CN117283838B - Plastic coiled pipe production and processing equipment with detection function - Google Patents

Abstract

The invention discloses plastic winding pipe production and processing equipment with a detection function, and relates to the technical field of motor shells. The invention can drive the connecting seat to displace at the top end of the base through the displacement of the sliding seat in the sliding groove, so that the opening position of the plastic winding core pipe can be attached to the outer surface of the connecting seat, the inside of the plastic winding core pipe is in a sealed state, and the air inside the plastic winding core pipe can be pumped out through the operation of the suction machine because the suction port of the suction machine is arranged at the circle center position of the four groups of supporting plates, and the inside of the plastic winding core pipe can be pumped out if no hole exists on the surface of the plastic winding core pipe, and the suction machine can pump the inside of the plastic winding core pipe into vacuum if no hole exists on the surface of the plastic winding core pipe, otherwise, the inside of the plastic winding core pipe cannot be pumped into vacuum.

Description

Plastic coiled pipe production and processing equipment with detection function

Technical Field

The invention relates to the technical field of plastic winding core tube production, in particular to plastic winding core tube production and processing equipment with a detection function.

Background

The winding core tube is a component for winding various film, adhesive tape or paper and other strip products, and is made of different materials, and comprises a paper winding core tube, a plastic winding core tube, a metal winding core tube and the like according to different products to be wound, wherein the plastic winding core tube is the most common winding core tube in the market, and a plastic extruder is generally adopted for producing the plastic winding core tube.

When the plastic winding pipe is produced, surface roughness is often caused by uneven extrusion force of the plastic extruder, or bending occurs due to overlong length of the plastic winding pipe, if the plastic winding pipe is bent or the surface roughness occurs, a better effect of curling objects cannot be achieved, the plastic winding pipe production extruder which is common in the market generally does not have a detection function, the plastic winding pipe can be detected after the preparation is finished, and if the plastic winding pipe can be detected in the production process, the yield of the plastic winding pipe can be greatly improved.

Accordingly, in view of the above, research and improvement on the conventional structure and defects have been made, and a plastic winding tube production and processing apparatus having a detection function has been proposed.

Disclosure of Invention

The invention aims to provide plastic winding core pipe production and processing equipment with a detection function, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a plastics roll up core pipe production and processing equipment with detect function, includes base, supporting component and detection component, the right side top of base is provided with the extruder, and the outer end of extruder has seted up the extrusion mouth, the outside both sides of extruder are provided with the hair-dryer, the spout has been seted up to the outer end of base, and the outer end of spout is provided with the sliding seat, the top outside of sliding seat is connected with rotates the seat, and installs the linking seat in the top outside of rotating the seat, the inboard of linking seat is settled there is the electric push rod, and the front end of electric push rod is connected with supporting component, the front portion outside of linking seat is connected with into the water pipe, and the rear portion outside of linking seat is connected with the drain pipe, the outer end of linking seat is connected with the aspirator, and the top outside of aspirator is settled there is the motor, and the output of motor is connected with the lead screw, the outer end of lead screw is connected with the slider, and the bottom of slider is provided with detection component, be provided with plastics roll up the core pipe between supporting component and the detection component.

Further, the sliding seat is displaced at the top end of the base through the sliding groove, and the connecting seat is rotated through the rotating seat.

Further, the supporting component comprises a supporting plate, a through groove, a water inlet and a water outlet, the through groove is formed in the inner side of the supporting plate, the water inlet is formed in the outer end of the supporting plate, and the water outlet is formed in the outer end of the supporting plate.

Further, the supporting plates are annularly distributed in the connecting seat, and the suction openings of the suction machine are arranged at the circle centers of the four groups of supporting plates.

Further, the section of the supporting plate is arc-shaped, and the inside of the supporting plate is hollow.

Further, the water inlet is communicated with the water outlet through the supporting plate, the water inlet is communicated with the water inlet pipe, and the water outlet is communicated with the water outlet pipe.

Further, the detection component comprises an outer ring body, a driving gear, a rotating gear frame, a pressure sensor, a reset spring, a laminating plate, balls and a pressing block, wherein the driving gear is arranged on two sides of the inner portion of the outer ring body, the outer end of the driving gear is connected with the rotating gear frame, the pressure sensor is connected to the inner side of the rotating gear frame, the reset spring is connected with the reset spring, one side of the reset spring, away from the rotating gear frame, is connected with the laminating plate, the balls are connected to the bottom end of the laminating plate, and the pressing block is connected to the top end of the laminating plate.

Further, the driving gear is meshed with the rotating gear frame, and the rotating gear frame rotates along with the driving gear.

Further, the pressure sensor is elastically connected with the reset spring, and the ball is attached to the outer surface of the plastic winding core tube.

Further, the bonding plate and the pressing block are integrated, and the pressing block extrudes the pressure sensor.

The invention provides a plastic winding core pipe production and processing device with a detection function, which has the following beneficial effects:

1. the four groups of support plates form an annular outer contour dimension which is equal to the inner contour dimension of the formed plastic winding core pipe, the support plates are positioned at the opening position of the extrusion opening, the plastic winding core pipe can be sleeved at the outer end of the support plates after extrusion, the support plates can support the plastic winding core pipe in the extrusion process of the plastic winding core pipe, the length of the produced plastic winding core pipe is prevented from being excessively long and broken by the weight of the support plates, in addition, the support plates can be shaped when the plastic winding core pipe is extruded, the extruded plastic winding core pipe is prevented from being bent, the through grooves at the outer end of the support plates can reduce the bonding area between the support plates and the plastic winding core pipe, the friction force between the support plates is reduced, the support plates can be prevented from influencing the normal extrusion of the plastic winding core pipe, cold water can enter the support plates through the water inlet, then the cold water can be discharged through the water outlet and the water outlet, the plastic winding core pipe is bonded with the support plates, the cooling speed of the plastic winding core pipe can be accelerated, the plastic winding core pipe is not completely solidified after the preparation of the plastic winding core pipe is completed, the problem of push rod is solved in the subsequent process, the rolling device is prevented from being subjected to the unloading, the plastic winding core pipe is prevented from being discharged, and the unloading device is prevented from being convenient when the supporting the winding core pipe is discharged through the outside the support plate.

2. According to the invention, the motor drives the screw rod to rotate, the sliding block drives the outer ring body to slide along the outer end of the plastic winding core pipe, the outer contour of the plastic winding core pipe is attached to the balls, when the extrusion force is uneven, the balls drive the attaching plate to incline, and when the attaching plate inclines, the attaching plate extrudes the pressure sensor, so that the equipment can rapidly detect whether the surface of the plastic winding core pipe is uneven after the preparation of the plastic winding core pipe is finished, in addition, six groups of attaching plates are arranged, and the rotating gear frame can be driven to perform circumferential rotation on the surface of the plastic winding core pipe through the operation of the driving gear, so that the rolling area of the balls on the surface of the plastic winding core pipe can be greatly increased, and the rolling of the balls on the same position of the plastic winding core pipe can be detected through the balls of different groups, so that the detection range and detection precision of the equipment can be greatly improved.

3. Before the surface detection of the plastic winding pipe is finished but the plastic winding pipe is not cut off, the connecting seat can be driven to move at the top end of the base through the displacement of the sliding seat in the sliding groove, so that the opening position of the plastic winding pipe can be attached to the outer surface of the connecting seat, the inside of the plastic winding pipe is in a sealing state, the suction port of the suction machine is arranged at the circle center position of the four groups of support plates, the suction machine works to suck air in the plastic winding pipe, the suction machine can vacuumize the inside of the plastic winding pipe if no hole exists on the surface of the plastic winding pipe, otherwise, the inside of the plastic winding pipe cannot vacuumize, and the sealing performance of the plastic winding pipe can be quickly and conveniently detected after the plastic winding pipe is extruded, in addition, when the plastic winding pipe is subjected to sealing detection, the diameter of the outer expanding circle center of the support plate can be shortened through the electric push rod, so that the attachment of the support plate and the plastic winding pipe is released, and the plastic winding pipe is supported by the detection assembly, so that the support plate can be prevented from shielding the hole of the plastic winding pipe, and the sealing detection accuracy is influenced.

Drawings

FIG. 1 is a schematic diagram showing the whole structure of a plastic winding core pipe production and processing device with detection function in front view;

FIG. 2 is a schematic diagram showing the front view structure of an extruder of a plastic winding pipe production and processing device with a detection function;

FIG. 3 is a schematic diagram showing the internal structure of a plastic winding core pipe production and processing equipment connection seat with a detection function;

FIG. 4 is a schematic view of a supporting component of a plastic winding core pipe production and processing device with detection function according to the present invention;

FIG. 5 is a schematic view of a longitudinal section of a detecting assembly of a plastic winding core pipe production and processing device with a detecting function;

fig. 6 is an enlarged schematic view of the structure of fig. 5 a of a plastic winding core pipe production and processing device with detection function according to the present invention.

In the figure: 1. a base; 2. an extruder; 3. an extrusion port; 4. a blower; 5. a chute; 6. a sliding seat; 7. a rotating seat; 8. a connecting seat; 9. an electric push rod; 10. a support assembly; 1001. a support plate; 1002. a through groove; 1003. a water inlet; 1004. a water outlet; 11. a water inlet pipe; 12. a drain pipe; 13. a suction machine; 14. a motor; 15. a screw rod; 16. a slide block; 17. a detection assembly; 1701. an outer ring body; 1702. a drive gear; 1703. rotating the tooth frame; 1704. a pressure sensor; 1705. a return spring; 1706. bonding plates; 1707. a ball; 1708. briquetting; 18. a plastic winding core pipe.

Detailed Description

Referring to fig. 1 to 6, the present invention provides the following technical solutions: the utility model provides a plastics roll up core pipe production and processing equipment with detect function, including base 1, supporting component 10 and detection component 17, the right side top of base 1 is provided with extruder 2, and the outer end of extruder 2 has been seted up and has been extruded the mouth 3, the outside both sides of extruder 2 are provided with hair-dryer 4, spout 5 has been seted up to the outer end of base 1, and the outer end of spout 5 is provided with sliding seat 6, the top outside of sliding seat 6 is connected with rotates seat 7, and the top outside of rotating seat 7 has settled the adapter seat 8, the inboard of adapter seat 8 has settled electric push rod 9, and the front end of electric push rod 9 is connected with supporting component 10, the front portion outside of adapter seat 8 is connected with water inlet pipe 11, and the rear portion outside of adapter seat 8 is connected with drain pipe 12, the outer end of adapter seat 8 is connected with aspirator 13, and the top outside of aspirator 13 is settled and is provided with motor 14, and the output of motor 14 is connected with lead screw 15, the outer end of lead screw 15 is connected with slider 16, and the bottom of slider 16 is provided with detection component 17, be provided with plastics roll up core pipe 18 between supporting component 10 and the detection component 17.

Referring to fig. 1 to 6, the sliding seat 6 is displaced at the top end of the base 1 through the sliding groove 5, the adapting seat 8 is rotated through the rotating seat 7, the supporting component 10 comprises a supporting plate 1001, a through groove 1002, a water inlet 1003 and a water outlet 1004, the through groove 1002 is arranged at the inner side of the supporting plate 1001, the water inlet 1003 is arranged at the outer end of the supporting plate 1001, the water outlet 1004 is arranged at the outer end of the supporting plate 1001, four groups of the supporting plate 1001 are annularly distributed in the adapting seat 8, the suction ports of the suction machine 13 are arranged at the circle centers of the four groups of the supporting plate 1001, the section of the supporting plate 1001 is arc-shaped, the supporting plate 1001 is hollow, the water inlet 1003 is communicated with the water inlet 1004 through the supporting plate 1001, the water inlet 1003 is communicated with the water inlet pipe 11, the water outlet 1004 is communicated with the water outlet pipe 12, the detection assembly 17 comprises an outer ring body 1701, a driving gear 1702, a rotating gear frame 1703, a pressure sensor 1704, a return spring 1705, a laminating plate 1706, balls 1707 and a pressing block 1708, wherein the driving gear 1702 is arranged on two sides of the inner portion of the outer ring body 1701, the outer end of the driving gear 1702 is connected with the rotating gear frame 1703, the inner side of the rotating gear frame 1703 is connected with the pressure sensor 1704, the inner side of the rotating gear frame 1703 is connected with the return spring 1705, one side, far away from the rotating gear frame 1703, of the return spring 1705 is connected with the laminating plate 1706, the bottom end of the laminating plate 1706 is connected with a ball 1707, the top end of the laminating plate 1706 is connected with a pressing block 1708, the driving gear 1702 is meshed with the rotating gear frame 1703, the rotating gear frame 1703 rotates along with the driving gear 1702, the pressure sensor 1704 is elastically connected with the return spring 1705, the ball 1707 is laminated with the outer surface of the plastic winding core tube 18, the laminating plate 1706 and the pressing block 1708 are integrated, and the pressing block 1708 presses the pressure sensor 1704;

the specific operation is as follows: the plastic particles are put into the extruder 2 by staff, the plastic winding core pipe 18 can be formed in a thermoplastic mode through the operation of the extruder 2, and extruded through the extrusion port 3, when the plastic winding core pipe 18 is extruded, high-speed cold air flow can be blown out to the position of the extrusion port 3 through the operation of the blower 4, so that the thermoplastic plastic winding core pipe 18 can be quickly hardened, the situation that the plastic winding core pipe 18 is not completely solidified to influence the subsequent operation is avoided, the annular outer contour dimension formed by the four groups of support plates 1001 is equal to the inner contour dimension of the formed plastic winding core pipe 18, the support plates 1001 are positioned at the opening position of the extrusion port 3, the plastic winding core pipe 18 can be sleeved at the outer end of the support plates 1001 after extrusion, the support plates 1001 can support the plastic winding core pipe 18 in the extrusion process, the length of the produced plastic winding core pipe 18 is prevented from being excessively long and being crushed by the weight of the support plates 1001, in addition, the supporting plate 1001 can shape the plastic winding core pipe 18 when extruding, so as to avoid bending of the extruded plastic winding core pipe 18, the through groove 1002 at the outer end of the supporting plate 1001 can reduce the joint area between the supporting plate 1001 and the plastic winding core pipe 18, thereby reducing the friction force between the supporting plate 1001 and the plastic winding core pipe 18, and can avoid the influence of the supporting plate 1001 on the normal extrusion of the plastic winding core pipe 18, cold water can enter the supporting plate 1001 through the water inlet 1003 by filling the cold water into the water inlet 11, then the cold water can be discharged out of the equipment through the water outlet 1004 and the water outlet 12, and the supporting plate 1001 is jointed with the plastic winding core pipe 18, so that the supporting plate 1001 can accelerate the cooling and solidification speed of the plastic winding core pipe 18, can greatly reduce the incomplete solidification after the preparation of the plastic winding core pipe 18 is finished, the bending problem occurs in the subsequent transportation process, after the extrusion of the plastic winding core pipe 18 is finished, the motor 14 drives the screw rod 15 to rotate, the sliding block 16 drives the outer ring body 1701 to slide along the outer end of the plastic winding core tube 18, the outer contour of the plastic winding core tube 18 is attached to the balls 1707, when the surface of the plastic winding core tube 18 is concave or convex due to uneven extrusion force, the balls 1707 drive the attaching plate 1706 to incline, when the attaching plate 1706 inclines, the attaching plate 1706 extrudes the pressure sensor 1704, so that the device can quickly detect whether the surface of the plastic winding core tube 18 is uneven after the preparation of the plastic winding core tube 18 is finished, in addition, the attaching plate 1706 is provided with six groups, and the driving gear 1702 works to drive the rotating gear frame 1703 to rotate circumferentially on the surface of the plastic winding core tube 18, so that the rolling area of the balls 1707 on the surface of the plastic winding core tube 18 can be greatly increased, and the rolling of the balls 1707 on the same position of the plastic winding core tube 18 can be detected through rolling of the balls 1707 of different groups, the detection range and the detection precision of the equipment can be greatly improved, before the surface detection of the plastic winding core pipe 18 is finished but the plastic winding core pipe is not cut off, the connecting seat 8 can be driven to displace at the top end of the base 1 through the displacement of the sliding seat 6, the opening position of the plastic winding core pipe 18 can be attached to the outer surface of the connecting seat 8, at the moment, the inside of the plastic winding core pipe 18 is in a sealed state, the air in the plastic winding core pipe 18 can be extracted because the suction port of the suction machine 13 is arranged at the circle center position of the four groups of supporting plates 1001, at the moment, the suction machine 13 can pump the inside of the plastic winding core pipe 18 into vacuum if no hole exists on the surface of the plastic winding core pipe 18, otherwise, the inside of the plastic winding core pipe 18 cannot be pumped into vacuum, the equipment can rapidly and conveniently detect the tightness of the plastic winding core pipe 18 after the extrusion is finished, in addition, when the plastic winding core tube 18 is subjected to sealing detection, the diameter of the outer expanding circle center of the supporting plate 1001 can be shortened through the electric push rod 9, so that the attachment of the supporting plate 1001 and the plastic winding core tube 18 is released, at the moment, the plastic winding core tube 18 is supported by the detection assembly 17, the situation that the supporting plate 1001 shields the holes of the plastic winding core tube 18 and influences the accuracy of sealing detection can be avoided, after the plastic winding core tube 18 is produced and detected, if the quality of the plastic winding core tube 18 is qualified, a worker cuts off the plastic winding core tube 18 from the position of the extrusion port 3, drives the connecting seat 8 to rotate through the rotating seat 7, the plastic winding core tube 18 can be moved away from the position of the extrusion port 3, at the moment, the diameter of the outer expanding circle center of the supporting plate 1001 can be shortened through the electric push rod 9, the supporting plate 1001 can be released from the supporting of the plastic winding core tube 18, the situation that the plastic winding core tube 18 is prevented from being blocked by equipment when the plastic winding core tube 18 is discharged can be avoided, and the discharging convenience of equipment can be improved.

In summary, when the plastic winding core pipe production and processing equipment with the detection function is used, firstly, a worker inputs plastic particles into the extruder 2, the plastic winding core pipe 18 can be subjected to thermoplastic molding through the operation of the extruder 2, and can blow out high-speed cold air flow to the position of the extrusion port 3 through the operation of the blower 4 when the plastic winding core pipe 18 is extruded through the extrusion port 3, so that the thermoplastic molding plastic winding core pipe 18 can be rapidly hardened, and the phenomenon that the plastic winding core pipe 18 is not completely solidified to influence the subsequent operation is avoided;

then, because the annular outer outline size formed by the four groups of support plates 1001 is equal to the inner outline size of the formed plastic winding core pipe 18, and the support plates 1001 are positioned at the opening position of the extrusion port 3, the plastic winding core pipe 18 can be sleeved at the outer end of the support plates 1001 after extrusion, the support plates 1001 can support the plastic winding core pipe 18 in the extrusion process of the plastic winding core pipe 18, the length of the produced plastic winding core pipe 18 is prevented from being excessively long and broken by the self weight, in addition, the support plates 1001 can shape the plastic winding core pipe 18 when the plastic winding core pipe 18 is extruded, so as to prevent the extruded plastic winding core pipe 18 from bending, the through grooves 1002 at the outer end of the support plates 1001 can reduce the joint area between the support plates 1001 and the plastic winding core pipe 18, thereby reducing the friction force between the support plates 1001 and the plastic winding core pipe 18, and the normal extrusion influence of the support plates can be avoided, and cold water can enter the support plates 1001 through the water inlet 1003, and then the cold water can be discharged out of the equipment through the water outlet 1004 and the water outlet pipe 12, and the support plates 18 are jointed with the plastic winding core pipe 18, the support plates 1001 can accelerate the cooling solidification speed of the plastic winding core pipe 18, the cooling solidification speed can be greatly reduced, and the problem of the complete after the complete subsequent plastic winding core pipe preparation process is completely, and the problem of the subsequent plastic winding core pipe is completely cured;

then after the plastic winding pipe 18 is extruded, the motor 14 drives the screw rod 15 to rotate, the sliding block 16 can drive the outer ring body 1701 to slide along the outer end of the plastic winding pipe 18, the outer contour of the plastic winding pipe 18 is attached to the balls 1707, when the surface of the plastic winding pipe 18 is concave or convex due to uneven extrusion force, the balls 1707 can drive the attaching plate 1706 to incline, when the attaching plate 1706 inclines, the attaching plate 1706 can extrude the pressure sensor 1704, so that the equipment can quickly detect whether the surface of the plastic winding pipe 18 is uneven after the preparation of the plastic winding pipe 18 is finished, in addition, six groups of attaching plates 1706 are arranged, and the rotating toothed frame 1703 can be driven to rotate circumferentially on the surface of the plastic winding pipe 18 through the operation of the driving gear 1702, so that the rolling area of the balls 1707 on the surface of the plastic winding pipe 18 can be greatly increased, and the same position of the plastic winding pipe 18 can be detected through rolling of the balls 1707 of different groups, so that the detection range and detection precision of the equipment can be greatly improved;

before the plastic winding core tube 18 is subjected to surface detection but is not cut off, the connecting seat 8 can be driven to move at the top end of the base 1 through the displacement of the sliding seat 6 in the sliding groove 5, so that the opening position of the plastic winding core tube 18 can be attached to the outer surface of the connecting seat 8, the inside of the plastic winding core tube 18 is in a sealed state, the suction port of the suction machine 13 is arranged at the circle center positions of the four groups of support plates 1001, at the moment, the air inside the plastic winding core tube 18 can be pumped out through the operation of the suction machine 13, at the moment, if no hole exists on the surface of the plastic winding core tube 18, the suction machine 13 can vacuumize the inside of the plastic winding core tube 18, otherwise, the vacuum cannot be pumped out, and the tightness of the plastic winding core tube 18 can be rapidly and conveniently detected after the extrusion of the plastic winding core tube 18 is finished, in addition, during the sealing detection of the plastic winding core tube 18, the diameter of the outer expanded circle center of the support plate 1001 can be shortened through the operation of the electric push rod 9, so that the attachment of the support plate 1001 and the plastic winding core tube 18 is released, at the moment, the plastic winding core tube 18 is supported by the detection assembly 17, and the influence of the detection of the hole of the plastic winding core tube 18 on the plastic winding core tube 18 by the plastic winding core tube 1001 can be avoided;

finally, after the production of the plastic winding core pipe 18 is finished and the detection is finished, if the quality of the plastic winding core pipe 18 is qualified, a worker cuts off the plastic winding core pipe 18 from the position of the extrusion port 3, drives the connecting seat 8 to rotate through the rotating seat 7, can enable the plastic winding core pipe 18 to move away from the position of the extrusion port 3, and at the moment, the diameter of the outer expanding circle center of the supporting plate 1001 can be shortened through the work of the electric push rod 9, so that the supporting plate 1001 can release the supporting of the plastic winding core pipe 18, the phenomenon that the plastic winding core pipe 18 is blocked with equipment during unloading can be avoided, and the unloading convenience of the equipment can be improved.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (2)

1. The utility model provides a plastics roll up core pipe production and processing equipment with detect function, its characterized in that includes base (1), supporting component (10) and detection component (17), the right side top of base (1) is provided with extruder (2), and extrusion mouth (3) have been seted up to the outer end of extruder (2), the outside both sides of extruder (2) are provided with hair-dryer (4), spout (5) have been seted up to the outer end of base (1), and the outer end of spout (5) is provided with sliding seat (6), the top outside of sliding seat (6) is connected with rotation seat (7), and the top outside of rotation seat (7) is settled and is connected with linking seat (8), the inboard of linking seat (8) is settled there is electric push rod (9), and the front end of electric push rod (9) is connected with supporting component (10), the front portion outside of linking seat (8) is connected with into water pipe (11), and the rear portion outside of linking seat (8) is connected with drain pipe (12), the outer end of linking seat (8) is connected with suction motor (13), and the outer end of spout (5) is provided with sliding seat (6), the top outside of sliding seat (6) is connected with rotation seat (7), and the top outside of rotating seat (7) is settled and is connected with lead screw (16) of leading screw (16), the plastic coil core tube (18) is arranged between the supporting component (10) and the detecting component (17), the sliding seat (6) is displaced at the top end of the base (1) through the sliding groove (5), the connecting seat (8) rotates through the rotating seat (7), the supporting component (10) comprises a supporting plate (1001), a through groove (1002), a water inlet (1003) and a water outlet (1004), the through groove (1002) is formed in the inner side of the supporting plate (1001), the water inlet (1003) is formed in the outer end of the supporting plate (1001), the water outlet (1004) is formed in the outer end of the supporting plate (1001), the supporting plate (1001) is annularly distributed with four groups in the connecting seat (8), the sucking ports of the sucking machine (13) are arranged at the center positions of the four groups of the supporting plate (1001), the section of the supporting plate (1001) is arc-shaped, the supporting plate (1001) is hollow, the water inlet (1003) is communicated with the water inlet (1004) through the supporting plate (1001), the water outlet (1003) is communicated with the water inlet (11), the water outlet (1004) and the water inlet (1004) is communicated with the water inlet (11), the water outlet (12) is communicated with the water outlet (1703), the driving gear (1701), the driving gear (1703) is communicated with the rotating device (1703), the driving gear (1703), the driving device (1703) is arranged on the rotating device, and the driving device (1703) is rotated The laminating board (1706), ball (1707) and briquetting (1708), the inside both sides of outer ring body (1701) are provided with drive gear (1702), and the outer end of drive gear (1702) is connected with rotation tooth frame (1703), the inboard of rotation tooth frame (1703) is connected with pressure sensor (1704), and the inboard of rotation tooth frame (1703) is connected with reset spring (1705), reset spring (1705) keep away from rotation tooth frame (1703) one side and are connected with laminating board (1706), and the bottom of laminating board (1706) is connected with ball (1707), the top of laminating board (1706) is connected with briquetting (1708), drive gear (1702) meshes with rotation tooth frame (1703), and rotates tooth frame (1703) along with drive gear (1702), pressure sensor (1704) and reset spring (1705) elastic connection, ball (1707) laminate with the outer surface of plastics core pipe (18).

2. The plastic winding core pipe production and processing equipment with the detection function according to claim 1, wherein the attaching plate (1706) and the pressing block (1708) are integrated, and the pressing block (1708) presses the pressure sensor (1704).