CN118083708A - Remote control electric pipe coiling device - Google Patents

Abstract

The invention relates to the technical field of pipe winding devices, in particular to a remote control electric pipe winding device, which comprises a shell, an outlet arranged at the top of one side of the shell and a winding wheel rotatably arranged in the shell; the rolling wheel is driven to rotate by a driving module fixedly arranged on one side in the shell and is used for rolling the water pipe; the pipe distribution module is arranged at the other side of the winding wheel relative to the driving module, is horizontally arranged at the position of the guide outlet and is in transmission connection with the winding wheel and used for guiding the water pipe to be wound and unwound; the water supply module is embedded in the winding wheel and is used for supplying water to the water pipe; the control module is embedded at the top of the shell; the wireless control module is detachably arranged at the pipe end of the water pipe and used for remote control, the overwinding prevention module is coaxially sleeved outside the water pipe and is arranged close to the wireless control module, and the overwinding prevention module is arranged at one side close to the winding wheel.

Description

Remote control electric pipe coiling device

Technical Field

The invention relates to the technical field of tube rolling devices, in particular to a remote control electric tube rolling device.

Background

The automatic water pipe winding device is a device specially used for winding and collecting water pipes; the automatic winding machine is generally composed of a winding frame, an electric pipe winding mechanism, a control system and the like, and is used for automatically winding a water pipe from one end to the other end, and simultaneously maintaining the tension of the pipe so as to ensure the smooth proceeding of the winding process; however, the existing pipe coiling machine only has the capability of automatically coiling and uncoiling the pipe in the actual use process, namely, after the water pipe is pulled to the required length, the water pipe needs to run to the equipment to close the pipe uncoiling control button, and then the water pipe runs back to the working area again, and the more equipment only has the function of automatically coiling and uncoiling the pipe by totally depending on external tension when the pipe is uncoiled, but the automatic pipe uncoiling and the manual pipe drawing are complex in operation and consume a large amount of manpower; still further current reelpipe machine is when carrying out the rolling up to the pipeline, needs the real-time on-line control of people to receive the pipe, otherwise the pipeline can be accomodate by whole in the equipment casing, influences the secondary to use, and degree of automation is low, complex operation.

Disclosure of Invention

To above-mentioned problem, provide a remote control electronic reelpipe ware, through providing one kind not only can receive and release the pipe automatically and can carry out the equipment of long-range nimble manipulation to solve current reelpipe machine degree of automation low, consume manpower and complex operation's technical problem in the use.

In order to solve the problems in the prior art, the invention provides a remote control electric pipe coiling device, which comprises a shell, an outlet arranged at the top of one side of the shell and a coiling wheel rotatably arranged in the shell; the rolling wheel is driven to rotate by a driving module fixedly arranged on one side in the shell and is used for rolling the water pipe; the pipe distribution module is arranged at the other side of the winding wheel relative to the driving module, is horizontally arranged at the position of the guide outlet and is in transmission connection with the winding wheel and used for guiding the water pipe to be wound and unwound; the water supply module is embedded in the winding wheel and is used for supplying water to the water pipe; the control module is embedded at the top of the shell; the wireless control module is detachably arranged at the end of the water pipe and used for remote control, the overwinding prevention module is coaxially sleeved outside the water pipe and is closely adjacent to the wireless control module, and the overwinding prevention module is arranged at one side close to the winding wheel.

Preferably, the water supply module comprises a water supply joint and a rotary joint; the water supply joint consists of an eduction tube and a butt joint tube, the eduction tube is installed in the winding wheel when being embedded in an inclined state, the butt joint tube is coaxially and fixedly arranged in the winding wheel and is arranged at one side close to the winding wheel, and the butt joint tube and the eduction tube are communicated through a hose; the rotary joint is coaxially and fixedly arranged on one side of the winding wheel, one end of the rotary joint is arranged towards the outside by penetrating through the shell, and the other end of the rotary joint is rotatably connected with the butt joint pipe.

Preferably, the driving module comprises a speed reducing motor and a power supply element; the speed reducing motor is fixedly arranged in the shell and is in transmission connection with the rolling wheel; the power supply element is installed at the bottom of one side of the shell when embedded and is used for accessing an external power supply.

Preferably, the pipe distribution module comprises a double-break screw rod, a rotating seat, a guiding unit, a driving gear, a driven gear and a gear belt;

The double-rest screw rod rotates transversely in the shell through rotating seats arranged at two ends in a horizontal state and is positioned right above the guide outlet;

the guide unit is sleeved outside the double-break screw rod in an inclined state and is in transmission connection with the double-break screw rod so as to limit the conduction of the guide water pipe;

the driving gear is coaxially and fixedly arranged at one side of the winding wheel;

the driven gear is coaxially and fixedly arranged at one end of the double-break screw close to the driving gear and is connected with the driving gear in a conductive way through a gear belt.

Preferably, the guide unit includes a transmission part, a guide frame, and a guide wheel;

the transmission part is sleeved outside the double-break screw rod;

the guide frame is fixedly arranged at one side of the transmission part, which is close to the guide outlet, in an inclined state, and is a rectangular frame body which is arranged in a U shape;

The guide wheels are provided with two groups, and the two groups of guide wheels are respectively arranged in the guide frame in a crossing way through the rotation of the first rotating shaft and are respectively close to the two ends of the guide frame.

Preferably, the control module comprises a control bin and a control panel arranged in the control bin, the first control button and the second control button are relatively embedded in the control bin and are communicated with the control panel, and the surface of the control panel is also embedded in the control panel together with the set indicator lamps, and the indicator lamps are provided with a plurality of groups.

Preferably, the wireless control module comprises a waterproof shell, a signal transmitting element arranged in the waterproof shell and a third control button which is arranged in the waterproof shell in a communicating manner with the signal transmitting element during embedding.

Preferably, the overwinding prevention module comprises a fixed sleeve ring, a buffer head, a spring and a contact sensor;

the fixed lantern ring is fixedly sleeved outside the water pipe and is arranged close to the wireless control module;

the buffer head is coaxially sleeved outside the water pipe through a spring and fixedly connected with the fixed lantern ring;

The contact sensor is embedded on one side of the shell and is arranged at the outlet.

Preferably, one side of the upper surface of the shell is also hinged with a handle.

Preferably, one side of the shell far away from the outlet is also hinged with a mounting seat through a second rotating shaft.

Compared with the prior art, the invention has the beneficial effects that:

According to the invention, the work of controlling the automatic winding and guiding of the winding wheel on the water pipe is realized through the matching of the control module and the driving module, the automatic carding work of the water pipe when the water pipe is guided out or wound is realized through the pipe distribution module, the smooth winding of the water pipe in each use state is ensured, the automatic control of the short range and the long range is realized through the wireless control module and the control module, and the automatic winding and guiding work of the water pipe can be realized without approaching the winding wheel.

Drawings

Fig. 1 is a perspective view of a remote controlled electric tube winder.

Fig. 2 is a partial enlarged view at a of fig. 1.

Fig. 3 is an exploded perspective view of a remote control electric tube winder.

Fig. 4 is a perspective view of a part of the structure of the remote control electric pipe coiling device, including a water pipe removing module, an overwinding prevention module and a wireless control module.

Fig. 5 is a partial enlarged view at B of fig. 4.

Fig. 6 is a perspective view of the structural forces of the winding wheel and the tube laying module part in the remote control electric tube rolling device.

The reference numerals in the figures are:

1-a housing; 11-an outlet; 12-handle; 13-a second rotating shaft; 14-a mounting base;

2-a winding wheel; 21-a water supply connection; 22-a rotary joint;

3-a driving module; 31-a gear motor; 32-a power supply element;

4-pipe distribution module; 41-double-break screw; 42-rotating the seat; 43-a guiding unit; 431-a transmission; 432-guide frame; 433-guiding wheels; 434-a first spindle; 44-a drive gear; 45-driven gear; 46-a gear belt;

5-a control module; 51-a control bin; 52-a first control button; 53-a second control button; 54-indicator lights;

6-a wireless control module; 61-waterproof shell; 62-a third control button;

7-an overwinding prevention module; 71-a fixed collar; 72-a buffer head; 73-a spring; a 74-contact sensor;

8-water pipe.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

See fig. 1 to 6: a remote control electric pipe coiling device comprises a shell 1, an outlet 11 arranged at the top of one side of the shell 1 and a coiling wheel 2 rotatably arranged in the shell 1; the rolling wheel 2 is driven to rotate by a driving module 3 fixedly arranged at one side in the shell 1, and the rolling wheel 2 is used for rolling the water pipe 8; the pipe distribution module 4 is arranged at the other side of the winding wheel 2 relative to the driving module 3, is horizontally arranged at the position of the outlet 11 and is in transmission connection with the winding wheel 2 and used for guiding the winding and unwinding of the water pipe 8; the water supply module is embedded in the winding wheel 2 and is used for supplying water to the water pipe 8; the control module 5 is embedded at the top of the shell 1; the wireless control module 6 is detachably arranged at the end of the water pipe 8 and used for remote control, the overwinding prevention module 7 is coaxially sleeved outside the water pipe 8 and is closely adjacent to the wireless control module 6, and the overwinding prevention module 7 is arranged at one side close to the winding wheel 2.

Under the operating condition, the water pipe 8 is rolled up through the roll-up wheel 2 and is set up outside the roll-up wheel 2 under the non-use condition, when needs use the water pipe 8, the staff only need hold the water pipe 8 pipe end and forcefully pull outward with the water pipe 8 can, when needs realize independently deriving, only need give driving module 3 through controlling control module 5 emission instruction, it can to drive roll-up wheel 2 towards one side of leading export 11 through driving module 3, when water pipe 8 is pulled to required length after need stop water pipe 8 be derived, only need control wireless control module 6 close control instruction to driving module 3 can, correspondingly when needs carry out the roll-up to water pipe 8, only need drive roll-up wheel 2 towards one side of keeping away from leading export 11 through operating control module 5 can realize the roll-up work to water pipe 8, the cloth pipe module 4 then is used for carrying out horizontal guidance to water pipe 8 in the process of roll-up or leading water pipe 8, thereby make water pipe 8 can be orderly roll-up outside the roll-up wheel 2.

See fig. 3 and 6: the water supply module comprises a water supply joint 21 and a rotary joint 22; the water supply joint 21 consists of an eduction tube and a butt joint tube, the eduction tube is installed in the winding wheel 2 when being embedded in an inclined state, the butt joint tube is coaxially and fixedly arranged in the winding wheel 2 and is arranged at one side close to the winding wheel 2, and the butt joint tube and the eduction tube are communicated through a hose; the rotary joint 22 is coaxially and fixedly arranged on one side of the winding wheel 2, one end of the rotary joint is arranged outside through the shell 1, and the other end of the rotary joint is rotatably connected with the butt joint pipe.

Under the operating condition, when needing to supply water to the water pipe 8, only need with external water source and rotary joint 22 butt joint end together with setting, the leading-in water source of pass through rotary joint 22 then can get into in the water pipe 8 along butt joint pipe, hose and delivery line in proper order, and then realize the water supply work to the water pipe 8, because water supply joint 21 passes through rotary joint 22 and external water source together with setting, even the roll-up wheel 2 receive and releases the pipeline under drive module 3's drive, also can not influence the normal conduction to the water source.

See fig. 3 and 6: the drive module 3 comprises a gear motor 31 and a power supply element 32; the gear motor 31 is fixedly arranged in the shell 1 and is in transmission connection with the winding wheel 2; the power supply element 32 is installed at the bottom of one side of the casing 1 when embedded, and is used for accessing an external power supply.

Under the operating condition, when the winding wheel 2 is required to be driven to rotate, so that the water pipe 8 is wound and unwound, the power supply element 32 is communicated with an external power supply, the power supply element 32 is connected with the power supply and then synchronously supplies power to the gear motor 31, and the driving shaft of the gear motor 31 connected with the power supply rotates to drive the winding wheel 2, so that the water pipe 8 is wound and unwound.

See fig. 5 and 6: the pipe distribution module 4 comprises a double-break screw 41, a rotating seat 42, a guide unit 43, a driving gear 44, a driven gear 45 and a gear belt 46; the double-rest screw 41 rotates transversely in the shell 1 and is positioned right above the outlet 11 through rotating seats 42 arranged at two ends; the guiding unit 43 is sleeved outside the double-break screw 41 in an inclined state and is in transmission connection with the double-break screw 41 so as to limit the conduction of the guiding water pipe 8; the driving gear 44 is coaxially and fixedly arranged at one side of the winding wheel 2; the driven gear 45 is coaxially and fixedly arranged at one end of the double-break screw 41 close to the driving gear 44 and is connected with the driving gear 44 in a conductive manner through a gear belt 46.

Under the operating condition, in order to ensure that the water pipe 8 led out from the winding wheel 2 can be wound uniformly in a uniform posture and uniformly wound to the winding wheel 2, when the winding wheel 2 rotates under the drive of the driving module 3, the kinetic energy of the winding wheel 2 can be synchronously transmitted to the double-break screw 41 under the action of the gear belt 46, so that the double-break screw 41 is driven to rotate, and when the double-break screw 41 is in the rotating condition, the corresponding guide unit 43 sleeved outside the double-break screw 41 is synchronously driven to act, so that the guide unit 43 slides reciprocally along the axis of the double-break screw 41, thereby realizing the winding or leading-out of the water pipe 8, the position of the water pipe 8 wound on the winding wheel 2 can be precisely controlled, and ensuring that the water pipe 8 is wound outside the winding wheel 2 under uniform pressure and distribution.

See fig. 5: the guide unit 43 includes a transmission part 431, a guide frame 432, and a guide wheel 433; the transmission part 431 is arranged outside the double-break screw 41 in a transmission sleeve manner; the guide frame 432 is fixedly arranged at one side of the transmission part 431 close to the outlet 11 in an inclined state, and the guide frame 432 is a rectangular frame body arranged in a U shape; the guiding wheels 433 are provided with two groups, and the two groups of guiding wheels 433 are respectively arranged in the guiding frame 432 in a crossing way through the rotation of the first rotating shaft 434 and are respectively close to two ends of the guiding frame 432.

The water pipe 8 passes through the guide frame 432 and is arranged between the two groups of guide wheels 433, and in a working state, when the double-rest screw 41 rotates under the drive of the driven gear 45, the transmission part 431 arranged outside the double-rest screw 41 is synchronously driven to act, and the transmission part is driven to reciprocate along the axis of the double-rest screw 41, so that the guide frame 432 and the guide wheels 433 are matched to orderly guide the water pipe 8 in and out.

See fig. 4: the control module 5 comprises a control bin 51 and a control panel arranged in the control bin 51, wherein a first control button 52 and a second control button 53 are arranged in the control bin 51 in a relatively embedded manner and are communicated with the control panel, the surface of the control panel is also arranged in the control panel in an embedded manner together with an indicator lamp 54, and a plurality of groups of indicator lamps 54 are arranged.

The first control button 52 is a export button, and the second control button 53 is a winding button; in the working state, when the water pipe 8 wound outside the winding wheel 2 needs to be controlled to be led out, a worker only needs to press the first control button 52, and at the moment, the control panel transmits a control instruction for driving the winding wheel 2 to one side of the outlet 11 towards the driving module 3, so that the water pipe 8 is led out; when the led-out water pipe 8 needs to be reeled; similarly, only pressing the second control button 53, the control panel will emit a control instruction to the driving module 3 to drive the winding wheel 2 to one side far away from the outlet 11, so as to implement winding operation of the led-out water pipe 8, and the indicator lamp 54 is provided with at least three groups, a first group is used for indicating the on-off state of the first control button 52, a second group is used for indicating the on-off state of the second control button 53, and a third group is used for indicating the on-off state of the wireless control module 6; the control buttons are provided with at least two groups, and winding acceleration/guiding acceleration can be realized by adding acceleration control buttons.

See fig. 2: the wireless control module 6 comprises a waterproof shell 61, a signal transmitting element arranged in the waterproof shell 61 and a third control button 62 which is installed in the waterproof shell 61 when embedded and is communicated with the signal transmitting element.

Under the operating condition, when the water pipe 8 is pulled out to the required length towards the working area under the control of the staff, and when the pipe supply is required to be stopped, the staff only needs to press the third control button 62 for a long time, so that the pipe supply stopping operation of the driving module 3 can be realized, the water pipe 8 can be guided out by pressing the third button once, the water pipe 8 can be rolled up by continuously pressing the third control button 62 twice, and the operation can be realized through the peripheral control remote control.

See fig. 2: the overwinding prevention module 7 comprises a fixed collar 71, a buffer head 72, a spring 73 and a contact sensor 74; the fixed lantern ring 71 is fixedly sleeved outside the water pipe 8 and is arranged close to the wireless control module 6; the buffer head 72 is coaxially sleeved and arranged outside the water pipe 8 through a spring 73 and is fixedly connected with the fixed collar 71; the touch sensor 74 is fitted to one side of the housing 1 and is provided at the outlet 11.

In the working state, when the winding wheel 2 is used for winding the water pipe 8, in order to prevent the water pipe 8 from being integrally wound into the shell 1, before the water pipe 8 is completely wound, the buffer head 72 is preferably arranged close to the outlet 11 and is contacted with the contact sensor 74 arranged at the outlet 11, the contact sensor is used for automatically stopping the winding of the water pipe 8 after being contacted with the buffer head 72, and in order to prevent the water pipe 8 from being continuously pulled due to dry induction delay in the induction process, the buffer head 72 which is continuously contracted in the process of contacting the buffer head 72 with the contact sensor 74 is continuously compressed towards the direction of the fixed sleeve ring 71 under the tension, and the time of the induction delay is compensated by the spring 73, so that the automatic winding of the water pipe 8 can be realized under the unattended state; the buffer head 72 is provided in a spherical shape larger than the outlet 11.

See fig. 4: a handle 12 is also hinged on one side of the upper surface of the shell 1.

In operation, the handle 12 is used for a user to lift the tube rolling device.

See fig. 4: the side of the shell 1 far away from the outlet 11 is also hinged with a mounting seat 14 through a second rotating shaft 13.

Under the operating condition, the mounting seat 14 is used for fixedly mounting the pipe coiling device on a fixed object, and the fixing seat is hinged with the shell 1 through the second rotating shaft 13, so that the shell 1 has the degree of freedom of left-right swinging, the operability is better, and the pipe coiling device can swing towards different directions according to the use requirement.

The invention not only can remotely carry out the operation of winding and unwinding the pipe, but also has the unmanned winding function, and can automatically stop winding to avoid excessive winding.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of the invention should be assessed as that of the appended claims.

Claims (10)

1. The remote control electric pipe coiling device is characterized by comprising a shell (1), a guiding-out opening (11) arranged at the top of one side of the shell (1) and a coiling wheel (2) rotatably arranged in the shell (1); the rolling wheel (2) is driven to rotate through a driving module (3) fixedly arranged on one side in the shell (1), and the rolling wheel (2) is used for rolling the water pipe (8); the pipe distribution module (4) is arranged at the other side of the winding wheel (2) opposite to the driving module (3) and is horizontally arranged at the position of the outlet (11) and is in transmission connection with the winding wheel (2) for guiding the water pipe (8) to be wound and unwound; the water supply module is embedded in the winding wheel (2) and is used for supplying water to the water pipe (8); the control module (5) is embedded at the top of the shell (1); the wireless control module (6) is detachably arranged at the end of the water pipe (8) and used for remote control, the overwinding prevention module (7) is coaxially sleeved and arranged outside the water pipe (8) and is closely adjacent to the wireless control module (6), and the overwinding prevention module (7) is arranged at one side close to the rolling wheel (2).

2. A remote controlled electric pipe winder according to claim 1, characterised in that the water supply module comprises a water supply joint (21) and a swivel joint (22); the water supply joint (21) consists of an eduction tube and a butt joint tube, the eduction tube is installed in the rolling wheel (2) when being embedded in an inclined state, the butt joint tube is coaxially and fixedly arranged in the rolling wheel (2) and is close to one side of the rolling wheel (2), and the butt joint tube and the eduction tube are communicated through a hose; the rotary joint (22) is coaxially and fixedly arranged at one side of the rolling wheel (2) and one end of the rotary joint is arranged towards the outside by penetrating through the shell (1), and the other end of the rotary joint is rotatably connected with the butt joint pipe.

3. A remote controlled electric tube winder according to claim 1, characterised in that the drive module (3) comprises a gear motor (31) and a power supply element (32); the speed reducing motor (31) is fixedly arranged in the shell (1) and is in transmission connection with the rolling wheel (2); the power supply element (32) is installed at the bottom of one side of the shell (1) when embedded and is used for accessing an external power supply.

4. A remote controlled electric tube winder according to claim 3, characterised in that the tube arrangement module (4) comprises a double-break screw (41), a rotating seat (42), a guiding unit (43), a driving gear (44), a driven gear (45) and a gear belt (46);

The double-rest screw (41) rotates transversely in the shell (1) through rotating seats (42) arranged at two ends and is positioned right above the outlet (11);

the guide unit (43) is sleeved outside the double-break screw (41) in an inclined state and is in transmission connection with the double-break screw (41) so as to limit the conduction of the guide water pipe (8);

the driving gear (44) is coaxially and fixedly arranged at one side of the winding wheel (2);

The driven gear (45) is coaxially and fixedly arranged at one end of the double-break screw (41) close to the driving gear (44) and is connected with the driving gear (44) in a conducting way through the gear belt (46).

5. A remote controlled electric reel according to claim 4, characterized in that the guiding unit (43) comprises a transmission part (431), a guiding frame (432) and guiding wheels (433);

the transmission part (431) is sleeved outside the double-break screw (41);

The guide frame (432) is fixedly arranged on one side of the transmission part (431) close to the guide outlet (11) in an inclined state, and the guide frame (432) is a rectangular frame body arranged in a U shape;

The guide wheels (433) are provided with two groups, and the two groups of guide wheels (433) are respectively arranged in the guide frame (432) in a crossing way through the rotation of the first rotating shaft (434) and are respectively close to two ends of the guide frame (432).

6. The remote control electric pipe winder according to claim 1, wherein the control module (5) comprises a control cabin (51) and a control panel arranged in the control cabin (51), the first control button (52) and the second control button (53) are embedded in the control cabin (51) relatively and are communicated with the control panel, the surface of the control panel is also embedded in the control panel together with an arranged indicator lamp (54), and a plurality of groups of indicator lamps (54) are arranged.

7. A remote control electric pipe winder according to claim 1, characterized in that the wireless control module (6) comprises a waterproof case (61), a signal emitting element arranged in the waterproof case (61), and a third control button (62) which is arranged in the waterproof case (61) and is communicated with the signal emitting element when embedded.

8. A remote controlled motorized tube winder as claimed in claim 1, characterised in that the anti-overwinding module (7) comprises a fixed collar (71), a buffer head (72), a spring (73) and a contact sensor (74);

the fixed lantern ring (71) is fixedly sleeved outside the water pipe (8) and is arranged close to the wireless control module (6);

The buffer head (72) is coaxially sleeved and arranged outside the water pipe (8) through a spring (73) and is fixedly connected with the fixed sleeve ring (71);

The contact sensor (74) is embedded on one side of the shell (1) and is arranged at the outlet (11).

9. A remote control electric pipe winder according to claim 1, characterised in that the upper surface side of the housing (1) is also hinged with a pull handle (12).

10. A remote control electric pipe winder according to claim 1, characterised in that the side of the housing (1) remote from the outlet (11) is further provided with a mounting (14) hinged by means of a second pivot (13).