CN111296922A - Medical mask multilayer composite hot-pressing production equipment - Google Patents

Abstract

The invention relates to the medical field, in particular to a multilayer composite hot-pressing production device for a medical mask, which comprises a bracket, a feeding assembly, a limiting assembly, a pressing assembly, a fixing assembly, a stamping assembly and a sealing assembly, wherein the feeding assembly, the limiting assembly, the pressing assembly and the fixing assembly are all arranged at the top of the bracket, the stamping assembly and the sealing assembly are arranged at the side of the bracket, the limiting assembly is arranged between the feeding assembly and the pressing assembly, the fixing assembly is arranged at one side of the pressing assembly far away from the limiting assembly, the stamping assembly and the sealing assembly are symmetrically arranged at two sides of the fixing assembly, the stamping assembly and the sealing assembly are also arranged in a linear state, the feeding assembly comprises a transmission motor and a discharging mechanism, and the problems that when the medical mask is produced, multilayer cotton cannot be subjected to stamping forming and hot-pressing sealing of the mask at the same time are solved, the labor intensity is reduced, and the production efficiency of the mask is improved.

Description

Medical mask multilayer composite hot-pressing production equipment

Technical Field

The invention relates to the field of medical treatment, in particular to a multilayer composite hot-pressing production device for a medical mask.

Background

With the continuous and high-speed development of economy in China, the urbanization and industrialization process is accelerated, various atmospheric pollutants are increased rapidly, the atmospheric environmental problems of developed countries in the last century are caused, the atmospheric environmental problems are concentrated in China, 1 month of 2013 becomes the month with the largest haze weather in 50 years in many cities in China including big cities such as Beijing Shanghai Wuhan Guangzhou, at present, the main pollutants influencing the air quality of cities in China are fine particulate matters with the particle size less than 2.5 micrometers floating in the atmosphere, the health of people is seriously threatened, most of the masks on the market are made of single-layer or multi-layer cotton cloth, gauze, non-woven fabric or plastic cloth and the like, and the masks can only intercept larger particulate matters and cannot protect some fine substances.

The medical protective mask is a knitted fabric, a multilayer protective mask combined by non-woven fabrics and filter screens, which belongs to the technical field of protective equipment, the knitted fabric is adopted, the non-woven fabric type medical protective mask is a knitted fabric, the multilayer protective mask combined by the non-woven fabrics and the filter screens belongs to the technical field of protective equipment, the knitted fabric is adopted, the non-woven fabrics and the filter screens are formed by multiple materials in a layered mode, the permeability and the sealing performance are integrated, the functions of protection, moisture resistance, bacteria resistance and side leakage prevention are achieved, the problems of sweating, sultriness and the like caused by summer heat are solved, the non-woven fabric layer adopts nano non-woven fabrics, staphylococcus aureus in the air and mycobacterium tuberculosis can be used for preventing and killing and inhibiting bacteria, and the medical protective mask has the characteristics of washing resistance, long-acting performance, repeated.

Medical gauze mask in the course of working, need carry out the compound gauze mask that processes into immediately with the cotton material of multilayer, however, often need carry out the material loading unloading through the manual work during present gauze mask man-hour, gauze mask stamping forming back still need take the gauze mask to the hot pressing sealing equipment on and seal the processing, this not only has wasted a large amount of time, has still reduced production efficiency, consequently, need design one kind can go on automatically and go up unloading and gauze mask stamping forming and hot pressing sealing go on simultaneously the device.

Disclosure of Invention

The technical problem to be solved by the invention is to provide multilayer composite hot-pressing production equipment for the medical mask, and the technical scheme solves the problems that multilayer cotton materials cannot be subjected to punch forming of the mask and hot-pressing sealing of the mask simultaneously when the medical mask is produced.

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides a compound hot pressing production facility of medical gauze mask multilayer, which comprises a bracket, still include the pay-off subassembly, spacing subassembly, the die assembly, fixed subassembly, punching press subassembly and seal assembly, the pay-off subassembly, spacing subassembly, die assembly and fixed subassembly all set up in the top of support, punching press subassembly and seal assembly set up in the side of support, spacing subassembly is located between pay-off subassembly and the die assembly, fixed subassembly is located one side that spacing subassembly was kept away from to the die assembly, and punching press subassembly and the both sides that the subassembly symmetry is located fixed subassembly, still be the setting of linear state between punching press subassembly and the seal assembly, the pay-off subassembly includes a drive motor and a drop feed mechanism, drop feed mechanism sets up in one side on support top, drive motor sets up in the one side that drop feed mechanism was.

As a preferred scheme of a medical mask multi-layer composite hot-pressing production device, the discharge mechanism includes a first transfer roller, a second transfer roller and a third transfer roller, the top of the support is provided with a plurality of rollers, and the plurality of rollers are arranged on the top of the support at equal intervals along the length direction of the support and can rotate, the first transfer roller, the second transfer roller and the third transfer roller are respectively arranged above the support in a horizontal state along the length direction of the support, two ends of the first transfer roller, the second transfer roller and the third transfer roller are respectively arranged on the top of a support plate and can rotate, and the first transfer roller, the second transfer roller and the third transfer roller are respectively provided with clamping blocks for placing different cotton materials in a uniform distribution along the circumferential direction.

As a preferred scheme of the medical mask multilayer composite hot-pressing production equipment, the top of each support plate is provided with an arc-shaped opening for placing a first transmission roller, a second transmission roller and a third transmission roller, the top of each support plate is also respectively provided with a limiting block for preventing the first transmission roller, the second transmission roller and the third transmission roller from shaking when rotating, each limiting block is also respectively fixed on the top of the corresponding support plate through a plurality of bolts, a material receiving roller for receiving different cotton materials after finishing processing is arranged above a transmission motor in a horizontal state, an output shaft of the transmission motor and one end of the material receiving roller are also matched and rotate through a transmission belt and a transmission wheel, one side of the first transmission roller, one side of the second transmission roller and one side of the third transmission roller are respectively provided with a first limiting roller, a second limiting roller and a third limiting roller for limiting different cotton materials, and two ends of the first limit roller, the second limit roller and the third limit roller are respectively arranged at the top of the bracket through a supporting seat.

As an optimal scheme of the multilayer composite hot-pressing production equipment for the medical mask, the limiting assembly comprises two pressing mechanisms used for pressing different cotton materials, the two pressing mechanisms are symmetrically arranged at the top of the support along the height direction of the support, the structure of each pressing mechanism is identical, each pressing mechanism consists of a pressing roller and two lifting blocks, the two pressing rollers are symmetrically arranged at the upper end and the lower end of the cotton material after being compounded in a horizontal state, each two lifting blocks are respectively sleeved at the two ends of the corresponding pressing roller, two sides of each lifting block are respectively provided with a sleeving plate, each sleeving plate is further respectively sleeved on a round rod, the round rods between each lifting block and the support are respectively sleeved with a first spring, and the top ends of the round rods are respectively prevented from slipping off through anti-falling nuts.

As a preferred scheme of the multilayer composite hot-pressing production equipment for the medical mask, a die assembly comprises a die roll and a pressing cylinder, the die roll is arranged at the top of a support through a U-shaped frame in a horizontal state, a strip-shaped block for pressing out marks is further arranged on the surface of the die roll, the die roll further rotates through a rotating motor, an output shaft of the rotating motor is matched with the end surface of the die roll through a belt wheel and a belt for driving, the pressing cylinder is fixed at the side of the U-shaped frame through a platform in a vertical state, the output shaft of the pressing cylinder penetrates through the platform to extend downwards, a pressing plate is further arranged at the output end of the pressing cylinder, a die for pressing out marks of the mask is arranged at the bottom of the pressing plate, and two first inserting rods which are arranged upwards in a vertical state are symmetrically arranged on two sides of the top of the pressing plate.

As an optimal scheme of the medical mask multilayer composite hot-pressing production equipment, the fixed assembly comprises two fixed mechanisms with the same structure, the two fixed mechanisms are symmetrically arranged on two sides of the stamping assembly, each fixed mechanism is composed of a movable plate, a threaded rod and a vertical rod are respectively passed through two ends of each movable plate, each movable plate is further sleeved on two stabilizer bars, each threaded rod, the vertical rods and the stabilizer bars are further fixed on a rectangular frame, each rectangular frame is further fixed on the top of the support, each threaded rod is further driven by a first driving motor, a fixed plate used for compressing cotton materials is further fixedly arranged at the bottom of each movable plate respectively, and a rectangular plate used for supporting the cotton materials is further arranged below each fixed plate respectively.

As a preferred scheme of the multilayer composite hot-pressing production equipment for the medical mask, a stamping assembly comprises a stamping mechanism and a telescopic mechanism, the telescopic mechanism is arranged below cotton materials, the stamping mechanism is arranged beside a support, the stamping mechanism comprises a first screw rod, a stamping air cylinder and two first guide rods, the length directions of the two first guide rods are perpendicular to the length direction of the support and are arranged on a mounting frame, the end surfaces of the two first guide rods are symmetrically arranged at the top of the mounting frame through a fixing seat, the first screw rod is arranged below the two first guide rods along the length directions of the two first guide rods, the first screw rod is driven by a second driving motor, a moving block is arranged on the two first guide rods in a sliding manner, a sleeving block is further arranged at the bottom of the moving block and sleeved on the first screw rod, the stamping air cylinder is vertically fixed at the top of the moving block through a high frame body, and the output end of the stamping cylinder is also provided with a stamping knife for stamping, and the high frame body is also stabilized by a reinforcing rib.

As an optimal selection scheme of the compound hot pressing production facility of medical gauze mask multilayer, telescopic machanism comprises a disc and a bottom block, the disc is the horizontality and sets up in the top of support, the bottom block is the bottom that the horizontality is fixed in the support, and the bottom of disc still is equipped with the stock of four vertical downward settings, every stock is along the circumferencial direction evenly distributed of disc, every stock homoenergetic enough alternates in the bottom block, and still all fix the cover on four stocks between disc and the bottom block and be equipped with a second spring, the disc top still is equipped with the die-cut die-punching of die-cutting sword.

As an optimal scheme of the compound hot pressing production facility of medical gauze mask multilayer, the subassembly of sealing includes a second guide bar, a second screw rod and a hot pressing cylinder, the length direction of the equal perpendicular to support of second guide bar and second screw rod, second guide bar and second screw rod are the symmetry and set up on a long support body, and the second screw rod still drives through a third driving motor, it is equipped with a slider still to slide the cover on second guide bar and the second screw rod, hot pressing cylinder is the top that vertical state is fixed in the slider, and hot pressing cylinder's output shaft passes the slider and stretches out downwards, still be equipped with a push pedal on hot pressing cylinder's the output, the bottom of push pedal is equipped with a hot pressing head that is used for gauze mask edge to seal, and the top both sides of push pedal still are equipped with a vertical ascending second inserted bar respectively.

As an optimal selection scheme of the compound hot pressing production facility of medical gauze mask multilayer, one side that the slider is close to the support is equipped with a lug, the top of lug is vertical state and is fixed with a major axis cylinder, the output shaft of major axis cylinder passes the lug and stretches out downwards, and the output of major axis cylinder still is equipped with a bar, the bottom of bar is equipped with an installation shell, it fixes and is equipped with a finger cylinder to be vertical state in the installation shell, and the top both sides of bar still are equipped with a vertical ascending third peg graft pole respectively, the below of pointing the cylinder is equipped with a silo along the length direction of support, the end of silo is equipped with a blanking box.

Compared with the prior art, the invention has the beneficial effects that:

an operator firstly places a plurality of layers of cotton materials on a feeding and discharging mechanism, then a transmission motor drives the cotton materials on the discharging mechanism to move, and in order to prevent the multilayer cotton materials from deviating in the moving process, a limiting component limits the multilayer cotton materials;

then, the surface of the cotton material at the topmost layer is printed with the shape of the mask by the pressing die assembly, after the multi-layer cotton material with the printed shape of the mask comes to the fixing assembly, the two ends of the cotton material are fixed by the fixing assembly, errors are prevented from occurring when the punching assembly punches the cotton material, then the fixed cotton material is subjected to punch forming along the shape of the mask by the punching assembly, the multi-layer cotton material is finally sealed along the edge of the mask shape by the sealing assembly, and the mask is finally sent out.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic perspective view of a position-limiting assembly;

FIG. 4 is a schematic perspective view of a die assembly;

FIG. 5 is a side view of the die assembly;

FIG. 6 is a partial perspective view of the retaining assembly;

FIG. 7 is a schematic perspective view of a stamping assembly;

FIG. 8 is a front view of the punch assembly;

FIG. 9 is a perspective view of the closure assembly;

fig. 10 is a front view of the closure assembly.

The reference numbers in the figures are: the device comprises a bracket 1, a limiting component 2, a die assembly 3, a fixing component 4, a punching component 5, a sealing component 6, a transmission motor 7, a first transmission roller 8, a second transmission roller 9, a third transmission roller 10, a roller 11, a receiving roller 12, a transmission belt 13, a first limiting roller 14, a second limiting roller 15, a third limiting roller 16, a pressing roller 17, a lifting block 18, a sleeve plate 19, a round rod 20, a first spring 21, a retaining nut 22, a die roller 23, a pressing cylinder 24, a U-shaped frame 25, a bar-shaped block 26, a rotating motor 27, a belt 28, a platform 29, a pressing plate 30, a die 31, a first plug-in rod 32, a moving plate 33, a threaded rod 34, a vertical rod 35, a stabilizing rod 36, a rectangular frame 37, a first driving motor 38, a fixing plate 39, a rectangular plate 40, a first screw 41, a punching cylinder 42, a first guiding rod 43, a fixing frame 44, a fixing seat 45, a second driving motor 46, a moving block 47, a rectangular frame 37, a first driving, The device comprises a sleeving block 48, an elevated frame body 49, a punching cutter 50, a reinforcing rib 51, a disc 52, a bottom block 53, a long rod 54, a second spring 55, a punching opening 56, a second guide rod 57, a second screw 58, a hot pressing cylinder 59, a long frame body 60, a third driving motor 61, a sliding block 62, a push plate 63, a hot pressing head 64, a second insertion rod 65, a bump 66, a long rod cylinder 67, a strip-shaped plate 68, a finger cylinder 69, a third insertion rod 70, a blanking groove 71 and a blanking box 72.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 10, the multi-layer composite hot-pressing production equipment for the medical mask comprises a support 1, a feeding assembly, a limiting assembly 2, a pressing assembly 3, a fixing assembly 4, a stamping assembly 5 and a sealing assembly 6, wherein the feeding assembly, the limiting assembly 2, the pressing assembly 3 and the fixing assembly 4 are all arranged at the top of the support 1, the stamping assembly 5 and the sealing assembly 6 are arranged at the side of the support 1, the limiting assembly 2 is arranged between the feeding assembly and the pressing assembly 3, the fixing assembly 4 is arranged at one side of the pressing assembly 3 away from the limiting assembly 2, and punching press subassembly 5 and seal subassembly 6 symmetry are located the both sides of fixed subassembly 4, still are the linear state setting between punching press subassembly 5 and the seal subassembly 6, and the pay-off subassembly includes a driving motor 7 and a drop feed mechanism, and the drop feed mechanism sets up in one side on support 1 top, and driving motor 7 sets up in one side that drop feed mechanism was kept away from to support 1.

The operating personnel at first places the cotton material of multilayer on the pay-off drop feed mechanism, the cotton material on the drop feed mechanism of drive motor 7 drive moves after that, in order to prevent that the cotton material of multilayer from taking place the migration in the removal process, spacing subassembly 2 is spacing with the cotton material of multilayer thereupon, then, the shape of gauze mask is printed out on the surface of the cotton material of top layer to moulding-die subassembly 3, the shape of gauze mask is come fixed subassembly 4 department by the cotton material of multilayer after the printing out after, fixed subassembly 4 is fixed the both ends of cotton material, prevent that punching press subassembly 5 from taking place the error when punching press it, punching press is carried out the cotton material after fixing along the shape of gauze mask to punching press subassembly 5 after that, seal subassembly 6 and seal the processing with the cotton material of multilayer along the edge of gauze mask shape at last, the gauze mask is finally sent out.

The discharging mechanism comprises a first transmission roller 8, a second transmission roller 9 and a third transmission roller 10, a plurality of rollers 11 are arranged at the top of the support 1, the plurality of rollers 11 are arranged at equal intervals along the length direction of the support 1 and can be rotatably arranged at the top of the support 1, the first transmission roller 8, the second transmission roller 9 and the third transmission roller 10 are respectively positioned above the support 1 in a horizontal state along the length direction of the support 1, two ends of the first transmission roller 8, the second transmission roller 9 and the third transmission roller 10 are respectively rotatably arranged at the top of a supporting plate, and clamping blocks for placing different cotton materials are respectively and uniformly distributed on the first transmission roller 8, the second transmission roller 9 and the third transmission roller 10 along the circumferential direction. An operator firstly places a plurality of layers of cotton materials on a first transmission roller 8, a second transmission roller 9 and a third transmission roller 10 respectively, and clamping blocks on the first transmission roller 8, the second transmission roller 9 and the third transmission roller 10 clamp the corresponding cotton materials respectively, so that the instability of cotton material transmission is prevented, and the three layers of cotton materials slide on a plurality of rollers 11 when moving, so that the movement of the cotton materials is facilitated.

The top of each supporting plate is provided with an arc-shaped opening for placing a first conveying roller 8, a second conveying roller 9 and a third conveying roller 10, the top of each supporting plate is further provided with a limiting block for preventing the first conveying roller 8, the second conveying roller 9 and the third conveying roller 10 from shaking when rotating, each limiting block is further fixed to the top of the corresponding supporting plate through a plurality of bolts, a material receiving roller 12 for receiving different cotton materials after finishing processing is arranged above the transmission motor 7 in a horizontal state in a rotatable manner, an output shaft of the transmission motor 7 and one end of the material receiving roller 12 are further matched and rotated through a transmission belt 13 and a transmission wheel, one side of each of the first conveying roller 8, the second conveying roller 9 and the third conveying roller 10 is further provided with a first limiting roller 14, a second limiting roller 15 and a third limiting roller 16 for limiting different cotton materials, and the first limiting roller 14, the second limiting roller 14, the third limiting roller 16, The two ends of the second limit roller 15 and the third limit roller 16 are also respectively arranged at the top of the bracket 1 through a supporting seat. When the delivery motor 7 drives the receiving roller 12 to rotate, the cotton on the first, second and third delivery rollers 8, 9 and 10 move along with the cotton, and the cotton on the first, second and third delivery rollers 8, 9 and 10 is more stable when moving due to the first, second and third limit rollers 14, 15 and 16 on the sides of the first, second and third delivery rollers 8, 9 and 10.

As shown in fig. 3, the limiting assembly 2 includes two pressing mechanisms for pressing different cotton materials, the two pressing mechanisms are symmetrically disposed at the top of the support 1 along the height direction of the support 1, the structure of each pressing mechanism is the same, each pressing mechanism is composed of a pressing roller 17 and two lifting blocks 18, the two pressing rollers 17 are symmetrically disposed at the upper and lower ends of the cotton material after being compounded in a horizontal state, each two lifting blocks 18 are respectively sleeved at the two ends of the corresponding pressing roller 17, two sides of each lifting block 18 are respectively provided with a sleeving plate 19, each sleeving plate 19 is further respectively sleeved on a round rod 20, the round rod 20 between each lifting block 18 and the support 1 is further respectively sleeved with a first spring 21, and the top end of each round rod 20 is further prevented from slipping off by an anti-falling nut 22. When the two pressing mechanisms limit the position of the multiple layers of cotton, the pressing rollers 17 are respectively pushed by manpower, the lifting blocks 18 at the two ends of each pressing roller 17 drive the pressing rollers 17 to be pushed outwards under the action of the corresponding first springs 21, then the multiple layers of cloth pass between the two pressing rollers 17, and the multiple layers of cotton can be better positioned along with the release of the two pressing rollers 17.

Referring to fig. 4 and 5, the die assembly 3 includes a die roll 23 and a lower air cylinder 24, the die roll 23 is disposed on the top of the frame 1 through a U-shaped frame 25 in a horizontal state, a bar block 26 for pressing marks is further disposed on the surface of the die roll 23, the die roll 23 is further rotated by a rotating motor 27, an output shaft of the rotating motor 27 is driven by a pulley and a belt 28, the lower air cylinder 24 is fixed to the side of the U-shaped frame 25 through a platform 29 in a vertical state, the output shaft of the lower air cylinder 24 passes through the platform 29 and extends downward, a pressing plate 30 is further disposed at the output end of the lower air cylinder 24, a die 31 for pressing marks on the mask is disposed at the bottom of the pressing plate 30, and two first plugging rods 32 disposed upward in a vertical state are symmetrically disposed at two sides of the top of the pressing plate 30. When the die assembly 3 performs mask-shaped die-pressing on top layer cotton, the die roller 23 firstly rotates through the rotation of the rotating motor 27, the rotating motor 27 and the die roller 23 are driven by the cooperation of the belt 28 and the belt wheel, the bar-shaped block 26 on the die roller 23 prints a trace on the cotton through rotation, then the pressing-down cylinder 24 moves towards the cotton through the pressing plate 30, the die 31 at the bottom of the pressing plate 30 presses the cotton out of the mark of the mask, and when the pressing-down cylinder 24 pushes the pressing plate 30 to press down, the two first inserting rods 32 at the top of the pressing plate 30 move up and down on the platform 29 along with the pressing plate 30, so that the stability of the pressing plate 30 during pressing down is facilitated.

As shown in fig. 6, the fixing assembly 4 includes two fixing mechanisms with the same structure, the two fixing mechanisms are symmetrically disposed on two sides of the stamping assembly 5, each fixing mechanism is composed of a moving plate 33, two ends of each moving plate 33 penetrate through a threaded rod 34 and a vertical rod 35, each moving plate 33 is further sleeved on two stabilizer bars 36, each threaded rod 34, the vertical rod 35 and the stabilizer bars 36 are further fixed on a rectangular frame 37, each rectangular frame 37 is fixed on the top of the support 1, each threaded rod 34 is further driven by a first driving motor 38, the bottom of each moving plate 33 is further fixedly provided with a fixing plate 39 for compressing cotton, and a rectangular plate 40 for supporting cotton is further provided below each fixing plate 39. When the two fixing mechanisms compress cotton materials at two ends of a part to be punched, each first driving motor 38 drives the corresponding threaded rod 34 to rotate, each moving plate 33 moves on the corresponding vertical rod 35 and the two stabilizing rods 36 through the threaded rod 34, and the fixing plate 39 at the bottom of each moving plate 33 compresses multiple layers of cotton materials on the corresponding rectangular plate 40.

Referring to fig. 7 and 8, the stamping assembly 5 includes a stamping mechanism and a telescoping mechanism, the telescoping mechanism is disposed below the cotton, the stamping mechanism is disposed beside the support 1, the stamping mechanism is composed of a first screw 41, a stamping cylinder 42 and two first guide rods 43, the length directions of the two first guide rods 43 are perpendicular to the length direction of the support 1 and are disposed on a mounting rack 44, the end faces of the two first guide rods 43 are symmetrically disposed on the top of the mounting rack 44 through a fixing seat 45, the first screw 41 is disposed below the two first guide rods 43 along the length directions of the two first guide rods 43, the first screw 41 is further driven by a second driving motor 46, a moving block 47 is slidably disposed on the two first guide rods 43, the bottom of the moving block 47 is further provided with a sleeve block 48 sleeved on the first screw 41, the stamping cylinder 42 is fixed on the top of the moving block 47 through a high frame body 49 in a vertical state, a stamping knife 50 for stamping is further arranged at the output end of the stamping cylinder 42, and the high frame body 49 is further stabilized through a reinforcing rib 51. After the multiple layers of cotton materials are compacted, the second driving motor 46 drives the first screw rod 41 to rotate, the moving block 47 moves on the two first guide rods 43 towards the cotton materials through the sleeving block 48, the stamping air cylinder 42 moves above the cotton materials, and then the stamping air cylinder 42 stamps along the marks printed on the mask through the stamping knife 50 to stamp the multiple layers of cotton materials.

The telescopic mechanism consists of a disc 52 and a bottom block 53, the disc 52 is arranged at the top of the support 1 in a horizontal state, the bottom block 53 is fixed at the bottom of the support 1 in a horizontal state, the bottom of the disc 52 is also provided with four vertical downwards-arranged long rods 54, each long rod 54 is uniformly distributed along the circumferential direction of the disc 52, each long rod 54 can be inserted into the bottom block 53, and the four long rods 54 between the disc 52 and the bottom block 53 are also fixedly sleeved with a second spring 55, and the top of the disc 52 is also provided with a punching opening 56 for punching the punching knife 50. When the punching knife 50 punches downwards, the punching knife 50 moves downwards on the bottom block 53 through the four long rods 54 due to the pressure of the downward punching, the multi-layer cotton is finally formed in the punching process of the punching knife 50, and the four long rods 54 at the bottom of the disc 52 are respectively sleeved with the second springs 55, so that the disc 52 returns to the original position.

As shown in fig. 9 and 10, the sealing assembly 6 includes a second guide rod 57, a second screw rod 58 and a hot pressing cylinder 59, the length directions of the second guide rod 57 and the second screw rod 58 are both perpendicular to the length direction of the support 1, the second guide rod 57 and the second screw rod 58 are symmetrically disposed on a long frame body 60, the second screw rod 58 is further driven by a third driving motor 61, a sliding block 62 is further slidably sleeved on the second guide rod 57 and the second screw rod 58, the hot pressing cylinder 59 is vertically fixed on the top of the sliding block 62, an output shaft of the hot pressing cylinder 59 penetrates through the sliding block 62 to extend downward, a push plate 63 is further disposed on an output end of the hot pressing cylinder 59, a hot pressing head 64 for sealing the edge of the mask is disposed at the bottom of the push plate 63, and a second vertical upward insertion rod 65 is further disposed on each of two sides of the top of the push plate 63. After the mask is punched and formed, the third driving motor 61 drives the second screw rod 58 to rotate, the sliding block 62 moves towards the upper part of the mask on the second guide rod 57 through the second screw rod 58, then the hot-pressing cylinder 59 presses downwards towards the mask through the pushing plate 63, the hot-pressing head 64 at the bottom of the pushing plate 63 carries out hot-pressing sealing on the edge of the mask, when the pushing plate 63 presses downwards, the two second inserting rods 65 at the top of the pushing plate 63 move on the sliding block 62 along with the pushing plate 63, and therefore the moving stability of the pushing plate 63 is facilitated.

One side that slider 62 is close to support 1 is equipped with a lug 66, the top of lug 66 is vertical state and is fixed with a major axis cylinder 67, the output shaft of major axis cylinder 67 passes lug 66 and stretches out downwards, and the output of major axis cylinder 67 still is equipped with a bar 68, the bottom of bar 68 is equipped with an installation shell, be vertical state fixed and be equipped with a finger cylinder 69 in the installation shell, and the top both sides of bar 68 still are equipped with a vertical ascending third peg graft pole 70 respectively, the below of finger cylinder 69 is equipped with a silo 71 along the length direction of support 1, the end of silo 71 is equipped with a blanking box 72. After the mask is machined, the long shaft cylinder 67 drives the finger cylinder 69 to move towards the mask, and when the strip-shaped plate 68 moves through the long shaft cylinder 67, the two third inserting rods 70 at the top of the strip-shaped plate 68 move on the lug 66, so that the finger cylinder 69 is convenient to move stably, and the finger cylinder 69 clamps the mask and slides into the blanking box 72 through the blanking groove 71 to be sent out.

When the cotton collecting device is used, an operator firstly places a plurality of layers of cotton materials on the first transmission roller 8, the second transmission roller 9 and the third transmission roller 10 respectively, clamping blocks on the first transmission roller 8, the second transmission roller 9 and the third transmission roller 10 clamp the corresponding cotton materials respectively, instability of cotton material transmission is prevented, the three layers of cotton materials slide on the plurality of rollers 11 when moving, movement of the cotton materials is facilitated, and when the transmission motor 7 drives the material receiving roller 12 to rotate, the cotton materials on the first transmission roller 8, the second transmission roller 9 and the third transmission roller 10 move along with the cotton materials;

due to the first limit roller 14, the second limit roller 15 and the third limit roller 16 on one side of the first transfer roller 8, the second transfer roller 9 and the third transfer roller 10, the cotton materials on the first transfer roller 8, the second transfer roller 9 and the third transfer roller 10 are more stable when moving, when the two pressing mechanisms limit the multilayer cotton materials, the pressing rollers 17 are respectively pushed by manpower, the lifting blocks 18 at two ends of each pressing roller 17 drive the pressing rollers 17 to be pushed outwards through the action of the corresponding first springs 21, then the multilayer cotton materials pass between the two pressing rollers 17, the multilayer cotton materials can be better positioned along with the release of the two pressing rollers 17, when the die assembly 3 performs mask die-pressing on the top layer cotton materials, the die roller 23 firstly rotates through the rotation of the rotating motor 27, the rotating motor 27 and the die roller 23 are driven through the cooperation of the die belt 28 and the belt pulley, the strip-shaped block 26 on the die roller 23 prints a trace on the cotton material by rotating, then the downward pressing cylinder 24 moves towards the cotton material through the pressing plate 30, the die 31 at the bottom of the pressing plate 30 presses the cotton material out of the mark of the mask, and when the downward pressing cylinder 24 pushes the pressing plate 30 to press downwards, the two first inserting rods 32 at the top of the pressing plate 30 move upwards and downwards on the platform 29 along with the cotton material, so that the stability of the pressing plate 30 when pressing downwards is facilitated;

when two fixing mechanisms compress cotton materials at two ends of a part to be punched, each first driving motor 38 drives the corresponding threaded rod 34 to rotate along with the cotton materials, each moving plate 33 moves on the corresponding vertical rod 35 and the two stabilizing rods 36 through the threaded rod 34 along with the cotton materials, the fixing plate 39 at the bottom of each moving plate 33 presses multiple layers of cotton materials on the corresponding rectangular plate 40 along with the cotton materials, after the multiple layers of cotton materials are compressed, the second driving motor 46 drives the first threaded rod 41 to rotate along with the cotton materials, the moving block 47 moves on the two first guide rods 43 towards the cotton materials through the sleeving block 48 along with the moving block, the punching cylinder 42 moves above the cotton materials along with the cotton materials, then the punching cylinder 42 punches along marks printed on the mask through the punching knife 50 to punch the multiple layers of cotton materials, when the punching knife 50 punches downwards, the punching knife 50 moves downwards along with the disc 52 on the bottom block 53 through the four long rods 54 due to the downwards punching pressure, the mask is finally formed by the multilayer cotton materials in the stamping process of the stamping knife 50, and the four long rods 54 at the bottom of the disc 52 are respectively sleeved with a second spring 55, so that the disc 52 returns to the original position;

after the mask is punched and formed, the third driving motor 61 drives the second screw rod 58 to rotate, the slide block 62 moves towards the upper part of the mask on the second guide rod 57 through the second screw rod 58, then the hot-pressing cylinder 59 is pressed down towards the mask through the push plate 63, the hot-pressing head 64 at the bottom of the push plate 63 carries out hot-pressing sealing on the edge of the mask, when the push plate 63 is pressed down, the two second inserting rods 65 on the top of the push plate 63 move on the slide block 62 along with the push plate 63, so that the moving stability of the push plate 63 is facilitated, when the mask is processed, the long-axis cylinder 67 drives the finger cylinder 69 to move towards the mask, and when the strip-shaped plate 68 moves through the long-axis cylinder 67, the two third insertion rods 70 on the top of the strip-shaped plate 68 move on the projection 66 along with the projection, so that the finger cylinder 69 is convenient to move stably, and the finger cylinder 69 clamps the mask and slides into the blanking box 72 through the blanking groove 71 to be sent out.

Claims (10)

1. The multi-layer composite hot-pressing production equipment for the medical mask is characterized by comprising a bracket (1),

the automatic stamping machine further comprises a feeding assembly, a limiting assembly (2), a pressing module assembly (3), a fixing assembly (4), a stamping assembly (5) and a sealing assembly (6), wherein the feeding assembly, the limiting assembly (2), the pressing module assembly (3) and the fixing assembly (4) are arranged at the top of the support (1), the stamping assembly (5) and the sealing assembly (6) are arranged beside the support (1), the limiting assembly (2) is positioned between the feeding assembly and the pressing module (3), the fixing assembly (4) is positioned at one side of the pressing module (3) far away from the limiting assembly (2), the stamping assembly (5) and the sealing assembly (6) are symmetrically positioned at two sides of the fixing assembly (4), the stamping assembly (5) and the sealing assembly (6) are arranged in a linear state, the feeding assembly comprises a transmission motor (7) and a discharging mechanism, the discharging mechanism is arranged at one side of the top end of the support (1), the transmission motor (7) is arranged on one side of the support (1) far away from the discharging mechanism.

2. The multi-layer composite hot-pressing production equipment for the medical mask according to claim 1, wherein the discharge mechanism comprises a first transfer roller (8), a second transfer roller (9) and a third transfer roller (10), a plurality of rollers (11) are disposed on the top of the support (1), the plurality of rollers (11) are disposed on the top of the support (1) at equal intervals along the length direction of the support (1) and can rotate, the first transfer roller (8), the second transfer roller (9) and the third transfer roller (10) are disposed above the support (1) in a horizontal state along the length direction of the support (1), the first transfer roller (8), the second transfer roller (9) and the third transfer roller (10) are disposed on the top of a support plate, and two ends of the first transfer roller (8), the second transfer roller (9) and the third transfer roller (10) are uniformly distributed along the circumferential direction for placing the first transfer roller (8), the second transfer roller (9) and the third transfer roller (10) respectively The clamping blocks of different cotton materials.

3. The multi-layer composite thermal pressing production equipment for the medical mask according to claim 2, wherein the top of each support plate is provided with an arc-shaped opening for placing a first transfer roller (8), a second transfer roller (9) and a third transfer roller (10), the top of each support plate is further provided with a stopper for preventing the first transfer roller (8), the second transfer roller (9) and the third transfer roller (10) from shaking during rotation, each stopper is further fixed to the top of the corresponding support plate through a plurality of bolts, a material receiving roller (12) for receiving different cotton materials after processing is arranged above the transmission motor (7) in a horizontal state, an output shaft of the transmission motor (7) and one end of the material receiving roller (12) are further rotated through a transmission belt (13) and a transmission wheel in a matching manner, and the first transfer roller (8) and the material receiving roller (12) are further arranged on the top of each support plate, and the first transfer roller (8) and the second transfer roller (10) are further rotated through a, One side of the second transmission roller (9) and one side of the third transmission roller (10) are respectively provided with a first limit roller (14), a second limit roller (15) and a third limit roller (16) which are used for limiting different cotton materials, and two ends of the first limit roller (14), the second limit roller (15) and the third limit roller (16) are respectively arranged at the top of the bracket (1) through a supporting seat.

4. The multi-layer composite hot-pressing production equipment for the medical mask according to claim 3, wherein the limiting assembly (2) comprises two pressing mechanisms for pressing different cotton materials, the two pressing mechanisms are symmetrically arranged at the top of the bracket (1) along the height direction of the bracket (1), the structures of the pressing mechanisms are the same, each pressing mechanism consists of a pressing roller (17) and two lifting blocks (18), the two pressing rollers (17) are symmetrically arranged at the upper end and the lower end of the cotton material after being compounded in a horizontal state, each two lifting blocks (18) are respectively sleeved at the two ends of the corresponding pressing roller (17), two sides of each lifting block (18) are respectively provided with a sleeved connection plate (19), each sleeved connection plate (19) is respectively sleeved on one round rod (20), and a first spring (21) is respectively sleeved on the round rod (20) between each lifting block (18) and the bracket (1), and the top end of each round rod (20) is also prevented from sliding down by an anti-falling nut (22).

5. The multi-layer composite hot-pressing production equipment for the medical mask according to claim 4, wherein the die assembly (3) comprises a die roll (23) and a pressing cylinder (24), the die roll (23) is horizontally arranged on the top of the support (1) through a U-shaped frame (25), a strip block (26) for pressing marks is further arranged on the surface of the die roll (23), the die roll (23) is further rotated through a rotating motor (27), an output shaft of the rotating motor (27) is further driven by a belt wheel and a belt (28) in a matching manner with the end surface of the die roll (23), the pressing cylinder (24) is vertically fixed on the side of the U-shaped frame (25) through a platform (29), an output shaft of the pressing cylinder (24) penetrates through the platform (29) to extend downwards, and an output end of the pressing cylinder (24) is further provided with a pressing plate (30), the bottom of the pressing plate (30) is provided with a die (31) for pressing mask traces, and two first inserting rods (32) which are vertically and upwards arranged are symmetrically arranged on two sides of the top of the pressing plate (30).

6. The medical mask multilayer composite hot-pressing production equipment as claimed in claim 5, wherein the fixed assembly (4) comprises two fixed mechanisms with the same structure, the two fixed mechanisms are symmetrically arranged on two sides of the stamping assembly (5), each fixed mechanism consists of a moving plate (33), two ends of each moving plate (33) penetrate through a threaded rod (34) and a vertical rod (35), each moving plate (33) is further sleeved on two stabilizing rods (36), each threaded rod (34), the vertical rod (35) and the stabilizing rods (36) are further fixed on a rectangular frame (37), each rectangular frame (37) is fixed on the top of the support (1), each threaded rod (34) is further driven by a first driving motor (38), a fixed plate (39) used for compressing cotton is further fixedly arranged at the bottom of each moving plate (33) respectively, a rectangular plate (40) used for supporting cotton materials is arranged below each fixing plate (39).

7. The multi-layer composite hot-pressing production equipment for the medical mask according to claim 6, wherein the stamping assembly (5) comprises a stamping mechanism and a telescopic mechanism, the telescopic mechanism is arranged below the cotton material, the stamping mechanism is arranged at the side of the bracket (1), the stamping mechanism comprises a first screw rod (41), a stamping cylinder (42) and two first guide rods (43), the length directions of the two first guide rods (43) are perpendicular to the length direction of the bracket (1) and are arranged on a mounting frame (44), the end faces of the two first guide rods (43) are symmetrically arranged at the top of the mounting frame (44) through a fixing seat (45), the first screw rod (41) is positioned below the two first guide rods (43) along the length directions of the two first guide rods (43), and the first screw rod (41) is further driven by a second driving motor (46), two first guide bars (43) go up the slip and are equipped with a movable block (47), the bottom of movable block (47) still is equipped with one and cup joints on piece (48) cover locates first screw rod (41), and punching press cylinder (42) are vertical state and are fixed in the top of movable block (47) through a high support body (49) to the output of punching press cylinder (42) still is equipped with die cutter (50) that are used for the punching press, and high support body (49) still are stable through a strengthening rib (51).

8. The multi-layer composite hot-pressing production equipment for the medical mask according to claim 7, wherein the telescoping mechanism consists of a disc (52) and a bottom block (53), the disc (52) is horizontally arranged at the top of the support (1), the bottom block (53) is horizontally fixed at the bottom of the support (1), four vertically downward long rods (54) are further arranged at the bottom of the disc (52), each long rod (54) is uniformly distributed along the circumferential direction of the disc (52), each long rod (54) can be inserted into the bottom block (53), a second spring (55) is further fixedly sleeved on each of the four long rods (54) between the disc (52) and the bottom block (53), and a punching opening (56) for punching the punching knife (50) is further formed in the top of the disc (52).

9. The medical mask multilayer composite hot-pressing production device according to claim 8, wherein the sealing assembly (6) comprises a second guide rod (57), a second screw rod (58) and a hot-pressing cylinder (59), the length directions of the second guide rod (57) and the second screw rod (58) are both perpendicular to the length direction of the support (1), the second guide rod (57) and the second screw rod (58) are symmetrically arranged on a long frame body (60), the second screw rod (58) is further driven by a third driving motor (61), a sliding block (62) is further slidably sleeved on the second guide rod (57) and the second screw rod (58), the hot-pressing cylinder (59) is vertically fixed on the top of the sliding block (62), an output shaft of the hot-pressing cylinder (59) penetrates through the sliding block (62) to extend downwards, a push plate (63) is further arranged on the output end of the hot-pressing cylinder (59), the bottom of the push plate (63) is provided with a hot-pressing head (64) for sealing the edge of the mask, and two sides of the top of the push plate (63) are respectively provided with a second insertion rod (65) which is vertically upward.

10. The multi-layer composite hot-pressing production equipment for the medical mask according to claim 9, wherein one side of the sliding block (62) close to the bracket (1) is provided with a bump (66), the top of the bump (66) is vertically fixed with a long-axis cylinder (67), an output shaft of the long-axis cylinder (67) passes through the bump (66) and extends downwards, a strip-shaped plate (68) is also arranged at the output end of the long shaft cylinder (67), an installation shell is arranged at the bottom of the strip-shaped plate (68), a finger cylinder (69) is fixedly arranged in the installation shell in a vertical state, and both sides of the top of the strip-shaped plate (68) are respectively provided with a vertical upward third insertion rod (70), a charging chute (71) is arranged below the finger cylinder (69) along the length direction of the support (1), and the tail end of the charging chute (71) is provided with a blanking box (72).

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