CN202956042U - Combined firework automatic production equipment - Google Patents

Abstract

The utility model discloses combined firework automatic production equipment which comprises a support, a firework cylinder arrangement mechanism, firework cylinder wire-inserting mechanisms, a military nitrate padding mechanism, a paper scrap padding mechanism and an adsorption device. The firework cylinder arrangement mechanism is mounted on the support and is used for assembling single firework cylinders into bundles of firework cylinders. At least one firework cylinder wire-inserting mechanism firework cylinder wire-inserting mechanism is arranged on the support and is used for inserting leading wires for the firework cylinders. The military nitrate padding mechanism is arranged on the support and is used for adsorbing military nitrate and storing the military nitrate temporarily. The paper scrap padding mechanism is arranged on the support and is used for adsorbing military paper scraps and storing the paper scraps temporarily. The adsorption device is used for adsorbing the military nitrate and the paper scraps being stored temporarily and putting the military nitrate and the paper scraps into the bundles of firework cylinders. Due to the fact that the arrangement of the firework cylinders, inserting of the leading wires and the padding of the military nitrate and the paper scraps are completed automatically, production efficiency is improved, labor intensity is reduced, and product quality is improved.

Description

The combined firework automatic producing device

Technical field

The utility model relates to fireworks to be made, and relates in particular to a kind of combined firework automatic producing device.

Background technology

In fireworks manufacturing process, not only need with the single fireworks tube of some arrange, processings such as plug wire, oven dry and be assembled into bundled fireworks tube, and need be respectively charged into military project nitre and the scraps of paper in the bundled fireworks tube.So, this operation all is manual finishing in the at present actual production, and not only production efficiency is low, and labour intensity is large, and the requirement of can not ensuring the quality of products.

The utility model content

The purpose of this utility model is to provide a kind of combined firework automatic producing device.

In order to solve the problems of the technologies described above, the utility model provides a kind of combined firework automatic producing device, its support, the fireworks tube arrange agencie, fireworks tube plug wire mechanism, military project nitre filling body, scraps of paper filling body and adsorbent equipment, described fireworks tube arrange agencie is installed on described support and is used for single fireworks tube is assembled into bundled fireworks tube, described at least one fireworks tube plug wire mechanism is installed on described support and is used for assigning lead-in wire to described fireworks tube, described military project nitre filling body is installed on described support and is used for absorption military project nitre and temporary described military project nitre, described scraps of paper filling body is installed on described support and is used for absorption army's scraps of paper and the temporary described scraps of paper, and described adsorbent equipment is used for drawing described temporary military project nitre and the described temporary scraps of paper and putting into described bundled fireworks tube.

Wherein, described fireworks tube plug wire mechanism comprises driving mechanism, pneumatic-finger and two slide blocks, described pneumatic-finger and described two slide blocks are slidably connected on the described support along identical direction, described two slide blocks are relatively arranged on described pneumatic-finger both sides, and described driving mechanism drives the relatively described pneumatic-finger of described two slide blocks and slides with the described lead-in wire of bending and drive described two slide blocks and described pneumatic-finger slides simultaneously and inserts between the described fireworks tube with the lead-in wire with described bending.

Wherein, described each slider surface is all offered guiding groove to a side of described pneumatic-finger, and the guiding groove of described two slide blocks is oppositely arranged, and described guiding groove extends along the glide direction of described slide block.

Wherein, described slide block comprises link and the gear line end that is oppositely arranged, described gear line end is L shaped structure, the gear line end of described two slide blocks is along the direction bending that mutually deviates from, described gear line end is offered pre-retaining groove, described pre-retaining groove is communicated with described guiding groove, and described pre-retaining groove extends along the overbending direction of described gear line end.

Wherein, the bearing of trend of described pre-retaining groove is perpendicular to the glide direction of described slide block, and the grooved of described pre-retaining groove takes the shape of the letter U.

Wherein, described fireworks tube plug wire mechanism also comprises two lead-in wire detectors, and described two lead-in wire detectors are individually fixed on described two slide blocks, for detection of whether having lead-in wire in the described pre-retaining groove.

Wherein, described fireworks tube plug wire mechanism also comprises two pneumatic scissors, and described two pneumatic scissors and described two slide blocks are arranged side by side, and described two slide blocks are between described two pneumatic scissors.

Wherein, described fireworks tube plug wire mechanism also comprises perforating device, described perforating device comprises punching cylinder and two perforating needles, described punching cylinder is installed on the described support, described two perforating needles are positioned at described pneumatic-finger one side, and the orientation of described perforating needle and described pneumatic-finger is perpendicular to the orientation of described two slide blocks.

Wherein, described military project nitre filling body is installed on a side of described support and comprises drive unit, the first containing case and the first sucker, described drive unit is used for driving the relatively described support motion of described the first sucker, described the first containing case is positioned at the below of described the first sucker and is used for temporary described military project nitre, and described the first sucker is used for adsorbing described military project nitre and described military project nitre being put into described the first containing case.

Wherein, described scraps of paper filling body is installed on the opposite side of described support and comprises drive unit, the second containing case and the second sucker, described drive unit is used for driving the relatively described support motion of described the second sucker, described the second containing case is positioned at the below of described the second sucker and is used for the temporary described scraps of paper, and described the second sucker is used for adsorbing the described scraps of paper and the described scraps of paper being put into described the second containing case.

The combined firework automatic producing device that the utility model provides is realized the auto arrangement of fireworks tube by described fireworks tube arrange agencie, by described fireworks tube plug wire winding machine fireworks tube lead-in wire automatically assign and military project nitre filling body, scraps of paper filling body and adsorbent equipment are realized the automatic filling of military project nitre and the scraps of paper, thereby realize the automatic production of combined firework, this has not only improved production efficiency, reduce labour intensity, and promoted product quality.

Description of drawings

In order to be illustrated more clearly in the technical solution of the utility model, the below will do to introduce simply to the accompanying drawing of required use in the embodiment, apparently, accompanying drawing in the following describes only is embodiments more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the schematic perspective view of the combined firework automatic producing device that provides of the utility model embodiment.

Fig. 2 is the schematic perspective view of the utility model embodiment the fireworks tube arrange agencie, fireworks tube hold-down mechanism, fireworks tube plug wire mechanism and the fireworks tube drying mechanism that provide.

Fig. 3 is another angle schematic perspective view of the utility model embodiment the fireworks tube arrange agencie, fireworks tube hold-down mechanism and the fireworks tube plug wire mechanism that provide.

Fig. 4 is another angle schematic perspective view of Fig. 3.

Fig. 5 is the schematic perspective view of the part assembly of the row collating unit that provides of the utility model embodiment.

Fig. 6 is the enlarged drawing of VI part among Fig. 2.

Fig. 7 is the schematic perspective view of the part assembly of the fireworks tube plug wire mechanism that provides of the utility model embodiment.

Fig. 8 is the pneumatic-finger that provides of the utility model embodiment and the view of slide block relative motion.

Fig. 9 is the schematic perspective view at another visual angle of the fireworks tube plug wire mechanism that provides of the utility model embodiment.

Figure 10 is the view of the fireworks tube plug wire mechanism bending lead that provides of the utility model embodiment.

Figure 11 be the fireworks tube plug wire mechanism that provides of the utility model embodiment assign the lead-in wire conspectus.

Figure 12 is the schematic perspective view that the fireworks nozzle that provides of the utility model embodiment is pressed circular knitting machine structure, military project nitre filling body, adsorbent equipment and scraps of paper filling body;

Figure 13 is the floor map that the fireworks nozzle that provides of the utility model embodiment is pressed circular knitting machine structure, military project nitre filling body, adsorbent equipment and scraps of paper filling body;

Figure 14 is another angle schematic perspective view that the fireworks nozzle that provides of the utility model embodiment is pressed circular knitting machine structure, adsorbent equipment and scraps of paper filling body; And

Figure 15 is the enlarged drawing of XV part among Figure 12.

The specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described.

Please refer to Fig. 1, a kind of combined firework automatic producing device 100 that the utility model embodiment provides is used for the single fireworks tube 200 of some is assembled into one.Described combined firework automatic producing device 100 comprises support 10, fireworks tube arrange agencie 20, fireworks nozzle pressure circular knitting machine structure 30 (please refer to Figure 13), fireworks tube hold-down mechanism 40, fireworks tube drying mechanism 50 (please refer to Fig. 2), fireworks tube plug wire mechanism 60, military project nitre filling body 70, adsorbent equipment 80 and scraps of paper filling body 90.Described fireworks tube arrange agencie 20, described fireworks nozzle press circular knitting machine structure 30, described fireworks tube hold-down mechanism 40, described fireworks tube drying mechanism 50, described fireworks tube plug wire mechanism 60, described military project nitre filling body 70, described adsorbent equipment 80 and described scraps of paper filling body 90 all to be installed on the support 10.

Please also refer to Fig. 2 to Fig. 4, described fireworks tube arrange agencie 20 is used for the single fireworks tube 200 of some is assembled into bundled fireworks tube 200, it comprises the first drive unit 22, row collating unit 24 and row collating unit 26, and described the first drive unit 22 is used for described order about capable collating unit 24 and 26 operations of described row collating unit.

Described row collating unit 24 is used for the single fireworks tube 200 of some is in line, and it comprises pair of guide rails 240 and resettlement section 242.Described the first drive unit 22 orders about single fireworks tube 200 in 240 operations of described guide rail and is transported to resettlement section 242, when the fireworks tube 200 in the resettlement section 242 reach some the time, these fireworks tubes 200 form row and also send row collating unit 26 to.

In the present embodiment, fireworks tube 200 was inserted lead-in wire 300 by fireworks tube plug wire mechanism 60 between the two adjacent fireworks tubes 200 before being transported to resettlement section 242.

In the present embodiment, 9 fireworks tubes 200 form delegation.

In other embodiments, also can be 8,7,6,5 or 10 fireworks tubes 200 and form delegation.

Described row collating unit 26 is used for the fireworks tube 200 of embarking on journey of some is arranged together, and single like this fireworks tube 200 just is assembled into bundled fireworks tube 200.Described row collating unit 26 comprises baffle plate 260 and pallet 262 (please refer to Fig. 5).Baffle plate 260 relative support 10 under the driving of the first drive unit 22 is done back and forth movement.Pallet 262 relative support 10 under the driving of the first drive unit 22 moves up and down.

When the fireworks tube 200 in the resettlement section 242 formed delegation, described baffle plate 260 fireworks tube 200 that 242 directions move to catch composition delegation towards the resettlement section then moved towards the direction that deviates from resettlement section 242 and falls into pallet 262 until form the fireworks tube 200 of going.After the fireworks tube 200 that forms row falls into pallet 262, pallet 262 is to the lattice that descend, follow the 242 directions motion and another row fireworks tube 200 put into pallet 262 and lattice fall downwards in pallet 262 again towards the resettlement section of described baffle plate 260, so repeatedly, until the fireworks tube 200 on the pallet 262 reaches certain quantity.

In the present embodiment, when the fireworks tube 200 on the pallet 262 was discharged to 9 row, these fireworks tubes 200 just were assembled into bundled fireworks tube 200 and are transported to described fireworks tube hold-down mechanism 40, and namely bundled fireworks tube 200 of the present utility model is 9 * 9.

In other embodiments, bundled fireworks tube 200 also can be 9 * 8,8 * 8 or other arrangement mode.

In the present embodiment, described row collating unit 26 also comprises a plurality of bumping posts 264, and described bumping post 264 is used for stopping that bundled fireworks tube 200 breaks away from support 10.

In the present embodiment, described the first drive unit 22 comprises a plurality of driving mechanisms, order about fireworks tube 200 at the driving mechanism of described guide rail 240 operations, to order about that baffle plate 260 does the driving mechanism of back and forth movement and order about the driving mechanism that pallet 262 moves up and down be different driving mechanisms.

In other embodiments, order about fireworks tube 200 at the driving mechanism of described guide rail 240 operations, to order about that baffle plate 260 does the driving mechanism of back and forth movement and order about the driving mechanism that pallet 262 moves up and down be same driving mechanism.

Described fireworks tube hold-down mechanism 40 is used for bundled fireworks tube 200 is carried out the compacting of vertical and horizontal, and it comprises the second drive unit 42, a pair of the first pressing plate 44 and a pair of the second pressing plate 46 (please refer to Fig. 6).The second drive unit 42 is used for ordering about one of them the first pressing plate 44 relative another the first pressing plate 44 motion and one of them the second pressing plate 46 relative another second pressing plate 46 moves with the bundled fireworks tube 200 of compacting.

In the present embodiment, described fireworks tube hold-down mechanism 40 of the present utility model also can carry out the alignment of row and column direction with bundled fireworks tube 200.

In other embodiments, if fireworks tube 200 has been compacted in fireworks tube arrange agencie 20, also can be without fireworks tube hold-down mechanism 40.

Please in the lump with reference to figure 7 to Figure 10, fireworks tube plug wire mechanism 60 is used for assigning lead-in wire 300 to fireworks tube 200.Fireworks tube plug wire mechanism 60 comprises fireworks tube capable plug wire mechanism and fireworks tube row plug wire mechanism.The capable plug wire of described fireworks tube mechanism is used for assigning lead-in wire 300 to single fireworks tube 200.Described fireworks tube row plug wire mechanism is used for going between 300 to assigning between bundled fireworks tube 200 row and the row.

The capable plug wire of described fireworks tube mechanism is identical with the structure of described fireworks tube row plug wire mechanism, and realize similar function, both differences only are: described fireworks tube row plug wire mechanism can slide by relatively described support 10, and described support 10 is fixed in the capable plug wire of described fireworks tube mechanism.

In the present embodiment, for convenience's sake, the below will be as an example of described fireworks tube row plug wire mechanism example structure and the use procedure of explanation fireworks tube plug wire mechanism 60.

In the present embodiment, described fireworks tube row plug wire mechanism is two.

Each fireworks tube row plug wire mechanism is installed on slidably on the described support 10 and comprises the 3rd driving mechanism 62, pneumatic-finger 63, two slide blocks 64, two lead-in wire detectors 65, two pneumatic scissors 66 and perforating device 68.Described the 3rd driving mechanism 62, pneumatic-finger 63, two slide blocks 64, two lead-in wire detectors 65, pneumatic scissors 66 and perforating devices 68 all are installed on the described support 10 slidably.Described pneumatic-finger 63 and described two slide blocks 64 are slidingly connected on the described support 10 along identical direction A.Described two pneumatic scissors 66 are positioned at described support 10 both sides, and described perforating device 68 is positioned at the side on described support 10 and described pneumatic scissors 66 vertical direction.

Described the 3rd driving mechanism 62 is used for driving the relatively described pneumatic-finger 63 of described two slide blocks 64 and slides, and drives described two slide blocks 64 and described pneumatic-finger 63 slides simultaneously.

Described pneumatic-finger 63 comprises two fingers 630.Described two fingers 630 are used for clamping lead-in wire 300.Described finger 630 is fixed on the Connection Block 632, and described Connection Block 632 is slidably connected on the described support 10.

Described two slide blocks 64 are relatively arranged on described pneumatic-finger 63 both sides, described each slide block 64 is all offered guiding groove 640 towards a side of described pneumatic-finger 63, the guiding groove 640 of described two slide blocks 64 is oppositely arranged, and described guiding groove 640 extends along the glide direction A of described slide block 64.In the present embodiment, described slide block 64 comprises link 641 and the gear line end 642 that is oppositely arranged, and described link 641 is connected in described the 3rd driving mechanism 62, and described guiding groove 640 is opened in described gear line end 642.

In the present embodiment, described gear line end 642 is L shaped structure, and the gear line end 642 of described two slide blocks 64 is along the direction B bending that mutually deviates from, and described link 641 is the L shaped structure identical with described gear line end 642 overbending directions.Described gear line end 642 is offered pre-retaining groove 642a, and the grooved of described pre-retaining groove 642a is U-lag.Described pre-retaining groove 642a is communicated with described guiding groove 640, and described pre-retaining groove 642a extends along the overbending direction B of described gear line end 642.The bearing of trend of described pre-retaining groove 642a is perpendicular to the glide direction A of described slide block 64.Certainly, in other embodiments, described link 641 also can be the straight-arm structure.The grooved of described pre-retaining groove 642a can be V-shaped groove, arc groove etc.The bearing of trend of described pre-retaining groove 642a also can be not exclusively perpendicular to the glide direction A of described slide block 64, and described pre-retaining groove 642a can tilt towards the direction away from described support 10.

In order to guarantee to have described lead-in wire 300 in the described pre-retaining groove 642a, just 64 work of described slide block, described two lead-in wire detectors 65 are individually fixed on described two slide blocks 64, for detection of whether having described lead-in wire 300 in the described pre-retaining groove 642a.In the present embodiment, described lead-in wire detector 65 is ultrasonic sensor.Described pre-retaining groove 642a is communicated with one and detects through hole 642c, and described lead-in wire detector 65 is fixed in described gear line end 642, and detects in the described pre-retaining groove 642a whether have described lead-in wire 300 by described detection through hole 642c.

Described two pneumatic scissors 66 are arranged side by side with described two slide blocks 64, and described two slide blocks 64 are between described two pneumatic scissors 66.Described two pneumatic scissors 66 are used for described lead-in wire 300 is cut into suitable length.Certainly, in other embodiments, also can omit described pneumatic scissors 66, the described lead-in wire 300 of appropriate length directly is provided.

Described perforating device 68 comprises punching cylinder 681 and two perforating needles 682, described punching cylinder 681 is installed on the described support 10, described two perforating needles 682 are positioned at described pneumatic-finger 63 1 sides, and the orientation of described perforating needle 682 and described pneumatic-finger 63 is perpendicular to the orientation of described two slide blocks 64.Certainly, in other embodiments, also can omit described perforating device 68, directly the plug wire fireworks tube 300 for the treatment of with fairlead be carried out inserting lead.

When needs when assigning lead-in wire 300 between bundled fireworks tube 200 row and the row, the perforating needle 682 of described perforating device 68 is beaten fairlead in the position for the treatment of plug wire fireworks tube 300 preparation inserting leads under the driving of described punching cylinder 681.Described lead-in wire 300 is transferred between two fingers 630 of described pneumatic-finger 63, and described two fingers 630 are clamped described lead-in wire 300.Described pneumatic scissors 66 cuts into suitable length with described lead-in wire 300.Described pneumatic-finger 63 is clamped the described lead-in wire 300 that cuts into appropriate length, and the two ends part of described lead-in wire 300 is positioned at described pre-retaining groove 642a.Then described the 3rd driving mechanism 62 drives first described two slide block 64 down slidings, when described two slide block 64 down slidings, because described pneumatic-finger 63 is temporarily not mobile, so described lead-in wire 300 middle parts can't be moved, described lead-in wire 300 two ends will be slipped in the described guiding groove 640, and be bent gradually.When lead-in wire 300 is bent into a U-shaped, described the 3rd drive unit 63 orders about described pneumatic-finger 63 and described 64 while of slide block down sliding, one end of the U-shaped lead-in wire 300 of bending is inserted in the fairlead of first fireworks tube 200 of first row, in the fairlead of first fireworks tube 200 of the other end insertion secondary series of U-shaped lead-in wire 300, the like, until all be inserted into lead-in wire 300 in the fairlead of the fireworks tube 200 of all row, thereby realize going between between bundled fireworks tube 200 row and the row 300 assign.

Please also refer to Figure 11, in the present embodiment, two fireworks tube plug wire mechanisms 60 move downward respectively along support 10 and insert lead-in wire 300 to the fireworks tube 200 between the adjacent column.For example, one of them fireworks tube plug wire mechanism 60 gives respectively between first fireworks tube 200 of first row and secondary series, between first fireworks tube 200 of the 3rd row and the 4th row, assign lead-in wire 300 between first fireworks tubes 200 of the 5th row and the 6th row and between first fireworks tube 200 of the 7th row and the 8th row; And another fireworks tube plug wire mechanism 60 gives respectively between secondary series and tertial the 9th fireworks tube 200, between the 9th fireworks tube 200 of the 4th row and the 5th row, between the 9th fireworks tube 200 of the 6th row and the 7th row, assign lead-in wire 300 between the 9th fireworks tube 200 of the 8th row and the 9th row.

In other embodiments, combined firework automatic producing device 100 also can include only a fireworks tube plug wire mechanism 60, when combined firework automatic producing device 100 give inserted lead-in wire 300 between first fireworks tube 200 of adjacent column after, 100 relative support 10 horizontal movements of combined firework automatic producing device also give that insertion goes between 300 between the 9th fireworks tube 200 of adjacent column.

In the present embodiment, for convenience's sake, two of 200 usefulness of the fireworks tube among Fig. 8 represent two row fireworks tubes 200.

In the present embodiment, for convenience's sake, the lead-in wire 300 among Figure 11 between an icon bar and the row is assigned circuit.

In the present embodiment, the structure of the capable plug wire of described fireworks tube mechanism is all identical with the capable plug wire of described fireworks tube mechanism with using method, and its difference only is: the capable plug wire of described fireworks tube mechanism does not need relatively described support 10 to slide and is one.In use, the capable plug wire of described fireworks tube mechanism gives assigns lead-in wire 300 between adjacent two fireworks tubes 200, and when the quantity of fireworks tube 200 reached 9, these fireworks tubes 200 formed row and assign lead-in wire to next line fireworks tube 200, so repeatedly.

Assign the bundled fireworks tube 200 of lead-in wire 300 between row and the row to be transported to fireworks tube drying mechanism 50.Described fireworks tube drying mechanism 50 is used for removing the moisture of bundled fireworks tube 200 and dries glue on the fireworks tube 200.

In the present embodiment, fireworks tube drying mechanism 50 comprises a plurality of electrothermal tubes, just can be dried as long as bundled fireworks tube 200 is transported to fireworks tube drying mechanism 50.

In other embodiments, when whole production process all can guarantee the aridity of fireworks tube 200 and dry up glue on the fireworks tube 200 in other operation, also can be without fireworks tube drying mechanism 50.

Please also refer to Figure 12 to Figure 14, the burr that described fireworks nozzle pressure circular knitting machine structure 30 is used for pressing 200 mouthfuls of circle fireworks tubes and removing 200 mouthfuls of edges of fireworks tube is to guarantee 200 mouthfuls of circularity of fireworks tube, so that military project nitre is accurately put into fireworks tube 200 to military project nitre filling body 70 and scraps of paper filling body 90 is accurately put into fireworks tube 200 with the scraps of paper.Described fireworks nozzle presses circular knitting machine structure 30 to comprise a plurality of pressure cylinders 32, and described pressure cylinder 32 is embarked on journey and equidistantly arranged and be installed on slidably on the support 10 by slide rail.In the present embodiment, described pressure cylinder 32 drives by air motor (not shown), and described pressure cylinder 32 can move both vertically and horizontal movement by relatively described support 10.

In other embodiments, without burr and be oblate or circular, then described combined firework automatic producing device 100 does not comprise that the fireworks nozzle presses the circular knitting machine structure such as the edge of 200 mouthfuls of fireworks tubes, and namely 200 mouthfuls of fireworks tubes need not to press circle.

Described military project nitre filling body 70 is installed on a side of support 10 and is used for temporary military project nitre.Described military project nitre filling body 70 comprises the first drive unit 72, the first containing case 74, a plurality of the first elastic device 76 and the first sucker 78.In the present embodiment, the first drive unit 72 is used for driving 78 relative support 10 motions of described the first sucker in order to draw or deposit military project nitre.

Described the first containing case 74 is positioned at the below of the first sucker 78.Described the first containing case 74 is used for temporary military project nitre and comprises a plurality of the first accepting holes 740 (please refer to Figure 15).In the present embodiment, described the first accepting hole 740 is embarked on journey and is equidistantly arranged.

Described the first elastic device 76 is placed in respectively in described the first accepting hole 740.In the present embodiment, described the first elastic device 76 is spring.

In the present embodiment, in order more clearly to describe and described the first elastic device 76 of better understanding, all described the first elastic device 76 is separated from the first accepting hole 740 among Figure 12 to Figure 14, and in fact described the first elastic device 76 is placed in respectively in described the first accepting hole 740.

Described the first sucker 78 is installed on the described support 10 slidably by slide rail.Described the first sucker 78 is used for absorption military project nitre and puts into the first accepting hole 740 of described the first containing case 74.In the present embodiment, military project nitre transmits by conveyer belt (not shown).The first sucker 78 is under the driving of the first drive unit 72, move downward first from conveyer belt absorption military project nitre, successively motion is put into one of them first accepting hole 740 with the military project nitre that adsorbs again, following described the first sucker 78 travels forward, moves downward and from conveyer belt absorption military project nitre, motion also moves that to the left or to the right the military project nitre that is adsorbed is put into another the first accepting hole 740 backward again, so repeatedly, until all be placed into military project nitre in the first all accepting holes 740.

Scraps of paper filling body 90 is installed on the opposite side of support 10 and is used for the temporary scraps of paper.Described scraps of paper filling body 90 comprises the second drive unit 92, the second containing case 94, a plurality of the second elastic device 96 and the second sucker 98.In the present embodiment, the second drive unit 92 is used for driving 98 relative support 10 motions of described the second sucker in order to draw or deposit the scraps of paper.

Described the second containing case 94 is positioned at the below of the second sucker 98.Described the second containing case 94 is used for the temporary scraps of paper and comprises a plurality of the second accepting holes 940.In the present embodiment, described the second accepting hole 940 is embarked on journey and is equidistantly arranged.

Described the second elastic device 96 is placed in respectively in described the second accepting hole 940.In the present embodiment, described the second elastic device 96 is spring.

In the present embodiment, in order more clearly to describe and described the second elastic device 96 of better understanding, all described the second elastic device 96 is separated from the second accepting hole 940 among Figure 12 to Figure 14, and in fact described the second elastic device 96 is placed in respectively in described the second accepting hole 940.

Described the second sucker 98 is installed on the described support 10 slidably by slide rail.Described the second sucker 98 is used for the absorption scraps of paper and puts into the second accepting hole 940 of described the second containing case 94.In the present embodiment, the scraps of paper transmit by conveyer belt (not shown).The second sucker 98 moves downward from conveyer belt first and adsorbs the scraps of paper, successively motion is put into one of them second accepting hole 940 with the scraps of paper that adsorb again, following described the second sucker 98 travels forward, moves downward and adsorb the scraps of paper from conveyer belt, motion also moves the scraps of paper that adsorbed to be put into another the second accepting hole 940 to the left or to the right backward again, so repeatedly, until all be placed into the scraps of paper in the second all accepting holes 940.

In the present embodiment, the structural similarity of the first containing case 74 and the second containing case 94 and the functional similarity of realization.Described the first accepting hole 740 is identical with the arrangement mode of described the second accepting hole 940, and the spacing between two adjacent the first accepting holes 740 equates with spacing between two adjacent the second accepting holes 940.

In other embodiments, the arrangement mode of described the first accepting hole 740 and described the second accepting hole 940 is not identical, and the spacing between the spacing between two adjacent the first accepting holes 740 and two adjacent the second accepting holes 940 also can be unequal.

In the present embodiment, the first elastic device 76 and the second elastic device 96 are referred to as elastic device.Described the first containing case 74 and described the second containing case 94 are referred to as containing case, and described the first accepting hole 740 and described the second accepting hole 940 are referred to as accepting hole.

Described adsorbent equipment 80 is used for drawing the military project nitre that is temporary in containing case or the scraps of paper and the military project nitre or the scraps of paper that adsorb is put into fireworks tube 200.Described adsorbent equipment 80 is installed on the centre of support 10 and comprises the 3rd drive unit 82, a plurality of suction nozzle 84 and a plurality of alignment pin 86.

Described the 3rd drive unit 82 is used for driving relatively described support 10 motions of described suction nozzle 84.In the present embodiment, described suction nozzle 84 can relatively described support 10 vertical and horizontal movements.

In the present embodiment, described suction nozzle 84 is divided into two groups, is defined as respectively first group of suction nozzle and second group of suction nozzle.Described first group of suction nozzle and second group of suction nozzle are all embarked on journey and are equidistantly arranged, and the spacing between the quantity of described first group of suction nozzle and the two adjacent described first group of suction nozzle is all corresponding one by one with described the first accepting hole 740.Spacing between the quantity of described second group of suction nozzle and the two adjacent described second group of suction nozzle is all corresponding one by one with described the second accepting hole 940.

Described alignment pin 86 be arranged in respectively described suction nozzle 84 around, when described suction nozzle 84 was put into fireworks tube 200 with the military project nitre that adsorbs or the scraps of paper under the driving of the 3rd drive unit 82, described alignment pin 86 inserted respectively the space between the two adjacent fireworks tubes 200 in order to locate described suction nozzle 84.

In the present embodiment, each suction nozzle 84 around be provided with four alignment pins 86.

In the present embodiment, described first group of suction nozzle is under the driving of the 3rd drive unit 82, move downwards and to the left or to the right, until described first group of suction nozzle and described the first accepting hole 740 are corresponding and draw military project nitre from described the first accepting hole 740 one by one, follow described first group of suction nozzle upwards and put into fireworks tube 200 to the right or to left movement and with military project nitre.

In the present embodiment, described second group of suction nozzle is under the driving of the 3rd drive unit 82, move downwards and to the left or to the right, until described second group of suction nozzle and described the second accepting hole 940 are corresponding and draw the scraps of paper from described the second accepting hole 940 one by one, follow described second group of suction nozzle upwards and put into fireworks tube 200 to the right or to left movement and with the scraps of paper.

In the present embodiment, by described first group of suction nozzle military project nitre is put into the bottom of fireworks tube 200 first, by described second group of suction nozzle the scraps of paper are put into again the top of military project nitre.

In other embodiments, described suction nozzle 84 only has one group, and described suction nozzle 84 is drawn first military project nitre and put into fireworks tube 200 from described the first accepting hole 740, draws the scraps of paper again and put into fireworks tube 200 from the second accepting hole 940.

Because each first accepting hole 740 is equipped with respectively the first elastic device 76, the position that is military project nitre short transverse in the first containing case 74 is adjustable, when described first group of suction nozzle is inconsistent in the position of short transverse, described first group of suction nozzle still can be drawn all military project nitre from described the first accepting hole 740, suction phenomenon can not occur leaking, promote product quality.

Because each second accepting hole 940 is equipped with respectively the second elastic device 96, the position that is scraps of paper short transverse in the second containing case 94 is adjustable, when described second group of suction nozzle is inconsistent in the position of short transverse, described second group of suction nozzle still can be drawn all scraps of paper from described the second accepting hole 940, do not have leakage suction phenomenon, promoted product quality.

In the present embodiment, the centre of each scraps of paper is provided with through hole, and the end of each suction nozzle 84 is provided with positioning end, and described positioning end is contained in the described through hole to locate the described scraps of paper.

In the present embodiment, the positioning end of described suction nozzle 84 is bullet-shaped.

In other embodiments, each scraps of paper can be without intermediate throughholes, the terminal useless positioning end in locating each scraps of paper of each suction nozzle 84.

In other embodiments, when the position consistency of described suction nozzle 84 in short transverse, described military project nitre filling body 70 can be without the first elastic device 76, and described scraps of paper filling body 90 also can be without the second elastic device 96.

Because the filling of combined firework automatic producing device 100 military project nitre of the present utility model is finished automatically by described military project nitre filling body 70 and adsorbent equipment 80, and the filling of combined firework automatic producing device 100 scraps of paper is finished automatically by described scraps of paper filling body 90 and adsorbent equipment 80, this has not only improved production efficiency, reduce labour intensity, and promoted product quality.

Simultaneously, because of the arrangement of the fireworks tube 200 of combined firework automatic producing device 100 of the present utility model and 300 assign to be automatically and finish of going between, this has not only improved production efficiency, has reduced labour intensity, and has promoted product quality.

The above is preferred embodiment of the present utility model; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the utility model principle; can also make some improvements and modifications, these improvements and modifications also are considered as protection domain of the present utility model.

Claims (10)

1. combined firework automatic producing device, it is characterized in that, described combined firework automatic producing device comprises support, the fireworks tube arrange agencie, fireworks tube plug wire mechanism, military project nitre filling body, scraps of paper filling body and adsorbent equipment, described fireworks tube arrange agencie is installed on described support and is used for single fireworks tube is assembled into bundled fireworks tube, described at least one fireworks tube plug wire mechanism is installed on described support and is used for assigning lead-in wire to described fireworks tube, described military project nitre filling body is installed on described support and is used for absorption military project nitre and temporary described military project nitre, described scraps of paper filling body is installed on described support and is used for absorption army's scraps of paper and the temporary described scraps of paper, and described adsorbent equipment is used for drawing described temporary military project nitre and the described temporary scraps of paper and putting into described bundled fireworks tube.

2. combined firework automatic producing device according to claim 1, it is characterized in that, described fireworks tube plug wire mechanism comprises driving mechanism, pneumatic-finger and two slide blocks, described pneumatic-finger and described two slide blocks are slidably connected on the described support along identical direction, described two slide blocks are relatively arranged on described pneumatic-finger both sides, and described driving mechanism drives the relatively described pneumatic-finger of described two slide blocks and slides with the described lead-in wire of bending and drive described two slide blocks and described pneumatic-finger slides simultaneously and inserts between the described fireworks tube with the lead-in wire with described bending.

3. combined firework automatic producing device according to claim 2, it is characterized in that, described each slider surface is all offered guiding groove to a side of described pneumatic-finger, and the guiding groove of described two slide blocks is oppositely arranged, and described guiding groove extends along the glide direction of described slide block.

4. combined firework automatic producing device according to claim 3, it is characterized in that, described slide block comprises link and the gear line end that is oppositely arranged, described gear line end is L shaped structure, the gear line end of described two slide blocks is along the direction bending that mutually deviates from, described gear line end is offered pre-retaining groove, and described pre-retaining groove is communicated with described guiding groove, and described pre-retaining groove extends along the overbending direction of described gear line end.

5. combined firework automatic producing device according to claim 4 is characterized in that, the bearing of trend of described pre-retaining groove is perpendicular to the glide direction of described slide block, and the grooved of described pre-retaining groove takes the shape of the letter U.

6. combined firework automatic producing device according to claim 4, it is characterized in that, described fireworks tube plug wire mechanism also comprises two lead-in wire detectors, and described two lead-in wire detectors are individually fixed on described two slide blocks, for detection of whether having lead-in wire in the described pre-retaining groove.

7. combined firework automatic producing device according to claim 2, it is characterized in that, described fireworks tube plug wire mechanism also comprises two pneumatic scissors, and described two pneumatic scissors and described two slide blocks are arranged side by side, and described two slide blocks are between described two pneumatic scissors.

8. combined firework automatic producing device according to claim 2, it is characterized in that, described fireworks tube plug wire mechanism also comprises perforating device, described perforating device comprises punching cylinder and two perforating needles, described punching cylinder is installed on the described support, described two perforating needles are positioned at described pneumatic-finger one side, and the orientation of described perforating needle and described pneumatic-finger is perpendicular to the orientation of described two slide blocks.

9. combined firework automatic producing device according to claim 1, it is characterized in that, described military project nitre filling body is installed on a side of described support and comprises drive unit, the first containing case and the first sucker, described drive unit is used for driving the relatively described support motion of described the first sucker, described the first containing case is positioned at the below of described the first sucker and is used for temporary described military project nitre, and described the first sucker is used for adsorbing described military project nitre and described military project nitre being put into described the first containing case.

10. combined firework automatic producing device according to claim 9, it is characterized in that, described scraps of paper filling body is installed on the opposite side of described support and comprises drive unit, the second containing case and the second sucker, described drive unit is used for driving the relatively described support motion of described the second sucker, described the second containing case is positioned at the below of described the second sucker and is used for the temporary described scraps of paper, and described the second sucker is used for adsorbing the described scraps of paper and the described scraps of paper being put into described the second containing case.

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