CN217531949U - Integrative winding pipe production facility - Google Patents

Abstract

The utility model discloses an integrative winding pipe production facility, it includes: the device comprises a rotating shaft core for forming a pipe body, a pipe skin extruder, a reinforcing rib extruder and a first driving device, wherein the pipe skin extruder is arranged on one side of the rotating shaft core and used for extruding a rubber skin on the rotating shaft core to form the pipe body, the reinforcing rib extruder is arranged beside the pipe skin extruder and used for adding reinforcing ribs on the rubber skin to improve the strength of the pipe body, and the first driving device is used for driving the rotating shaft core to rotate so as to be matched with the pipe body for forming and automatically sending out the rotating shaft core. The adoption sets up tube skin extruder and reinforcement rib extruder at the side of rotation axis core, by the rubber skin extruder toward extruding the rubber on the rotation axis core to rotate by a drive arrangement drive rotation axis core, thereby make the rubber winding form the body on the rotation axis core, reinforcement rib extruder makes the body and reinforcement rib shaping be a whole through extruding the reinforcement rib toward winding on the body of rotation axis core simultaneously.

Description

Integrative winding pipe production facility

The technical field is as follows:

the utility model relates to a pipeline production technical field refers in particular to an integrative winding pipe production facility.

The background art comprises the following steps:

the production mode of traditional pipeline adopts and produces pipe shaft and joint earlier, bonds pipe shaft and joint together through glue again, under this kind of production mode, because pipe shaft and joint pass through the material connection of this kind of different nature of glue for the pipeline becomes syllogic structure, and there is unstable condition in the junction, leads to the life of pipeline to reduce, splits at the junction easily. Secondly, because the material of glue is different, after smearing pipe shaft and joint on, there is the risk that leads to pipe shaft and joint junction molecular structure to change, and then leads to reducing the intensity further reduction of pipeline.

In view of this, the present inventors propose the following.

The utility model has the following contents:

an object of the utility model is to overcome prior art not enough, provide an integrative winding pipe production facility.

In order to solve the technical problem, the utility model adopts the following technical scheme: an integrally wound pipe production apparatus comprising: the device comprises a rotating shaft core for forming a pipe body, a pipe skin extruder, a reinforcing rib extruder and a first driving device, wherein the pipe skin extruder is arranged on one side of the rotating shaft core and used for extruding a rubber skin on the rotating shaft core to form the pipe body, the reinforcing rib extruder is arranged beside the pipe skin extruder and used for adding reinforcing ribs on the rubber skin to improve the strength of the pipe body, and the first driving device is used for driving the rotating shaft core to rotate so as to be matched with the pipe body for forming and automatically sending out the rotating shaft core.

Further, in the above technical solution, the rubber discharge nozzle of the tube sheet extruder is horizontally disposed at one side of the rotating shaft core, and the reinforcing bar discharge nozzle of the reinforcing bar extruder is vertically disposed above the rotating shaft core; the pipe skin extruder with the strengthening muscle extruder all with can be relative rotatory axle core adjusting position.

Further, among the above-mentioned technical scheme, the strengthening rib extruder side still is provided with and is used for tailorring the strengthening rib can pause the cutting device that the strengthening rib was extruded.

Further, among the above-mentioned technical scheme, cutting device including set up in on the reinforcing bar ejection of compact tip horizontal plane and can decide the cutter piece of reinforcing bar and be used for the drive the cutter piece motion is with right the second drive arrangement that the reinforcing bar was decided, just second drive arrangement can drive the cutter piece stop in reinforcing bar ejection of compact mouth department cuts off and receives unnecessary the reinforcing bar ejection of compact.

Furthermore, in the above technical scheme, the second driving device is a first motor, the tube sheet extruder comprises a spiral feeding tube, a first feeding barrel arranged at one end of the spiral feeding tube and used for feeding glue solution, and a third driving device arranged at the spiral feeding tube and used for rotationally extruding the glue solution, and the rubber sheet discharging nozzle is arranged at the other end of the spiral feeding tube.

Furthermore, in the above technical solution, the third driving device includes a first speed reducer arranged at the end of the spiral feeding pipe, a second motor for driving the first speed reducer to drive the spiral feeding pipe to rotate, and a first pulley set connected to the second motor and the first speed reducer.

Furthermore, in the above technical solution, the rotating shaft core is installed on a fixed frame, one side of the fixed frame is provided with a first guide rail perpendicular to the rotating shaft core, and the first guide rail is provided with a movable frame for supporting the tube sheet extruder and the reinforcing bar extruder.

Furthermore, among the above-mentioned technical scheme, the reinforcing bar extruder including install in be in on the activity frame and be the perpendicular to the second slide rail that the pivot core overall arrangement set up, install in slide platform on the second slide rail, install in gear motor module on the slide platform, install in gear motor module output is connected reinforcing bar ejection of compact mouth extrude the discharging pipe and set up in extrude discharging pipe one end and be used for supplying with the second feed bucket of glue solution, install in on the activity frame and be used for hanging extrude the discharging pipe with the movable hook subassembly of reinforcing bar ejection of compact mouth.

Furthermore, in the above technical scheme, the movable hook assembly includes a third slide rail, a sliding support seat installed on the third slide rail, and a first hook and a second hook installed at two ends of the third slide rail and used for hanging the extruding and discharging pipe and the reinforcing rib discharging nozzle respectively.

Further, in the above technical solution, the fixed frame is provided with a connector seat and an adjusting installation seat for supporting two ends of the rotating shaft core.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: the utility model discloses in adopt and set up hose cover extruder and reinforcing bar extruder at the side of rotary shaft core, extrude the rubber by the hose cover extruder toward the rotary shaft core on, and rotate by a drive arrangement drive rotary shaft core, thereby make the rubber winding form the body on the rotary shaft core, reinforcing bar extruder is through extruding the reinforcing bar toward winding on the body of rotary shaft core simultaneously, make body and reinforcing bar shaping be one whole, and along with the rotary shaft core is constantly rotatory, the rotary shaft core can be with winding body and reinforcing bar to one side rotation see-off, thereby produce continuous body, and through the extrusion rate of control hose cover extruder, realize forming the joint in appropriate length position, the reinforcing bar is cut off by the cutter piece when the shaping connects simultaneously, unnecessary material is crowded on the cutter piece, and then avoid joint department to produce the muscle, therefore, realize body and joint integrated into one piece winding shaping, promote the intensity of body, simultaneously extrude the muscle through synchronous in the body integrated into one piece in-process, make body and reinforcing bar also integrated into one piece, intensity is higher.

Description of the drawings:

fig. 1 is a front view of the present invention;

fig. 2 is a side view of the present invention.

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

Referring to fig. 1 and 2, there is provided an integrally wound pipe manufacturing apparatus, comprising: the device comprises a rotating shaft core 1 for forming a pipe body 10, a pipe skin extruder 2 arranged on one side of the rotating shaft core 1 and used for extruding rubber to the rotating shaft core 1 to form the pipe body 10, a reinforcing rib extruder 3 arranged on the side of the pipe skin extruder 2 and used for adding reinforcing ribs 100 to the rubber to improve the strength of the pipe body 10, and a first driving device 4 used for driving the rotating shaft core 1 to rotate to match the pipe body 10 to form and automatically send out. The adoption sets up tube skin extruder 2 and reinforcing bar extruder 3 at the side of rotatory axle core 1, extrude the rubber skin by tube skin extruder 2 on rotatory axle core 1, and drive rotatory axle core 1 by first drive arrangement 4 and rotate, thereby make the rubber skin winding form body 10 on rotatory axle core 1, reinforcing bar extruder 3 is through extruding reinforcing bar 100 toward winding on body 10 of rotatory axle core 1 simultaneously, make body 10 and reinforcing bar 100 shaping be an organic whole, and along with rotatory axle core 1 constantly rotates, rotatory axle core 1 can rotate winding body 10 and reinforcing bar 100 to one side and send out, thereby produce continuous body 10, and through controlling the extrusion rate of tube skin extruder 2, realize forming the joint in appropriate length position, simultaneously when the reinforcement connects, reinforcing bar 100 is cut off by cutter blade 51, unnecessary material extrudes on cutter blade 51, and then avoid the joint department to produce muscle 100, therefore, realize the integrative winding shaping of body and joint, promote the intensity of body 10, simultaneously in the integrative shaping of body 10, through reinforcing bar 100 in the integrative shaping of reinforcing bar, make the integrative shaping of reinforcing bar 100 and body 100 of extruding, make the integrative shaping of body be higher as a whole for whole.

The rubber sheet discharging nozzle 21 of the tube sheet extruder 2 is horizontally arranged on one side of the rotating shaft core 1, and the reinforcing rib discharging nozzle 31 of the reinforcing rib extruder 3 is vertically arranged above the rotating shaft core 1; the pipe skin extruder 2 with the reinforcing bar extruder 3 all with can be relative rotatory axle core 1 adjustment position.

The side of the reinforcing rib extruder 3 is also provided with a cutting device 5 for cutting the reinforcing rib 100 and suspending the extrusion of the reinforcing rib 100.

Cutting device 5 including set up in on the reinforcing bar ejection of compact mouth 31 tip horizontal plane and can decide the cutter piece 51 of reinforcing bar 100 and be used for the drive cutter piece 51 moves in order to be right the second drive arrangement 52 that reinforcing bar 100 was decided, just second drive arrangement 52 can drive cutter piece 51 stop in reinforcing bar ejection of compact mouth 31 is in order to cut off and receive unnecessary the 100 ejection of compact of reinforcing bar. The second driving device 52 is used to drive the cutter blade 51 to rotate to cut off the reinforcing bar 100, and the cutter blade 51 receives the excessive discharging of the reinforcing bar 100, so as to prevent the reinforcing bar 100 from leaking onto the pipe body 10 during joint forming, thereby avoiding the generation of defective products and improving the production quality of the pipe body 10.

The second driving device 52 is a first motor, the tube sheet extruder 2 includes a spiral feeding tube 22, a first feeding barrel 23 disposed at one end of the spiral feeding tube 22 and used for feeding glue solution, and a third driving device 24 disposed at the spiral feeding tube 22 and used for rotationally extruding the glue solution, and the rubber sheet discharging nozzle 21 is disposed at the other end of the spiral feeding tube 22.

The third driving device 24 includes a first speed reducer 241 disposed at an end of the feeding screw 22, a second motor 242 for driving the first speed reducer 241 to drive the feeding screw 22 to rotate, and a first pulley set 243 for connecting the second motor 242 and the first speed reducer 241.

The rotary shaft core 1 is arranged on a fixed frame 11, one side of the fixed frame 11 is provided with a first guide rail 12 which is perpendicular to the distribution of the rotary shaft core 1, and a movable frame 13 which is used for supporting the pipe skin extruder 2 and the reinforcing rib extruder 3 is arranged on the first guide rail 12. The tube skin extruder 2 and the reinforcing bar extruder 3 are arranged on the movable frame 13, and the distance between the rubber discharging nozzle 21 and the reinforcing bar discharging nozzle 31 to the rotating shaft core 1 is changed by adjusting the position of the movable frame 13, so that tubes 10 with different sizes can be produced.

The reinforcing bar extruder 3 is including install in on the activity frame 13 and be the perpendicular to the second slide rail 32 that the overall arrangement of the rotating shaft core 1 set up, install in slide platform 33 on the second slide rail 32, install in gear motor module 34 on slide platform 33, install in gear motor module 34 output is connected reinforcing bar tap 31's extrusion material pipe 35 and set up in extrusion material pipe 35 one end and be used for supplying with the second feed bucket 36 of glue solution, install on the activity frame 13 and be used for hanging extrusion material pipe 35 with reinforcing bar tap 31's activity couple subassembly 37. The position of the discharging nozzle 31 above the rotary shaft core 1 can be adjusted by the sliding platform 33, so that the position of the reinforcing rib 100 added into the pipe body 10 can be changed, and the length position of the reinforcing rib 100 required by the pipe bodies 10 with different sizes can be adjusted.

The movable hook assembly 37 comprises a third slide rail 371, a slide support 372 mounted on the third slide rail 371, and a first hook 373 and a second hook 374 mounted at two ends of the third slide rail 371 and used for hanging the extruding and discharging pipe 35 and the reinforcement bar discharging nozzle 31 respectively.

The fixed frame 11 is provided with a connector seat 111 and an adjusting mounting seat 112 for supporting two ends of the rotating shaft core 1. The first driving device 4 is a motor, and the outer wall of the rotating shaft core 1 is provided with a screw thread for rotating and feeding. The connector seat 111 comprises a coupler for connecting the rotary shaft core 1 with the first driving device 4, and the adjusting and mounting seat 112 comprises an expansion shaft sleeve for supporting the rotary shaft core 1 and an adjusting handle capable of replacing different expansion shaft sleeves, so that the rotary shaft cores 1 with different diameters can be supported, and the pipe bodies 10 with different sizes can be rapidly produced.

To sum up, the utility model discloses the during operation is rotatory by 4 drive rotating shaft cores of first drive arrangement 1 to extrude the rubber by tube sheet extruder 2 on rotating shaft core 1, make the rubber winding form body 10 on rotating shaft core 1, through the extrusion rate that promotes tube sheet extruder 2 when certain length, thereby form the joint, and twine rotating shaft core 1 by the rubber by reinforcement rib extruder 3 between the joint and extrude reinforcement rib 100 on the rubber to extruding reinforcement rib 100, make reinforcement rib 100 integrated into one piece in the surface of body 1. With the continuous rotation of the rotary shaft core 1, the wound pipe 10 (i.e., the rubber and the reinforcing ribs 100) is rotated and fed out toward one end, thereby realizing the continuous production of the pipe 10, and finally, the pipe 10 is cut into a suitable length.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. An integrative winding pipe production facility which characterized in that includes: the automatic feeding device comprises a rotating shaft core (1) used for forming a pipe body (10), a pipe skin extruder (2) arranged on one side of the rotating shaft core (1) and used for extruding rubber to the rotating shaft core (1) to form the pipe body (10), a reinforcing rib extruder (3) arranged on the side of the pipe skin extruder (2) and used for adding reinforcing ribs (100) to the rubber to improve the strength of the pipe body (10), and a first driving device (4) used for driving the rotating shaft core (1) to rotate to match the pipe body (10) to form and automatically send out.

2. The integrally wound pipe production apparatus of claim 1, wherein: a rubber sheet discharging nozzle (21) of the tube sheet extruder (2) is horizontally arranged on one side of the rotating shaft core (1), and a reinforcing rib discharging nozzle (31) of the reinforcing rib extruder (3) is vertically arranged above the rotating shaft core (1); the pipe skin extruder (2) with the reinforcing bar extruder (3) all with can be relative rotatory axle core (1) adjusting position.

3. The integrally wound pipe production apparatus according to claim 2, wherein: the side of the reinforced rib extruder (3) is also provided with a cutting device (5) for cutting the reinforced rib (100) and enabling the reinforced rib (100) to be extruded temporarily.

4. The integrally wound pipe production apparatus of claim 3, wherein: cutting device (5) including set up in on stiffening rib ejection of compact mouth (31) tip horizontal plane and can decide the cutter piece (51) of stiffening rib (100) and be used for the drive cutter piece (51) move with right the second drive arrangement (52) that stiffening rib (100) were decided, just second drive arrangement (52) can drive cutter piece (51) stop in stiffening rib ejection of compact mouth (31) are in the department of cutting off and receive unnecessary stiffening rib (100) the ejection of compact.

5. The integrally wound pipe production apparatus of claim 4, wherein: the second driving device (52) is a first motor, the tube sheet extruder (2) comprises a spiral feeding tube (22), a first feeding barrel (23) arranged at one end of the spiral feeding tube (22) and used for feeding glue solution, and a third driving device (24) arranged at the rotary extrusion glue solution of the spiral feeding tube (22), and the rubber sheet discharging nozzle (21) is arranged at the other end of the spiral feeding tube (22).

6. The integrally wound pipe production apparatus of claim 5, wherein: the third driving device (24) comprises a first speed reducer (241) arranged at the end of the spiral feeding pipe (22), a second motor (242) used for driving the first speed reducer (241) to drive the spiral feeding pipe (22) to rotate, and a first belt pulley group (243) connected with the second motor (242) and the first speed reducer (241).

7. The integrally wound pipe production apparatus according to any one of claims 1 to 6, wherein: the utility model discloses a reinforcing bar extruder, including rotatory axle core (1), fixed frame (11) one side is provided with the perpendicular to first guide rail (12) that rotatory axle core (1) distributes are installed on this first guide rail (12) and are used for supporting tube skin extruder (2) with movable frame (13) of reinforcing bar extruder (3).

8. The integrally wound pipe production apparatus of claim 7, wherein: reinforcing bar extruder (3) including install in be on the activity frame (13) and be the perpendicular to second slide rail (32) that the pivot core (1) overall arrangement set up, install in slide bracket (33) on second slide rail (32), install in gear motor module (34) on slide bracket (33), install in gear motor module (34) output is connected reinforcing bar ejection of compact mouth (31) extrude material pipe (35) and set up in extrude material pipe (35) one end and be used for supplying with second feed bucket (36) of glue solution, install on the activity frame (13) and be used for hanging extrude material pipe (35) with movable hook component (37) of reinforcing bar ejection of compact mouth (31).

9. The integrally wound pipe production apparatus of claim 8, wherein: activity couple subassembly (37) including third slide rail (371), install in slide bearing (372) on third slide rail (371) and install in third slide rail (371) both ends are used for hanging respectively crowded discharging pipe (35) with first couple (373) and second couple (374) of reinforcement muscle ejection of compact mouth (31).

10. The integrally wound pipe production apparatus of claim 7, wherein: and the fixed rack (11) is provided with a connector seat (111) and an adjusting installation seat (112) which are used for supporting two ends of the rotating shaft core (1).

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