CN213396788U - Production equipment for fireworks jumping cat - Google Patents

Abstract

The utility model discloses a production facility of fireworks cat that jumps, characterized by shelf location axle bed sole and axle bed, installation electro-magnet and servo motor proximity switch on the fixed plate, gear shaft subassembly is packed into to the internal gear axle, gear shaft unit mount ejector pin, the little synchronizing wheel of servo motor installation, the big synchronizing wheel of installation on the internal gear of axle bed, there is the hold-in range between the big and small synchronizing wheel, installation rubber coating subassembly on the mounting panel, the cylinder is the following has the installation funnel to connect the product. The paper is rolled into a cake shape by a machine, and the paper head connecting part is tightly adhered by glue, so that the paper head connecting part is firmly bonded and molded. The label is pasted outside to become a bright firework product, the manufacturing process is simple, the gunpowder of the firework is not easy to leak, the firework is firm, the setting-off effect is good, and the firework is convenient and safe. Novel design, easy manufacture, convenient production operation, transportation and storage, high production efficiency, high yield, low cost and great economic benefit.

Description

Production equipment for fireworks jumping cat

Technical Field

The utility model belongs to fireworks machinery, especially a production facility of fireworks jumping cat.

Background

Fireworks manufacturing machines are various, and most of the fireworks are set off by jumping over the sky, and are also called fireworks. The production process is simple, some of the products are from the sky, and some of the products are shot into the sky. The jumping cat fireworks are set on the ground in a rolling and jumping mode, and are rolled and pressed into a round cake shape by hand in the existing manufacturing method, and the product is obtained by sticking labels outside. These processes are simple but not robust enough and manual pressing is prone to explosion accidents. Reference 1, application No.: CN201210124059, invention name: a bead spitting type firework paper tube rolling machine comprises a paper feeding mechanism and a paper twisting winding tube mechanism which are correspondingly arranged, wherein the paper twisting winding tube mechanism comprises a flat belt ring arranged on a roller group, the roller group comprises a paper twisting tensioning roller arranged at the front end, a paper twisting main roller and a paper twisting upper roller arranged at the rear end, the paper twisting tensioning roller is provided with an automatic switching device to enable the flat belt ring to be switched between a tensioning state and a loosening state, the flat belt ring part extends into a position between a paper twisting driving roller and a paper twisting driven roller to form a rotating portion, a paper rolling drill rod is sleeved in the rotating portion, and the paper rolling drill rod is provided with a tube withdrawing mechanism. Reference 2, application No.: CN201610756103, title of the invention: a fireworks winding machine comprises a paper feeding mechanism, a paper cutting mechanism, a gluing mechanism, a winding mechanism, a tube cutting mechanism and a tube returning mechanism which are sequentially arranged on a rack, and is characterized by also comprising a paper heating mechanism and a paper shaping mechanism, wherein the paper heating mechanism is arranged at the front end of the paper feeding mechanism and comprises a driver provided with a heat source, and web is heated in the process of being fed into the paper feeding mechanism through the driver; the paper shaping mechanism comprises a squeezing component and a squeezing surface corresponding to the squeezing component, the squeezing component moves towards the squeezing surface, and the running web is shaped into an arc shape under the combined action of the squeezing component and the squeezing surface. The utility model discloses a structural feature is inequality with comparison file 1, 2.

Disclosure of Invention

An object of the utility model is to provide a press into pie with machinery, paste tightly at the stub bar connecting portion with glue, make its firm bonding shaping. The label is pasted to become a bright firework product, the manufacturing process is simple, the work efficiency is high, the gunpowder of the firework is not easy to leak, the firework is firm, the setting-off effect is good, the convenience and the safety are realized, and the yield is high.

The technical scheme of the utility model be so, a production facility that fireworks jumped cat, including taking off a board, 0 type packing ring, gear shaft subassembly, the silica gel pad, first fender pad, first screw rod, a servo motor, first nut, the second nut, the compression spring, the regulating plate, the third nut, the fourth nut, the fifth nut, keep off the cushion, the second keeps off the pad, the fixed plate, first proximity switch, the sixth nut, first proximity switch nut, the seventh nut, the eighth nut, the second proximity switch nut, the ninth nut, the second screw rod, the third screw rod, the electro-magnet, the hold-in range, big synchronizing wheel, the tenth nut, the eleventh nut, the glue pump, the axle bed, the pump mounting panel, the pinion stand, the push pedal, the extension spring, the work piece, the cylinder, first hexagon socket head cap screw, the second hexagon socket cap screw, the guide plate, photoelectric switch, first pan head screw, first support, a, A third inner hexagonal screw, a first shaft nail, a second proximity switch, a second pan head screw, a second bracket, a first rod end joint bearing, a second shaft nail, a second rod end joint bearing, an eccentric wheel, a set screw, a second servo motor, a linear bearing, a shaft, a machine frame, a bearing seat, a screw, a moving frame limit screw, a sunk screw, a sliding block, a sliding rail, a funnel, a tension spring screw, a gluing pressing plate, a gluing cam, a tension spring hanging nail, a workpiece placing opening, a fourth inner hexagonal screw, a shaft seat foot plate, a twelfth nut, a fourth screw, a thirteenth nut, a fourteenth nut, a small synchronizing wheel, a belt tube and needle glue bottle, a glue bottle fixing frame, a glue pump motor, a glue input jack, a gluing wool top, a glue output opening, a stepping motor, an encoder, a third shaft nail, a presser foot, a third pan head screw, an ejector rod, a fifth screw, an inner gear shaft, A fifth inner hexagon screw, a gluing pressing plate adjusting nail, a cam driven gear, a first cushion block, a pinch roller driven gear, a driving gear hole, a base body, a second cushion block, a cam gear shaft, a pinch roller gear shaft, a sixth inner hexagon screw, a push rod shaft hole, a shaft head, a driving gear shaft, a release check ring, a needle tube, an adjusting head, an installing screw, an installing plate, a gluing pressing plate pair 0 contact point, a gluing cam sector, a pinch roller demoulding gap and a pinch roller pair 0 contact point, and is characterized in that a shaft seat foot plate 75 and a shaft seat 33 are installed on a frame 60, a fixing plate 17 is installed on the shaft seat 33, an electromagnet 27, a first servo motor 7 and a first proximity switch 18 are installed on the fixing plate 17, a second blocking pad 16, a gluing pad 15 and a release plate 1 are installed on a first screw rod 94 of the shaft seat 33, a gear shaft assembly 3 is installed on the inner gear shaft 94 of the shaft seat 33, a push, the output rod of the electromagnet 27 is connected with the stripper plate 1, the silica gel pad 4, the first baffle pad 5, the second nut 9 and the third nut 12 are arranged on the first screw rod 6, the compression spring 10 is arranged on the ejection rod 92, the nut is tightly fixed on the fifth screw rod 93, the adjusting plate 11 is arranged on the outer side of the stripper plate 1, the small synchronous wheel 80 is arranged on the first servo motor 7, the large synchronous wheel 29 and the small synchronous wheel 80 are arranged on the inner gear shaft 94 of the shaft seat 33, the synchronous belt 28 is arranged between the small synchronous wheel (80) and the large synchronous wheel 29, the cam driven gear 97 is arranged on the cam gear shaft 103 of the body 101, the pinch roller driven gear 99 is arranged on the pinch roller gear shaft 104, the gluing cam 71 is arranged on the other end of the cam gear shaft 103, the pinch roller 36 is arranged on the other end of the pinch roller shaft 104, the gluing cam 71 and the matched gluing pressing plate 70 are arranged on the mounting plate 113 extending out of the, the gear seat 35 is arranged on the shaft seat 33, a tension spring screw 69 is arranged on a machine frame 60, a tension spring hanging nail 72 is screwed on a gluing pressing plate 70, a tension spring 37 is arranged, a linear bearing 58 is arranged on a bearing seat 61, the bearing seat 61 is arranged on the machine frame 60, a moving frame 63 is arranged on the linear bearing 58, the machine frame 60 is arranged on a sliding rail 67 and a sliding block 66 in a sliding way, a push plate 46 is fixed on the sliding block 66, a stepping motor 87 is arranged below the panel of the moving frame 63, an eccentric wheel 55 is arranged on the stepping motor 87, a second rod end joint bearing 54 is arranged on the eccentric wheel 55, a first rod end joint bearing 52 is arranged on the push plate 46, a roller 39, a stepping motor 87, an encoder 88 and a power supply are arranged behind the main plate of the moving frame 63, the roller 39 is arranged on the stepping motor 87 in front of the main plate of the moving frame, a guide plate 42 is arranged below the, the funnel 68 is arranged under the pinch roller 36, the pump mounting plate 34 is fastened on the rear side surface of the shaft seat 33 by a fifth inner hexagon screw 95, the glue pump motor 83 and the glue pump 32 are arranged on the pump mounting plate 34, the glue bottle fixing frame 82 with the tube and the needle glue bottle 81 is arranged under the rear side surface of the shaft seat 33, the needle tube 110 from the glue pump 32 is inserted into the glue input jack 84 of the glue pressing plate 70, the glue coating wool tops 85 are arranged on the glue coating wool tops of the glue pressing plate 70, the workpiece 38 is sent out from the bottom of the roller 39 to the pinch roller 36, between the outer shaft end arcs of the ejection rod 92 and between the glue coating cam 71 and the glue coating pressing plate 70, the pinch roller 36 rotates relative to the end of the ejection rod 92, and the tube and the needle glue bottle 81 work out glue to.

The arc length of the pinch roller 36 is equal to the outer axial end circular diameter circumference length x 3 of the ejector rod 92.

The pinch roller stripping notches 361 of the pinch roller 36 are clearance for the successful post-stripping of a roll of the workpiece 38.

The contact pressure of the pressure wheel 36 on the contact point 362 of the pressure wheel pair 0 and the contact point 701 of the gluing pressure plate pair 0 is repeated to rotate for one working cycle, and the work of a workpiece 38 reel starts.

The glue cam 71 has a glue cam sector 711, which glue cam sector 711 is long.

The glue platen 70 has a glue platen pair 0 contact 701.

Compared with the prior art, the utility model outstanding effect is: the design is novel, the process is simple, the manufacture is easy, the operation is convenient, the transportation and the storage are convenient, the production efficiency is high, the yield is high, the cost is low, and the economic benefit is large.

Drawings

Fig. 1 is a schematic view of the assembly front view of the present invention.

Fig. 2 is a schematic top view of the assembly of the present invention.

Fig. 3 is a left side view of the assembly of the present invention.

Fig. 4 is a schematic front view of the shaft seat of the present invention.

Fig. 5 is a schematic view of the gear seat of the present invention.

Fig. 6 is a schematic top view of the gear seat of the present invention.

Fig. 7 is a schematic cross-sectional view of the gear hub assembly of the present invention.

Fig. 8 is a schematic front view of the gear shaft of the present invention.

Fig. 9 is a semi-sectional view of the gear shaft of the present invention.

Fig. 10 is a right-side view of the gluing pressing plate of the present invention.

Fig. 11 is a schematic front view of the gluing pressing plate of the present invention.

Fig. 12 is a schematic front view of the cam of the present invention.

Fig. 13 is a schematic left view of the cam of the present invention.

Fig. 14 is a schematic front view of the push plate of the present invention.

Fig. 15 is a schematic left view of the push plate of the present invention.

Fig. 16 is a schematic front view of the eccentric wheel of the present invention.

Fig. 17 is a schematic top view of the eccentric wheel of the present invention.

Figure 18 is a front view of the pressing wheel of the present invention.

Figure 19 is a schematic top view of the pinch roller of the present invention.

Fig. 20 is a schematic view of the wheel axle mounting and glue applying mounting of the present invention.

Reference numerals: a stripping plate 1, a 0-type washer 2, a gear wheel shaft component 3, a silica gel pad 4, a first blocking pad 5, a first screw rod 6, a first servo motor 7, a first nut 8, a second nut 9, a compression spring 10, an adjusting plate 11, a third nut 12, a fourth nut 13, a fifth nut 14, a blocking rubber pad 15, a second blocking pad 16, a fixing plate 17, a first proximity switch 18, a sixth nut 19, a first proximity switch nut 20, a seventh nut 21, an eighth nut 22, a second proximity switch nut 23, a ninth nut 24, a second screw rod 25, a third screw rod 26, an electromagnet 27, a synchronous belt 28, a large synchronous wheel 29, a tenth nut 30, an eleventh nut 31, a glue pump 32, a shaft seat 33, a pump mounting plate 34, a gear seat 35, a pinch roller 36, a tension spring 37, a workpiece 38, a roller 39, a first hexagon socket head cap screw 40, a second hexagon socket head screw 41, a guide plate 42, a photoelectric switch 43, a first socket head cap screw 40, a second socket cap screw, a, A first pan head screw 44, a first bracket 45, a push plate 46, a third socket head cap screw 47, a first shaft nail 48, a second proximity switch 49, a second pan head screw 50, a second bracket 51, a first rod end joint bearing 52, a second shaft nail 53, a second rod end joint bearing 54, an eccentric wheel 55, a set screw 56, a second servo motor 57, a linear bearing 58, a shaft 59, a frame 60, a bearing seat 61, a screw 62, a moving frame 63, a moving frame limit screw 64, a sunk screw 65, a slide block 66, a slide rail 67, a funnel 68, a tension spring screw 69, a glue coating press plate 70, a glue coating cam 71, a tension spring hanging nail 72, a workpiece placing opening 73, a fourth socket head cap screw 74, a foot plate 75, a twelfth nut 76, a fourth screw 77, a thirteenth nut 78, a fourteenth nut 79, a small synchronizing wheel 80, a rubber bottle with tube and needle 81, a rubber bottle fixing frame 82, a rubber pump motor fixing frame 82, a rubber pump motor

83. Glue input jack 84, gluing wool tops 85, a glue output port 86, a stepping motor 87, an encoder 88, a third shaft nail 89, a presser foot 90, a third pan head screw 91, an ejector rod 92, a fifth screw 93, an internal gear shaft 94, a fifth internal hexagonal screw 95, a gluing pressing plate adjusting nail 96, a cam driven gear 97, a first cushion block 98, a pressing wheel driven gear 99, a driving gear hole 100, a seat body 101, a second cushion block 102, a cam gear shaft 103, a pressing wheel gear shaft 104, a sixth internal hexagonal screw 105, a top rod shaft hole 106, a shaft head 107, a driving gear shaft 108, a stripper retainer ring 109, a needle tube 110, an adjusting head 111, an installing screw 112, an installing plate 113, a gluing pressing plate pair 0 contact 701, a gluing cam sector 711, a pressing wheel notch 361 and a pressing wheel pair 0 contact 362.

Detailed Description

The present invention will be further described with reference to the following examples.

Example 1, first, the axle seat foot plate 75 and the axle seat 33 are installed on the frame 60 (fig. 1), then 4 second screws 25, third screws 26, and fourth screws 77 are screwed into the screw holes of the axle seat 33, and are fixed tightly by the tenth nut 30, the eleventh nut 31, and the twelfth nut 76, then the fixing plate 17 is installed, and the fifth screw 93 and the first screw 6 are screwed into the screw hole of the fixing plate 17, and are fixed tightly by the nuts, then the electromagnet 27, the first servomotor 7, and the first proximity switch 18 are installed on the fixing plate 17, the nut, the second stopper pad 16, the silicone pad 15, the nut, and the stripper plate 1 are sequentially installed on the first screw 6, and the gear wheel shaft assembly 3 is installed in alignment with the inner gear shaft 94 of the axle seat 33, then the ejector rod 92 is inserted into the ejector rod shaft hole 106 (fig. 7) of the gear wheel shaft assembly 3, and the ejector rod of the electromagnet 27 is connected with the stripper plate 1 by the fourth nut 13 and the fifth nut 14, the silica gel pad 4, the first stopper pad 5, the third nut 12 and the second nut 9 are respectively threaded and screwed on the screw rod 6, the compression spring 10 and the nut are respectively threaded on the ejector rod 92, 2 nuts are also screwed on the screw rod 93, after the positions of the above parts are adjusted, the adjusting plate 11 is installed, and the adjusting plate 11 is tightened by the first nut 8 (fig. 2).

Secondly, a small synchronous wheel 80 (figure 2) is arranged on an output shaft of the first servo motor 7, a large synchronous wheel 29 is arranged on an inner gear shaft 94 (figure 4) of the shaft seat 33, and the small synchronous wheel and the large synchronous wheel are simultaneously arranged in the synchronous belt 28.

Thirdly, a cam driven gear 97 and a pinch roller driven gear 99 are respectively arranged in a cam gear shaft 103 and a pinch roller gear shaft 104 of a seat body 101 (figure 6) of a gear seat 35 (figure 5), a gluing cam 71 (figures 12 and 20) is arranged at the other end of the cam gear shaft 103, a pinch roller 36 (figures 18 and 20) is arranged at the other end of the pinch roller gear shaft 104, a gluing pressing plate 70 (figures 11 and 20) matched with the gluing cam 71 is arranged on a mounting plate extending out of the seat body 101 through mounting screws, and finally the whole gear seat 35 is mounted on a shaft seat 33 through 4 hexagon socket head screws. At the same time, the tension spring 37 is attached by screwing the tension spring screw 69 into the frame 60 and screwing the tension spring screw 72 into the gluing presser plate 70.

Fourth, mounting of the moving frame 63 (fig. 1):

1. 4 bearing blocks 61 and 2 linear bearings 58 (fig. 1) are mounted on the panel of the frame 60, and then the moving frame 63 is screwed on the linear bearings 58.

2. A slide rail 67 and a slide block 66 are slidably attached to the panel groove of the movable frame 63 by a countersunk head screw, and the push plate 46 (FIGS. 15 and 20) is fixed to the slide block 66 by a third socket head cap screw 47.

3. A stepper motor 87 is mounted in position beneath the face of the carriage 63, an eccentric 55 (FIG. 1) is mounted on the shaft of the stepper motor 87 and tightened with a set screw 56, a second rod end joint bearing 54 is mounted on the eccentric 55 with a second shaft pin 53, and a first rod end joint bearing 52 is mounted on the push plate 46 with a first shaft pin 48.

4. The roller 39, the stepping motor 87 (figure 3) and the power socket are arranged at the back of the vertical plate of the moving frame 63, the roller 39 (figure 1) is arranged on the shaft of the stepping motor 87 in front of the vertical plate of the moving frame 63, the guide plate 42 is arranged below the roller 39, and the first bracket 45 and the photoelectric switch 43 are arranged above the roller 39. A second proximity switch 49 is mounted on the eccentric 55 at a suitable distance.

5. A funnel 68 is arranged at the position where the processed fireworks fall down.

Fifthly, fixing the pump mounting plate 34 on the rear side surface of the shaft seat 33 (fig. 4) by using a fifth hexagon socket head cap screw 95, and then mounting the glue pump motor 83 and the glue pump 32 on the pump mounting plate 34. A glue bottle holder 82 (fig. 2) for holding a glue bottle with a tube and a needle 81 is mounted below the rear side of the shaft seat 33 (fig. 4). The needle cannula 110 from the glue pump 32 is inserted into the glue inlet aperture 84 of the glue platen 70 (fig. 11, 20). The glue tops 85 are placed on the glue top openings of the glue pressing plate 70.

Embodiment 2, the utility model discloses a reel part mounting structure constitutes: the shaft seat foot plate 75 and the shaft seat 33 are installed on the machine frame 60, the fixing plate 17 is installed on the shaft seat 33, the electromagnet 27, the first servo motor 7 and the first proximity switch 18 are installed on the fixing plate 17, the gear wheel shaft assembly 3 is installed on the inner gear shaft 94, the ejector rod 92 is installed in the ejector rod shaft hole 106, the ejector rod of the electromagnet 27 is connected with the stripper plate 1, and the adjusting plate 11 is installed on the outer side of the stripper plate 1. The small synchronizing wheel 80 is installed on the output shaft of the first servo motor 7, the large synchronizing wheel 29 is installed on the inner gear shaft 94, the synchronous belt 28 is installed between the large synchronizing wheel 29 and the small synchronizing wheel 80, the cam gear shaft 103 and the pinch roller gear shaft 104 are installed on the seat body 101, and the cam driven gear 97 is installed on the cam gear shaft 103. The puck driven gear 99 is mounted on a puck gear shaft 104. The glue application cam 71 is mounted on a cam gear shaft 103. The puck 36 is mounted on a puck shaft 104. The gluing pressing plate 70 is mounted on the base 101, and the gluing pressing plate 70 is engaged with the gluing cam 71. The axle seat 33 is mounted on the gear seat 35. A drive gear shaft 108 is mounted in the drive gear bore 100.

The utility model discloses a pay-off part structure constitutes: the bearing seat 61 is provided with a linear bearing 58, a moving frame 63 is arranged above the linear bearing 58, the surface of the moving frame 63 is provided with a sliding rail 67 and a sliding block 66 which are provided with a sliding pair in a groove, and the push plate 46 is arranged on the sliding block 66. A second servo motor 57 is arranged below the bottom panel of the moving frame 63, an eccentric wheel 55 is arranged on the second servo motor 57, a second rod end joint bearing 54 is arranged on the eccentric wheel 55, a first rod end joint bearing 52 is arranged on the push plate 46, and a stepping motor 87 and a power socket are arranged behind the main board of the moving frame 63. A stepping motor 87 at the front and back of the main board of the movable frame 63 is provided with a roller 39, and a guide plate 42 is arranged below the roller 39. The roller 39 is provided with a first bracket 45 and a photoelectric switch 43, the eccentric wheel 55 is provided with a second proximity switch 49, and a funnel 68 is arranged below the pinch roller 36 at the middle position of the frame 60. The pump mounting plate 34 is fixed to the rear side of the shaft holder 33 by a fifth socket head cap screw 95. The glue pump motor 83 and the glue pump 32 are mounted on the pump mounting plate 34. The glue bottle fixing frame 82 is arranged on the rear side surface of the shaft seat 33, the needle tube 110 is inserted into the gluing pressing plate 70, and the glue input jack 84 is provided with a gluing wool top 85 on the gluing pressing plate 70. Puck 36 has puck demold notch 361 and puck-to-0 contact 362. The glue platen 70 has a glue platen pair 0 contact 701 and the glue cam 71 has a glue cam sector 711. The adjusting plate 11, the stripper plate 1, the gear wheel shaft assembly 3 and the large synchronizing wheel 29 are arranged on a coaxial line and fixed on the fixed plate 17, the ejector rod 92 is arranged in the center hole of the adjusting plate 11, the stripper plate 1, the gear wheel shaft assembly 3 and the large synchronizing wheel 29, the ejector rod 92 penetrates out of the fixed plate 17 and penetrates out of the driving gear hole 100 of the electromagnet 27, the large synchronizing wheel 29, the shaft seat 33 and the base body 101, and the outer diameter of the shaft end of the ejector rod is used as a winding drum. The circumference of the outer diameter of the winding drum is equal to the length of the arc-shaped section of the outer diameter of the pinch roller 36, namely the circumference of the rotating outer arc-shaped section of the pinch roller 36, and then the outer diameter end of the shaft of the ejector rod 92 is provided with the circumference of the circle of the jumping cat fireworks, so that the finished jumping cat fireworks are rolled. The pinch roller demoulding gap of the pinch roller 36 is a retreating gap after the ejector rod 92 is rotated to complete rolling of a finished product, and the finished product is separated from the rolled core and is suspended from the hopper 68 to obtain the product. The workpiece 38 flows into the roller 39 from the push plate 46, is sent out by the roller 39 to enter the press wheel 36 to the ejection rod 92, the workpiece placing port 73 with the glaze end round outer diameter is extruded into a roll cake, the gluing cam 71 and the gluing press plate 70 are arranged at the shaft end of the ejection rod 92 and the rear end of the press wheel 36, the gluing press plate 70 is provided with a glue input jack 84 and a glue output port 86, the gluing press plate 70 is provided with a gluing cam sector 711, and the gluing cam sector 711 is provided with a groove for storing glue. When the ejector rod 92 rotates for about 3 circles, the residual glue enters the workpiece 38 from the glue input jack 84 and the glue output port 86 to glue the length of the residual rolled section, and the residual section is tightly adhered to the tail end of the finished product, so that the finished product can be obtained by cat jumping rolling. The workpiece 38 is a straight long paper tube filled with gunpowder, and when the paper tube is used, the gunpowder is ignited, the gunpowder is exploded to bounce the paper tube and emit colorful fireworks, so that the product is obtained.

Claims (6)

1. The production equipment of the firework jumping cat comprises a stripping plate, a 0-shaped gasket, a gear wheel shaft assembly, a silica gel pad, a first blocking pad, a first screw, a first servo motor, a first nut, a second nut, a compression spring, an adjusting plate, a third nut, a fourth nut, a fifth nut, a rubber blocking pad, a second blocking pad, a fixing plate, a first proximity switch, a sixth nut, a first proximity switch nut, a seventh nut, an eighth nut, a second proximity switch nut, a ninth nut, a second screw, a third screw, an electromagnet, a synchronous belt, a large synchronous wheel, a tenth nut, an eleventh nut, a glue pump, a shaft seat, a pump mounting plate, a gear seat, a pinch roller, a tension spring, a workpiece, a roller, a first inner screw, a second inner hexagonal screw, a guide plate, an optoelectronic switch, a first pan head screw, a first support, a push plate, a third inner hexagonal screw, a first shaft nail, a second nut, a sixth nut, a second nut, a, A second proximity switch, a second pan head screw, a second bracket, a first rod end joint bearing, a second shaft nail, a second rod end joint bearing, an eccentric wheel, a set screw, a second servo motor, a linear bearing, a shaft, a frame, a bearing seat, a screw, a moving frame limit screw, a sunk screw, a sliding block, a sliding rail, a funnel, a tension spring screw, a gluing pressing plate, a gluing cam, a tension spring hanging nail, a workpiece placing opening, a fourth hexagon socket head screw, a shaft seat foot plate, a twelfth nut, a fourth screw, a thirteenth nut, a fourteenth nut, a small synchronous wheel, a belt pipe, a needle glue bottle, a glue bottle fixing frame, a glue pump motor, a glue input jack, a gluing wool top, a glue output opening, a stepping motor, an encoder, a third shaft screw, a presser foot, a third pan head screw, a push-out rod, a fifth screw, an inner gear shaft, a fifth hexagon screw, a gluing pressing plate adjusting screw, The device is characterized in that a shaft seat foot plate (75) and a shaft seat (33) are installed on a machine frame (60), a fixing plate (17) is installed on the shaft seat (33), an electromagnet (27), a first servo motor (7) and a first proximity switch (18) are installed on the fixing plate (17), a second blocking pad (16), a rubber blocking pad (15) and a stripping plate (1) are installed on a first screw rod (6), a gear wheel shaft assembly (3) is installed on an inner gear shaft (94) of the shaft seat (33), an ejector rod (92) penetrates through an ejector rod shaft hole (106) of a gear wheel shaft assembly (3), an ejector rod of an electromagnet (27) is connected with a stripper plate (1), a silica gel pad (4), a first blocking pad (5), a second nut (9) and a third nut (12) are installed on a first screw (6), a compression spring (10) is installed on the ejector rod (92), a nut is tightly fixed on a fifth screw (93), an adjusting plate (11) is installed on the outer side of the stripper plate (1), a small synchronous wheel (80) is installed on a first servo motor (7), a large synchronous wheel (29) and a small synchronous wheel (80) are installed on an inner gear shaft (94) of a shaft seat (33), a synchronous belt (28) is installed between the small synchronous wheel (80) and the large synchronous wheel (29), a cam driven gear (97) is installed on a cam wheel shaft (103) of the seat body (101), and a pinch wheel driven gear shaft (99) is installed on a pinch wheel (104), a gluing cam (71) is arranged at the other end of a cam gear shaft (103), a pressing wheel (36) is arranged at the other end of a pressing wheel gear shaft (104), a mounting plate (113) extending out of a base body (101) is provided with the gluing cam (71) and a matched gluing pressing plate (70) by a mounting screw (112), a gear seat (35) is arranged on a shaft seat (33), a tension spring screw (69) is arranged on a rack (60) and is screwed into a tension spring hanging nail (72) on the gluing pressing plate (70) to be provided with a tension spring (37), a linear bearing (58) is arranged on a bearing seat (61), the bearing seat (61) is arranged on the rack (60), a moving frame (63) is arranged on the linear bearing (58), a sliding pair sliding rail (67) and a sliding block (66) are arranged on the rack (60), a push plate (46) is fixed on the sliding block (66), a stepping motor (87) is arranged below a panel of the moving frame (63), and, a second rod end joint bearing (54) is arranged on an eccentric wheel (55), a first rod end joint bearing (52) is arranged on a push plate (46), a roller (39), a stepping motor (87), an encoder (88) and a power supply are arranged behind a main plate of a moving frame (63), the stepping motor (87) in front of the main plate of the moving frame is provided with the roller (39), a guide plate (42) is arranged below the roller (39), a first bracket (45) and a photoelectric switch (43) are arranged on the upper surface of the roller (39), a second proximity switch (49) is arranged on the eccentric wheel (55), a funnel (68) is arranged below a pressing wheel (36), a pump mounting plate (34) is fastened by a fifth inner hexagonal screw (95) on the rear side surface of a shaft seat (33), a glue pump motor (83) and a glue pump (32) are arranged on the pump mounting plate (34), a glue bottle fixing frame (82) with a pipe and a needle glue bottle (81) is arranged below the rear side, a needle tube (110) from a glue pump (32) is inserted into a glue input jack (84) of a gluing pressing plate (70), a gluing wool top (85) is arranged at a gluing wool top opening of the gluing pressing plate (70), a workpiece (38) is sent out from the bottom of a roller (39) to a position between an outer shaft end circular arc of a pressing wheel (36) and an ejector rod (92) and between a gluing cam (71) and the gluing pressing plate (70), the pressing wheel (36) rotates relative to the shaft end of the ejector rod (92), and a glue bottle 81 with a tube and a needle works to glue the tail end of the workpiece (38) for gluing.

2. The fireworks jumping cat production apparatus of claim 1, wherein the length of the circular arc of the pinch roller (36) is equal to the outer axial end circular diameter circumference length x 3 of the ejector rod (92).

3. The firework jump cat production equipment as claimed in claim 1, wherein the pinch roller demoulding gap (361) of the pinch roller (36) is a demoulding gap after the winding of the workpiece (38) is completed.

4. The firework jump cat production equipment as claimed in claim 1, wherein the contact pressure of the pressure wheel pair 0 contact (362) and the glue coating pressure plate pair 0 contact (701) of the pressure wheel (36) is a repeated rotation of a working cycle, and the operation of a workpiece (38) reel is started.

5. A fireworks jumping cat production apparatus as claimed in claim 1, characterized in that the glue coating cam (71) has a glue coating cam sector (711), and the glue coating cam sector (711) is a glue coating segment long.

6. A fireworks jumping cat production apparatus according to claim 1, characterized in that the gluing press plate (70) has gluing press plate pair 0 contact (701).

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