CN114933205A - Easy-to-operate vehicle-mounted high-pressure water pipe rapid winding device - Google Patents

Abstract

The invention discloses an easy-to-operate vehicle-mounted high-pressure water pipe quick winding device which comprises a sliding type magnetic clutch guide mechanism, a bidirectional magnetic clutch mechanism, a winding base assembly and a winding assembly. The invention belongs to the technical field of water pipe winding, and particularly relates to an easy-to-operate vehicle-mounted high-pressure water pipe quick winding device; in order to realize the technical purpose of automatic reversing, the invention creatively provides a sliding type magnetic clutch guide mechanism and a bidirectional magnetic clutch mechanism based on a quick passing principle, and the conversion of a driving module is completed by the impact of sliding of a self-adaptive angle adjusting nut to one end, so that the technical effect of reversing is realized; in order to avoid the problem, the invention prevents the sliding clutch rod from staying at the middle position through the symmetrically arranged magnetic suction rings, and ensures that the sliding clutch rod can continuously slide to another driving mode after passing through the middle position under the action of inertia.

Description

Easy-to-operate vehicle-mounted high-pressure water pipe rapid winding device

Technical Field

The invention belongs to the technical field of water pipe winding, and particularly relates to an easy-to-operate vehicle-mounted high-pressure water pipe rapid winding device.

Background

The high pressure water pipe need be neat when the rolling, the layering winding on the cylinder with the water pipe, and present winding device that has the direction function mainly has following defect:

a: compared with a winding mechanism, the guide mechanism is generally driven or driven independently, the driven guide mechanism needs manual reversing and is driven to slide under the elastic force of the water pipe, so the guide mechanism is easy to block in the sliding process, and the independently driven guide mechanism is complex in structure and control and high in cost;

b: because the water pipe is wound in layers, the existing mechanical guide mechanism cannot realize automatic reversing and generally needs manual reversing action;

c: because the winding mechanism and the guide mechanism are not linked, the water pipe is not tightly wound and regular, the firmness is reduced, and the storage volume is increased.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the vehicle-mounted high-pressure water pipe quick winding device which realizes the automatic reversing function through a mechanical structure and can accurately control the position relation of the guide device relative to the winding device so as to ensure compact winding and easy operation; in order to achieve the technical purpose of automatic reversing, the invention creatively provides a sliding type magnetic clutch guide mechanism and a bidirectional magnetic clutch mechanism based on a quick passing principle, and the technical effect of reversing is achieved by completing the conversion of a driving module through the impact of sliding of a self-adaptive angle adjusting nut to one end.

Moreover, because the two groups of driving modules are contradictory to each other and cannot be combined simultaneously, the moment that the two groups of modules are not meshed exists inevitably in the switching process, and in order to avoid the problem, the magnetic attraction rings which are symmetrically arranged prevent the sliding clutch rod from staying at the middle position, and the sliding clutch rod can continuously slide to another driving mode after passing through the middle position under the action of inertia.

The technical scheme adopted by the invention is as follows: the invention provides an easy-to-operate vehicle-mounted high-pressure water pipe rapid winding device, which comprises a sliding type magnetic clutch guide mechanism, a bidirectional magnetic clutch mechanism, a winding base component and a winding component, wherein the winding component is arranged on the winding base component and is driven to rotate by an external motor, the winding component can wind a water pipe body, the sliding type magnetic clutch guide mechanism is arranged on the winding base component and can realize reciprocating reverse rotation under the control of the bidirectional magnetic clutch mechanism, so that the technical effect of orderly and hierarchically storing the water pipe body is realized, the bidirectional magnetic clutch mechanism is arranged between the sliding type magnetic clutch guide mechanism and the winding base component, and the clutch state at two ends can be triggered and changed when an adaptive angle adjusting nut reaches one end through the bidirectional magnetic clutch mechanism, thereby causing the slipper magnetic clutch guide to rotate at the same speed in opposite directions.

Further, slidingtype magnetism separation and reunion guiding mechanism includes screw rod support frame, screw rod support bearing, hollow screw rod body, slip clutch lever and magnetism ring of inhaling.

Preferably, the screw support frame is symmetrically arranged on the rolling base component, the screw support bearing is clamped in the screw support frame, the hollow screw body is symmetrically provided with screw optical axis sections, the hollow screw body is clamped in the screw support bearing through the screw optical axis sections, the screw thread section is arranged at the middle position of the hollow screw body, the hollow screw body is provided with a screw flat-bottom through hole, the sliding clutch rod is provided with a clutch rod notch, the sliding clutch rod is clamped and slidably arranged in the screw flat-bottom through hole, due to the matching of the screw flat-bottom through hole and the clutch rod notch, only axial relative sliding can occur between the hollow screw body and the sliding clutch rod, relative rotation cannot occur, the magnetic suction rings are symmetrically arranged at two ends of the screw optical axis section, and are used for magnetic adsorption of the forward sliding insertion plate and the reverse sliding insertion plate through the magnetic suction rings, after the sliding clutch rod slides over the middle position, the sliding clutch rod can automatically slide and reset to a good clamping state, and the embarrassment that the sliding clutch rod is static when sliding to two ends and being in a disengaging state at the same time is avoided.

Further, the bidirectional magnetic clutch mechanism comprises a forward driving component, a forward clutch component, a reverse driving component and a reverse clutch component, the forward driving component is arranged on one side of the rolling base component, the reverse driving component is arranged on the other side of the rolling base component, the forward clutch component is arranged on one side of the sliding type magnetic clutch guide mechanism, the reverse clutch component is arranged on the other side of the sliding type magnetic clutch guide mechanism, because when the forward clutch component is combined with the reverse clutch component, the rotating speed of the hollow screw body is the same and the direction is opposite, therefore, the forward clutch assembly and the reverse clutch assembly cannot be combined simultaneously, the middle of the forward clutch assembly and the reverse clutch assembly cannot be combined, and the sliding clutch rod can continue to slide after crossing the central point through the adsorption force of the magnetic attraction ring.

Preferably, the forward drive assembly includes forward drive sprocket, forward driven sprocket and forward chain, the positive drive sprocket block is located on the rolling basic unit, forward driven sprocket rotates and locates on the screw rod optical axis section, connect through forward chain drive between forward drive sprocket and the forward driven sprocket.

As a further preferred aspect of the present invention, the forward clutch assembly includes a forward clutch plate and a forward sliding insert plate, the forward clutch plate is fixedly connected to the forward driven sprocket, the forward clutch plate is annularly and uniformly provided with forward clutch plate fixing holes, the forward clutch plate is provided with a forward fixing hole arc guide edge on the forward clutch plate fixing hole, the forward sliding insert plate is provided with a forward insert plate sliding table, the forward sliding insert plate is fixedly connected to the sliding clutch rod through the forward insert plate sliding table, the forward sliding insert plate is annularly and uniformly provided with forward insert rods corresponding to the forward clutch plate fixing holes, the forward sliding insert plate is provided with a forward insert rod arc edge at the tail end of the forward insert rod, and the forward insert rod and the forward clutch plate fixing holes are engaged and disengaged to control the connection and disengagement of the forward clutch plate and the forward sliding insert plate, and when the forward drive assembly is connected to the sliding magnetic guide mechanism, the rotational motion of the rolling support main shaft can be transmitted to the sliding magnetic guide mechanism through the forward drive assembly Thereby driving the hollow screw body to rotate.

As preferably, the reverse drive subassembly includes reverse drive sprocket, reverse drive frame, reverse driven sprocket, reverse chain and reverse drive gear, reverse drive sprocket block is located on the rolling basic unit, reverse drive frame rigid coupling is on one of them set of screw rod support frame, be equipped with the drive frame main shaft on the reverse drive frame, reverse driven sprocket rotates and locates on the drive frame main shaft, connect through reverse chain drive between reverse driven sprocket and the reverse drive sprocket, reverse drive gear rigid coupling is on reverse driven sprocket.

As a further preferred aspect of the present invention, the reverse clutch assembly includes a reverse gear clutch plate and a reverse sliding insert plate, the reverse gear clutch plate is rotatably disposed on the screw optical axis section, reverse clutch plate fixing holes are annularly disposed on the reverse gear clutch plate, a reverse fixing hole arc guide edge is disposed on the reverse clutch plate fixing hole of the reverse gear clutch plate, a reverse insert plate sliding table is disposed on the reverse sliding insert plate, the reverse sliding insert plate is fixedly connected to the sliding clutch rod through the reverse insert plate sliding table, reverse insert rods corresponding to the reverse clutch plate fixing holes are annularly disposed on the reverse sliding insert plate, a reverse insert rod arc edge is disposed at the tail end of the reverse insert rod of the reverse sliding insert plate, and the connection and separation of the reverse gear clutch plate and the reverse sliding insert plate can be controlled by engaging and separating the reverse insert rod and the reverse clutch plate fixing holes, when the two are connected, can carry the rotary motion of rolling support main shaft on the slidingtype magnetism separation and reunion guiding mechanism through reverse drive subassembly to drive the rotation of hollow screw body.

Further, the rolling foundation assembly comprises a main body bottom plate, a main body fork frame, a roller supporting bearing and a rolling supporting main shaft, the screw rod supporting frames are symmetrically arranged on the main body bottom plate, the main body fork frame is symmetrically arranged on the main body bottom plate, the roller supporting bearing is clamped in the main body fork frame, and the rolling supporting main shaft is clamped in the roller supporting bearing.

Preferably, the forward driving sprocket is engaged with one end of the rolling support main shaft, and the reverse driving sprocket is engaged with the other end of the rolling support main shaft.

Furthermore, the winding assembly comprises a rolling support frame, a roller body, a water pipe body, a self-adaptive angle adjusting nut and a cantilever type deflector rod, the rolling support frame is clamped on a rolling support main shaft, the roller body is clamped on the rolling support frame, the water pipe body is wound on the roller body, the self-adaptive angle adjusting nut is in threaded connection with a screw thread section, a nut chute is arranged on the self-adaptive angle adjusting nut, the free end of the water pipe body is arranged in the nut chute in a sliding manner, the cantilever type deflector rods are symmetrically arranged on the self-adaptive angle adjusting nut, and the self-adaptive angle adjusting nut cannot rotate for a whole circle due to the limit of the water pipe body on the self-adaptive angle adjusting nut, so when the hollow screw body rotates, the self-adaptive angle adjusting nut can transversely move under the action of thread transmission to ensure that the water pipe body is wound together in order, moreover, the self-adaptive angle adjusting nut can passively adjust the self angle under the driving of the water pipe body, and the sliding resistance of the water pipe body in the nut sliding groove is reduced.

The invention with the structure has the following beneficial effects:

(1) the external motor drives the winding assembly to rotate, so that the water pipe body can be wound;

(2) the sliding type magnetic clutch guide mechanism can realize reciprocating reverse rotation under the control of the bidirectional magnetic clutch mechanism, so that the technical effect of orderly carrying out layered storage on the water pipe body is realized;

(3) the bidirectional magnetic clutch mechanism can trigger and change the clutch states at two ends when the self-adaptive angle adjusting nut reaches one end, so that the sliding type magnetic clutch guide mechanism rotates in the opposite direction at the same speed;

(4) due to the matching of the through hole with the flat bottom of the screw and the notch of the clutch rod, the hollow screw body and the sliding clutch rod only slide relatively in the axial direction and cannot rotate relatively;

(5) the magnetic attraction of the magnetic attraction ring to the forward sliding inserting plate and the backward sliding inserting plate ensures that the sliding clutch rod can automatically slide and reset to a good clamping state after sliding over the middle position, thereby avoiding the embarrassment condition that the sliding clutch rod is static when sliding to two ends and being in a disengaging state;

(6) when the forward clutch assembly is combined with the reverse clutch assembly, the rotating speeds of the hollow screw bodies are the same, and the directions are opposite, so that the forward clutch assembly and the reverse clutch assembly cannot be combined at the same time, a state that the forward clutch assembly and the reverse clutch assembly are not combined necessarily exists in the middle, and at the moment, the sliding clutch rod can continue to slide after crossing a central point through the adsorption force of the magnetic attraction ring;

(7) the connection and the separation of the forward clutch plate and the forward sliding inserting plate can be controlled through the clamping and the separation of the forward inserting rod and the forward clutch plate fixing hole, and when the forward inserting rod and the forward sliding inserting plate are connected, the rotary motion of the rolling support spindle can be transmitted to the sliding type magnetic clutch guide mechanism through the forward driving assembly, so that the hollow screw body is driven to rotate;

(8) the connection and the separation of the reverse gear clutch plate and the reverse sliding inserting plate can be controlled through the clamping and the separation of the reverse inserting rod and the reverse clutch plate fixing hole, and when the reverse gear clutch plate and the reverse sliding inserting plate are connected, the rotary motion of the rolling support main shaft can be transmitted to the sliding type magnetic clutch guide mechanism through the reverse driving assembly, so that the hollow screw body is driven to rotate;

(9) the self-adaptive angle adjusting nut is limited by the water pipe body and cannot rotate for a whole circle, so that when the hollow screw rod body rotates, the self-adaptive angle adjusting nut can transversely move under the action of thread transmission, and the water pipe body is orderly wound together;

(10) self-adaptation angle adjusting nut can be passive regulation self angle under the drive of water pipe body, reduces the gliding resistance of water pipe body in the nut spout.

Drawings

Fig. 1 is a perspective view of an easy-to-operate vehicle-mounted high-pressure water pipe quick winding device provided by the invention;

FIG. 2 is a front view of an easy-to-operate vehicle-mounted high-pressure water pipe quick winding device according to the present invention;

FIG. 3 is a top view of an easy-to-operate vehicle-mounted high-pressure water pipe quick winding device provided by the invention;

FIG. 4 is a left side view of an easy-to-operate vehicle-mounted high-pressure water pipe quick winding device provided by the invention;

FIG. 5 is a right side view of an easy-to-operate high-pressure water pipe quick-winding device for vehicles according to the present invention;

FIG. 6 is a cross-sectional view taken along section line A-A of FIG. 4;

fig. 7 is a schematic structural diagram of a sliding type magnetic clutch guide mechanism of an easy-to-operate vehicle-mounted high-pressure water pipe quick winding device provided by the invention;

FIG. 8 is a schematic structural diagram of a bidirectional magnetic clutch mechanism of an easy-to-operate vehicle-mounted high-pressure water pipe quick winding device according to the present invention;

fig. 9 is a schematic structural diagram of a winding base assembly of an easy-to-operate vehicle-mounted high-pressure water pipe rapid winding device provided by the invention;

fig. 10 is a schematic structural diagram of a winding assembly of an easy-to-operate vehicle-mounted high-pressure water pipe quick winding device provided by the invention;

FIG. 11 is an enlarged view of a portion of FIG. 6 at I;

FIG. 12 is an enlarged view of a portion of FIG. 6 at II;

fig. 13 is a partial enlarged view of fig. 6 at iii.

Wherein, 1, a sliding type magnetic clutch guide mechanism, 2, a bidirectional magnetic clutch mechanism, 3, a winding basic assembly, 4, a winding assembly, 5, a screw rod support frame, 6, a screw rod support bearing, 7, a hollow screw rod body, 8, a sliding clutch rod, 9, a screw rod thread section, 10, a screw rod optical axis section, 11, a screw rod flat-bottomed through hole, 12, a clutch rod notch, 13, a forward driving assembly, 14, a forward clutch assembly, 15, a reverse driving assembly, 16, a reverse clutch assembly, 17, a forward driving sprocket, 18, a forward driven sprocket, 19, a forward chain, 20, a forward clutch plate, 21, a forward sliding insert plate, 22, a reverse driving sprocket, 23, a reverse transmission frame, 24, a reverse driven sprocket, 25, a reverse chain, 26, a reverse driving gear, 27, a reverse gear clutch plate, 28, a reverse sliding insert plate, 29 and a forward clutch plate fixing hole, 30. positive fixed hole circular arc guiding edge, 31, positive picture peg slip table, 32, forward inserted bar, 33, positive inserted bar circular arc edge, 34, driving frame main shaft, 35, reverse clutch disc fixed orifices, 36, reverse fixed hole circular arc guiding edge, 37, reverse picture peg slip table, 38, reverse inserted bar, 39, reverse inserted bar circular arc edge, 40, main part bottom plate, 41, main part crotch, 42, cylinder support bearing, 43, roll support main shaft, 44, roll support frame, 45, cylinder body, 46, water pipe body, 47, self-adaptation angle adjusting nut, 48, magnetic ring, 49, nut spout, 50, cantilever type driving lever.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in figure 1, the invention provides an easy-to-operate vehicle-mounted high-pressure water pipe quick winding device, which comprises a sliding type magnetic clutch guide mechanism 1, a bidirectional magnetic clutch mechanism 2, a winding base component 3 and a winding component 4, wherein the winding component 4 is arranged on the winding base component 3, the winding component 4 is driven to rotate by an external motor, the water pipe body 46 can be wound, the sliding type magnetic clutch guide mechanism 1 is arranged on the winding base component 3, the sliding type magnetic clutch guide mechanism 1 can realize reciprocating reverse rotation under the control of the bidirectional magnetic clutch mechanism 2, so that the technical effect of orderly and hierarchically storing the water pipe body 46 is realized, the bidirectional magnetic clutch mechanism 2 is arranged between the sliding type magnetic clutch guide mechanism 1 and the winding base component 3, and the self-adaptive angle adjusting nut 47 can trigger when reaching one end through the bidirectional magnetic clutch mechanism 2, The clutch state at both ends is changed so that the sliding type magnetic clutch guide mechanism 1 is rotated in opposite directions at the same speed.

As shown in fig. 1, 9 and 13, the winding base assembly 3 includes a main body base plate 40, a main body fork 41, a roller support bearing 42 and a rolling support main shaft 43, the screw support frame 5 is symmetrically captured on the main body base plate 40, the main body fork 41 is symmetrically disposed on the main body base plate 40, the roller support bearing 42 is clamped in the main body fork 41, and the rolling support main shaft 43 is clamped in the roller support bearing 42; the forward drive sprocket 17 is engaged with one end of the rolling support main shaft 43, and the reverse drive sprocket 22 is engaged with the other end of the rolling support main shaft 43.

As shown in fig. 1, 6, 10 and 13, the winding assembly 4 includes a rolling support frame 44, a rolling cylinder body 45, a water pipe body 46, a self-adaptive angle adjusting nut 47 and a cantilever type deflector rod 50, the rolling support frame 44 is fastened on the rolling support main shaft 43, the rolling cylinder body 45 is fastened on the rolling support frame 44, the water pipe body 46 is wound on the rolling cylinder body 45, the self-adaptive angle adjusting nut 47 is in threaded connection with the screw thread section 9, the self-adaptive angle adjusting nut 47 is provided with a nut runner 49, the free end of the water pipe body 46 is slidably arranged in the nut runner 49, the cantilever type deflector rod 50 is symmetrically arranged on the self-adaptive angle adjusting nut 47, because the self-adaptive angle adjusting nut 47 is limited by the water pipe body 46, the self-adaptive angle adjusting nut 47 cannot rotate for a whole circle, therefore, when the hollow screw body 7 rotates, the self-adaptive angle adjusting nut 47 can move transversely under the action of thread transmission, the water pipe body 46 is orderly wound, and the self-adaptive angle adjusting nut 47 can passively adjust the self angle under the driving of the water pipe body 46, so that the sliding resistance of the water pipe body 46 in the nut sliding groove 49 is reduced.

As shown in fig. 1, 2, 4, 7 and 12, the sliding magnetic clutch guide mechanism 1 includes a screw support bracket 5, a screw support bearing 6, a hollow screw body 7, a sliding clutch rod 8 and a magnetic ring 48; the screw support frames 5 are symmetrically arranged on the rolling base component 3, the screw support bearings 6 are clamped in the screw support frames 5, the hollow screw body 7 is symmetrically provided with screw optical axis sections 10, the hollow screw body 7 is clamped in the screw support bearings 6 through the screw optical axis sections 10, the screw thread section 9 is arranged at the middle position of the hollow screw body 7, the hollow screw body 7 is provided with a screw flat-bottom through hole 11, the sliding clutch rod 8 is provided with a clutch rod notch 12, the sliding clutch rod 8 is clamped and slidably arranged in the screw flat-bottom through hole 11, due to the matching of the screw flat-bottom through hole 11 and the clutch rod notch 12, the hollow screw body 7 and the sliding clutch rod 8 only can slide axially and cannot rotate relatively, the magnetic attraction rings 48 are symmetrically arranged at two ends of the screw optical axis sections 10, and are magnetically attracted to the forward sliding insertion plate 21 and the reverse sliding insertion plate 28 through the magnetic attraction rings 48, after the sliding clutch rod 8 slides over the middle position, the sliding clutch rod can automatically slide and reset to a good clamping state, and the embarrassment situation that the sliding clutch rod 8 is static when sliding to two ends and being in a disengaging state is avoided.

As shown in fig. 1, 3, 4, 5, 6, 8, 11, 12, the bidirectional magnetic clutch mechanism 2 includes a forward driving assembly 13, a forward clutch assembly 14, a reverse driving assembly 15, and a reverse clutch assembly 16, the forward driving assembly 13 is disposed on one side of the winding base assembly 3, the reverse driving assembly 15 is disposed on the other side of the winding base assembly 3, the forward clutch assembly 14 is disposed on one side of the sliding type magnetic clutch guide mechanism 1, the reverse clutch assembly 16 is disposed on the other side of the sliding type magnetic clutch guide mechanism 1, since the rotation speed of the hollow screw body 7 is the same and the direction is opposite when the forward clutch assembly 14 is combined with the reverse clutch assembly 16, the forward clutch assembly 14 and the reverse clutch assembly 16 cannot be combined at the same time, and the forward clutch assembly 14 and the reverse clutch assembly 16 are not combined in the middle, at this time, the sliding clutch rod 8 is ensured to continuously slide after crossing the central point by the adsorption force of the magnetic attraction ring 48; the forward driving component 13 comprises a forward driving chain wheel 17, a forward driven chain wheel 18 and a forward chain 19, the forward driving chain wheel 17 is clamped on the winding base component 3, the forward driven chain wheel 18 is rotatably arranged on the screw optical shaft section 10, and the forward driving chain wheel 17 and the forward driven chain wheel 18 are in transmission connection through the forward chain 19; the forward clutch assembly 14 includes a forward clutch plate 20 and a forward sliding insert plate 21, the forward clutch plate 20 is fixed on the forward driven sprocket 18, the forward clutch plate 20 is annularly provided with a forward clutch plate fixing hole 29, the forward clutch plate 20 is provided with a forward fixing hole arc guiding edge 30 on the forward clutch plate fixing hole 29, the forward sliding insert plate 21 is provided with a forward insert plate sliding table 31, the forward sliding insert plate 21 is fixed on the sliding clutch rod 8 through the forward insert plate sliding table 31, the forward sliding insert plate 21 is annularly provided with a forward insert rod 32 corresponding to the forward clutch plate fixing hole 29, the forward sliding insert plate 21 is provided with a forward insert rod arc edge 33 at the tail end of the forward insert rod 32, the connection and the separation of the forward insert rod 32 and the forward clutch plate fixing hole 29 can be controlled, when the two are connected, the rotary motion of the rolling support spindle 43 can be transmitted to the sliding type magnetic clutch guide mechanism 1 through the forward driving assembly 13 Thereby driving the hollow screw body 7 to rotate; the reverse driving assembly 15 comprises a reverse driving chain wheel 22, a reverse transmission frame 23, a reverse driven chain wheel 24, a reverse chain 25 and a reverse driving gear 26, the reverse driving chain wheel 22 is clamped on the winding base assembly 3, the reverse transmission frame 23 is fixedly connected to one group of the screw support frames 5, a transmission frame main shaft 34 is arranged on the reverse transmission frame 23, the reverse driven chain wheel 24 is rotatably arranged on the transmission frame main shaft 34, the reverse driven chain wheel 24 is in transmission connection with the reverse driving chain wheel 22 through the reverse chain 25, and the reverse driving gear 26 is fixedly connected to the reverse driven chain wheel 24; the reverse clutch component 16 comprises a reverse gear clutch plate 27 and a reverse sliding insertion plate 28, the reverse gear clutch plate 27 is rotatably arranged on the screw optical axis section 10, reverse clutch plate fixing holes 35 are annularly and uniformly distributed on the reverse gear clutch plate 27, reverse fixing hole circular arc guide edges 36 are arranged on the reverse clutch plate fixing holes 35 of the reverse gear clutch plate 27, reverse insertion plate sliding tables 37 are arranged on the reverse sliding insertion plate 28, the reverse sliding insertion plate 28 is fixedly connected on the sliding clutch rods 8 through the reverse insertion plate sliding tables 37, reverse insertion rods 38 corresponding to the reverse clutch plate fixing holes 35 are annularly and uniformly distributed on the reverse sliding insertion plate 28, reverse insertion rod circular arc edges 39 are arranged at the tail ends of the reverse insertion rods 38 of the reverse sliding insertion plate 28, the connection and the separation of the reverse gear clutch plate 27 and the reverse sliding insertion plate 28 can be controlled through the clamping and the separation of the reverse insertion rods 38 and the reverse clutch plate fixing holes 35, when the reverse gear clutch plate 27 and the reverse sliding insertion plate 28 are connected, the rotary motion of the rolling support main shaft 43 can be transmitted to the sliding type magnetic clutch guide mechanism 1 through the reverse driving assembly 15, so that the hollow screw body 7 is driven to rotate.

When the water pipe winding machine is used specifically, firstly, a user needs to drive the rolling support main shaft 43 to rotate through an external driving device, and the rolling support main shaft 43 can drive the roller body 45 to rotate together when rotating, so that the water pipe body 46 is wound and wound;

in the initial state, the forward insertion rod 32 is clamped in the forward clutch plate fixing hole 29, the forward clutch plate 20 and the forward sliding insertion plate 21 are relatively fixed, at the moment, the forward driving chain wheel 17 drives the forward driven chain wheel 18 to rotate through the forward chain 19, and simultaneously drives the forward clutch plate 20 to rotate, and the forward clutch plate 20 and the sliding clutch rod 8 are fixed, so the hollow screw body 7 is driven to rotate together;

the water pipe body 46 slides through the nut sliding groove 49 in the winding and winding process, and the self-adaptive angle adjusting nut 47 cannot rotate along with the hollow screw body 7 because the water pipe body 46 has certain rigidity, so that the self-adaptive angle adjusting nut 47 can transversely slide under the action of thread transmission and transversely slide while winding, and the water pipe body 46 can be orderly stacked one layer;

after the self-adaptive angle adjusting nut 47 slides to the edge extreme position, the cantilever type deflector rod 50 impacts the reverse sliding insertion plate 28, so that the reverse sliding insertion plate 28 can be pushed to slide towards the direction of the reverse gear clutch plate 27;

in the process, the distance between one group of the magnetic suction rings 48 and the forward sliding insert plate 21 is increased, the magnetic suction force is reduced, the distance between the other group of the magnetic suction rings 48 and the reverse sliding insert plate 28 is reduced, the magnetic suction force is increased, and after the sliding clutch lever 8 slides over the middle position, the sliding clutch lever 8 can complete gear shifting under the action of inertia and the action of suction force between the magnetic suction rings 48 and the reverse sliding insert plate 28;

in the process, the circular arc guide edge 30 of the positive fixing hole is matched with the circular arc edge 33 of the positive insertion rod, and the circular arc guide edge 36 of the reverse fixing hole is matched with the circular arc edge 39 of the reverse insertion rod, so that the circular arc edge 39 of the reverse insertion rod can enter the fixing hole 35 of the reverse clutch plate more easily, and the condition that the reverse insertion rod 38 impacts the reverse gear clutch plate 27 is avoided;

when the forward clutch plate 20 and the forward sliding insert plate 21 are separated and the reverse gear clutch plate 27 and the reverse sliding insert plate 28 are combined, the hollow screw body 7 rotates at the same speed in the opposite direction, so that the adaptive angle adjusting nut 47 slides in the opposite direction, and the next layer of water pipe body 46 is orderly wound on the roller body 45.

The above is the overall working process of the invention, and the steps are repeated when the device is used next time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings show only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a quick coiling mechanism of on-vehicle high pressure water pipe of easy operation, includes rolling basic unit (3) and rolling component (4), on rolling basic unit (3) was located in rolling component (4), its characterized in that: the winding device is characterized by further comprising a sliding type magnetic clutch guide mechanism (1) and a bidirectional magnetic clutch mechanism (2), wherein the sliding type magnetic clutch guide mechanism (1) is arranged on the winding base component (3), and the bidirectional magnetic clutch mechanism (2) is arranged between the sliding type magnetic clutch guide mechanism (1) and the winding base component (3); the sliding type magnetic clutch guide mechanism (1) comprises a screw support frame (5), a screw support bearing (6), a hollow screw body (7), a sliding clutch rod (8) and a magnetic suction ring (48).

2. The easy-to-operate vehicle-mounted high-pressure water pipe rapid winding device according to claim 1, characterized in that: the winding machine is characterized in that the screw support frame (5) is symmetrically arranged on the winding base assembly (3), the screw support bearing (6) is clamped in the screw support frame (5), the hollow screw body (7) is symmetrically provided with screw optical axis sections (10), the hollow screw body (7) is clamped in the screw support bearing (6) through the screw optical axis sections (10), the middle position of the hollow screw body (7) is provided with a screw thread section (9), a screw flat-bottom through hole (11) is formed in the hollow screw body (7), a clutch lever notch (12) is formed in the sliding clutch lever (8), the sliding clutch lever (8) is clamped in the screw flat-bottom through hole (11), and the magnetic suction rings (48) are symmetrically arranged at two ends of the screw optical axis sections (10).

3. The easy-to-operate vehicle-mounted high-pressure water pipe rapid winding device according to claim 2, characterized in that: two-way magnetic clutch mechanism (2) are including forward drive subassembly (13), forward clutch subassembly (14), reverse drive subassembly (15) and reverse clutch subassembly (16), one side of rolling basic subassembly (3) is located in forward drive subassembly (13), the opposite side of rolling basic subassembly (3) is located in reverse drive subassembly (15), one side of slidingtype magnetic clutch guiding mechanism (1) is located in forward clutch subassembly (14), the opposite side of slidingtype magnetic clutch guiding mechanism (1) is located in reverse clutch subassembly (16).

4. The easy-to-operate vehicle-mounted high-pressure water pipe rapid winding device according to claim 3, characterized in that: forward drive subassembly (13) are including forward drive sprocket (17), forward driven sprocket (18) and forward chain (19), on rolling basic unit (3) was located in forward drive sprocket (17) block, on screw rod optical axis section (10) was located in rotation of forward driven sprocket (18), connect through forward chain (19) transmission between forward drive sprocket (17) and forward driven sprocket (18).

5. An easily operated vehicle-mounted high-pressure water pipe quick winding device according to claim 4, characterized in that: forward clutch subassembly (14) are including forward clutch plate (20) and forward slip picture peg (21), forward clutch plate (20) rigid coupling is on forward driven sprocket (18), annular has all laid forward clutch plate fixed orifices (29) on forward clutch plate (20), forward clutch plate (20) are equipped with forward fixed orifices circular arc direction limit (30) on forward clutch plate fixed orifices (29), be equipped with forward picture peg slip table (31) on forward slip picture peg (21), forward slip picture peg (21) are through forward picture peg slip table (31) rigid coupling on slip clutch lever (8), forward inserted bar (32) that annular has all laid and corresponds with forward clutch plate fixed orifices (29) on forward slip picture peg (21), forward slip picture peg (21) are equipped with forward inserted bar circular arc limit (33) at the end of forward inserted bar (32).

6. The easy-to-operate vehicle-mounted high-pressure water pipe quick winding device according to claim 5, characterized in that: reverse drive subassembly (15) are including reverse drive sprocket (22), reverse drive frame (23), reverse driven sprocket (24), reverse chain (25) and reverse drive gear (26), reverse drive sprocket (22) block is located on rolling basic unit (3), reverse drive frame (23) rigid coupling is on one of them set of in screw rod support frame (5), be equipped with drive frame main shaft (34) on reverse drive frame (23), reverse driven sprocket (24) rotate locate on drive frame main shaft (34), connect through reverse chain (25) transmission between reverse driven sprocket (24) and reverse drive sprocket (22), reverse drive gear (26) rigid coupling is on reverse driven sprocket (24).

7. The easy-to-operate vehicle-mounted high-pressure water pipe quick winding device is characterized in that: the reverse clutch assembly (16) comprises a reverse gear clutch plate (27) and a reverse sliding insert plate (28), the reverse gear clutch plate (27) is rotationally arranged on the screw rod optical shaft section (10), reverse clutch plate fixing holes (35) are annularly distributed on the reverse gear clutch plate (27), the reverse gear clutch plate (27) is provided with a reverse fixing hole arc guide edge (36) on a reverse clutch plate fixing hole (35), a reverse plug board sliding table (37) is arranged on the reverse sliding plug board (28), the reverse sliding plug board (28) is fixedly connected on the sliding clutch rod (8) through the reverse plug board sliding table (37), reverse insertion rods (38) corresponding to the reverse clutch plate fixing holes (35) are annularly distributed on the reverse sliding insertion plate (28), the reverse sliding insertion plate (28) is provided with a reverse insertion rod arc edge (39) at the tail end of the reverse insertion rod (38).

8. The easy-to-operate vehicle-mounted high-pressure water pipe quick winding device according to claim 7, characterized in that: the winding basic assembly (3) comprises a main body bottom plate (40), a main body fork frame (41), a roller supporting bearing (42) and a rolling supporting main shaft (43), the screw rod supporting frame (5) is symmetrically arranged on the main body bottom plate (40), the main body fork frame (41) is symmetrically arranged on the main body bottom plate (40), the roller supporting bearing (42) is clamped in the main body fork frame (41), and the rolling supporting main shaft (43) is clamped in the roller supporting bearing (42).

9. The easy-to-operate vehicle-mounted high-pressure water pipe quick winding device according to claim 8, characterized in that: the forward driving chain wheel (17) is clamped at one end of the rolling support main shaft (43), and the reverse driving chain wheel (22) is clamped at the other end of the rolling support main shaft (43).

10. The easy-to-operate vehicle-mounted high-pressure water pipe quick winding device according to claim 9, characterized in that: rolling subassembly (4) are including rolling support frame (44), cylinder body (45), water pipe body (46), self-adaptation angle adjusting nut (47) and cantilever type driving lever (50), and rolling support frame (44) block is located on rolling support main shaft (43), cylinder body (45) block is located on rolling support frame (44), water pipe body (46) winding is located on cylinder body (45), self-adaptation angle adjusting nut (47) and screw rod screw thread section (9) threaded connection, be equipped with nut spout (49) on self-adaptation angle adjusting nut (47), the free end of water pipe body (46) slides and locates in nut spout (49), on self-adaptation angle adjusting nut (47) is located to cantilever type driving lever (50) symmetry.

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