CN218282272U - Anchor bolt oiling and wrapping layer winding mechanism - Google Patents

Abstract

The utility model discloses an crab-bolt fat liquoring and parcel layer winding mechanism, it includes fat liquoring mechanism and winding mechanism, and fat liquoring mechanism includes fat liquoring frame, roller, rotary drive and oil spout mechanism. The advantages are that: the anchor bolt sent by the anchor bolt conveying equipment is rotationally advanced under the coordination of rotational driving, the anticorrosive oil supplied by the oil spraying mechanism falls on the anchor bolt, and the anchor bolt is driven by the roller to rotate, so that the anticorrosive oil is uniformly coated; after the rotating anchor bolt reaches the winding mechanism, the automatic winding of the film is realized under the coordination of the movement drive, the lifting drive and the mechanical clamping jaw, and then the film can be cut off by controlling the descending of the blade through the cutting drive, so that the automatic film winding is realized; the equipment structure is simple, the whole process does not need manual participation, the convenience and the rapidness are realized, the automation degree is high, the operation efficiency is improved, and the manual labor intensity is reduced.

Description

Anchor bolt oiling and wrapping layer winding mechanism

The technical field is as follows:

the utility model relates to an crab-bolt production technical field, specifically speaking relate to an crab-bolt fat liquoring and parcel layer winding mechanism.

Background art:

in recent years, in order to avoid the stress concentration phenomenon that appears when fan foundation ring connects, most has all adopted the crab-bolt to be connected between fan foundation and the tower section of thick bamboo, and this structure is called prestressed anchorage tie cage, and prestressed anchorage tie cage is that the annular is arranged by a plurality of wind-powered electricity generation crab-bolts and constitutes, and wind-powered electricity generation crab-bolt adopts the high strength round steel to make, and its shape is regular cylinder polished rod. The production of the wind power anchor bolt needs to be subjected to the processes of chamfering, thread rolling, oil coating, film coating and the like, namely, chamfering treatment is carried out on two ends of the anchor bolt firstly, then thread rolling is carried out on the two ends of the anchor bolt to prepare the anchor bolt, and then oil coating and film coating treatment are carried out on thread rolling positions of the two ends of the anchor bolt; the process of oiling and coating is mainly completed by manual operation, two ends of an anchor bolt need to be frequently lifted in the process of oiling and coating, but the raw materials of the wind power anchor bolt are long and heavy (the length is about 4 meters, and the weight is about 25 kilograms), so that the labor intensity of manual operation is high, the efficiency is low, and in the operation process, although protective measures are taken, the anti-corrosion oil cannot be in contact with the skin, and certain potential safety hazards are generated.

The utility model has the following contents:

an object of the utility model is to provide a can realize automatic fat liquoring and crab-bolt fat liquoring of winding diolame and parcel layer winding mechanism.

The utility model discloses by following technical scheme implement: the anchor bolt oiling and wrapping layer winding mechanism comprises an oiling mechanism and a winding mechanism, wherein the oiling mechanism comprises an oiling rack, rollers, a rotary drive and an oil spraying mechanism, an anchor bolt inlet and an anchor bolt outlet are respectively arranged at two ends of the oiling rack, a pair of rollers which are in left-right contact is vertically arranged between the oiling rack below the anchor bolt inlet and the anchor bolt outlet in a rotating mode, and the rotary drive in transmission connection with any roller is arranged below the oiling rack; the oil spraying mechanism is arranged on the oiling machine frame above the rollers, and an oil spraying nozzle of the oil spraying mechanism is arranged above the contact surfaces of the two rollers; the outer end of the anchor bolt outlet is provided with the winding mechanism.

Furthermore, the oil injection mechanism comprises an oil storage tank, an oil injection drive, a piston plate and an oil injection nozzle, wherein an oil injection port is formed in the side wall of the lower part of the oil storage tank, a control valve is mounted on the oil injection port, an oil outlet is formed in the bottom of the oil storage tank, and the oil injection nozzle is fixed below the oil outlet; the oil storage tank is characterized in that the piston plate is arranged above the oil filling opening in the oil storage tank in a sealing and sliding mode from top to bottom, and the oil injection driving device is fixed to the top of the oil storage tank and drives the piston plate to move up and down.

Further, the oil injection driving is any one of an air cylinder, a hydraulic cylinder or an electric push rod.

Furthermore, the rotary drive is a motor, and an output shaft of the motor is in transmission connection with a rotating shaft of any one of the rollers.

Further, install first sensor and second sensor respectively in the crab-bolt import outside with on the fat liquoring frame in the crab-bolt export outside, first sensor with the second sensor respectively with the input telecom connection of controller, the output of controller and the oil spout drive telecom connection of rotary drive and oil spout mechanism.

Furthermore, the winding mechanism comprises a winding rack, a film roll and a mechanical clamping jaw, wherein two driving rollers which are in left-right contact are rotatably arranged at one end of the winding rack far away from an anchor bolt outlet, the driving rollers are arranged corresponding to the rollers, and a roller driver for driving any one of the driving rollers to rotate is fixed on the winding rack; at least one roller is respectively and rotatably arranged at the tops of two ends of the winding frame, the axis of each roller is perpendicular to the axis of each roller, and anchor bolts are movably arranged between the two rollers and the tops of the rollers; a film roll is rotatably arranged on one side of the middle part of the winding rack, and the axis of the film roll is perpendicular to the axis of the roller; two upright columns are respectively fixed on two sides of the middle part of the winding rack, a moving seat is arranged between the tops of the two upright columns in a sliding manner, and a moving driver for driving the moving seat to move is arranged on any one upright column; a mechanical clamping jaw is fixed at the bottom of the moving seat through lifting drive, an opening of the mechanical clamping jaw faces the film roll, and the mechanical clamping jaw is movably arranged above the film roll; and a blade is fixed on the upright column above the film roll through cutting driving.

Furthermore, the cross beam is fixed between the tops of the two upright columns, the screw rod is rotatably arranged between the two upright columns, and the movement driver for driving the screw rod to rotate is fixed on the outer side of any one of the upright columns; the beam is provided with a track, the movable seat is provided with a threaded hole matched with the screw rod, and the movable seat is provided with a sliding block matched with the track.

Furthermore, the lifting drive and the cutting drive are any one of an air cylinder, an oil cylinder and an electric push rod.

Further, a cavity is arranged at the lower part of the upright column at one side of the winding rack, a long hole is horizontally formed in the inner side wall of the cavity below the cutting drive, and a door plate is mounted on the outer side wall of the cavity opposite to the long hole; the roll of film is rotatably disposed within the cavity.

Furthermore, the tops of the two ends of the winding rack are respectively provided with a third sensor and a fourth sensor, the third sensor and the fourth sensor are respectively in telecommunication connection with the input end of the controller, and the output end of the controller is respectively in telecommunication connection with the moving drive, the lifting drive and the mechanical clamping jaw.

The utility model has the advantages that: the anchor bolt sent by the anchor bolt conveying equipment is rotationally advanced under the coordination of rotation driving, the anticorrosive oil supplied by the oil injection mechanism falls on the anchor bolt, and the anchor bolt rotates under the driving of the roller, so that the anticorrosive oil is uniformly coated; after the rotating anchor bolt reaches the winding mechanism, the automatic winding of the film is realized under the coordination of the movement drive, the lifting drive and the mechanical clamping jaw, and then the film can be cut off by controlling the descending of the blade through the cutting drive, so that the automatic film winding is realized; the equipment structure is simple, the whole process does not need manual participation, the convenience and the rapidness are realized, the automation degree is high, the operation efficiency is improved, and the manual labor intensity is reduced.

Description of the drawings:

fig. 1 is a schematic overall structure diagram of the present embodiment.

Fig. 2 is a schematic diagram of the overall structure of the oiling mechanism.

Fig. 3 isbase:Sub>A sectional viewbase:Sub>A-base:Sub>A of fig. 2.

Fig. 4 is a schematic view of the overall structure of the winding mechanism.

Fig. 5 is a sectional view B-B of fig. 4.

Fig. 6 is a schematic structural view of the bolt transfer apparatus.

Fig. 7 is a schematic diagram of the controller connections.

Fig. 8 is a use reference diagram of the present embodiment.

The device comprises an oiling machine frame 11, an anchor bolt inlet 1101, an anchor bolt outlet 1102, a roller 12, a rotary drive 13, an oil spraying mechanism 14, an oil spraying nozzle 1401, an oil storage tank 1402, an oil spraying drive 1403, a piston plate 1404, an oil outlet 1405, an oil filling opening 1406, a control valve 1407, a winding machine frame 21, a roller 22, a film roll 23, an upright post 24, a moving seat 25, a moving drive 26, a lifting drive 27, a mechanical clamping jaw 28, a cutting drive 29, a blade 210, a cross beam 211, a screw 212, a rail 213, a sliding block 214, a cavity 215, a long hole 216, a door plate 217, a bearing bush 218, a drive roller 219, a roller drive 220, a third sensor 3, a fourth sensor 4, a first sensor 5, a second sensor 6, a controller 7, an anchor bolt conveying device 8, a main frame 801, a conveying roller 802 and a conveying drive motor 803.

The specific implementation mode is as follows:

in the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, but does not indicate or imply that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" as appearing herein are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 8, the anchor bolt oiling and wrapping layer winding mechanism includes an oiling mechanism 1 and a winding mechanism 2, in order to realize automatic continuous production, when in use, an anchor bolt conveying device 8, optionally a commercially available device, may be disposed at an outer end of an anchor bolt inlet 1101 and an outer side of the other end of the winding mechanism 2, in this embodiment, the anchor bolt conveying device 8 includes a main frame 801, a row of conveying rollers 802 leading to rotation is disposed on the main frame 801 along an axial direction of a roller 12, a wheel surface of the conveying rollers 802 is set to be V-shaped, a conveying driving motor 803 for driving the conveying rollers 802 to rotate is fixed on the main frame 801, and each conveying roller 802 is driven to rotate in the same direction by the conveying driving motor 803, thereby conveying the anchor bolt forward.

The anchor bolt oiling mechanism 1 comprises an oiling rack 11, rollers 12, a rotary drive 13 and two oil injection mechanisms 14, wherein an anchor bolt inlet 1101 and an anchor bolt outlet 1102 are respectively arranged at two ends of the oiling rack 11, a pair of rollers 12 which are in left-right contact is vertically and rotatably arranged between the oiling rack 11 below the anchor bolt inlet 1101 and the anchor bolt outlet 1102, and the rotary drive 13 in transmission connection with any roller 12 is arranged below the oiling rack 11; the anchor bolt conveying device 8 on the left side conveys anchor bolts from the anchor bolt inlet 1101 to the position between the tops of the two rollers 12 and is in sliding contact with the two rollers 12; the rotary drive 13 drives one of the rollers 12 to rotate, and further drives the anchor bolts to rotate by means of friction force, so that the anchor bolts roll and advance; the rotary drive 13 is a motor, and an output shaft of the motor is in transmission connection with a rotating shaft of any one of the rollers 12; in the embodiment, the output shaft of the motor drives the corresponding roller 12 to rotate through a chain wheel and chain structure, and the roller 12 drives the anchor bolt to rotate by using friction force;

two oil spraying mechanisms 14 are arranged on the oiling machine frame 11 above the rollers 12, oil spraying nozzles 1401 of the oil spraying mechanisms 14 are arranged above contact surfaces of the two rollers 12, anti-corrosion oil is touched to the tops of anchor bolts through the oil spraying nozzles 1401 of the oil spraying mechanisms 14 in the process that the anchor bolts pass through the rollers 12, the anchor bolts rotate on the top surfaces of the rollers 12 and move towards anchor bolt outlets 1102, and oiling at anchor bolt thread rolling positions is achieved; the two oil spraying mechanisms 14 are respectively arranged at the front and rear corresponding positions of the roller 12, so that the supply of the anti-corrosion oil is more uniform.

Specifically, the oil injection mechanism 14 comprises an oil storage tank 1402, an oil injection drive 1403, a piston plate 1404 and an oil injection nozzle 1401, wherein an oil injection port 1406 is formed in the side wall of the lower portion of the oil storage tank 1402, a control valve 1407 is installed on the oil injection port 1406, an oil outlet 1405 is formed in the bottom of the oil storage tank 1402, and the oil injection nozzle 1401 is fixed below the oil outlet 1405; a piston plate 1404 is provided in the oil reservoir 1402 above the oil inlet 1406 so as to slide vertically in a sealing manner, and an oil injection drive 1403 for driving the piston plate 1404 to move up and down is fixed to the top of the oil reservoir 1402; in this embodiment, the oil injection driver 1403 is an electric push rod. Opening the control valve 1407, injecting anticorrosive oil into the oil storage tank 1402 below the piston plate 1404 through the oil injection port 1406, and closing the control valve 1407 after the oil injection is finished; when oil is required to be coated, the oil injection drive 1403 is started, the piston plate 1404 is pressed downwards through the oil injection drive 1403, and then the anti-corrosion oil can be extruded from the oil injection nozzle 1401 to the anchor bolt between the tops of the two rollers 12 below; after the oil coating is finished, the oil injection drive 1403 is controlled to stop. When the anticorrosive oil in the oil storage tank 1402 is used up, the oil injection driving is started to move the piston plate 1404 up to the top of the oil storage tank 1402, and the control valve 1407 is opened again to perform oil injection.

A first sensor 5 and a second sensor 6 are respectively installed on the oiling machine frame 11 at the outer side of the anchor bolt inlet 1101 and the outer side of the anchor bolt outlet 1102, the first sensor 5 and the second sensor 6 are respectively in telecommunication connection with the input end of a controller 7, and the output end of the controller 7 is in telecommunication connection with a rotation driver 13 and an oil injection driver 1403; the first sensor 5 and the second sensor 6 are both photoelectric sensors, and are used for detecting whether an anchor bolt passes through or not, transmitting signals to the controller 7, and controlling the rotation drive 13 and the oil injection mechanism 14 to act according to the signals received by the controller 7.

The outer end of the anchor bolt outlet is provided with a winding mechanism 2, the winding mechanism 2 comprises a winding rack 21, a film roll 23 and a mechanical clamping jaw 28, one end of the winding rack 21 far away from the anchor bolt outlet 1102 is rotatably provided with two driving rollers 219 which are in left-right contact, the driving rollers 219 are arranged corresponding to the roller 12, the winding rack 21 is fixedly provided with a roller drive 220 for driving any one of the driving rollers 219 to rotate, the roller drive 220 is a motor, an output shaft of the motor is in transmission connection with a rotating shaft of the driving roller 219 through a chain wheel chain, and the driving rollers 219 are driven to rotate through the roller drive 220 so as to drive the anchor bolt to rotate; the top parts of two ends of the winding frame 21 are respectively and rotatably provided with a roller 22, and the wheel surface of the roller 22 is a V-shaped surface; the rollers 22 are correspondingly arranged in front and back, the axes of the rollers 22 are arranged in parallel, after the oiling of the head of the anchor bolt is finished, the anchor bolt which penetrates out of the anchor bolt outlet 1102 reaches the top surface of the roller 22 at one end, and the anchor bolt keeps rotating and advancing because the middle part of the anchor bolt is still between the two rollers 12 and the rear section of the anchor bolt is still on the top surface of the conveying roller 802 at the left side; a film roll 23 is rotatably arranged on one side of the middle part of the winding frame 21, and the axis of the film roll 23 is vertical to the axis of the roller 22; the film roll 23 is used for providing a film, and the film in this embodiment is a non-woven fabric;

two sides of the middle part of the winding frame 21 are respectively fixed with an upright post 24, a moving seat 25 is arranged between the tops of the two upright posts 24 in a sliding way, and any upright post 24 is provided with a moving drive 26 for driving the moving seat 25 to move; a cross beam 211 is fixed between the tops of the two upright columns 24, a screw 212 is rotatably arranged between the two upright columns 24, and a movement driver 26 for driving the screw 212 to rotate is fixed on the outer side of any upright column 24; a track 213 is arranged on the cross beam 211, a threaded hole matched with the screw 212 is arranged on the movable seat 25, and a sliding block 214 matched with the track 213 is arranged on the movable seat 25; in this embodiment, the moving driver 26 is a motor, an output shaft of the motor is coaxially and fixedly connected with the screw 212, the screw 212 can be driven to rotate by the output shaft of the motor, and the rail 213 has a function of limiting and guiding the slider 214 on the moving seat 25, so that the screw 212 can drive the moving seat 15 screwed with the screw to move along the rail 213 during the rotation process, and further drive the mechanical clamping jaw below the screw to move together with the screw. The reciprocating movement of the movable base 25 can be controlled by controlling the forward and reverse rotation of the motor.

A mechanical clamping jaw 28 is fixed at the bottom of the moving seat 25 through a lifting drive 27, the opening of the mechanical clamping jaw 28 is arranged towards the film roll 23, and the mechanical clamping jaw 28 is movably arranged above the film roll 23; the mechanical gripper 28 is a commercially available two-finger gripper for gripping the film head on the film roll 23. A blade 210 is fixed to the column 24 above the film roll 23 by means of a cutting drive 29; the blade 210 can be driven by the cutting drive 29 to move the cut film.

Specifically, a cavity 215 is arranged at the lower part of the upright post 24 at one side of the frame 21, a long hole 216 is horizontally arranged on the inner side wall of the cavity 215 below the cutting drive 29, the film roll 23 is rotatably arranged in the cavity 215, and the head of the film penetrates out of the long hole 216 to the inner side of the upright post 24, so that the mechanical clamping jaw 28 can clamp the film conveniently. A door plate 217 is mounted on the outer side wall of the cavity 215 opposite the elongated hole 216 to facilitate replacement of the film roll 23. The inner walls of the cavity 215 at the two sides of the long hole 216 are respectively fixed with a bearing bush 218, the lower half part of the bearing bush 218 is fixed on the side wall of the cavity 215, and the upper half part of the bearing bush 218 is fixedly connected with the lower half part thereof through a bolt; the two ends of the rotating shaft of the film roll 23 are fixedly sleeved with bearings and then are respectively arranged in the corresponding bearing bushes 218; the film roll 23 is rotatably arranged in the cavity 215 through the bearing bush 218, so that the film roll is convenient to disassemble and assemble and convenient to replace.

In this embodiment, the lifting drive 27 and the cutting drive 29 are any one of an air cylinder, an oil cylinder and an electric push rod, and in this embodiment, the lifting drive 27 and the cutting drive 29 are both electric push rods.

And a third sensor 3 and a fourth sensor 4 are respectively arranged at the tops of two ends of the winding rack 21, the third sensor 3 and the fourth sensor 4 are respectively in telecommunication connection with an input end of a controller 7, and an output end of the controller 7 is respectively in telecommunication connection with a moving drive 26, a lifting drive 27 and a mechanical clamping jaw 28. The third sensor 3 and the fourth sensor 4 are used for detecting the anchor bolts, transmitting detected signals to the controller 7, and controlling the start and stop of the moving driver 26, the lifting driver 27 and the mechanical clamping jaw 28 according to the signals detected by the controller 7.

The working principle is as follows:

firstly, placing the anchor bolt on the transmission roller 802 of the left anchor bolt transmission device 8, and transmitting the anchor bolt to the right by using the left anchor bolt transmission device 8; when the head of the anchor bolt reaches the first sensor 5, the controller 7 controls the rotation drive 13 and the oil injection drive 1403 to start, the roller 12 starts to rotate to drive the anchor bolt to rotate, the oil injection nozzle 1401 starts to produce oil to coat the head of the anchor bolt, and after a certain time, the oil injection drive 1403 stops and the oil coating of the head of the anchor bolt is finished;

then, the head of the anchor bolt reaches the third sensor 3, at this time, the controller controls the moving driver 26 to move the moving seat 25 to the left, the lifting driver 27 controls the mechanical clamping jaw 28 to descend to the position of the long hole 216, two fingers of the mechanical clamping jaw 28 are closed to clamp the film, then the lifting driver 27 controls the mechanical clamping jaw 28 to ascend, the moving driver 26 rotates reversely to move the moving seat 25 to the right, the lifting driver 27 descends to enable the mechanical clamping jaw 28 to drive the film to descend, at this time, the film is just covered on the head of the anchor bolt, and the film can be adhered to the anchor bolt under the action of the anti-corrosive oil; at this time, under the action of the left anchor rod conveying device 8 and the oiling mechanism, the anchor bolt keeps rotating and advancing, so that the film is pulled out and wound on the head of the anchor bolt, and after the winding time set by the controller 7 is reached, the cutting drive 29 is started to press the blade 210 downwards, so that the film can be cut off, and the winding and wrapping of the head of the anchor bolt are completed;

after the oiling of the head of the anchor bolt is finished for a certain time, the head of the anchor bolt reaches the right-side conveying equipment, the middle part of the anchor bolt reaches the winding mechanism 2, and the tail part of the anchor bolt reaches the oiling mechanism 1; at this time, the oil injection drive 403 is started again, oiling is started to the tail of the anchor bolt, after a certain time, oiling is finished to the tail, and the oil injection drive 403 is stopped; when the second sensor 6 detects that no anchor rod passes above the second sensor, the oiling of the whole anchor rod is finished, the rotation drive 13 stops running, and the oiling work is finished;

next, the tail of the anchor bolt reaches the winding mechanism 2, at this time, under the action of the right anchor rod transmission device 8 and the roller drive 220, the anchor bolt continues to keep rotating and moving, the winding mechanism repeats the action of head winding, and when the fourth sensor 4 detects that no anchor rod passes above the winding mechanism, the winding of the whole anchor bolt is finished.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. The anchor bolt oiling and wrapping layer winding mechanism comprises an oiling mechanism and a winding mechanism and is characterized in that the oiling mechanism comprises an oiling rack, rollers, a rotary drive mechanism and an oil spraying mechanism, wherein an anchor bolt inlet and an anchor bolt outlet are respectively arranged at two ends of the oiling rack, a pair of rollers which are in left-right contact is vertically arranged between the oiling rack below the anchor bolt inlet and the anchor bolt outlet in a rotating manner, and the rotary drive mechanism which is in transmission connection with any roller is arranged below the oiling rack; the oil spraying mechanism is arranged on the oiling machine frame above the rollers, and an oil spraying nozzle of the oil spraying mechanism is arranged above the contact surfaces of the two rollers; the outer end of the anchor bolt outlet is provided with the winding mechanism.

2. The anchor bolt oiling and wrapping layer winding mechanism as defined in claim 1, wherein the oil spraying mechanism comprises an oil storage tank, an oil spraying drive, a piston plate and an oil spraying nozzle, an oil filling port is formed in a side wall of the lower portion of the oil storage tank, a control valve is mounted on the oil filling port, an oil outlet is formed in the bottom of the oil storage tank, and the oil spraying nozzle is fixed below the oil outlet; the oil storage tank is characterized in that the piston plate is arranged above the oil filling port in the oil storage tank in a vertically sealed sliding mode, and the oil injection driving device for driving the piston plate to move up and down is fixed to the top of the oil storage tank.

3. The anchor bolt oiling and wrapping layer winding mechanism as defined in claim 2, wherein the oil injection drive is any one of an air cylinder, a hydraulic cylinder or an electric push rod.

4. The anchor bolt oiling and wrapping layer winding mechanism as defined in any one of claims 1 to 3, wherein the rotary drive is a motor, and an output shaft of the motor is in transmission connection with a rotating shaft of any one of the rollers.

5. The anchor bolt oiling and wrapping layer winding mechanism as defined in any one of claims 1 to 3, wherein a first sensor and a second sensor are respectively installed on the oiling machine frame outside the inlet of the anchor bolt and outside the outlet of the anchor bolt, the first sensor and the second sensor are respectively in telecommunication connection with the input end of the controller, and the output end of the controller is in telecommunication connection with the rotation driving and oil spraying mechanism.

6. The anchor bolt oiling and wrapping layer winding mechanism as defined in claim 1, wherein the winding mechanism comprises a winding frame, a film roll and a mechanical clamping jaw, two driving rollers which are in left-right contact are rotatably arranged at one end of the winding frame far away from an anchor bolt outlet, the driving rollers are arranged corresponding to the rollers, and a roller driver for driving any one of the driving rollers to rotate is fixed on the winding frame; at least one roller is respectively and rotatably arranged at the tops of two ends of the winding frame, the axis of each roller is perpendicular to the axis of each roller, and anchor bolts are movably arranged between the two rollers and the tops of the rollers; a film roll is rotatably arranged on one side of the middle part of the winding rack, and the axis of the film roll is perpendicular to the axis of the roller; two upright columns are respectively fixed on two sides of the middle part of the winding rack, a moving seat is arranged between the tops of the two upright columns in a sliding manner, and a moving driver for driving the moving seat to move is arranged on any one upright column; a mechanical clamping jaw is fixed at the bottom of the moving seat through lifting drive, an opening of the mechanical clamping jaw faces the film roll, and the mechanical clamping jaw is movably arranged above the film roll; a blade is fixed to the column above the film roll by a cutting drive.

7. The anchor bolt oiling and wrapping layer winding mechanism as defined in claim 6, wherein a cross beam is fixed between the tops of the two upright posts, a screw is rotatably provided between the two upright posts, and the moving drive for driving the screw to rotate is fixed on the outer side of any one of the upright posts; the beam is provided with a track, the movable seat is provided with a threaded hole matched with the screw rod, and the movable seat is provided with a sliding block matched with the track.

8. The anchor bolt oiling and wrapping layer winding mechanism of claim 7, wherein the lifting drive and the cutting drive are any one of a cylinder, an oil cylinder and an electric push rod.

9. The anchor bolt oiling and wrapping layer winding mechanism as defined in claim 6, 7 or 8, wherein a cavity is provided at a lower portion of the pillar at one side of the winding frame, a long hole is horizontally provided at an inner side wall of the cavity below the cutting drive, and a door panel is installed at an outer side wall of the cavity opposite to the long hole; the roll of film is rotatably disposed within the cavity.

10. The anchor bolt oiling and wrapping layer winding mechanism as defined in claim 6, 7 or 8, wherein a third sensor and a fourth sensor are respectively arranged at the top of the two ends of the winding frame, the third sensor and the fourth sensor are respectively in telecommunication connection with the input end of a controller, and the output end of the controller is respectively in telecommunication connection with the moving drive, the lifting drive and the mechanical clamping jaw.

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