；The middle part of described sliding way 81 is provided with the first groove 83, the top of described glide path 82 is installed on the lower section of described first groove 83, and be connected with described first groove 83, the bottom of described first groove 83 is provided with a demarcation strip 84, described demarcation strip 84 separates cylinder 85 with one and is connected, described demarcation strip 84 is slidably arranged in described first groove 83, is separated with described glide path 82 by described sliding way 81.In the present embodiment, glide path 82 is arranged at the lower section of described pipeline 2, and described glide path 82 is perpendicular to described pipeline 2 and arranges, in the angle of 120 °～165 ° between described sliding way 81 and described pipeline 2.In use, the discharge outlet at described sliding way 81 with glide path 82 all arranges a rewinding case, after one of them rewinding case has been expired; open or close demarcation strip 84, change the slideway of discharging, directly carry out rewinding with another one rewinding case; change without shutting down, it is ensured that production efficiency.

In the present embodiment, described detecting device include leak-checking apparatus 21, on choose detecting device 22, photocopy detecting device 23 and pick material device 24, choose detecting device 22 on described and described leak-checking apparatus 21 be set in turn between described welder 6 and described LOGO printer device 7, described photocopy detecting device 23 and pick material device 24 be set in turn between described LOGO printer device 7 and described material collecting device 8.

After breather valve welding assembly completes, first with on choose detecting device 22 and provoke valve gap 13, confirm valve gap 13 whether fixing being welded on valve body 11, and will detection data feedback to controller.On choose after detection completes, leak-checking apparatus 21 utilize and whether leak gas between the valve block 12 of detection of negative pressure breather valve and valve body 11, then will detection data feedback to controller.After LOGO printer device 7 stamps LOGO on breather valve, photocopy detecting device 23 detection whether the LOGO being imprinted on breather valve is qualified, then will detect data feedback to controller.Last controller integral data, by data reaction to picking in material device 24, is rejected underproof product by picking material device 24 from pipeline, makes the breather valve that pipeline 2 is carried all for certified products.

Claims (10)

1. the kludge of a mask breather valve, it is characterized in that: include frame and the pipeline being arranged in frame, the frame at described pipeline place is additionally provided with valve body feeding device, rubber strip conveyer device, valve gap feeding device, welder, LOGO printer device, detecting device and material collecting device, described valve body feeding device, rubber strip conveyer device, valve gap feeding device, welder, LOGO printer device, detecting device and material collecting device are set in turn in the initiating terminal of described pipeline between tail end, described valve body feeding device is connected with the initiating terminal of described pipeline, described material collecting device is connected with the tail end of described pipeline, and described valve body feeding device, rubber strip conveyer device, valve gap feeding device and described material collecting device are all connected with described pipeline.

2. the kludge of mask breather valve according to claim 1, it is characterized in that: described valve body feeding device includes valve body feed bin, sub-material separator, delivery track, sub-material separating device and draws material device, described valve body feed bin, sub-material separator, delivery track, sub-material separating device are arranged at the side of pipeline, described in draw material device to be arranged at the opposite side of pipeline；The discharging opening of described valve body feed bin is connected with one end of described sub-material separator, described delivery track feed end is connected with the other end of described sub-material separator, the discharge end of described delivery track is arranged at the top of described pipeline, described sub-material separating device is arranged at the surface of the discharge end of described delivery track, described delivery track is two delivery tracks being arranged side by side, respectively the first delivery track and the second delivery track.

3. the kludge of mask breather valve according to claim 2, it is characterized in that: described sub-material separator includes gripper shoe, it is arranged at the material toggling mechanism in gripper shoe and product plummer, the discharging opening of the two ends of described product plummer corresponding described valve body feed bin respectively and the feed end of described delivery track are arranged, described material toggling mechanism includes keyset and is arranged on keyset, the upper guide cylinder of downside and lower guide cylinder, on described, the output shaft direction of lower guide cylinder is oppositely arranged respectively, described product plummer is installed on the top of described upper guide cylinder, described upper guide cylinder is slideably positioned in the top of described keyset, the top of described lower guide cylinder or end and described keyset are fixedly linked, the basal sliding of described lower guide cylinder is arranged in described gripper shoe.

4. the kludge of mask breather valve according to claim 1, it is characterized in that: described rubber strip conveyer device includes charging tray, device removed by Pulvis Talci, rubber strip pipeline, rubber strip cutting mould and rubber strip feeding device, described charging tray is installed on charging tray support, rubber strip on charging tray is removed device through Pulvis Talci and is positioned on described rubber strip pipeline, described rubber strip cutting mould is arranged on described rubber strip pipeline, described rubber strip cuts into valve block through described rubber strip cutting mould, described valve block is positioned on described pipeline through described rubber strip feeding device.

5. the kludge of mask breather valve according to claim 4, it is characterized in that: described Pulvis Talci is removed device and included cavity, described cavity is provided with a groove, plural number it is provided with upper and lower folder cutter in described groove, the described rubber strip described groove of traverse, and the end face of described upper clamp knife is butted on the upper surface of described rubber strip, the end face of described lower clamp knife is butted on the lower surface of described rubber strip；Being sequentially provided with Pulvis Talci bearing cavity, vacuum generator and filter bag below described cavity, described Pulvis Talci bearing cavity top is connected with described cavity, is connected with described filter bag by described vacuum generator bottom described Pulvis Talci bearing cavity.

6. the kludge of mask breather valve according to claim 4, it is characterised in that: described rubber strip feeding device includes feeding support and suction module, and described suction module is installed on described feeding support through a rotary cylinder；Described feeding support is installed on the side of described rubber strip pipeline, and described suction module and described rotary cylinder are arranged at the surface of described rubber strip pipeline, and described rotary cylinder is installed on described feeding support through a rotary cylinder installing plate；Described suction module includes the first suction module and the second suction module, the output shaft of described rotary cylinder is provided with a swivel plate, the center of described swivel plate is connected with the output shaft of described rotary cylinder, the two ends of described swivel plate are separately installed with described first, second suction module, and described first, second gathering mold group is connected with source of the gas through trachea respectively.

7. the kludge of mask breather valve according to claim 1, it is characterized in that: described valve gap feeding device includes valve gap feed bin, valve gap delivery track and valve gap and captures module, in described valve gap feed bin, valve gap is set, described valve gap is carried through described valve gap delivery track, captures module crawl through described valve gap and is arranged on described pipeline.

8. the kludge of mask breather valve according to claim 1, it is characterized in that: described welder includes 4 bond pads mechanisms and is arranged at the welding pressurizer above pipeline, welding mechanism described in 2 groups side by side and is arranged at intervals at the side of described pipeline, welding mechanism described in other two groups is arranged at the opposite side of described pipeline, and the welding mechanism of described pipeline both sides is respectively symmetrically setting；Described welding mechanism includes bonding machine mounting seat and is slidably mounted on the ultrasonic welding machine in described bonding machine mounting seat, and the corresponding described pipeline of the plumb joint of described ultrasonic welding machine is arranged.

9. the kludge of mask breather valve according to claim 1, it is characterized in that: described detecting device leak-checking apparatus, on choose detecting device, photocopy detecting device and pick material device, choose detecting device on described and described leak-checking apparatus be set in turn between described welder and described LOGO printer device, described photocopy detecting device and pick material device be set in turn between described LOGO printer device and described material collecting device.

10. the kludge of mask breather valve according to claim 1, it is characterised in that: described material collecting device includes sliding way and glide path, and the top of described sliding way is connected with the tail end of described pipeline, and described sliding way is arranged from top downward；The middle part of described sliding way is provided with the first groove, the top of described glide path is installed on the lower section of described first groove, and be connected with described first groove, the bottom of described first groove is provided with a demarcation strip, described demarcation strip and one separates cylinders, described demarcation strip is slidably arranged in described first groove, is separated with described glide path by described sliding way.