SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a cup type gauze mask dustcoat machine aims at solving and hugs closely the technical problem of not good separation between the cup type gauze mask production bed of cloth among the prior art.
In order to achieve the purpose, the embodiment of the utility model provides a cup-shaped gauze mask outer cover machine, which comprises a first frame, a second frame, two groups of cloth welding input mechanisms, a composite mechanism, a welding and cutting mechanism, a waste collecting mechanism and a rolling and cutting mechanism; two layers of supporting positions are arranged above and below the first frame, and the two cloth welding input mechanisms are respectively arranged on the two supporting positions; the cloth welding input mechanism comprises a feeding frame, a cloth welding component, a first traction wheel and a guide wheel component, wherein the feeding frame, the cloth welding component, the first traction wheel and the guide wheel component are sequentially arranged on the supporting position, the feeding frame is used for feeding cloth, the cloth welding component is used for welding cloth, and the first traction wheel is used for traction and conveying the cloth;
the second rack is arranged on one side of the first rack; the compound mechanism, the melt-cutting mechanism and the roll-cutting mechanism are sequentially arranged on the second rack; the composite mechanism is used for jointing the cloth output by the two groups of cloth welding input mechanisms; the melt-cutting mechanism is provided with a melt-cutting part for melt-cutting a wavy cut on the composite cloth, and the waste collecting mechanism is arranged on the second rack for collecting waste materials cut into the wavy cut.
Preferably, the composite mechanism comprises two roll shafts which are arranged up and down, a re-pressing gap is formed between the two roll shafts, and cloth welded by the two groups of cloth welding input mechanisms is attached up and down to penetrate through the re-pressing gap.
Preferably, the melt-cutting mechanism comprises two vertical plates, a mounting plate, a melt-cutting roller, a roller driving mechanism 55, an ultrasonic fusion splicer and a second traction wheel, the mounting plate is connected with the upper ends of the two vertical plates, the melt-cutting roller is rotatably connected to the bottom of the mounting plate, the fusion part is arranged on the cylindrical surface of the melt-cutting roller, and the fusion part is at least two wavy bulges; the roller driving mechanism 55 is connected with the melt-cutting roller and is used for driving the melt-cutting roller to rotate; the ultrasonic welding machine is arranged in the second rack, and the welding head extends out of the top surface of the second rack; the second traction wheel assembly is arranged on the rack and used for traction and conveying of cloth.
Preferably, the mounting plate is further provided with a lifting mechanism, and the fusion cutting roller is rotatably connected to the bottom end of the lifting mechanism.
Preferably, the garbage collection mechanism includes waste material traction wheel and guide bar, waste material traction wheel fixed mounting be in the top edge of second frame, the guide bar with waste material traction wheel fixed connection, just the one end of guide bar extends to the top position of second traction wheel is used for with the wave waste material of cutting portion excision is derived, the other end of guide bar is located the input port top of waste material traction wheel.
Preferably, the number of the rolling cutting mechanisms is two, and the rolling cutting mechanisms are arranged in a vertically staggered manner along the cloth conveying direction; the roll-cutting mechanism includes: the device comprises two supporting plates, supporting rolling shafts, a roll cutting shaft and a roll cutting driving mechanism; the two supporting plates are oppositely arranged on the second rack, the supporting roller and the hobbing shaft are rotatably arranged between the two supporting plates, and the hobbing driving mechanism is connected with the supporting roller and the hobbing shaft and is used for driving the supporting roller and the hobbing shaft to rotate.
Preferably, cup type gauze mask dustcoat machine still includes ejection of compact frame, first drawing material mechanism and second and draws material mechanism, ejection of compact frame fixed mounting be in the side of second frame, first drawing material mechanism fixed mounting be in on the ejection of compact frame, just first drawing material mechanism is adjacent with the hobbing mechanism that sets up in the below for pull the cloth and carry, second drawing material mechanism fixed mounting be in on the ejection of compact frame with first drawing material mechanism sets up relatively for pull the cloth that sets up in the hobbing mechanism in the top and carry, just first drawing material mechanism with second drawing material mechanism all with roller drive mechanism chain drive is connected.
Preferably, a lower transition plate is arranged between the first material pulling mechanism and the rolling and cutting mechanism arranged below the first material pulling mechanism, and the lower transition plate is positioned below the cloth in conveying and used for supporting the cloth conveying.
Preferably, an upper transition plate is arranged between the second material pulling mechanism and the rolling and cutting mechanism arranged above the second material pulling mechanism, and the upper transition plate is positioned below the cloth in conveying and used for supporting the cloth conveying.
Preferably, the discharge side of the first material pulling mechanism and the discharge side of the second material pulling mechanism are fixedly provided with a discharge baffle plate and a discharge guide plate, and a gap for outputting the mask is reserved between the discharge baffle plate and the discharge guide plate.
Preferably, the power of the two groups of cloth welding input mechanisms is the same power source, so that the transmission progress of the two groups of cloth welding input mechanisms is consistent.
The embodiment of the utility model provides an above-mentioned one or more technical scheme in the cup type gauze mask dustcoat machine have one of following technological effect at least:
the cup-shaped mask outer cover machine in the utility model comprises a first frame, a second frame, two groups of cloth welding input mechanisms, a composite mechanism, a welding and cutting mechanism, a waste collecting mechanism and a rolling and cutting mechanism, when in assembly, two layers of supporting positions are arranged on the first frame, two cloth welding input mechanisms are respectively assembled on the two supporting positions, a feeding frame, a cloth welding component, a first traction wheel and a guide wheel component are arranged on the cloth welding input mechanism, the feeding frame, the cloth welding component, the first traction wheel and the guide wheel component are all fixedly arranged on the supporting positions, the input, welding and output of mask cloth can be simultaneously carried out up and down, the composite mechanism, the welding and cutting mechanism and the rolling and cutting mechanism are sequentially arranged on the second frame, the cloth welded by the two cloth welding input mechanisms can be overlapped under the action of the composite mechanism, and conveying the mixture to a melt-cutting mechanism for combined melt-cutting, then cutting, separating and outputting the mixture by a hobbing mechanism to obtain a single plane cup-shaped mask outer cover blank, and outputting and collecting the blank for other procedures. Through the arrangement, the two layers of the cloth forming the cup-shaped outer cover are separately welded, the two layers of the cloth are more conveniently separated during forming, and the problem that the two layers of the cloth are too tight and cannot be separated can be solved.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.
Fig. 1 is an effect diagram of a cup-shaped mask housing machine provided by an embodiment of the present invention.
Fig. 2 is an effect diagram of a cloth welding input mechanism of a cup-shaped mask housing machine provided by the embodiment of the utility model.
Fig. 3 is an effect diagram of a waste collecting mechanism of a cup-shaped mask housing machine provided by the embodiment of the utility model.
Fig. 4 is a transmission structure diagram of the cup-shaped mask housing machine according to the embodiment of the present invention from curve fusion cutting to discharging.
Fig. 5 is a partially enlarged view of a in fig. 4.
Fig. 6 is a partially enlarged view of B in fig. 4.
Wherein, in the figures, the respective reference numerals:
10-first frame 11-discharge frame 12-first material pulling mechanism
13-second material pulling mechanism 20-second rack 30-cloth welding input mechanism
31-feed frame 32-cloth welding assembly 33-first traction wheel
34-guide wheel assembly 40-composite mechanism 50-fusion cutting mechanism
51-vertical plate 52-third traction wheel 53-fusion cutting roller
54-second traction wheel 55-roller driving mechanism 56-ultrasonic welding machine
57-mounting plate 60-waste collection mechanism 61-waste traction wheel
62-guide rod 70-rolling cutting mechanism 71-supporting plate
72-supporting roller 73-rolling cutting shaft 74-rolling cutting driving mechanism
121-upper transition plate 122-discharge baffle 123-discharge guide plate
131, a lower transition plate 571 and a lifting mechanism.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in fig. 1-6, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functionality throughout. The embodiments described below by referring to the drawings are exemplary and intended to explain the embodiments of the present invention and are not to be construed as limiting the present invention.
In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.
In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.
In an embodiment of the present invention, as shown in fig. 1 to 4, a cup-shaped mask housing machine is provided, which includes a first frame 10, a second frame 20, two sets of cloth welding input mechanisms 30, a combining mechanism 40, a welding and cutting mechanism 50, a waste collecting mechanism 60, and a rolling and cutting mechanism 70; the arrangement of the two cloth welding input mechanisms 30 is used for simultaneously welding blanks of the outer covers of the two layers of cup-shaped masks, so that the two layers of cloth can be conveniently combined and then welded and separated, the two layers of supporting positions are arranged above and below the first machine frame 10, and the two cloth welding input mechanisms 30 are respectively arranged on the two supporting positions; the two layers of cloth welding input mechanisms 30 are respectively and fixedly arranged on two layers of supporting positions to realize the position fixation of the two layers of cloth welding input mechanisms 30, each cloth welding input mechanism 30 comprises a feeding frame 31, a cloth welding component 32, a first traction wheel 33 and a guide wheel component 34, each feeding frame 31 comprises a group of feeding wheels and a group of feeding combination wheels, multiple layers of cloth input by the feeding wheels are combined through the arrangement of the feeding combination wheels and used for the combination welding of the cloth welding component 32, the feeding frame 31, the cloth welding component 32, the first traction wheel 33 and the guide wheel component 34 are sequentially arranged on the supporting positions, the feeding frame 31 is sequentially and fixedly arranged through the feeding frame 31, the cloth welding component 32, the first traction wheel 33 and the guide wheel and used for the cloth input, the cloth welding component 32 and the feeding frame 31 are adjacently arranged to weld the cloth, the first traction wheel 33 and the cloth welding component 32 are adjacent to each other and used for drawing the cloth to move, so that the cloth is output from the guide wheel component 34;
the second frame 20 is arranged at one side of the first frame 10; the first frame 10 and the second frame 20 are fixedly connected through a connecting bracket, so that the position between the first frame 10 and the second frame 20 is not changed, and the compound mechanism 40, the melt-cutting mechanism 50 and the roll-cutting mechanism 70 are sequentially arranged on the second frame 20; the composite mechanism 40 and the rolling-cutting mechanism 70 are respectively arranged at the head end and the tail end of the second frame 20, the fusion-cutting mechanism 50 is arranged between the composite mechanism 40 and the rolling-cutting mechanism 70, two layers of cloth overlapped by the composite mechanism 40 are fused and cut, and then the two layers of cloth are conveyed to the rolling-cutting mechanism 70 to be cut and separated, and the composite mechanism 40 is used for jointing the cloth output by the two groups of cloth fusion-connection input mechanisms 30; the melt-cutting mechanism 50 is provided with a melt-cutting portion for melt-cutting a wavy cut on the composite cloth, and the waste collecting mechanism 60 is arranged on the second frame 20 for collecting waste cut into the wavy cut.
The utility model provides a cup type gauze mask dustcoat machine includes first frame 10, second frame 20, two sets of cloth butt fusion input mechanism 30, combined mechanism 40, melt and cut mechanism 50, garbage collection mechanism 60 and hobbing mechanism 70, during the equipment, set up two-layer support position about first frame 10, assemble two cloth butt fusion input mechanism 30 respectively to two support positions on, set up feeding frame 31 on cloth butt fusion input mechanism 30, cloth butt fusion subassembly 32, first traction wheel 33 and leading wheel subassembly 34, and feeding frame 31, cloth butt fusion subassembly 32, the equal fixed mounting of first traction wheel 33 and leading wheel subassembly 34 is on supporting the position, the input of gauze mask cloth is carried out simultaneously from top to bottom in the realization, the butt fusion, output, set gradually combined mechanism 40 on second frame 20, melt and cut mechanism 50 and hobbing mechanism 70, through with combined mechanism 40, melt and cut mechanism 50 and hobbing mechanism 70 set gradually the realization cloth after two cloth butt fusion input mechanism 30 butt fusion in combined mechanism 30 40, conveying the mixture to a melt-cutting mechanism 50 for combined melt-cutting, then cutting, separating and outputting the mixture by a hobbing mechanism 70 to obtain a single plane cup-shaped mask outer cover blank, and outputting and collecting the blank for other processes. Through the arrangement, the two layers of the cloth forming the cup-shaped outer cover are separately welded, the two layers of the cloth are more conveniently separated during forming, and the problem that the two layers of the cloth are too tight and cannot be separated can be solved.
Further, the compound mechanism 40 includes two roll shafts arranged up and down, a re-pressing gap is formed between the two roll shafts, cloth welded by the two groups of cloth welding input mechanisms 30 is attached up and down to penetrate through the re-pressing gap, and the two layers of cloth are combined to be conveyed forward by being abutted to the cloth penetrating through the re-pressing gap through the two roll shafts respectively.
Further, the melt-cutting mechanism 50 includes two vertical plates 51, a mounting plate 57, a melt-cutting roller 53, a roller driving mechanism 55, an ultrasonic fusion splicer 56 and a second traction wheel 54, the mounting plate 57 is connected to the upper ends of the two vertical plates 51, the melt-cutting roller 53 is rotatably connected to the bottom of the mounting plate 57, and the melt-cutting roller 53 is fixedly mounted on the mounting plate 57, because the mounting plate 57 is fixedly mounted on the upper ends of the two vertical plates 51, the melt-cutting roller 53 is erected above the cloth conveying under the action of the mounting plate 57 for melt-cutting the wavy central line of the cloth, the melt-cutting part is arranged on the cylindrical surface of the melt-cutting roller 53, and the melt-cutting part is at least two wavy bulges; the two wavy bulges are used for cutting a wavy center line in a melting mode, and the roller driving mechanism 55 is connected with the melting-cutting roller 53 and used for driving the melting-cutting roller 53 to rotate; the ultrasonic welding machine 56 is arranged in the second frame 20, and the welding head extends out of the top surface of the second frame 20; ultrasonic fusion splicer 56 sets up in the below of melt-cutting roller shaft 53, contradicts the cooperation with the butt fusion, accomplishes the wavy central line melt-cutting to the cloth, second traction wheel 54 subassembly is located in the frame for the cloth pulls the transport, makes going on that the cloth can be more smooth and easy when carrying out melt-cutting, and the card pause can not appear, the mistake appears.
More preferably, a third traction wheel 52 is further disposed in the melt-cutting mechanism 50, the third traction wheel 52 is fixedly mounted on the second frame 20, and the third traction wheel 52 is located between the combining mechanism 40 and the melt-cutting roller 53 for providing traction force for the transportation of the cloth in the combining mechanism 40.
More preferably, the mounting plate 57 is further provided with a lifting mechanism 571, the melt-cutting roller 53 is rotatably connected to the bottom end of the lifting mechanism 571, and the melt-cutting roller 53 is rotatably mounted at the bottom of the lifting mechanism 571, so that the melt-cutting roller 53 is driven by the lifting mechanism 571 to move up and down, which is convenient for the cloth to pass through before melt-cutting, and on the other hand, the melt-cutting roller 53 is rotatably connected, which is also convenient for the melt-cutting roller 53 to rotate under the driving of the roller driving mechanism 55.
In another embodiment of the present invention, the waste collecting mechanism 60 includes a waste traction wheel 61 and a guide rod 62, the waste traction wheel 61 is fixedly installed at one side of the top of the second frame 20, and the discharge hole of the waste traction wheel 61 is located outside the second frame 20, the waste traction wheel 61 is fixedly installed at the top edge of the second frame 20, it is more convenient to arrange the discharge hole of the waste traction wheel 61, the guide rod 62 is fixedly connected to the waste traction wheel 61, and one end of the guide rod 62 extends to the position above the second traction wheel 54 for guiding out the wavy waste material cut by the fusion cutting part, the other end of the guide rod 62 is located above the input port of the waste traction wheel 61, two steering shafts are respectively provided at two ends of the guide rod 62, the two steering shafts are respectively arranged at the front overhead position of the second traction wheel 54 and above the waste traction wheel 61, so that the wavy centerline waste cut by the melt-cutting mechanism 50 is input into the waste traction wheel 61 after two direction changes through the arrangement of the two steering shafts, and the waste traction wheel 61 pulls the wavy centerline waste to be output.
In another embodiment of the present invention, the rolling and cutting mechanisms 70 are two groups and are arranged in a vertically staggered manner along the cloth conveying direction; two roll-cutting mechanisms 70 that misplace from top to bottom, the input port of the roll-cutting mechanism 70 that is located below is the same with the output port height of the second traction wheel 54 for directly accepting the row of cloth that the second traction wheel 54 outputs, the roll-cutting mechanism 70 that is located above is used for accepting another row of cloth that the second traction wheel 54 outputs, the roll-cutting mechanism 70 includes: two supporting plates 71, supporting rollers 72, a roll cutting shaft 73 and a roll cutting driving mechanism 74; the two supporting plates 71 are oppositely arranged on the second frame 20, the supporting roller 72 and the hobbing shaft 73 are rotatably arranged between the two supporting plates 71, the hobbing driving mechanism 74 is connected with the supporting roller 72 and the hobbing shaft 73 and is used for driving the supporting roller 72 and the hobbing shaft 73 to rotate, the supporting roller 72 and the hobbing shaft 73 synchronously rotate under the driving of the hobbing driving mechanism 74, and when a cutter on the hobbing shaft 73 is in contact with the supporting roller 72, cloth conveyed between the supporting roller 72 and the hobbing shaft 73 is cut.
In another embodiment of the present invention, the cup-shaped mask housing machine further comprises an outlet frame 11, a first drawing mechanism 12 and a second drawing mechanism 13, wherein the outlet frame 11 is fixedly installed at the side of the second frame 20, the first drawing mechanism 12 is fixedly installed on the outlet frame 11, the first drawing mechanism 12 is disposed adjacent to the lower rolling mechanism 70 for drawing the cloth for conveying, the first drawing mechanism 12 disposed on the outlet frame 11 is disposed adjacent to the lower rolling mechanism 70 for directly receiving the cloth for outputting, and the second drawing mechanism 13 is fixedly installed on the outlet frame 11 opposite to the first drawing mechanism 12 for drawing the cloth for conveying disposed in the upper rolling mechanism 70, the second drawing mechanism 13 is disposed at one end of the outlet frame 11 away from the first drawing mechanism 12, make two discharge ends separately set up, the receipts material of being convenient for, avoid first drawing material mechanism 12 and second to draw the distance between the material mechanism 13 near excessively, appear crossing phenomenon, just first drawing material mechanism 12 with the second draw material mechanism 13 all with roller drive mechanism 55 chain drive is connected, all rotates under roller drive mechanism 55's power effect, guarantees that first drawing material mechanism 12, second draw material mechanism 13 and roll cutting mechanism 70's speed always, carries the orderly progress to the cutting of cloth.
The material drawing mechanism comprises a second traction wheel 54, a third traction wheel 52, two hobbing mechanisms 70, sliding grooves are formed in the positions, mounted at the two ends of a rotating shaft of the first material drawing mechanism 12 and the second material drawing mechanism 13, adjusting sliding blocks are arranged in the sliding grooves, the adjusting sliding blocks move in the sliding grooves at a fixed distance, adjusting screw rods are connected with the adjusting sliding blocks, the upper ends of the adjusting screw rods penetrate through the tops of the sliding grooves, adjusting nuts are arranged on the adjusting screw rods and are rotatably connected with a vertical plate 51, the vertical plate 51 fixes rotating points of the adjusting screw rods through rotation of the adjusting nuts, the adjusting nuts are extruded by the vertical plate 51 in the rotating process of the adjusting screw rods to drive the adjusting sliding blocks to move, and therefore the second traction wheel 54, the third traction wheel 52, the two hobbing mechanisms 70, the first material drawing mechanism 12 and the second material drawing mechanism 13 are driven to adjust, and cloth can conveniently penetrate through the cloth.
Further, a lower transition plate 131 is arranged between the first material pulling mechanism 12 and the lower rolling and cutting mechanism 70, the lower transition plate 131 is located below the cloth in conveying and is used for supporting cloth conveying, the lower transition plate 131 is in a straight plate shape, and the straight plate-shaped lower transition plate 131 is used for supporting cloth conveying between the first material pulling mechanism 12 and the lower rolling and cutting mechanism 70.
Further, an upper transition plate 121 is arranged between the second material pulling mechanism 13 and the rolling and cutting mechanism 70 arranged above, the upper transition plate 121 is located below the cloth in conveying and used for supporting the cloth to be conveyed, the upper transition plate 121 is a curved surface with an upward bent middle to facilitate downward conveying of the cloth, and one end of the upper transition plate 121, which is located at the input port of the second material pulling wheel, is higher than the input port to facilitate inputting the cloth from the high position to the low position.
More preferably, the discharging side of each of the first pulling mechanism 12 and the second pulling mechanism 13 is fixedly provided with a discharging baffle 122 and a discharging guide plate 123, a gap for outputting the mask is reserved between the discharging baffle 122 and the discharging guide plate 123, the discharging baffle 122 defines the discharging position of the outputted cloth, the cloth is conveyed downwards, the region where the cloth is stacked is determined by the discharging guide plate 123, and a receiving device is convenient to place.
The utility model discloses a further embodiment, two sets of cloth butt fusion input mechanism 30's power is same power supply, makes two sets of cloth butt fusion input mechanism 30's conveying progress unanimous, and the operation is cut to the amalgamation of two-layer cloth to the follow-up of being convenient for.
The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.