CN219053456U - Artificial nose filter core production and assembly equipment - Google Patents

Abstract

The utility model relates to the technical field of medical instrument processing, and provides an artificial nose filter core production and assembly device, which comprises a machine table, wherein a filter paper feeding module, a lower shell feeding module and an assembly and blanking module are arranged on the machine table, the filter paper feeding module comprises a filter paper feeding device of a liftable blanking disc, a filter paper pre-feeding device provided with a driving wheel and a movable floating wheel, a filter paper measuring device, a filter paper active feeding device and a filter paper cutting device, the lower shell feeding module comprises a lower shell feeding device matched with a lower shell feeding vibration disc, the assembly and blanking module comprises a product combination device and a product blanking device, and the product combination device comprises a filter core coil assembly and a lower shell conveying assembly; the utility model realizes the integration of the filter paper feeding, the valve core coil feeding and the lower shell feeding and assembling processes, can avoid the damage to the wavy structure on the filter paper in the processing process, optimizes the production and assembling processes of the artificial nose filter core, and improves the production efficiency.

Description

Artificial nose filter core production and assembly equipment

Technical Field

The utility model relates to the technical field of medical instrument processing, in particular to production and assembly equipment for an artificial nose filter core.

Background

The artificial nose product is formed by assembling five accessories, namely a lower shell, a filter element, electrostatic cotton, an upper shell and a protective cap, wherein the accessories are finished accessories except the filter element, the production and the assembly do not need additional processing technology for secondary processing, the artificial nose product can be directly used for the assembly of the product, the filter element raw material is mainly corrugated paper, and the secondary processing is needed when the product is assembled; at present, the processing and the assembly of the filter element are mostly manually operated, and the main production process is as follows: staff relies on a flat ruler to measure the corrugated paper with fixed length, then cuts the corrugated paper into corrugated paper strips with fixed length, and manually turns the corrugated paper into a round shape; because the handling and the dynamics control of stock form are difficult to unify, and the shape size of stock form is different, the condition that the elasticity is different can appear when follow-up stock form is placed in the inferior valve, need manual the repairment once more according to the condition, so this process production efficiency is low, consuming time is long, and the aeration performance and the water storage performance stability of product are relatively poor during batch production, and staff need contact raw and other materials repeatedly in the production process, have the hidden danger that the filter core receives the pollution.

Therefore, the production of the filter element is a bottleneck process of the production of the product, the overall production efficiency is seriously affected by the bottleneck process, the problem of the production efficiency of the artificial nose is to be solved, and the automatic or semi-automatic production of the corrugated paper roll process is needed to be realized. The corrugated paper surface that the filter core used is mostly wave-shaped structure, this structure can not receive the damage when carrying out the coil stock, otherwise can influence the filter core performance, so can not use conventional stock form equipment, through investigation, current filter core stock form equipment can not solve the problem that corrugated paper surface wave-shaped structure easily received the damage, generally adopt the surface shape of pressing paper mechanism to change filter paper in order to keep its performance, there is the risk of corrugated paper tensioning fracture, and because the special stock form mode of current corrugated paper, corrugated paper ejection of compact position can be constantly changed on the corrugated paper according to the original position of stock form in the material loading use, current equipment needs a large amount of guide structures and turns to the structure and guarantees normal ejection of compact, its process is complicated, and the exposure time of corrugated paper in the air is overlength, the risk that the filter core receives the pollution has been increased, it is not applicable to mass production.

Disclosure of Invention

Based on the above, the utility model aims to overcome the defects of the prior art and provide production and assembly equipment for an artificial nose filter element.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an artificial nose filter core production equipment, includes the board, install filter paper material loading module, lower casing material loading module and equipment unloading module on the board, filter paper material loading module is including filter paper feedway, filter paper prefeed unit, filter paper measuring device, filter paper initiative material feeding unit and filter paper cutting device that distribute in proper order, filter paper feedway includes liftable blowing dish, be equipped with action wheel and mobilizable floating wheel in filter paper prefeed unit, filter paper measuring device, the filter paper initiative material feeding unit, lower casing material loading module includes lower casing material feeding unit with lower casing material loading vibration dish matched with, equipment unloading module includes product composite set and product unloading device, product composite set includes filter core coil stock subassembly and lower casing conveying assembly.

As a further improvement of the utility model, the filter paper feeding device comprises a feeding disc on a machine table, the feeding disc is arranged on a lifting disc, the lifting disc is connected with a feeding bearing seat, the upper end of the feeding bearing seat is connected with a feeding screw shaft penetrating through the feeding disc and the lifting disc, the feeding screw shaft is provided with a feeding disc tensioning device positioned above the lifting disc, the upper end of the feeding screw shaft is provided with a rotating handle, the lower end of the feeding bearing seat is connected with a lifting driving device fixedly arranged in the machine table box body through a lifting transmission plate, a brake block is arranged on the lifting transmission plate, the brake block comprises a brake block and a brake cylinder, the lifting driving device comprises a driving motor, the driving motor is connected with a driven screw through a transmission wheel group, and the driven screw is connected with the lifting transmission plate.

As a further improvement of the utility model, the filter paper pre-feeding device comprises a guide column, a guide feeding assembly and a partition plate, wherein the guide feeding assembly comprises a material detecting opening, a driving guide wheel and a floating guide wheel, the floating guide wheel is arranged on a floating guide sliding rail through a floating guide fixing plate, the floating guide fixing plate is connected with a floating guide spring stud, and a pre-feeding measurement counting sensor which is positioned right above the floating guide wheel is arranged on the floating guide fixing plate.

As a further improvement of the utility model, the filter paper measuring device comprises a counting guide plate, an active counting wheel and a floating counting wheel, wherein the active counting wheel is arranged on an active counting fixed plate, a measuring counting sensor which is positioned right above the active counting wheel is arranged on the active counting fixed plate, the active counting fixed plate is matched with a counting brake block, the floating counting wheel is arranged on a floating counting sliding rail through the floating counting fixed plate, the floating counting fixed plate is connected with a floating counting spring stud, the floating counting spring stud is connected with a measuring cut-off driving device, and a counting guide way corresponding to the joint position of the active counting wheel and the floating counting wheel is arranged on the counting guide plate.

As a further improvement of the utility model, the active filter paper feeding device comprises a feeding guide plate, an active feeding wheel and a floating feeding wheel, wherein the active feeding wheel is arranged on an active feeding fixed plate, an active feeding driving motor positioned right above the active feeding wheel is arranged on the active feeding fixed plate, the floating feeding wheel is arranged on a floating feeding sliding rail through a floating feeding fixed plate, the floating feeding fixed plate is connected with a floating feeding spring stud, the tail end of the floating feeding spring stud is connected with a feeding cut-off driving device, and a feeding guide channel corresponding to the joint position of the active feeding wheel and the floating feeding wheel is arranged on the feeding guide plate.

As a further improvement of the utility model, the filter paper cutting device comprises a cutting guide plate and a cutting assembly, the cutting assembly comprises a pair of scissors arranged on the cutting fixing plate, the scissors are connected with the cutting driving device through a hinged driving rod, and the cutting guide plate is provided with a cutting guide channel corresponding to the cutting position of the scissors.

As a further improvement of the utility model, the lower shell feeding device comprises a feeding component and a material taking component;

the feeding assembly comprises a lower shell baffle plate and a lower shell feeding plate which are matched with a lower shell feeding vibration disc, a lower shell feeding port is formed in the lower shell baffle plate, a lower shell feeding clamping groove matched with the lower shell feeding port is formed in the lower shell feeding plate, the lower end of the lower shell feeding plate is matched with a lower shell feeding sliding rail through a sliding groove, and lower shell feeding buffers are arranged at two ends of the lower shell feeding sliding rail;

the material taking assembly comprises a lower shell material taking support, a lower shell material taking translation cylinder is arranged on the lower shell material taking support, a lower shell material taking lifting cylinder is arranged on the lower shell material taking translation cylinder, a lower shell material taking clamping jaw cylinder is arranged on the lower shell material taking lifting cylinder, and material taking clamping jaws are arranged at the end parts of the lower shell material taking clamping jaw cylinders.

As a further improvement of the utility model, the filter element coil stock assembly comprises a coil stock support, a coil stock driving wheel, a hinged clamping cylinder and a filter element blanking push plate are arranged on the coil stock support, the coil stock driving wheel is meshed with a coil stock driven wheel, the hinged clamping cylinder is provided with a hinged clamping push rod matched with the coil stock driven wheel, the hinged clamping push rod is connected with a coil stock tensioning hinge rod through a coil stock rotating bearing seat, the end part of the coil stock tensioning hinge rod is provided with a coil stock clamping rod, a coil stock limiting clamp arranged below the coil stock clamping rod is provided with a coil stock limiting clamp arranged on the coil stock support, the coil stock limiting clamp is matched with a coil stock guide plate, a coil stock guide channel corresponding to the upper opening position of the coil stock limiting clamp is arranged on the coil stock guide plate, the lower end of the filter element blanking push plate is connected with a filter element blanking push plate matched with the coil stock limiting clamp, the filter element blanking push plate is provided with a through hole matched with the coil stock clamping rod, and the upper and lower parts of the filter element blanking push plate are provided with a push plate buffer;

the lower shell conveying assembly comprises a lower shell conveying plate and a lower shell pushing shaft, lower shell positioning holes corresponding to the lower shell pushing shaft are formed in two ends of the lower shell conveying plate, a pushing shaft channel is formed between the lower shell positioning holes, the lower shell conveying plate is matched with a lower shell conveying sliding rail through a sliding groove, and conveying plate buffers are arranged at the starting and ending positions of the travel of the lower shell conveying plate.

As a further improvement of the utility model, the product blanking device comprises a product blanking bracket and a product detection sensor, wherein a product blanking translation cylinder is arranged on the product blanking bracket, a product blanking lifting cylinder is arranged on the product blanking translation cylinder, a product blanking clamping claw cylinder is arranged on the product blanking lifting cylinder, and the end part of the product blanking clamping claw cylinder is connected with a product blanking clamping jaw.

As a further improvement of the utility model, the machine is provided with a touch display screen.

The beneficial effects of the utility model are as follows:

1. the utility model provides the artificial nose filter element production and assembly equipment, which realizes the automation of the whole process of filter element roll paper production and lower shell inner assembly, has simple equipment work flow, greatly improves the production efficiency of the artificial nose filter element, reduces the dependence on manpower in the production process, eliminates the hidden danger of pollution in the filter element production process, and ensures the stability of the product quality.

2. The utility model uses the liftable horizontal discharging disc, so that the upper and lower positions of the corrugated paper rolls arranged on the discharging disc can be adjusted along with the processing process, the horizontal discharging of the corrugated paper strips in the direction of the tabletop is ensured, the corrugated paper rolls can enter the subsequent feeding mechanism without arranging a guide mechanism to adjust the positions of the corrugated paper rolls, the possibility of pollution to the corrugated paper strips due to exposure is reduced, the operation is simpler, the production procedure is optimized, and the production efficiency is improved.

3. The utility model uses the structure of combining the driving wheel and the floating driven wheel, limits the extrusion force between the driving wheel and the floating driven wheel through the spring on the floating driven wheel, ensures that the wavy structure on the surface of the filter paper is not damaged in the feeding process, is connected with the sliding rail in the wheel group, can be matched with the encoder on the floating driven wheel to measure and count the filter paper, realizes the fine processing of the filter core product, and ensures the quality of the product.

4. The utility model uses the vertically arranged filter element coiling mechanism and is provided with the pushing structure, the filter element lower shell assembly operation can be directly pushed down after the filter element coiling operation is completed, the turning operation is not needed in the coiling process, the integration of the filter element production assembly steps is realized, the production procedures are reduced, and the production efficiency is improved.

5. The utility model uses the jacking lower shell conveying mechanism, integrates the guiding, positioning and feeding functions of lower shell parts by arranging the lower shell positioning hole and the pushing shaft channel on the lower shell conveying plate, and can complete the assembly operation of the lower shell of the filter element by matching with the filter element pushing structure, thereby realizing the integration of the feeding and assembly steps of the lower shell, reducing the occupation of production space, optimizing production procedures and improving the production efficiency.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other 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 the overall structure of the present utility model.

Fig. 2 is a schematic diagram of a filter paper feeding device according to the present utility model.

Fig. 3 is a schematic diagram of a partial structure of a filter paper feeding module according to the present utility model.

FIG. 4 is a schematic diagram of a filter paper pre-feeding device according to the present utility model.

FIG. 5 is a schematic diagram of a filter paper measuring apparatus according to the present utility model.

FIG. 6 is a schematic diagram of the active filter paper feeding device.

FIG. 7 is a schematic view of a cutting assembly according to the present utility model.

Fig. 8 is a schematic structural diagram of the lower housing feeding device of the present utility model.

FIG. 9 is a schematic diagram of the product assembly of the present utility model.

FIG. 10 is a schematic view of the partial structure of the product assembly of the present utility model.

FIG. 11 is a schematic diagram of a product blanking device and associated modules according to the present utility model.

In the figure: 1 is a machine table, and the machine table is a machine table,

2 is filter paper feeding device, 201 is a discharging disc, 202 is a lifting disc, 203 is a feeding bearing seat, 204 is a feeding screw shaft, 205 is a discharging disc tensioning device, 206 is a rotating handle, 207 is a lifting transmission plate, 208 is a brake cylinder, 209 is a brake block, 210 is a driving motor, 211 is a transmission wheel set, 212 is a driven screw,

3 is a filter paper pre-feeding device, 301 is a guide column, 302 is a material detecting port, 303 is an active guide wheel, 304 is a floating guide wheel, 305 is a floating guide fixing plate, 306 is a floating guide sliding rail, 307 is a floating guide spring stud, 308 is a pre-feeding measuring and counting sensor, 309 is a partition baffle,

4 is a filter paper measuring device, 401 is a counting guide plate, 402 is an active counting wheel, 403 is a floating counting wheel, 404 is an active counting fixed plate, 405 is a measuring counting sensor, 406 is a counting brake block, 407 is a floating counting fixed plate, 408 is a floating counting slide rail, 409 is a floating counting spring stud, 410 is a measuring cut-off driving device,

5 is a filter paper active feeding device, 501 is a feeding guide plate, 502 is an active feeding wheel, 503 is a floating feeding wheel, 504 is an active feeding fixed plate, 505 is an active feeding driving motor, 506 is a floating feeding fixed plate, 507 is a floating feeding sliding rail, 508 is a floating feeding spring stud, 509 is a feeding cut-off driving device,

6 is a filter paper cutting device, 601 is a cutting guide plate, 602 is a cutting fixing plate, 603 is scissors, 604 is a hinged driving rod, 605 is a cutting driving device,

7 is a lower shell feeding device, 701 is a lower shell baffle plate, 702 is a lower shell feeding port, 703 is a lower shell feeding plate, 704 is a lower shell feeding clamping groove, 705 is a lower shell feeding sliding rail, 706 is a lower shell feeding buffer, 707 is a lower shell material taking bracket, 708 is a lower shell material taking translation cylinder, 709 is a lower shell material taking lifting cylinder, 710 is a lower shell material taking clamping jaw cylinder, 711 is a material taking clamping jaw,

8 is a product combination device, 801 is a coil stock support, 802 is a coil stock driving wheel, 803 is a coil stock driven wheel, 804 is a hinged clamping cylinder, 805 is a hinged clamping push rod, 806 is a coil stock rotating bearing seat, 807 is a coil stock tensioning hinge rod, 808 is a coil stock clamping rod, 809 is a coil stock limiting clamp, 810 is a coil stock guide plate, 811 is a filter core blanking push plate, 812 is a filter core blanking push plate, 813 is a push plate buffer, 814 is a lower shell conveying plate, 815 is a lower shell positioning hole, 816 is a push shaft channel, 817 is a lower shell push shaft, 818 is a lower shell conveying slide rail, 819 is a conveying plate buffer,

9 is a product blanking device, 901 is a product blanking bracket, 902 is a product blanking translation cylinder, 903 is a product blanking lifting cylinder, 904 is a product blanking clamping jaw cylinder, 905 is a product blanking clamping jaw, 906 is a product detection sensor,

10 is a touch display screen.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1, the artificial nose filter core production and assembly equipment comprises a machine table 1, a filter paper feeding module, a lower shell feeding module and an assembly and discharging module are mounted on the machine table 1, the filter paper feeding module comprises a filter paper feeding device 2, a filter paper pre-feeding device 3, a filter paper measuring device 4, a filter paper active feeding device 5 and a filter paper cutting device 6 which are distributed in sequence, the filter paper feeding device 2 comprises a lifting discharging disc 201, a driving wheel and a movable floating wheel are arranged in the filter paper pre-feeding device 3, the filter paper measuring device 4 and the filter paper active feeding device 5, the lower shell feeding module comprises a lower shell feeding device 7 matched with a lower shell feeding vibration disc, the assembly and discharging module comprises a product combining device 8 and a product discharging device 9, and the product combining device 8 comprises a filter core coiling assembly and a lower shell conveying assembly.

In a specific embodiment, further, the filter paper feeding device 2 includes a feeding disc 201 on the machine 1, the feeding disc 201 is mounted on a lifting disc 202, the lifting disc 202 is connected with a feeding bearing seat 203, the upper end of the feeding bearing seat 203 is connected with a feeding screw shaft 204 penetrating through the feeding disc 201 and the lifting disc 202, a feeding disc tensioning device 205 located above the lifting disc 202 is arranged on the feeding screw shaft 204, a rotating handle 206 is arranged at the upper end of the feeding screw shaft 204, the lower end of the feeding bearing seat 203 is connected with a lifting driving device fixed inside a box body of the machine 1 through a lifting driving plate 207, a brake block is arranged on the lifting driving plate 207, the brake block comprises a brake block 209 and a brake cylinder 208, the lifting driving device comprises a driving motor 210, the driving motor 210 is connected with a driven screw 212 through a driving wheel set 211, and the driven screw 212 is connected with the lifting driving plate 207.

The specific working flow of the filter paper feeding device 2 is as follows: before the equipment starts to run, corrugated paper rolls serving as raw materials of filter paper are mounted on a discharge tray 201, a rotary handle 206 is adjusted, and the rotary handle 206 drives a discharge tray tensioning device 205 to expand or tighten through a feeding screw shaft 204 so as to fix the corrugated paper rolls by the discharge tray tensioning device 205; when the equipment starts to operate, the feeding bearing seat 203 drives the lifting disc 202 to rotate for feeding according to the feeding direction of the corrugated paper roll, and when the feeding height of the corrugated paper roll is changed, the driving motor 210 drives the driven screw 212 to drive the lifting transmission plate 207 to move, so that the feeding height of the corrugated paper roll on the discharging disc 201 is controlled to be adjusted along with the feeding flow, the height of the corrugated paper roll is ensured to be level with a tabletop during discharging, and a subsequent station can be entered without adjustment; when the filter paper feeding device 2 stops working, the brake cylinder 208 drives the brake pad 209 to brake the lifting disk 202.

In a specific embodiment, the filter paper pre-feeding device 3 further comprises a guide column 301, a guide feeding assembly and a partition 309, the guide column 301 and the partition 309 are used for guiding corrugated paper in the filter paper feeding device 2 to enter the guide feeding assembly from the material detecting opening 302, the guide feeding assembly comprises the material detecting opening 302, a driving guide wheel 303 and a floating guide wheel 304, the floating guide wheel 304 is mounted on the floating guide sliding rail 306 through a floating guide fixing plate 305, the floating guide fixing plate 305 is connected with a floating guide spring stud 307, the floating guide spring stud 307 can ensure that the floating guide wheel 304 does not break the surface structure of the corrugated paper or cause the corrugated paper to break when the corrugated paper is pre-fed, and the floating guide fixing plate 305 is provided with a pre-feeding measurement count sensor 308 positioned right above the floating guide wheel 304, and the pre-feeding measurement count sensor 308 is used for measuring the pre-feeding length of the corrugated paper.

The specific working flow of the filter paper pre-feeding device 3 is as follows: corrugated paper in the filter paper feeding device 2 enters the material detecting opening 302 after being guided by the guide post 301, is pulled to pass through a gap between the driving guide wheel 303 and the floating guide wheel 304 below the pre-feeding measurement counting sensor 308, and when the filter paper pre-feeding device 3 runs, the driving guide wheel 303 and the floating guide wheel 304 are matched to convey the corrugated paper to the filter paper measuring device 4, and when the length of the corrugated paper passing through the pre-feeding measurement counting sensor 308 reaches a set value, the driving guide wheel 303 and the floating guide wheel 304 stop running, and the pre-feeding measurement counting sensor 308 transmits a measuring signal to a subsequent station.

In a specific embodiment, further, the filter paper measuring device 4 includes a counting guide plate 401, an active counting wheel 402 and a floating counting wheel 403, the active counting wheel 402 is mounted on the active counting fixing plate 404, a measuring counting sensor 405 located right above the active counting wheel 402 is disposed on the active counting fixing plate 404, the measuring counting sensor 405 can receive a signal transmitted by the pre-feeding measuring counting sensor 308, the active counting fixing plate 404 is matched with a counting brake block 406 for braking the active counting wheel 402, the floating counting wheel 403 is mounted on a floating counting slide rail 408 through a floating counting fixing plate 407, the floating counting fixing plate 407 is connected with a floating counting spring stud 409, the floating counting spring stud 409 acts the same as the floating guide spring stud 307, the floating counting stud 409 is connected with a measuring cut-off driving device 410 for pushing the floating counting wheel 403, and a counting guide rail corresponding to the joint position of the active counting wheel 402 and the floating counting wheel 403 is disposed on the counting guide plate 401.

The specific working flow of the filter paper measuring device 4 is as follows: corrugated paper in the filter paper pre-feeding device 3 is guided into a counting guide way on a counting guide plate 401, is pulled to pass through a gap between an active counting wheel 402 and a floating counting wheel 403 below a measuring and counting sensor 405, when the filter paper measuring device 4 operates, the active counting wheel 402 and the floating counting wheel 403 cooperate to convey the corrugated paper to the filter paper active feeding device 5, and when the length of the corrugated paper passing through the measuring and counting sensor 405 reaches the transmission value of a pre-feeding measuring and counting sensor 308, a counting brake block 406 moves forwards to brake the active counting wheel 402, and a measuring and cutting driving device 410 pushes the floating counting wheel 403 to move forwards to fix the corrugated paper through a floating counting spring stud 409.

In a specific embodiment, further, the active filter paper feeding device 5 includes a feeding guide plate 501, an active feeding wheel 502 and a floating feeding wheel 503, the active feeding wheel 502 is installed on an active feeding fixing plate 504, an active feeding driving motor 505 located right above the active feeding wheel 502 is arranged on the active feeding fixing plate 504, the floating feeding wheel 503 is installed on a floating feeding sliding rail 507 through a floating feeding fixing plate 506, the floating feeding fixing plate 506 is connected with a floating feeding spring stud 508, the floating feeding spring stud 508 acts the same as the floating guide spring stud 307, the end of the floating feeding spring stud 508 is connected with a feeding cut-off driving device 509 for pushing the floating feeding wheel 503, and a feeding guide channel corresponding to the joint position of the active feeding wheel 502 and the floating feeding wheel 503 is arranged on the feeding guide plate 501.

The specific working flow of the active filter paper feeding device 5 is as follows: corrugated paper in the filter paper measuring device 4 is guided into a feeding guide way on a feeding guide plate 501, is pulled to pass through a gap between an active feeding wheel 502 and a floating feeding wheel 503, when the filter paper active feeding device 5 runs, the active feeding wheel 502 and the floating feeding wheel 503 are matched to convey the corrugated paper to a filter paper cutting device 6, when the length of the corrugated paper passing through the gap of the feeding wheels reaches the transmission value of a pre-feeding measurement counting sensor 308, an active feeding driving motor 505 controls the active feeding wheel 502 to stop, and a feeding cut-off driving device 509 drives the floating feeding wheel 503 to move forwards to fix the corrugated paper through a floating feeding spring stud 508 and a floating feeding fixed plate 506.

In a specific embodiment, further, the filter paper cutting device 6 includes a cutting guide plate 601 and a cutting assembly, the cutting assembly includes a scissors 603 mounted on a cutting fixing plate 602, the scissors 603 are connected with a cutting driving device 605 through a hinged driving rod 604, and a cutting guide channel corresponding to a cutting position of the scissors 603 is provided on the cutting guide plate 601.

The specific working flow of the filter paper cutting device 6 is as follows: corrugated paper in the active filter paper feeding device 5 is guided into a cutting guide way on a cutting guide plate 601 and is pulled through a gap between the scissors 603, and when the length of the corrugated paper passing through the gap between the scissors 603 reaches the transmission value of the pre-feeding measurement counting sensor 308, the cutting driving device 605 drives the scissors 603 to cut the corrugated paper through the hinged driving rod 604.

In a specific embodiment, further, the lower housing feeding device 7 includes a feeding assembly and a material taking assembly;

the feeding assembly comprises a lower shell material baffle 701 and a lower shell material feeding plate 703 which are matched with a lower shell material feeding vibration disc, wherein a lower shell material feeding port 702 is formed in the lower shell material baffle 701, a lower shell material feeding clamping groove 704 matched with the lower shell material feeding port 702 is formed in the lower shell material feeding plate 703, the lower end of the lower shell material feeding plate 703 is matched with a lower shell material feeding sliding rail 705 through a sliding groove, and lower shell material feeding buffers 706 used for limiting the travel of the shell material feeding plate 703 are arranged at two ends of the lower shell material feeding sliding rail 705;

the material taking assembly comprises a lower shell material taking support 707, a lower shell material taking translation cylinder 708 is mounted on the lower shell material taking support 707, a lower shell material taking lifting cylinder 709 is mounted on the lower shell material taking translation cylinder 708, a lower shell material taking clamping jaw cylinder 710 is mounted on the lower shell material taking lifting cylinder 709, and a material taking clamping jaw 711 is arranged at the end part of the lower shell material taking clamping jaw cylinder 710.

The specific working flow of the lower shell feeding device 7 is as follows: when the lower shell feeding vibration plate starts to feed, the lower shell feeding plate 703 moves to a position where the lower shell feeding clamping groove 704 is matched with the lower shell feeding port 702 on the lower shell baffle plate 701, after a lower shell part enters the lower shell feeding clamping groove 704 through the lower shell feeding port 702, the lower shell feeding plate 703 moves to the same vertical surface position as the lower shell material taking clamping jaw cylinder 710, the lower shell material taking translation cylinder 708 drives the lower shell material taking clamping jaw cylinder 710 to move to the position above the part in the lower shell feeding clamping groove 704, the lower shell material taking lifting cylinder 709 drives the upper material taking clamping jaw 711 of the lower shell material taking clamping jaw cylinder 710 to move to the position of the lower shell part, the lower shell material taking lifting cylinder 709 resets after the lower shell material taking translation cylinder 708 translates to the position above the lower shell positioning hole 815 of the lower shell conveying plate 814, and the lower shell material taking lifting cylinder 709 moves downwards after the lower shell part is placed in the lower shell positioning hole 815.

In a specific embodiment, further, the filter element coiling assembly comprises a coiling bracket 801, wherein a coiling driving wheel 802, a hinging and clamping cylinder 804 and a filter element blanking push plate 811 are installed on the coiling bracket 801, the coiling driving wheel 802 is meshed with a coiling driven wheel 803, the hinging and clamping cylinder 804 is provided with a hinging and clamping push rod 805 matched with the coiling driven wheel 803, the hinging and clamping push rod 805 is connected with a coiling and tensioning hinging rod 807 through a coiling rotating bearing seat 806, the end part of the coiling and tensioning hinging rod 807 is provided with a coiling and clamping rod 808, a coiling limit clamp 809 installed on the coiling bracket 801 is arranged below the coiling and clamping rod 808 and used for coiling and forming a filter element, the coiling and limiting clamp 809 is matched with a coiling guide plate 810, a coiling guide channel corresponding to the upper opening position of the coiling and limiting clamp 809 is formed on the coiling guide plate 810, the lower end of the filter element blanking push plate 811 is connected with a filter element blanking push plate 812 matched with the coiling and clamping limit clamp 809, and a filter element blanking push plate 808 is formed below the coiling and clamping plate 811 is provided with a buffer plate 811 matched with the filter element blanking plate;

the lower shell conveying assembly comprises a lower shell conveying plate 814 and a lower shell pushing shaft 817, lower shell positioning holes 815 corresponding to the lower shell pushing shaft 817 are formed in two ends of the lower shell conveying plate 814, a pushing shaft channel 816 is formed between the lower shell positioning holes 815, when the lower shell conveying plate 814 moves, the lower shell pushing shaft 817 moves between the pushing shaft channels 816 relative to the lower shell conveying plate 814, the lower shell conveying plate 814 is matched with the lower shell conveying sliding rail 818 through a sliding groove, and conveying plate buffers 819 are respectively arranged at the beginning and ending positions of the travel of the lower shell conveying plate 814.

The specific working flow of the product combination device 8 is as follows: the corrugated paper in the filter paper cutting device 6 enters the inside of a coil limiting clamp 809 through a coil guide way on a coil guide plate 810, after the front end of the corrugated paper reaches the position of a coil clamping rod 808, a hinge clamping cylinder 804 drives the coil clamping rod 808 to clamp the corrugated paper through a hinge clamping push rod 805 and a coil tensioning hinge rod 807, a coil driving wheel 802 starts to rotate, and then drives the coil clamping rod 808 to rotate and coil a filter core through a coil driven wheel 803 and a coil rotating bearing seat 806, when the filter core coil is completed, a lower shell conveying plate 814 conveys a lower shell part to the position below the coil limiting clamp 809, a lower shell pushing shaft 817 pushes the lower shell part upwards to be attached to the coil limiting clamp 809, then the lower shell conveying plate 814 resets, a lower filter core blanking push plate 811 moves downwards to push the filter core completed into the lower shell part to be combined, then the lower shell pushing shaft 817 resets, at the moment, the combined product is positioned at the other end of the lower shell conveying plate 814, and the combined product is conveyed to the product blanking device 9 when the lower shell part is conveyed.

In a specific embodiment, further, the product blanking device 9 includes a product blanking support 901 and a product detection sensor 906, a product blanking translation cylinder 902 is installed on the product blanking support 901, a product blanking lifting cylinder 903 is disposed on the product blanking translation cylinder 902, a product blanking gripper cylinder 904 is disposed on the product blanking lifting cylinder 903, and a product blanking gripper 905 is connected to an end of the product blanking gripper cylinder 904.

The specific working flow of the product blanking device 9 is as follows: after the product detection sensor 906 detects the combined product conveyed by the product combining device 8, the product blanking translation cylinder 902 drives the blanking clamping claw cylinder 904 to move to the position above the combined product, then the product blanking lifting cylinder 903 drives the product blanking clamping claw 905 to move to the position of the combined product, the blanking clamping claw cylinder 904 drives the product blanking clamping claw 905 to clamp the combined product, then the product blanking lifting cylinder 903 is reset, and the product blanking translation cylinder 902 translates to convey the combined product to subsequent processing equipment.

In a specific embodiment, further, a touch display screen 10 is disposed on the machine 1, and the touch display screen 10 is used for monitoring various operating parameters and modifying parameters of the device.

It should be understood that the foregoing detailed description of the present utility model is provided for illustration only and is not limited to the technical solutions described in the embodiments of the present utility model, and those skilled in the art should understand that the present utility model may be modified or substituted for the same technical effects; as long as the use requirement is met, the utility model is within the protection scope of the utility model.

It is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

Claims (10)

1. The utility model provides an artificial nose filter core production equipment, its characterized in that, including board (1), install filter paper material loading module, lower casing material loading module and equipment unloading module on board (1), filter paper material loading module is including filter paper feedway (2), filter paper pre-feeder (3), filter paper measuring device (4), filter paper initiative material feeding unit (5) and filter paper cutting device (6) that distribute in proper order, filter paper feedway (2) are including liftable blowing dish (201), be equipped with action wheel and mobilizable floating wheel in filter paper pre-feeder (3), filter paper measuring device (4), filter paper initiative material feeding unit (5), lower casing material loading module include with lower casing material feeding unit (7) of lower casing material loading vibration dish matched with, equipment unloading module includes product composite set (8) and product unloader (9), product composite set (8) include filter core coil stock subassembly and lower casing conveying subassembly.

2. The artificial nose filter element production and assembly equipment according to claim 1, wherein the filter paper feeding device (2) comprises a feeding disc (201) on a machine table (1), the feeding disc (201) is installed on a lifting disc (202), the lifting disc (202) is connected with a feeding bearing seat (203), the upper end of the feeding bearing seat (203) is connected with a feeding screw shaft (204) penetrating through the feeding disc (201) and the lifting disc (202), the feeding screw shaft (204) is provided with a feeding disc tensioning device (205) above the lifting disc (202), the upper end of the feeding screw shaft (204) is provided with a rotating handle (206), the lower end of the feeding bearing seat (203) is connected with a lifting driving device fixedly arranged inside a box body of the machine table (1) through a lifting transmission plate (207), the braking block comprises a braking block (209) and a braking cylinder (208), the lifting driving device comprises a driving motor (210), and the lower end of the feeding screw shaft (204) is connected with a driven screw shaft (212) through a lifting transmission plate (211).

3. The artificial nose filter element production and assembly equipment according to claim 1, wherein the filter paper pre-feeding device (3) comprises a guide column (301), a guide feeding assembly and a partition plate (309), the guide feeding assembly comprises a material detecting opening (302), a driving guide wheel (303) and a floating guide wheel (304), the floating guide wheel (304) is mounted on a floating guide sliding rail (306) through a floating guide fixing plate (305), the floating guide fixing plate (305) is connected with a floating guide spring stud (307), and a pre-feeding measurement counting sensor (308) located right above the floating guide wheel (304) is arranged on the floating guide fixing plate (305).

4. The artificial nose filter element production assembly device according to claim 1, wherein the filter paper measuring device (4) comprises a counting guide plate (401), an active counting wheel (402) and a floating counting wheel (403), the active counting wheel (402) is installed on the active counting fixed plate (404), a measuring counting sensor (405) located right above the active counting wheel (402) is arranged on the active counting fixed plate (404), the active counting fixed plate (404) is matched with a counting brake block (406), the floating counting wheel (403) is installed on a floating counting sliding rail (408) through a floating counting fixed plate (407), the floating counting fixed plate (407) is connected with a floating counting spring stud (409), the floating counting spring stud (409) is connected with a measuring cut-off driving device (410), and a counting guide way corresponding to the joint positions of the active counting wheel (402) and the floating counting wheel (403) is arranged on the counting guide plate (401).

5. The artificial nose filter element production and assembly equipment according to claim 1, wherein the filter paper active feeding device (5) comprises a feeding guide plate (501), an active feeding wheel (502) and a floating feeding wheel (503), the active feeding wheel (502) is installed on an active feeding fixed plate (504), an active feeding driving motor (505) located right above the active feeding wheel (502) is arranged on the active feeding fixed plate (504), the floating feeding wheel (503) is installed on a floating feeding sliding rail (507) through a floating feeding fixed plate (506), the floating feeding fixed plate (506) is connected with a floating feeding spring stud (508), the end of the floating feeding spring stud (508) is connected with a feeding cut-off driving device (509), and a feeding guide channel corresponding to the joint positions of the active feeding wheel (502) and the floating feeding wheel (503) is arranged on the feeding guide plate (501).

6. The artificial nose filter element production and assembly equipment according to claim 1, wherein the filter paper cutting device (6) comprises a cutting guide plate (601) and a cutting assembly, the cutting assembly comprises a scissors (603) arranged on a cutting fixing plate (602), the scissors (603) are connected with a cutting driving device (605) through a hinged driving rod (604), and the cutting guide plate (601) is provided with a cutting guide channel corresponding to the cutting position of the scissors (603).

7. The artificial nose filter element production and assembly equipment according to claim 1, wherein the lower housing feeding device (7) comprises a feeding assembly and a material taking assembly;

the feeding assembly comprises a lower shell baffle plate (701) and a lower shell feeding plate (703) which are matched with a lower shell feeding vibration disc, a lower shell feeding port (702) is formed in the lower shell baffle plate (701), a lower shell feeding clamping groove (704) which is matched with the lower shell feeding port (702) is formed in the lower shell feeding plate (703), the lower end of the lower shell feeding plate (703) is matched with a lower shell feeding sliding rail (705) through a sliding groove, and lower shell feeding buffers (706) are arranged at two ends of the lower shell feeding sliding rail (705);

the material taking assembly comprises a lower shell material taking support (707), a lower shell material taking translation cylinder (708) is arranged on the lower shell material taking support (707), a lower shell material taking lifting cylinder (709) is arranged on the lower shell material taking translation cylinder (708), a lower shell material taking clamping jaw cylinder (710) is arranged on the lower shell material taking lifting cylinder (709), and a material taking clamping jaw (711) is arranged at the end part of the lower shell material taking clamping jaw cylinder (710).

8. The artificial nose filter element production and assembly equipment according to claim 1, wherein the filter element coiling component comprises a coiling bracket (801), a coiling driving wheel (802), a hinging and clamping cylinder (804) and a filter element blanking push plate (811) are arranged on the coiling bracket (801), the coiling driving wheel (802) is meshed with a coiling driven wheel (803), the hinging and clamping cylinder (804) is provided with a hinging and clamping push rod (805) matched with the coiling driven wheel (803), the hinging and clamping push rod (805) is connected with a coiling and tensioning hinging rod (807) through a coiling rotating bearing seat (806), a coiling and clamping rod (808) is arranged at the end part of the coiling and tensioning hinging rod (807), a coiling limit clamp (809) arranged on the coiling bracket (801) is arranged below the coiling and clamping rod (808), the coiling limit clamp (809) is matched with a coiling guide plate (810), a coiling guide channel corresponding to the upper opening position of the coiling limit clamp (803) is arranged on the coiling guide plate (810), the coiling limit clamp (809) is connected with a coiling and the filter element blanking plate (812) is arranged at the lower end of the coiling and the filter element blanking plate (812), a push plate buffer (813) is arranged above and below the filter element blanking push plate (811);

lower casing conveying assembly includes lower casing transfer plate (814) and lower casing pushing shaft (817), lower casing locating hole (815) corresponding with lower casing pushing shaft (817) have been seted up at lower casing transfer plate (814) both ends, lower casing locating hole (815) have seted up between pushing shaft passageway (816), lower casing transfer plate (814) cooperatees with lower casing transfer slide rail (818) through the spout, lower casing transfer plate (814) stroke start and end position all is equipped with transfer plate buffer (819).

9. The artificial nose filter element production and assembly equipment according to claim 1, wherein the product blanking device (9) comprises a product blanking support (901) and a product detection sensor (906), a product blanking translation cylinder (902) is mounted on the product blanking support (901), a product blanking lifting cylinder (903) is arranged on the product blanking translation cylinder (902), a product blanking clamping claw cylinder (904) is arranged on the product blanking lifting cylinder (903), and a product blanking clamping claw (905) is connected to the end part of the product blanking clamping claw cylinder (904).

10. The artificial nose filter element production and assembly equipment according to claim 1, wherein a touch display screen (10) is arranged on the machine table (1).

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