CN201151011Y - Full-automatic numerical control pipe cutter - Google Patents

Abstract

The utility model relates to a full-automatic digital control pipe cutter, which comprises a main body, a material feeding and delivering system, a material delivering-clamping system and a cutting system, wherein the material feeding and delivering system is provided with a pneumatic cylinder and a material feeding table with a certain incline grade, wherein the pneumatic cylinder is mounted on the lower portion of a material feeding face, which is used to push materials which are waiting to be processed to the material delivering-clamping system, the material delivering-clamping system is provided with two clamping devices and two pneumatic cylinders, the processing length between the two clamping devices can be adjusted through a guide rail, which has the functions of clamping, delivering and positioning, the cutting system is provided with a wheel disk with a V-shaped guide rail, a guide screw, a rotation shaft, a shaft tube and a knife carrier which is radially moved, wherein the knife carrier does radial movement on the wheel disc with the V-shaped guide rail, and the radial movement of the knife carrier is achieved. The full-automatic digital control pipe cutter is used to cut various materials, which has high efficiency, and can achieve unmanned operation.

Description

A kind of full-automatic numerical control pipe cutting machine

Technical field

The utility model relates to a kind of pipe cutting machine, particularly relates to the automatic numerical control pipe cutting machine.

Background technology

At present in the machining, the pipeline cutting is very general, and this processing generally all is processing in enormous quantities, this just needs a high efficiency, high-speed processing unit (plant), but in the prior art, mostly automaticity is not high, much all be to need the people manually to process, working (machining) efficiency is low, and process velocity is slow, and has potential safety hazard.For this reason, and the existing patent application of adopting Numeric Control Technology to improve the cutting speed and the efficient of pipe cutting machine, as the utility model patent that Chinese patent communique 2005.10.7 announces, " the full-automatic numerical control pipe cutting machine " of the patent No. 200520133730.5; This full-automatic numerical control pipe cutting machine, comprise fuselage, diced system, the material feed clamping system, digital control system, cooling system, diced system has main shaft, be fixed with the feed motor on it, motor rotates by the gear driven screw mandrel, screw mandrel makes the slide block moving linearly, and cutting tool is housed on the slide block, and the power supply of motor passes through brush, the electricity ring is led into, the material feed clamping system is by fixing pincers, move pincers, electronic feed screw nut's transmission constitutes, and fixes pincers and move pincers to be electronic pincers, digital control system control feed motor, the feeding motor, two electronic pincers motors are parallel with manual control circuit simultaneously, it has simplified the frame for movement of rotary cutting process cutting, realize Automatic Control, improve cutting efficiency and cut quality, reduce labour intensity.It all is with motor drives that but this machine also exists each running or travelling mechanism, the motor of configuration is too many, motor oscillating too, this must cause this machine operation evenly uneven, the dry unshapeliness of cutting hair, simultaneously, the full-automatic degree of this machine is not high, have more place to need manual supplement production, especially this machine is not provided with the automatic discharging feed system.

The utility model content

Low for solving existing pipe cutting machine working (machining) efficiency, process velocity is slow, and has the problem of potential safety hazard, and a kind of full-automatic degree height is provided, cutting efficiency and cut quality height, the full-automatic numerical control pipe cutting machine of safety.

For addressing the above problem, the technical scheme of employing is:

A kind of full-automatic numerical control pipe cutting machine comprises fuselage, a blowing feed system, a material feed clamping system and a cutting system that electronic digital control system is arranged in one;

(1) described blowing feed system comprises a bracing frame, a pneumatic cylinder and a material platform, the material platform that is located at above the bracing frame is low inclined-plane, a right high left side, there is a side striker plate in the material platform left side, the front portion of material platform and afterbody respectively have a front-and-back stop flitch, on preceding striker plate, be provided with a feedhole, pneumatic cylinder is arranged on the bracing frame left side, pneumatic cylinder has an extension bar towards afterbody, the end of extension bar connects a scraping wings, gap of scraping wings from material platform stretch out and with the same horizontal level of feedhole;

(2) described material feed clamping system has a pneumatic cylinder, a stationary fixture, moves anchor clamps, a lead screw motor; Pneumatic cylinder is installed in fuselage one side, pneumatic cylinder has a band tooth bar straight-bar, and straight-bar cooperates in the bottom with gear, and right chuck lower end cooperates on top with gear, stationary fixture 230 is fixedly mounted on above the fuselage top board, and left rail and right guide rail also be arranged in parallel on the fuselage top board; Mobile clamping fixture seat drops on left rail and the right guide rail, and lead screw motor is fixed on fuselage one side, and lead screw motor drives the screw mandrel belt wheel of screw mandrel one end by belt; Screw mandrel drives mobile anchor clamps and moves at left rail and the right guide rail turning cylinder center line along diced system;

(3) have the wheel disc of a servomotor, a screw mandrel, a turning cylinder, a beam barrel, a band V-shape guide rail and the knife rest that upwards move in a footpath on the described diced system, servomotor drives screw mandrel and rotates, screw mandrel drives the screw pair action, screw pair promotes an internal axle sleeve, and internal axle sleeve drives turning cylinder, and turning cylinder promotes a baffle plate, baffle plate promotes knife rest, knife rest is slided on the wheel disc of band V-shape guide rail, and turning cylinder and knife rest keep changeing synchronously, and knife rest also keeps moving diametrically in rotation simultaneously;

Full-automatic numerical control pipe cutting machine of the present utility model also comprises and has a following technical characterictic:

The spindle motor that is arranged on the fuselage links to each other by the moving belt wheel that drives on the turning cylinder of driving belt and described diced system, connect by flat key between belt wheel and the turning cylinder, screw pair connects with internal axle sleeve by two angular contact bearings, the internal axle sleeve two ends have bearing to cooperate with beam barrel, and the turning cylinder both sides have two angular contact bearings to cooperate with the belt wheel and the protrusion optical axis at main spindle box place respectively.

The left chuck of described material feed clamping system has an identical guide rail with right chuck, has corresponding groove in the clamping fixture seat, left side chuck and right chuck slide along the groove in the clamping fixture seat, the tooth bar straight-bar has one and protrudes optical axis, fasten by a Fender lock between left side chuck and the protrusion optical axis and connect, the wheel and rack straight-bar that moves through of left side chuck carries out synchronously, and right chuck is by the action of the gear drive direction opposite with straight-bar, realizes the clamping of two chucks and unclamps.

Pneumatic cylinder in the described material feed clamping system has an extension bar, there is a band tooth bar sliding bar extension bar below, band tooth bar sliding bar one end has the protrusion optical axis, protruding an optical axis and a plate washer links, plate washer connects extension bar and band tooth bar sliding bar, making plate washer make the connection extension bar drive band tooth bar sliding bar moves together, plate washer connects by interference fit with left chuck, the band tooth bar sliding bar other end has tooth bar, tooth bar matches with gear below, match with a tooth bar of right chuck below in the gear top, gear is fixed on the fixed head and crosses clamping fixture seat;

Pneumatic cylinder on the described blowing feed system is arranged on the bracing frame left side, and the pneumatic cylinder afterbody has an extension bar, and the end of extension bar connects a scraping wings, in the left side of material platform afterbody one gap is arranged, one of scraping wings stretch out the gap and with feedhole horizontal level mutually.

The V-shape groove that has two symmetries on the knife rest on the described diced system.

The V-type groove of two symmetries is perpendicular to turning cylinder on the described diced system.

Two chuck mid points on the feedhole center of circle on the described blowing feed system and the described diced system on the stationary fixture of turning cylinder axle center and described material feed clamping system, two chuck central points on the mobile anchor clamps are for being arranged on the same center line.

Compared with prior art: the utility model is owing to be provided with the full-automatic feeding feed system, realized that blowing, charging, cutting, line of discharging are full-automatic, the automaticity height is provided with a plurality of air cylinder devices simultaneously, make whole cutting machine move that more balance is even, reduced vibration and noise.

Description of drawings

Below in conjunction with the drawings and specific embodiments full-automatic numerical control pipe cutting machine of the present utility model is described further.

Fig. 1 is the general assembly drawing of full-automatic numerical control pipe cutting machine of the present utility model;

Fig. 2 is the cutaway view of full-automatic numerical control pipe cutting machine of the present utility model;

Fig. 3 is the component diagram of full-automatic numerical control pipe cutting machine diced system of the present utility model;

Fig. 4 is the cutaway view of full-automatic numerical control pipe cutting machine diced system of the present utility model;

Fig. 5 is the component diagram of full-automatic numerical control pipe cutting machine material feed clamping of the present utility model system;

Fig. 6 is the cutaway view of full-automatic numerical control pipe cutting machine material feed clamping of the present utility model system;

Fig. 7 is the component diagram of full-automatic numerical control pipe cutting machine blowing feed system of the present utility model.

The specific embodiment

As shown in Figure 1, full-automatic numerical control pipe cutting machine of the present utility model comprises a fuselage 400, a blowing feed system 300, a material feed clamping system 200 and a cutting system 100.

As shown in Figure 1, Figure 2, Figure 3 and Figure 4, diced system 100 has first knife rest 111, second knife rest 121 that upwards move in a main spindle box 106, a servomotor 114, a screw mandrel 116, a screw pair 117, a belt wheel 105, a disc of conical profile 109, a beam barrel 101, a rotating disk 113 and a footpath; Spindle motor 410 is by the belt wheel 105 on the belt driving band mantle shape wheel disc 109, connect by flat key 125 between belt wheel 105 and the disc of conical profile 109, servomotor 114 drives screw mandrel 116, screw mandrel 116 drives screw pair 117, screw pair 117 is by angular contact clutch shaft bearing 103, angular contact second bearing 104 connects with internal axle sleeve 118, one beam barrel 101 is arranged in the internal axle sleeve 118, internal axle sleeve 118 two ends have bearing 102 and bearing 108 to cooperate with beam barrel 101, the outer disc of conical profile 109 that is with of internal axle sleeve 118, the drive disc of conical profile 109 that moves axially of internal axle sleeve 118 moves in the axial direction, there is angular contact the 3rd bearing 123 on disc of conical profile 109 both sides, angular contact the 4th bearing 107 cooperates with the belt wheel 105 and the protrusion optical axis 124 at main spindle box 106 places, disc of conical profile 109 promotes a baffle plate 112 under the promotion of screw pair 117, baffle plate 112 peripheries have a rotating disk 113, has an I shape guide rail 115 on the rotating disk 113, first knife rest 111, second knife rest 121 is contained in the both sides of I shape guide rail 115 respectively, first knife rest 111 has a knife holder slot 110, second knife rest 121 has a knife holder slot 120, can on knife holder slot 110 or knife holder slot 120, adorn a cutoff tool, the wheel disc 109 that one band V-shape guide rail is arranged in first knife rest 111, baffle plate 112 promotes rotating disk 113, rotating disk 113 impels first knife rest 111 to move diametrically along the V-shape guide rail of wheel disc 109, realize rotating disk 113, first knife rest 111 changes together with disc of conical profile 109, internal axle sleeve 118 moves in the axial direction, and beam barrel 101 does not move on radial and axial.

As Fig. 1, Fig. 2, Fig. 5 and shown in Figure 6, material feed clamping system 200 seated connections are on fuselage 400, and it comprises that a pneumatic cylinder 201, a stationary fixture 230, move anchor clamps 220, a lead screw motor 216; Pneumatic cylinder 201 is installed in fuselage 400 1 sides, and stationary fixture 230 is fixedly mounted on above fuselage 400 top boards, and left rail 213 and right guide rail 211 also be arranged in parallel on fuselage 400 top boards; Mobile anchor clamps 220 are located on left rail 213 and the right guide rail 211, and lead screw motor 216 is fixed on fuselage 400 1 sides, and lead screw motor 216 drives the screw mandrel belt wheel 217 of screw mandrel 212 1 ends by belt; Screw mandrel 212 drives mobile anchor clamps 220 and moves at left rail 213 and the right guide rail 211 turning cylinder center line along diced system 100; Mobile anchor clamps 220 have a left chuck 204 and a right chuck 205, a left side chuck 204 and right chuck 205 all are installed in the groove 221 on the mobile clamping fixture seat 218, in mobile clamping fixture seat 218 left sides one pneumatic cylinder 201 is arranged, pneumatic cylinder 201 has an extension bar 214, there is a band tooth bar sliding bar 210 extension bar 214 belows, band tooth bar sliding bar 210 1 ends have the optical axis 203 of protrusion, protruding an optical axis 203 and a plate washer 215 links, plate washer 215 connects extension bar 214 and band tooth bar sliding bar 210, plate washer 215 is made connect 210 actions together of extension bar 214 drive band tooth bar sliding bars, plate washer 215 and left chuck 204 connect by interference fit, band tooth bar sliding bar 210 other ends have tooth bar 206, tooth bar 206 matches with a gear 209 belows, match with a tooth bar 207 of right chuck 205 belows in gear 209 tops, gear 209 is fixed on the fixed head 208 and crosses clamping fixture seat 218; When pneumatic cylinder 201 actions, band tooth bar sliding bar 210 drives plate washer 215 actions by protruding optical axis 203, plate washer 215 drives left chuck 204 actions, simultaneously, 209 actions of band tooth bar sliding bar 210 other end tooth bars 206 driven gears, gear 209 drives right chuck 205 and does the direction action opposite with band tooth bar sliding bar 210, thereby thereby realize the clamping and the effect of unclamping realization feeding and location of left chuck 204 and right chuck 205; Chuck in chuck in the stationary fixture and running annexation and the mobile anchor clamps and to operate annexation identical no longer is described in detail at this.

As Fig. 1, Fig. 2 and shown in Figure 7, blowing feed system 300 comprises a bracing frame 305, one pneumatic cylinder 301 and a material platform 320, the material platform 320 that is located at above the bracing frame 305 is low inclined-plane, a right high left side, there is a side striker plate 302 in material platform 320 left sides, the front portion of material platform 320 and afterbody respectively have a front-and-back stop flitch 312,306, has a feedhole 311 in preceding striker plate 312 middle and upper parts, anchor clamps 220 in this feedhole 311 and the material feed clamping system, 230 same level heights, material platform 320 table tops are made up of several fixed bars 307, fixed bar 307 left ends and side striker plate 302 link, and fixed bar 307 right-hand members and support bar 308 link; Pneumatic cylinder 301 is arranged on bracing frame 305 left sides, pneumatic cylinder 301 has an extension bar 330 towards afterbody, the end of extension bar 330 connects a scraping wings 303, in the left side of material platform 320 afterbodys one gap 309 is arranged, 303 1 of scraping wings stretch out gap 309 and with feedhole 311 horizontal level mutually, after adding labor and materials and putting into blowing face 310 from material platform 320 right-hand members, under the gravity effect, add labor and materials and be rolled into blowing face 310 left sides automatically, the scraping wings 303 in blowing face 310 left sides promotes material to be processed forward up to arriving material feed clamping system 200 by feedhole 311, realizes the automation of blowing feeding.

Arrive shown in Figure 7 as Fig. 1, some process pipeline are put into from the right-hand member of material platform 320, because the blowing face 310 of material platform 320 has constant slope, pipeline is put into blowing face 310 backs because gravity is rolled into blowing face 310 left sides automatically, in blowing face 310 left sides, scraping wings 303 promotes wherein a pipeline and passes feedhole 311 and enter in anchor clamps 230 and the anchor clamps 220 under the action of pneumatic cylinder 301, pneumatic cylinder 201 begins action according to programmed instruction, pneumatic cylinder 201 band tooth bar sliding bars 210 drive plate washer 215 actions by protruding optical axis 203, plate washer 215 drives left chuck 204 actions, simultaneously, 209 actions of band tooth bar sliding bar 210 other end tooth bars 206 driven gears, gear 209 drives right chuck 205 and makes the direction opposite with band tooth bar sliding bar 210 and move, left side chuck 204 and right chuck 205 clamping pipes, in like manner, anchor clamps 230 are also used identical principle clamping pipe, lead screw motor 216 actions drive screw mandrel 212 by belt and rotate, anchor clamps 220 adjust automatically by screw mandrel 212 according to programmed instruction and anchor clamps 230 between distance, pipeline is sent in the beam barrel 101 of diced system 100, thereby adjust the length of cut of pipeline, behind anchor clamps 230 and anchor clamps 220 location and the clamping pipe, spindle motor 410 startings, spindle motor 410 is by 109 actions of belt driving band mantle shape wheel disc, servomotor 114 drives screw mandrel 116 actions, screw mandrel 116 drives screw pair 117 actions, screw pair 117 directly drives internal axle sleeve 118 actions, the drive disc of conical profile 109 that moves axially of internal axle sleeve 118 moves in the axial direction, disc of conical profile 109 axially and is directly upwards all being moved, disc of conical profile 109 promotes baffle plate 112 under the promotion of screw pair 117, baffle plate 112 promotes rotating disk 113 actions, rotating disk 113 impels first knife rest 111 to move diametrically along the V-shape guide rail of wheel disc 109, thereby and then first knife rest 111 is mobile diametrically to make cutoff tool, cut off pipeline, process at one time, add for the second time man-hour, the pipeline that cuts off is released the pipeline that cuts off for the first time from beam barrel 101, processing continuously so continuously, only need to get final product after being placed on blowing face 310 pipeline to be processed is disposable, after processing, add again, can be completely achieved unmanned operation, improved speed and efficient greatly.

, but should be understood that under the situation that does not break away from relevant protection domain defined by the claims that those skilled in the art can make change and/or revise according to embodiment of the present utility model describing the present invention property and nonrestrictive description.

Claims (8)

1, a kind of full-automatic numerical control pipe cutting machine comprises fuselage (400), a blowing feed system (300), a material feed clamping system (200) and a cutting system (100) that electronic digital control system is arranged in one; It is characterized in that:

(1) described blowing feed system (300) comprises a bracing frame (305), one pneumatic cylinder (301) and a material platform (320), the material platform (320) that is located at above the bracing frame (305) is low inclined-plane, a right high left side, there is a striker plate (302) in material platform (320) left side, the front portion of material platform (320) and afterbody respectively have a front-and-back stop flitch (312,306), on preceding striker plate (312), be provided with a feedhole (311), pneumatic cylinder (301) is arranged on bracing frame (305) left side, pneumatic cylinder (301) afterbody is connected with an extension bar (330), the end of extension bar (330) connects a scraping wings (303), 303 1 gaps of scraping wings (309) from material platform (320) stretch out and with the same horizontal level of feedhole (311);

(2) described material feed clamping system has a pneumatic cylinder (201), a stationary fixture (230), moves anchor clamps (220), a lead screw motor (216); Pneumatic cylinder (201) is installed in fuselage (400) one sides, pneumatic cylinder (201) has a band tooth bar slide bar (210), slide bar (210) cooperates in the bottom with gear (209), right chuck (205) lower end rack and pinion (209) cooperates on top, stationary fixture 230 is fixedly mounted on fuselage 400 tops, and left rail (213) and right guide rail (211) also be arranged in parallel at fuselage 400 tops; Mobile anchor clamps (220) are located on left rail (213) and the right guide rail (211), and lead screw motor (216) is fixed on fuselage (400) one sides, and lead screw motor (216) drives the screw mandrel belt wheel (217) of screw mandrel (212) one ends by belt; Screw mandrel (212) drives mobile anchor clamps (220) and moves at left rail (213) and right guide rail (211) the turning cylinder center line along diced system (100);

(3) has a servomotor (114) on the described diced system (100), one screw mandrel (116), one turning cylinder (122), one beam barrel (101), one is with the wheel disc 109 of V-shape guide rail (115)) and the upwards mobile knife rest in a footpath, servomotor (114) drives screw mandrel (116) and rotates, screw mandrel (116) drives screw pair (117) action, screw pair (117) promotes an internal axle sleeve (118), internal axle sleeve (118) drives disc of conical profile (109) and rotates, thereby knife rest (111) is gone up at the wheel disc (109) of band V-shape guide rail (115) to slide, turning cylinder (122) keeps rotating synchronously with knife rest (111), and knife rest (111) also keeps moving diametrically in rotation simultaneously.

2, full-automatic numerical control pipe cutting machine according to claim 1, it is characterized in that, the spindle motor 410 that is arranged on the fuselage links to each other by the moving belt wheel (105) that drives on the turning cylinder (122) of driving belt and described diced system, connect by flat key (125) between belt wheel (105) and the turning cylinder (122), screw pair (117) connects with internal axle sleeve (118) by two angular contact bearings, internal axle sleeve (118) two ends have bearing to cooperate with beam barrel (101), and turning cylinder (122) both sides have two angular contact bearings to cooperate with the belt wheel and the protrusion optical axis (124) at main spindle box place respectively.

3, full-automatic numerical control pipe cutting machine according to claim 1, it is characterized in that, the left chuck (204) of the mobile anchor clamps (220) in the described material feed clamping system has an identical guide rail with right chuck (205), has corresponding groove in the clamping fixture seat, left side chuck (204) and right chuck (205) slide along the groove in the clamping fixture seat, tooth bar slide bar (210) has one and protrudes optical axis (203), be fixedly connected by a baffle plate (215) and locking nut between left side chuck (204) and the protrusion optical axis (203), the motion and the rack-and-pinion slide bar of left side chuck (204) carry out synchronously, right chuck (205) is by gear (209) the transmission direction action opposite with straight-bar, realizes the clamping of two chucks and unclamps.

4, full-automatic numerical control pipe cutting machine according to claim 1, it is characterized in that, pneumatic cylinder (201) in the described material feed clamping system has an extension bar (214), there is a band tooth bar sliding bar (210) extension bar (214) below, band tooth bar sliding bar (210) one ends have protrusion optical axis (203), protruding optical axis (203) links with a plate washer (215) and locking nut, plate washer (215) connects extension bar (214) and band tooth bar sliding bar (210), making plate washer (215) connect extension bar (214) drive band tooth bar sliding bar (210) moves together, plate washer (215) connects by interference fit with left chuck (204), band tooth bar sliding bar (210) other end has tooth bar (206), tooth bar (206) matches with a gear (209) below, match with a tooth bar (207) of right chuck (205) below in gear (209) top, gear (209) is fixed in fixed head (208) and goes up and cross clamping fixture seat (218).

5, full-automatic numerical control pipe cutting machine according to claim 1, it is characterized in that the pneumatic cylinder (301) on the blowing feed system (300) is arranged on bracing frame (305) left side, pneumatic cylinder (301) afterbody has an extension bar (330), the end of extension bar (330) connects a scraping wings (303), there is a gap (309) in left side at material platform (320) afterbody, (303) one of scraping wings stretch out gap (309) and with feedhole (311) horizontal level mutually.

6, full-automatic numerical control pipe cutting machine according to claim 1 is characterized in that, has the V-shape groove of two symmetries on the knife rest on the described diced system.

7, full-automatic numerical control pipe cutting machine according to claim 1 is characterized in that, the V-type groove of last two symmetries of described blowing feed system (300) is perpendicular to turning cylinder.

8, full-automatic numerical control pipe cutting machine according to claim 1, it is characterized in that the central point of two chucks on feedhole (311) center of circle on the described blowing feed system (300) and the described diced system on the stationary fixture (230) of turning cylinder (122) axle center and described material feed clamping system, two chuck central points on the mobile anchor clamps (220) are for being arranged on the same center line.

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