CN105538391B - A kind of inclined fluorine double-walled shaping equipment - Google Patents

Abstract

A kind of inclined fluorine double-walled shaping equipment, including frame, rotating disk mechanism, tempreature bulb cut feed mechanism, heat-shrink tube and cut feed mechanism, secondary pressing mechanism；One top board is installed at the top of the frame；Rotating disk mechanism includes a circular rotating disk, and rotating disk is arranged on the middle position of top board, and rotating disk is rotated around its center of circle；Several localization tools are equipped with rotating disk, several localization tools are circumferentially equally spaced from being arranged on the rotating disk；Tempreature bulb cuts feed mechanism on the top board of frame；Heat-shrink tube cuts feed mechanism on the top board of frame；Secondary pressing mechanism is arranged on the top board of frame, cuts feed mechanism side positioned at heat-shrink tube.The present invention can be accurately cut according to the size of tempreature bulb and heat-shrink tube, it is ensured that the length of double-wall pipe and precision unification, kerf quality are good, it is not easy to be cut into angle, it is ensured that, outside tempreature bulb, the position being inserted in is accurately in place for shrinkable sleeve, high in machining efficiency, labour cost is low.

Description

A kind of inclined fluorine double-walled shaping equipment

Technical field

The present invention relates to a kind of inclined fluorine double-walled shaping equipment, especially for heat-shrink tube and heat in inclined fluorine double-walled terminal The feeding of fusion tube, cut, combine and the partially hot briquetting of fluorine double-walled terminal, the inclined fluorine double-walled terminal shaping equipment of discharging.

Background technology

With the fast development of electron trade, market is more and more to the demand of inclined fluorine double-walled terminal, and processes at present The method of fluorine double-walled terminal partially is to cut heat-shrink tube and tempreature bulb respectively, and then manually two tubing are nested together is heated into Type, due to what is be manually performed, so easily there is heat-shrink tube and tempreature bulb cutoff length and precision disunity, kerf quality Difference, is easily cut into angle, it is difficult to heat-shrink tube and tempreature bulb are reasonably combined, inclined fluorine double-walled terminal heat shrink less than Position, the different problem of serrated end length.Affected by the problems referred to above, the inclined fluorine double-walled terminal outward appearance for processing is not beautiful See, working (machining) efficiency is low, and labour cost is big.

The content of the invention

The technical problem to be solved in the present invention is：A kind of inclined fluorine double-walled shaping equipment is provided, can be according to hot melt The size of pipe and tempreature bulb is accurately cut, and ensures shrinkable sleeve outside tempreature bulb, and which is heated into Type, and machine-shaping good inclined fluorine double-walled terminal is removed from working rotary table.

In order to solve above-mentioned technical problem, the present invention proposes technical scheme below：A kind of inclined fluorine double-walled shaping equipment, Feed mechanism (3), heat-shrink tube are cut including frame (1), rotating disk mechanism (2), tempreature bulb and cuts feed mechanism (4), secondary press-in Mechanism (6)；

One top board (12) is installed at the top of the frame (1)；

Rotating disk mechanism (2) includes a circular rotating disk (22), rotating disk (22) installed in the middle position of top board (12), Rotating disk (22) is rotated around its center of circle；

Several localization tools (24) are equipped with rotating disk (22), several localization tools (24) are circumferentially equidistant Be disposed on the rotating disk (22)；

Tempreature bulb cuts feed mechanism (3) on the top board (12) of frame (1)；

Tempreature bulb cuts feed mechanism (3) including fixed base plate one (301), installation riser one (303), motor fixing plate (305), stepper motor (307), adjustment block (309), two one slide rails one (311), cut air cylinder fixed plate (313), cut cylinder One (315), knife rest one (317), blade one (319), pressure block (321), cutting mould fixed plate (323), cutting mould (325), pan feeding module mounting seat (327), two gripper shoes (329), active glue coating wheel (331), the first synchronizing wheel (333), Two synchronizing wheels (335), Timing Belt (337), cover plate (339), two slide blocks (341), driven glue coating wheel (343), guide plates (345), pan feeding mould (347)；

Fixed base plate one (301) is fixed on the top board (12) of frame (1)；

Installation riser one (303) is fixed on fixed base plate one (301)；

Motor fixing plate (305) is fixed on the back side of installation riser one (303)；

Stepper motor (307) is fixed on motor fixing plate (305), and stepper motor (307) turns including an output Axle (3072)；

Adjustment block (309) is fixed on the front of installation riser one (303)；

Two one slide rails one (311) are fixed on the both sides of adjustment block (309) and in sustained height position, two one slide rails One (311) is parallel；

Air cylinder fixed plate (313) is cut installed in the end of two one slide rails one (311)；

Cylinder one (315) is cut installed in cutting in air cylinder fixed plate (313)；

, between two one slide rails one (311), knife rest one (317) is between two one slide rails one (311) for knife rest one (317) Slide；

The piston rod for cutting cylinder one (315) connects knife rest one (317) through after cutting air cylinder fixed plate (313)；

Blade one (319) is on knife rest one (317)；

Pressure block (321) on knife rest one (317), push down blade one (319) and prevent blade one by pressure block (321) (319) come off；

Cutting mould fixed plate (323) is fixed in installation riser one (303), positioned at the top of adjustment block (309)；

, in cutting mould fixed plate (323), cutting mould (325) is positioned at two one slide rails one for cutting mould (325) (311) between；

Pan feeding module mounting seat (327) in installation riser one (303), above adjustment block (309)；

Two gripper shoes (329) installed in the both sides of pan feeding module mounting seat (327) and be in sustained height position, two Gripper shoe (329) is parallel；

An installing hole (3292) and a rectilinear chute (3294) are offered in gripper shoe (329)；

Among the two ends of active glue coating wheel (331) are arranged on two installing holes (3292) of two gripper shoes (329), actively Glue coating wheel (331) can be rolled in two installing holes (3292)；

One end of active glue coating wheel (331) is provided with a gear (3312), and the other end is installed and fixes first synchronizing wheel (333)；

Second synchronizing wheel (335) is fixed on the output revolving shaft (3072) of stepper motor (307)；

Timing Belt (337) is in the first synchronizing wheel (333) and the second synchronizing wheel (335)；

Cover plate (339) is fixed on the end of two gripper shoes (329)；

Two slide blocks (341) are separately mounted in two chutes (3294) of two gripper shoes (329), two slide blocks (341) it is fixed on cover plate (339)；

The two ends of driven glue coating wheel (343) are separately mounted in two slide blocks (341), and driven glue coating wheel (343) is at two Rotation in slide block (341)；

One end of driven glue coating wheel (343) is provided with a gear (3432), gear (3432) and active glue coating wheel (331) Gear (3312) engagement；

Guide plate (345) is installed in the top of pan feeding module mounting seat (327)；

Pan feeding mould (347) is on guide plate (345)；

Heat-shrink tube cuts feed mechanism (4) on the top board (12) of frame (1)；

Heat-shrink tube cuts feed mechanism (4) and fixes including fixed base plate two (401), installation riser two (403), lift cylinder Block (405), lift cylinder (407), line slideway (409), gripper cylinder mounting plate (411), gripper cylinder (413), two insert Pipe clamp (415), knife rest track (417), knife rest two (419), blade two (421), pressure knife block (423), cut cylinder mounting plate (425) cylinder two (427), feeding module (429), are cut；

Fixed base plate two (401) is fixed on the top board (12) of frame (1)；

Installation riser two (403) is on fixed base plate two (401)；

Lift cylinder fixed block (405) is fixed on the bottom of installation riser two (403)；

Lift cylinder (407) is fixed on lift cylinder fixed block (405)；

Line slideway (409) is vertically fixed in installation riser two (403)；

Gripper cylinder mounting plate (411) is fixed on line slideway (409), is glided along on line slideway (409) It is dynamic；

The bottom of piston rod connection gripper cylinder mounting plate (411) of lift cylinder (407)；

Gripper cylinder (413) is fixed on gripper cylinder mounting plate (411)；

Gripper cylinder (413) is provided with two slide blocks (4132), and two slide block (4132) slid inwards are drawn close or outwards slided It is dynamic to separate；

Two intubation fixtures (415) are separately mounted on two slide blocks (4132) of gripper cylinder (413)；

Knife rest track (417) is installed in gripper cylinder mounting plate (411) top；

Knife rest track (417) includes two parallel slide rails two (4172)；

Knife rest two (419), and can be along two slide rails two in two slide rails two (4172) of knife rest track (417) (4172) slide；

Blade two (421) is on knife rest two (419)；

Pressure knife block (423) is on knife rest two (419), and pushing down blade two (421) prevents blade two (421) from coming off；

Cut the end that cylinder mounting plate (425) is fixed on two slide rails two (4172)；

Cylinder two (427) is cut installed in cutting on cylinder mounting plate (425)；

Cut the piston rod of cylinder two (427) and connect knife rest two (419) afterwards through cutting cylinder mounting plate (425)；

Feeding module (429) is installed in 430 top of installation riser；

Secondary pressing mechanism (6) cuts feed mechanism (4) positioned at heat-shrink tube on the top board (12) of frame (1) Side；

Secondary pressing mechanism (6) includes column (601), air cylinder fixed plate (603), cylinder (605), briquetting (607)；

Column (601) is fixed on top board (12)；

Top of the air cylinder fixed plate (603) installed in column (601)；

Cylinder (605) is fixed in air cylinder fixed plate (603)；

Briquetting (607) is fixed on the piston rod of cylinder (605).

The further restriction of above-mentioned technical proposal is that the inclined fluorine double-walled shaping equipment also includes guide rack (5), leads Bin (5) is fixed on the top board (12) of frame (1), and guide rack (5) cuts feed mechanism (3), pyrocondensation positioned at tempreature bulb Pipe is cut between feed mechanism (4)；

Guide rack (5) includes a support bar (501), two connecting rods (503), two directive wheels (505)；

Support bar (501) is fixed on top board (12), is cut feed mechanism (3), heat-shrink tube positioned at tempreature bulb and is cut Between feed mechanism (4)；

Two connecting rods (503) are separately mounted on support bar (501)；

Two directive wheels (505) are separately mounted on two connecting rods (503).

The further restriction of above-mentioned technical proposal is that the inclined fluorine double-walled shaping equipment also includes hot briquetting mechanism (7), hot briquetting mechanism (7) is fixed on the top board (12) of frame (1), positioned at the side of secondary pressing mechanism (6).

The further restriction of above-mentioned technical proposal is that the inclined fluorine double-walled shaping equipment also includes cutting agency (8), Cutting agency (8) is fixed on the top board (12) of frame (1), cuts the side of feed mechanism (3) positioned at tempreature bulb.

Compared with prior art, the invention has the advantages that：

1st, tempreature bulb cut feed mechanism 3 and heat-shrink tube cut feed mechanism 4 can be according to tempreature bulb and the chi of heat-shrink tube Little progress row accurately cuts, it is ensured that the length of double-wall pipe and precision unification, kerf quality are good, it is not easy to be cut into angle.

2nd, by the conveying of rotating disk 22 and pushing for secondary pressing mechanism 6, it is ensured that shrinkable sleeve outside tempreature bulb, and And the position being inserted in is accurately in place.

3rd, present device high degree of automation, the inclined fluorine double-walled terminal appearance looks elegant for processing, high in machining efficiency, labor Dynamic low cost.

Description of the drawings

Fig. 1 is the stereogram of fluorine double-walled shaping equipment partially of the invention.

Fig. 2 is the top view of fluorine double-walled shaping equipment partially of the invention.

Fig. 3 is the stereogram of the rotating disk mechanism of the present invention.

Fig. 4 is the stereogram that the tempreature bulb of the present invention cuts feed mechanism.

Fig. 5 is the stereogram that the heat-shrink tube of the present invention cuts feed mechanism.

Fig. 6 is the stereogram of the guide rack of the present invention.

Fig. 7 is the stereogram of the secondary pressing mechanism of the present invention.

Specific embodiment

Refer to Fig. 1 to Fig. 7, a kind of inclined fluorine double-walled shaping equipment, including frame 1, rotating disk mechanism 2, tempreature bulb to cut out Cut feed mechanism 3, heat-shrink tube and cut feed mechanism 4, guide rack 5, secondary pressing mechanism 6, hot briquetting mechanism 7, cutting agency 8。

The top of the frame 1 is provided with a top board 12.

Rotating disk mechanism 2 includes a circular rotating disk 22, and rotating disk 22 is arranged on the middle position of top board 12, rotating disk 22 around Its center of circle rotates.

Several localization tools 24 are equipped with rotating disk 22, several localization tools 24 circumferentially equally spaced from It is arranged on the rotating disk 22.

Tempreature bulb cuts feed mechanism 3 on the top board 12 of frame 1.

Tempreature bulb cuts feed mechanism 3 to be included fixing base plate 1, installation riser 1, motor fixing plate 305, stepping Motor 307, adjustment block 309, two one slide rails 1, cut air cylinder fixed plate 313, cut cylinder 1, knife rest one 317, knife Piece 1, pressure block 321, cutting mould fixed plate 323, cutting mould 325,327, two gripper shoes of pan feeding module mounting seat 329th, active glue coating wheel 331, the first synchronizing wheel 333, the second synchronizing wheel 335, Timing Belt 337,339, two slide blocks 341 of cover plate, Driven glue coating wheel 343, guide plate 345, pan feeding mould 347.

Fixed base plate 1 is fixed on the top board 12 of frame 1.

Installation riser 1 is fixed on fixed base plate 1.

Motor fixing plate 305 is fixed on the back side of installation riser 1.

Stepper motor 307 is fixed on motor fixing plate 305.Stepper motor 307 includes an output revolving shaft 3072.

Adjustment block 309 is fixed on the front of installation riser 1.

Two one slide rails 1 are fixed on the both sides of adjustment block 309 and in sustained height position, two one slide rails one 311 is parallel.

Air cylinder fixed plate 313 is cut installed in the end of two one slide rails 1.

Cut cylinder 1 be arranged on cut in air cylinder fixed plate 313.

Knife rest 1 is arranged between two one slide rails 1.Knife rest 1 can be slided between two one slide rails 1 It is dynamic.

The piston rod for cutting cylinder 1 connects knife rest 1 through after cutting air cylinder fixed plate 313.

Blade 1 is arranged on knife rest 1.

Pressure block 321 is arranged on knife rest 1, and pressure block 321 pushes down blade 1 prevents blade 1 from coming off.

Cutting mould fixed plate 323 is fixed in installation riser 1, positioned at the top of adjustment block 309.

Cutting mould 325 is arranged in cutting mould fixed plate 323.Cutting mould 325 be located at two one slide rails 1 it Between.Tempreature bulb (not shown) is passed through from cutting mould 325.

Startup cut cylinder 1, cut cylinder 1 piston rod band movable knife rack 1 on two one slide rails 1 Slide, blade 1 also with together sliding, when blade 1 is switched on cutting mould 325, you being located at cutting mould Tempreature bulb (not shown) cut-out among 325.

Pan feeding module mounting seat 327 is arranged in installation riser 1, above adjustment block 309.

Two gripper shoes 329 are arranged on the both sides of pan feeding module mounting seat 327 and are in sustained height position, two supports Plate 329 is parallel.

An installing hole 3292 and a rectilinear chute 3294 are offered in gripper shoe 329.

Among the two ends of active glue coating wheel 331 are arranged on two installing holes 3292 of two gripper shoes 329, active glue coating wheel 331 can roll in two installing holes 3292.

One end of active glue coating wheel 331 is provided with a gear 3312, and the other end is installed and fixes first synchronizing wheel 333.

Second synchronizing wheel 335 is fixed on the output revolving shaft 3072 of stepper motor 307.

Timing Belt 337 is arranged in the first synchronizing wheel 333 and the second synchronizing wheel 335.

Cover plate 339 is fixed on the end of two gripper shoes 329.

Two slide blocks 341 are separately mounted in two chutes 3294 of two gripper shoes 329, and two slide blocks 341 use bolt (not shown) is fixed on cover plate 339.

The two ends of driven glue coating wheel 343 are separately mounted in two slide blocks 341, and driven glue coating wheel 343 is in two slide blocks 341 Middle rotation.

One end of driven glue coating wheel 343 is provided with the gear of a gear 3432, gear 3432 and active glue coating wheel 331 3312 engagements.

By swivel bolt, the position of two slide blocks 341 can be adjusted, so as to adjust active glue coating wheel 331 and driven bag Gap between rubber tire 343.

Guide plate 345 is arranged on the top of pan feeding module mounting seat 327.

Pan feeding mould 347 is arranged on guide plate 345.

Tempreature bulb (not shown) is entered between active glue coating wheel 331 and driven glue coating wheel 343 from pan feeding mould 347, is started Stepper motor 307, output revolving shaft 3072 rotate, and drive the second synchronizing wheel 335 to rotate, by the conduction of Timing Belt 337, the One synchronizing wheel 333 also rotates, and drives active glue coating wheel 331 to rotate, and the gearing of gear 3312 and gear 3432 drives driven Glue coating wheel 343 rotates, and tempreature bulb is delivered into downwards cutting mould for the cooperation of active glue coating wheel 331 and driven glue coating wheel 343 325, the startup of cylinder 1 is cut, knife rest 1 is pushed ahead, the cut-out tempreature bulb of blade 1.

Heat-shrink tube cuts feed mechanism 4 on the top board 12 of frame 1.

Heat-shrink tube cut feed mechanism 4 include fixing base plate 2 401, installation riser 2 403, lift cylinder fixed block 405, Lift cylinder 407, line slideway 409, gripper cylinder mounting plate 411, gripper cylinder 413, two intubation fixtures 415, knife rest rails Road 417, knife rest 2 419, blade 2 421, pressure knife block 423, cut cylinder mounting plate 425, cut cylinder 2 427, feeding module 429。

Fixed base plate 2 401 is fixed on the top board 12 of frame 1.

Installation riser 2 403 is arranged on fixed base plate 2 401.

Lift cylinder fixed block 405 is fixed on the bottom of installation riser 2 403.

Lift cylinder 407 is fixed on lift cylinder fixed block 405.

Line slideway 409 is vertically fixed in installation riser 2 403.

Gripper cylinder mounting plate 411 is fixed on line slideway 409, it is possible to glided along on line slideway 409 It is dynamic.

The bottom of the piston rod connection gripper cylinder mounting plate 411 of lift cylinder 407.

Start lift cylinder 407, lift cylinder 407 drives gripper cylinder mounting plate 411 to glide along on line slideway 409 It is dynamic.

Gripper cylinder 413 is fixed on gripper cylinder mounting plate 411.

Gripper cylinder 413 is provided with two slide blocks 4132, and two slide blocks 4132 can be drawn close with slid inward or be slid in and out Separate.

Two intubation fixtures 415 are separately mounted on two slide blocks 4132 of gripper cylinder 413.

Start gripper cylinder 413, two slide blocks 4132 clamp pyrocondensation with closing up after two 415 slid inwards of intubation fixture Pipe (not shown), or two slide blocks 4132 slide in and out posttension shredding with two intubation fixtures 415 and open heat-shrink tube.

Knife rest track 417 is arranged on 411 top of gripper cylinder mounting plate.

Knife rest track 417 includes two parallel slide rails 2 4172.

Knife rest 2 419 is arranged in two slide rails 2 4172 of knife rest track 417, and can be slided along two slide rails 2 4172 It is dynamic.

Blade 2 421 is arranged on knife rest 2 419.

Pressure knife block 423 is arranged on knife rest 2 419, and pushing down blade 2 421 prevents blade 2 421 from coming off.

Cut the end that cylinder mounting plate 425 is fixed on two slide rails 2 4172.

Cut cylinder 2 427 be arranged on cut on cylinder mounting plate 425.

Cut the piston rod of cylinder 2 427 and connect after cylinder mounting plate 425 knife rest 2 419 through cutting.

Feeding module 429 is arranged on 430 top of installation riser.

Feeding module 429 conveys downwards heat-shrink tube (not shown), and two intubation fixtures 415 clamp heat-shrink tube after closing up, so After cut cylinder 2 427 startup, blade 2 421 cut-out heat-shrink tube.

Guide rack 5 is fixed on the top board 12 of frame 1.Guide rack 5 cuts feed mechanism 3, pyrocondensation positioned at tempreature bulb Pipe is cut between feed mechanism 4.

Guide rack 5 includes the directive wheel 505 of connecting rod 503, two of a support bar 501, two.

Support bar 501 is fixed on top board 12, is cut feed mechanism 3, heat-shrink tube positioned at tempreature bulb and is cut feeder Between structure 4.

Two connecting rods 503 are separately mounted on support bar 501.

Two directive wheels 505 are separately mounted in two connecting rods 503.Two directive wheels 505 correspond to tempreature bulb respectively and cut out Cut feed mechanism 3 and heat-shrink tube cuts feed mechanism 4, conveying tempreature bulb (not shown) and heat-shrink tube (not shown).

Secondary pressing mechanism 6 is arranged on the top board 12 of frame 1, cuts 4 side of feed mechanism positioned at heat-shrink tube.

Secondary pressing mechanism 6 includes column 601, air cylinder fixed plate 603, cylinder 605, briquetting 607.

Column 601 is fixed on top board 12.

Air cylinder fixed plate 603 is arranged on the top of column 601.

Cylinder 605 is fixed in air cylinder fixed plate 603.

Briquetting 607 is fixed on the piston rod of cylinder 605.

After cylinder 605 starts, briquetting 607 can move up and down.

Hot briquetting mechanism 7 is fixed on the top board 12 of frame 1, positioned at the side of secondary pressing mechanism 6.

Cutting agency 8 is fixed on the top board 12 of frame 1, cuts the side of feed mechanism 3 positioned at tempreature bulb.

The course of work of present device is described as follows：Tempreature bulb cuts feed mechanism 3 according to needed for inclined fluorine double-walled terminal The size of tempreature bulb accurately cut, and on the localization tool 24 is sent on rotating disk 22 by tempreature bulb (not shown), Then rotating disk 22 rotates, and allows the localization tool 24 for having covered tempreature bulb to go to the station that heat-shrink tube cuts feed mechanism 4, then by heat The draw cuts feed mechanism 4 and accurately heat-shrink tube (not shown) is cut and shrinkable sleeve in the outside of tempreature bulb, Rotating disk 22 continues to rotate to the station of secondary pressing mechanism 6, and the heat-shrink tube being enclosed within outside tempreature bulb is depressed into accurate location, turns Disk 22 continues to rotate to 7 station of hot briquetting mechanism, the double-wall pipe hot briquetting for packaging, is thus processed into inclined fluorine double-walled end Son, rotating disk 22 continue to cutting agency 8, will take on localization tool 24 of the inclined fluorine double-walled terminal for processing from rotating disk 22 Under.

The invention has the advantages that：

1st, tempreature bulb cut feed mechanism 3 and heat-shrink tube cut feed mechanism 4 can be according to tempreature bulb and the chi of heat-shrink tube Little progress row accurately cuts, it is ensured that the length of double-wall pipe and precision unification, kerf quality are good, it is not easy to be cut into angle.

2nd, by the conveying of rotating disk 22 and pushing for secondary pressing mechanism 6, it is ensured that shrinkable sleeve outside tempreature bulb, and And the position being inserted in is accurately in place.

3rd, present device high degree of automation, the inclined fluorine double-walled terminal appearance looks elegant for processing, high in machining efficiency, labor Dynamic low cost.

Claims (4)

1. a kind of inclined fluorine double-walled shaping equipment, it is characterised in that cut including frame (1), rotating disk mechanism (2), tempreature bulb Feed mechanism (3), heat-shrink tube cut feed mechanism (4), secondary pressing mechanism (6)；

One top board (12) is installed at the top of the frame (1)；

Rotating disk mechanism (2) includes a circular rotating disk (22), and rotating disk (22) is installed in the middle position of top board (12), rotating disk (22) rotate around its center of circle；

Be equipped with several localization tools (24) on rotating disk (22), several localization tools (24) circumferentially equally spaced from It is arranged on the rotating disk (22)；

Tempreature bulb cuts feed mechanism (3) on the top board (12) of frame (1)；

Tempreature bulb cut feed mechanism (3) including fixed base plate one (301), installation riser one (303), motor fixing plate (305), Stepper motor (307), adjustment block (309), two one slide rails one (311), cut air cylinder fixed plate (313), cut cylinder one (315), knife rest one (317), blade one (319), pressure block (321), cutting mould fixed plate (323), cutting mould (325), Pan feeding module mounting seat (327), two gripper shoes (329), active glue coating wheel (331), the first synchronizing wheel (333), the second synchronizations Wheel (335), Timing Belt (337), cover plate (339), two slide blocks (341), driven glue coating wheel (343), guide plate (345), pan feedings Mould (347)；

Fixed base plate one (301) is fixed on the top board (12) of frame (1)；

Installation riser one (303) is fixed on fixed base plate one (301)；

Motor fixing plate (305) is fixed on the back side of installation riser one (303)；

Stepper motor (307) is fixed on motor fixing plate (305), and stepper motor (307) includes an output revolving shaft (3072)；

Adjustment block (309) is fixed on the front of installation riser one (303)；

Two one slide rails one (311) are fixed on the both sides of adjustment block (309) and in sustained height position, two one slide rails one (311) it is parallel；

Air cylinder fixed plate (313) is cut installed in the end of two one slide rails one (311)；

Cylinder one (315) is cut installed in cutting in air cylinder fixed plate (313)；

, between two one slide rails one (311), knife rest one (317) is sliding between two one slide rails one (311) for knife rest one (317) It is dynamic；

The piston rod for cutting cylinder one (315) connects knife rest one (317) through after cutting air cylinder fixed plate (313)；

Blade one (319) is on knife rest one (317)；

Pressure block (321) on knife rest one (317), push down blade one (319) and prevent blade one (319) by pressure block (321) Come off；

Cutting mould fixed plate (323) is fixed in installation riser one (303), positioned at the top of adjustment block (309)；

, in cutting mould fixed plate (323), cutting mould (325) is positioned at two one slide rails one (311) for cutting mould (325) Between；

Pan feeding module mounting seat (327) in installation riser one (303), above adjustment block (309)；

Two gripper shoes (329) are installed in the both sides of pan feeding module mounting seat (327) and are in sustained height position, two supports Plate (329) is parallel；

An installing hole (3292) and a rectilinear chute (3294) are offered in gripper shoe (329)；

It is among the two ends of active glue coating wheel (331) are arranged on two installing holes (3292) of two gripper shoes (329), actively encapsulated Wheel (331) is rolled in two installing holes (3292)；

One end of active glue coating wheel (331) is provided with a gear (3312), and the other end is installed and fixes first synchronizing wheel (333)；

Second synchronizing wheel (335) is fixed on the output revolving shaft (3072) of stepper motor (307)；

Timing Belt (337) is in the first synchronizing wheel (333) and the second synchronizing wheel (335)；

Cover plate (339) is fixed on the end of two gripper shoes (329)；

Two slide blocks (341) are separately mounted in two chutes (3294) of two gripper shoes (329), two slide block (341) peaces Dress is fixed on cover plate (339)；

The two ends of driven glue coating wheel (343) are separately mounted in two slide blocks (341), and driven glue coating wheel (343) is in two slide blocks (341) rotation in；

One end of driven glue coating wheel (343) is provided with the tooth of a gear (3432), gear (3432) and active glue coating wheel (331) Wheel (3312) engagement；

Guide plate (345) is installed in the top of pan feeding module mounting seat (327)；

Pan feeding mould (347) is on guide plate (345)；

Heat-shrink tube cuts feed mechanism (4) on the top board (12) of frame (1)；

Heat-shrink tube cuts feed mechanism (4) including fixed base plate two (401), installation riser two (403), lift cylinder fixed block (405), lift cylinder (407), line slideway (409), gripper cylinder mounting plate (411), gripper cylinder (413), two intubations Fixture (415), knife rest track (417), knife rest two (419), blade two (421), pressure knife block (423), cut cylinder mounting plate (425) cylinder two (427), feeding module (429), are cut；

Fixed base plate two (401) is fixed on the top board (12) of frame (1)；

Installation riser two (403) is on fixed base plate two (401)；

Lift cylinder fixed block (405) is fixed on the bottom of installation riser two (403)；

Lift cylinder (407) is fixed on lift cylinder fixed block (405)；

Line slideway (409) is vertically fixed in installation riser two (403)；

Gripper cylinder mounting plate (411) is fixed on line slideway (409), is slided up and down along line slideway (409)；

The bottom of piston rod connection gripper cylinder mounting plate (411) of lift cylinder (407)；

Gripper cylinder (413) is fixed on gripper cylinder mounting plate (411)；

Gripper cylinder (413) is provided with two slide blocks (4132), and two slide block (4132) slid inwards are drawn close or slid in and out point Open；

Two intubation fixtures (415) are separately mounted on two slide blocks (4132) of gripper cylinder (413)；

Knife rest track (417) is installed in gripper cylinder mounting plate (411) top；

Knife rest track (417) includes two parallel slide rails two (4172)；

Knife rest two (419) in two slide rails two (4172) of knife rest track (417), and along two slide rails two (4172) Slide；

Blade two (421) is on knife rest two (419)；

Pressure knife block (423) is on knife rest two (419), and pushing down blade two (421) prevents blade two (421) from coming off；

Cut the end that cylinder mounting plate (425) is fixed on two slide rails two (4172)；

Cylinder two (427) is cut installed in cutting on cylinder mounting plate (425)；

Cut the piston rod of cylinder two (427) and connect knife rest two (419) afterwards through cutting cylinder mounting plate (425)；

Feeding module (429) is installed in 430 top of installation riser；

Secondary pressing mechanism (6) cuts feed mechanism (4) side positioned at heat-shrink tube on the top board (12) of frame (1)；

Secondary pressing mechanism (6) includes column (601), air cylinder fixed plate (603), cylinder (605), briquetting (607)；

Column (601) is fixed on top board (12)；

Top of the air cylinder fixed plate (603) installed in column (601)；

Cylinder (605) is fixed in air cylinder fixed plate (603)；

Briquetting (607) is fixed on the piston rod of cylinder (605).

2. a kind of inclined fluorine double-walled shaping equipment according to claim 1, it is characterised in that the inclined fluorine double-walled automatically into Type equipment also includes guide rack (5), and guide rack (5) is fixed on the top board (12) of frame (1), and guide rack (5) is positioned at heat Fusion tube cuts feed mechanism (3), heat-shrink tube and cuts between feed mechanism (4)；

Guide rack (5) includes a support bar (501), two connecting rods (503), two directive wheels (505)；

Support bar (501) is fixed on top board (12), is cut feed mechanism (3), heat-shrink tube positioned at tempreature bulb and is cut feeding Between mechanism (4)；

Two connecting rods (503) are separately mounted on support bar (501)；

Two directive wheels (505) are separately mounted on two connecting rods (503).

3. a kind of inclined fluorine double-walled shaping equipment according to claim 1, it is characterised in that the inclined fluorine double-walled automatically into Type equipment also includes hot briquetting mechanism (7), and hot briquetting mechanism (7) is fixed on the top board (12) of frame (1), is located at The side of secondary pressing mechanism (6).

4. a kind of inclined fluorine double-walled shaping equipment according to claim 1, it is characterised in that the inclined fluorine double-walled automatically into Type equipment also includes cutting agency (8), and cutting agency (8) is fixed on the top board (12) of frame (1), is cut out positioned at tempreature bulb Cut the side of feed mechanism (3).