CN211545772U - Wire pressing assembly, wire winding wheel device and power assembly - Google Patents

Abstract

The utility model discloses a line ball subassembly, take-up pulley device and power assembly, include the pillar with the integrative injection moulding of casing, roller bearing and flexible line ball part, the pillar distributes along vertical extension, the roller bearing rotationally overlaps outside the pillar, line ball part fixed cover just can follow the roller bearing and rotate outside the roller bearing, its advantage is that the roller bearing rotationally overlaps outside the pillar with the integrative injection moulding of casing, line ball part fixed cover just can follow the roller bearing and rotate outside the roller bearing, winding wire rope on the take-up pulley is hugged closely to line ball part, when wire rope receive and releases, line ball part compresses tightly wire rope with rolling form all the time, in order to avoid wire rope the wire jumper to appear, relax, overlap winding scheduling problem.

Description

Wire pressing assembly, wire winding wheel device and power assembly

Technical Field

The utility model relates to a power assembly of airing machine especially relates to a line ball subassembly of power assembly.

Background

The clothes airing machine comprises a main machine part and a clothes airing rack, wherein the main machine part is installed on a ceiling, the clothes airing rack is located below the main machine part, a power assembly in the main machine part is used for winding and unwinding a steel wire rope, and the main machine part is connected with the clothes airing rack through the steel wire rope so as to achieve lifting of the clothes airing rack.

Wire pressing mechanism of stranded conductor dish of publication No. CN110004678, it includes line ball subassembly, base and elastomeric element, the line ball subassembly elasticity tooth is on the stranded conductor dish to elastomeric element's application of force portion.

A line pressing mechanism of a clothes airing machine with the publication number of CN207312803U comprises a line pressing wheel shaft, a line pressing wheel, a fixing frame and a fixing sleeve.

The wire pressing mechanism can prevent the problems of looseness, wire jumping, winding and the like of the steel wire rope, and the wire pressing mechanism is a wire pressing mode corresponding to the horizontal type winding wheel, for example, corresponding to the vertical winding wheel, and is not disclosed in related documents.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a line ball subassembly is provided, further provide a take-up pulley device and power assembly who has above-mentioned line ball subassembly.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the line ball subassembly, its characterized in that includes the pillar, roller bearing and the flexible line ball part with the integrative injection moulding of casing, the pillar distribute along vertical extension, the roller bearing rotationally the cover the pillar outside, line ball part fixed cover the roller bearing outside and can follow the roller bearing and rotate.

The utility model discloses further preferred scheme does: the line pressing component is a silicone tube.

The utility model discloses further preferred scheme does: the roller is a plastic roller.

The utility model discloses further preferred scheme does: one end of the strut is provided with a limiting root, the other end of the strut is provided with a limiting gasket and locked by a screw, and the limiting root and the limiting gasket limit the rolling shaft and the line pressing component to move out of the strut together.

The utility model discloses further preferred scheme does: the winding wheel device comprises a box body, a winding wheel and a wire pressing component, wherein the winding wheel is arranged in the box body through a rotating shaft, the wire pressing component is arranged on the outer side of the winding wheel, and the wire pressing component is tightly attached to a steel wire rope wound on the winding wheel.

The utility model discloses further preferred scheme does: the box body comprises a box bottom and a box cover, wherein copper sleeves are sleeved at the upper end and the lower end of the rotating shaft and are positioned at the two ends of the winding wheel.

The utility model discloses further preferred scheme does: one side of the box bottom is provided with a notch so that the wire pressing component is tightly attached to the steel wire rope wound on the winding wheel.

The utility model discloses further preferred scheme does: the power assembly is characterized by comprising a direct current motor and at least one winding wheel device, wherein the direct current motor drives the winding wheel through a worm gear structure.

The utility model discloses further preferred scheme does: the worm is connected with the output shaft of the direct current motor, and the worm wheel and the winding wheel are coaxially arranged.

The utility model discloses further preferred scheme does: two symmetrical winding wheel devices are distributed on one side of the motor

Compared with the prior art, the utility model has the advantages that the roller bearing rotationally the cover outside the pillar with the integrative injection moulding of casing, the fixed cover of line ball part just can follow the roller bearing and rotate outside the roller bearing, and winding wire rope on the take-up reel is hugged closely to the line ball part, and when wire rope receive and releases, the line ball part compresses tightly wire rope with rolling form all the time to wire rope appears the wire jumper, relaxes, overlaps winding scheduling problem.

Drawings

The present invention will be described in further detail below with reference to the drawings and preferred embodiments, but those skilled in the art will appreciate that the drawings are only drawn for the purpose of explaining the preferred embodiments, and therefore should not be taken as limiting the scope of the present invention. Furthermore, unless specifically stated otherwise, the drawings are merely schematic representations based on conceptual representations of elements or structures depicted and may contain exaggerated displays and are not necessarily drawn to scale.

Fig. 1 is a schematic view of the overall structure of the clothes airing machine;

FIG. 2 is a schematic view of a base plate and a powertrain of the host;

FIG. 3 is a schematic view of the powertrain with the second cover half open;

FIG. 4 is a schematic view of the powertrain with the second sub-cover closed;

FIG. 5 is a schematic view of the overall configuration of the powertrain;

FIG. 6 is an assembled view of the internal structure of the powertrain;

FIG. 7 is a schematic view of the power train and the base plate of the main unit;

FIG. 8 is a first partial cross-sectional view of the host component;

FIG. 9 is a cross-sectional view of the structure of the Hall switch when it is activated;

FIG. 10 is a sectional view of the structure when the Hall switch is separated;

FIG. 11 is a cross-sectional view of the micro-switch and slider mounting structure;

fig. 12 is an enlarged view of a portion a in fig. 8 according to the present invention;

fig. 13 is an overall structural view of a magnet assembly structure;

FIG. 14 is a cross-sectional view of a magnet mounting structure;

FIG. 15 is a first assembled view of the magnet and cylindrical mounting portion;

FIG. 16 is a second assembled view of the magnet and the cylindrical mounting portion;

fig. 17 is a block diagram of a clothes airing machine lifting travel control system;

FIG. 18 is a first drawing showing the overall structure of the reel assembly;

FIG. 19 is a second drawing illustrating the overall structure of the take-up reel assembly;

fig. 20 is a sectional view showing the whole structure of the reel assembly;

FIG. 21 is a control frame diagram of the powertrain of the present invention;

fig. 22 is a flow chart of the motor rotation speed control according to the present invention;

fig. 23 is a schematic circuit diagram of the rectifying and filtering module of the present invention;

fig. 24 is a circuit diagram of the electronic switch of the present invention;

fig. 25 is a circuit diagram of a driving module according to the present invention.

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Those skilled in the art will appreciate that the description is illustrative only, and is not to be construed as limiting the scope of the invention.

It should be noted that like reference numerals represent like items in the following figures, and thus, once an item is defined in one figure, it may not be further defined and explained in subsequent figures.

As shown in fig. 1 to 6, the clothes drying machine 100 includes a main body 101 installed on a ceiling and an air-drying rod 103 below the main body 101, and a power assembly 102 is installed in the main body 101 for driving the air-drying rod 103 to move up and down.

In actual installation, as shown in fig. 7, the powertrain 102 is installed at a middle position of the main machine base plate 1011. The power assembly 102 is mounted on the main body base plate 1011 by screw members 1022, and preferably a rubber pad 1021 is padded between the main body base plate 1011 and the case bottom 61 of the power assembly 102.

The power assembly 102 on the clothes airing machine comprises a box body 60, a motor 10, a winding wheel 30 and a main control panel 40, wherein the motor 10 drives the winding wheel 30 through a worm gear structure, the box body 60 comprises a box bottom 61 and a box cover 62, the winding wheel 30, the motor 10 and the main control panel 40 are all installed on the box bottom 61, the box cover 62 comprises a first sub cover 621 and a second sub cover 622, the first sub cover 621 is fixed on the box bottom 61 through a fixing structure so as to cover the winding wheel 30, and the second sub cover 622 is connected on the box bottom 61 through an openable structure so as to cover the motor 10 and the main control panel 40.

The winding wheel 30, the motor 10 and the main control board 40 are arranged in the box body 60, so that the protection effect can be achieved, the power assembly 102 can be integrated, and the installation structure in the main machine part 101 is optimized; the second sub-cover 622 of the box 60 is openably covered above the motor 10 and the main control panel 40, so that the maintenance or replacement of the components in the powertrain 102 can be facilitated. Of which the winding wheel 30 is preferably two.

The fixing structure comprises a screw locking structure, glue or an integrated injection molding structure. The openable structure comprises a turnover type, a drawer type and a plug-in type structure.

The main control board 40 includes a first control board 41 and a second control board 42, the first control board 41 and the second control board 42 are arranged on both sides of the motor 10, a second sub-cover 622 covers the first control board 41 and the second control board 42, and a middle portion of the second sub-cover 622 is slotted to expose at least a portion of the motor 10.

The number of the winding wheels 30 is two, and the extending direction of the steel wire rope S led out from the winding wheels 30 forms a certain angle with the output shaft 12 of the motor 10.

The worm gear structure includes a worm 11 coupled to an output shaft 12 of the motor 10 and a worm wheel 32 coaxial with the winding wheel 30.

The motor 10 is secured to the cover 62 by means of studs L extending along its length on both sides.

The first control plate 41 and the second control plate 42 are coupled by a bridge B.

The motor 10 is an ac motor or a dc motor V. Preferably a dc motor V.

The powertrain 102 includes a descent jam protection mechanism 120.

Specifically, as shown in fig. 9 to 11, the descending emergency protection mechanism 120 includes a sliding block 80 and a trigger switch 121, which are disposed in the box body 60 and can perform amplitude limiting movement in the box body 60, the sliding block 80 is provided with a rolling member 122 for the steel wire rope S to pass around, when the steel wire rope S is loosened, the sliding block 80 moves along a predetermined route and triggers the trigger switch 121, and the trigger switch 121 sends a signal to the motor 10 to stop the motor 10 from winding the steel wire rope S.

In actual installation, the slider 80 is mounted at the bottom of the box 60. Specifically, the method comprises the following steps:

the spring 81 in the sliding block 80 abuts against the first stopper 63 of the case 60, and when the wire S is loosened, the spring 81 pushes the sliding block 80 to the position of the trigger switch 121. So that slider 80 actuates trigger switch 121.

The box body 60 is provided with a second blocking portion 64, the sliding block 80 is provided with a third blocking portion 83, and the third blocking portion 83 abuts against the second blocking portion 64 to position the position of the sliding block 80 when the trigger switch 121 is triggered to operate.

The trigger switch 121 includes a separate hall switch 1211 or a mechanical micro switch 1212.

When the trigger switch 121 is a hall switch 1211, the hall switch 1211 includes a magnet 001 mounted on the slider 80 and a hall element 002 on the main control board 40.

When the trigger switch 121 is the micro switch 1212, the micro switch 1212 is disposed on the main control board 40.

The rolling member 122 includes a fixed shaft 82 on the sliding block 80 and a second roller 1221 sleeved on the fixed shaft 82, and the second roller 1221 is a plastic roller. The presence of the rolling member 122 can reduce friction against the wire rope S when the wire rope S passes around the slider 80.

For the electric machine 10 in the powertrain 102, it is preferably a dc electric machine V that includes the magnet assembly structure 70, and the specific description of the magnet assembly structure 70 is as follows:

as shown in fig. 13 to 16, the magnet assembly structure 70 includes a magnet ring 51 and a worm 11 paired with the hall element 52, the magnet ring 51 includes a magnet P having a central hole P, the front end of the worm 11 is provided with a cylindrical mounting portion 11a, the cylindrical mounting portion 11a is inserted into the central hole P of the magnet P, and a limiting structure is provided between the magnet P and the cylindrical mounting portion 11a to limit the rotation of the magnet P relative to the cylindrical mounting portion 11a, so as to realize the synchronous rotation of the magnet P and the worm 11.

The mutual assembly structure of the magnet P and the cylindrical mounting portion 11a is simpler, and the magnet assembly structure can be optimized.

The cylindrical mounting part 11a comprises an insertion part 01 with a circular cross section at the front end and a rear end part 02, the outer diameter of the rear end part 02 is larger than the diameter of the insertion part 01, the insertion part 01 is inserted into a central hole P of the magnet P, and the limiting structure is arranged between the rear end part 02 and the magnet P.

The motor 10 drives the worm 11 to rotate so as to drive the magnetic ring 51 to rotate, the Hall element 52 paired with the magnetic ring 51 can sense the number of rotation turns of the magnetic ring 51, and the motor 10 is controlled to be started and stopped through the control assembly by comparing with the preset number of rotation turns, so that the airing rod 103 is controlled to move up and down.

It should be noted here that the cross section of the cylindrical mounting portion 11a and the cross section of the central hole p are matched with each other, and the shapes and the sizes of the two are matched with each other. Naturally, the designer may set the two to have other shapes that can match and fit with each other according to actual needs, that is, the cross sections of the two are not limited to the shapes of circle, ellipse, quasi-circle, quasi-rectangle, and the like.

The position limiting structure includes two first position limiting surfaces 031 on the inner side of the magnet P and two second position limiting surfaces 021 on the rear end portion 02, and the first position limiting surfaces 031 and the second position limiting surfaces 021 are matched with each other to limit rotation.

The magnet P and the worm 11 can be fixed by magnetism, and the worm 11 is made of steel material or magnetic metal. Of course, the person skilled in the art can also fix the magnet P to the worm 11 by other fixing means, for example by glue.

The insertion portion 01, the rear end portion 02, and the worm 11 of the cylindrical mounting portion 11a are preferably integrally formed.

The direct current motor V comprises a motor main body, an output shaft 12 and a magnet assembly structure 70, wherein the output shaft 12 is fixed with the worm 11.

The input voltage of the direct current motor V is 220V direct current voltage.

For the lifting control of the airing bars on the airing machine 100, the present embodiment will describe a lifting control system 110 of the airing machine, which is as follows:

as shown in fig. 13 to 17, the clothes airing machine lifting stroke control system 110 includes a hall sensor 50, a motor 10 for driving a winding wheel 30, and an MCU controller 20, wherein the hall sensor 50 is used for counting the number of rotation turns of an output shaft 12 of the motor 10 or the winding wheel 30, the MCU controller 20 compares the number of rotation turns collected by the hall sensor 50 with a threshold, and if the number of rotation turns reaches the threshold, the MCU controller instructs the motor 10 to stop operating by controlling an electronic switch 30p, thereby controlling the lifting of the airing rod. The hall sensor 50 is sensitive and can count the number of turns more accurately, and the MCU controller 20 and the hall sensor 50 are matched with each other to control the lifting of the airing rod 103, thereby improving the intelligent degree of the airing machine 100.

The electronic switch 30p may be a relay or thyristor.

The MCU controller 20 drives the motor 10 to rotate forwards or backwards to realize the ascending or descending of the airing rod 103.

An output shaft 12 of the motor 10 is coupled with a worm 11.

The hall sensor 50 includes a magnetic ring 51 and a hall element 52, the magnetic ring 51 is fixed on the worm 11, and the hall element 52 is arranged on the circuit board and close to the magnetic ring 51.

The magnetic ring 51 is coaxially sleeved at the front end of the worm 11 and limited by a convex-concave structure, so that the synchronous rotation of the magnetic ring 51 and the worm 11 is realized.

The worm 11 and the magnetic ring 51 are fixed by magnetism. The worm 11 is made of a metallic material, preferably iron, for magnetic fixing.

The clothes airing machine lifting travel control method comprises the following specific steps: the Hall sensor 50 is used for counting the number of rotation turns of the output shaft 12 of the motor 10 or the winding wheel 30, the MCU controller 20 compares the number of rotation turns collected by the Hall sensor 50 with a threshold value, and if the number of rotation turns reaches the threshold value, the MCU controller 20 instructs the motor 10 to stop running by controlling the electronic switch 30p, so that the airing rod 103 is controlled to ascend or descend. The hall sensor 50 is sensitive and can count the number of turns more accurately, and the MCU controller 20 and the hall sensor 50 are matched with each other to control the lifting of the airing rod 103, thereby improving the intelligent degree of the airing machine 100.

The power assembly 102 includes a winding wheel device and a wire pressing component 90 for pressing the wire rope S to prevent the wire rope S from loosening, which is described as follows:

specifically, the powertrain 102 includes a motor 10 and two winding wheel devices, and the motor 10 is preferably a dc motor V which drives the winding wheel 30 through a worm and gear structure. Two symmetrical winding wheels 30 are distributed on one side of the motor 10. The motor worm 11 is connected with the output shaft of the direct current motor V, and the worm wheel is coaxially arranged with the winding wheel 30. The dc motor V drives the two winding wheels 30 to rotate through a set of worm and gear structure.

As shown in fig. 6, 9 and 12, the winding wheel device includes a case 60, a winding wheel 30 and a pressing member 90, the winding wheel 30 is disposed in the case 60 through a rotating shaft 301, the pressing member 90 is disposed outside the winding wheel 30, and a pressing member 91 of the pressing member 90 is closely attached to a steel wire S wound around the winding wheel 30.

The box body 60 comprises a box bottom 61 and a box cover 62, wherein the upper end and the lower end of the rotating shaft 301 are sleeved with copper sleeves 302, and the copper sleeves 302 are positioned at two ends of the winding wheel 30.

A notch is formed at one side of the case bottom 61 so that the wire pressing member 91 is closely attached to the wire S wound on the wire winding wheel 30. Most of the side wall of the case bottom 61 is closed, and the notch is provided to allow a passage for the wire pressing member 91 to contact the wire rope S.

Line ball subassembly 90, including the pillar 92 with the integrative injection moulding of casing, first roller bearing 93 and flexible line ball part 91, pillar 92 distributes along vertical extension, and first roller bearing 93 rotationally overlaps outside pillar 92, and line ball part 91 is fixed to be overlapped outside first roller bearing 93 and can follow first roller bearing 93 and rotate.

The wire pressing member 91 is a silicone tube. The silicone tube is flexible, and when the steel wire rope S is extruded, the winding and unwinding of the steel wire rope S can not be limited. The roller is a 93 plastic roller.

The one end of pillar 92 is equipped with spacing root 921, and the other end of pillar 92 is equipped with spacing gasket 922 and locks with screw 923, and first roller bearing 93 of spacing root 921 and spacing gasket 922 restriction jointly shifts out from pillar 92 with line ball part 91. The limiting root 921 is injection molded integrally with the housing.

The first roller 93 is rotatably sleeved outside the support column 92 integrally injection-molded with the shell, the line pressing part 91 is fixedly sleeved outside the first roller 93 and can rotate along with the first roller 93, the line pressing part 91 is tightly attached to the steel wire rope S wound on the winding wheel 30, and when the steel wire rope S is wound and released, the line pressing part 91 always compresses the steel wire rope S in a rolling manner so as to avoid the problems of wire jumping, loosening, overlapping and winding of the steel wire rope S.

The winding wheel 30, the steel cable S and the worm wheel 32 cooperating with the worm 11 in the power assembly 102 constitute a set of winding wheel assemblies, and preferably, two sets of winding wheel assemblies may be installed in the power assembly 102. The reel assembly is specifically described as follows:

as shown in fig. 18 to 20, the winding wheel assembly includes a winding wheel 30, a steel wire rope S and a worm wheel 32 engaged with the worm 11, a wire casing 31 for winding the steel wire rope S is provided on the winding wheel 30, the steel wire rope S includes an end Sa having a diameter larger than the wire diameter, a limiting groove 32a is provided on the back of the worm wheel 32, a channel 32b communicating the limiting groove 32a with the wire casing 31 is provided on the worm wheel 32, the end Sa of the steel wire rope S is placed on the limiting groove 32a, and the steel wire rope S is wound on the wire casing 31 of the winding wheel 30 after passing through the channel 32 b.

The utility model discloses a wire rope S 'S end Sa places on spacing groove 32a, and wire rope S passes around establishing on the wire casing 31 of take-up pulley 30 behind the passageway 32b, and wire rope S' S assembly structure, firm is difficult to drop

Regarding the fixing manner of the winding wheel 30 and the worm wheel 32, the winding wheel 30 and the worm wheel 32 may be assembled together by screws, or the winding wheel 30 and the worm wheel may be integrally injection-molded.

The worm wheel 32 has a diameter larger than that of the winding wheel 30; the reason is that the worm wheel 32 needs to be engaged with the worm 11 fixed at the output end of the motor 10 so as not to interfere the worm 11 with the winding wheel 30 and with two adjacent winding wheels 30.

The length of the limiting groove 32a is greater than that of the head Sa, the outer end of the limiting groove 32a is an inlet 32d, and the inner end of the limiting groove 32a is provided with a stopper 32c for limiting the head Sa to be disengaged.

During assembly, the steel wire rope S is firstly put in from the inlet 32d of the limiting groove 32a and then transversely moves to the inner end part of the limiting groove 32a, and the blocking part 32c is arranged at the inner end part of the limiting groove 32a, so that the end Sa of the steel wire rope S can be prevented from being separated from the limiting groove 32a during assembly of the steel wire rope S.

The shape of the head Sa is not limited to a specific shape, and may be a cylinder, a block or a sphere, and the main purpose is to limit the head Sa in the limiting groove 32 a.

As shown in fig. 21 to 25, the powertrain 102 further includes a motor driving module 130 and a resistance sensor 131, the MCU controller 20 receives the resistance signal from the resistance sensor 131, and the MCU controller 20 stops the operation of the dc motor V through the electronic switch 30 p.

The encounter resistance sensor 131: and detecting whether the steel wire rope S is loose, if the airing rod 103 descends, the steel wire rope S meets a resistance or the airing rod 103 is lifted, and if the steel wire rope S is loose, triggering a resistance meeting signal. The resistance sensor 131 may be a micro switch, a hall, an infrared, or the like.

The power assembly 102 further includes a rotation speed detection module 133 for detecting the rotation speed of the dc motor V, the MCU controller 20 receives the speed signal from the rotation speed detection module 133, and the MCU controller 20 controls the rotation speed of the dc motor V through the electronic switch 30 p.

The rotation speed detection module 133: the rotation signal of the motor rotating shaft is detected, and can be an infrared grating sensor or a Hall sensor.

If the detected speed is lower than the threshold value, the MCU controller 20 controls the rotation speed of the direct current motor V to be increased through the electronic switch 30 pp; if the detected speed is above the threshold, the MCU controller 20 decreases the rotational speed of the dc motor V via the electronic switch 30 pp.

The powertrain 102 further includes a remote control receiving module 134 connected to the MCU controller 20.

The power assembly 102 further comprises a worm gear structure and two winding wheels 30 wound with steel wire ropes S, and the direct current motor V is connected with the two winding wheels 30 through the worm gear structure.

The worm gear structure comprises a worm fixedly connected with the DC motor V and a worm wheel integrally formed on the winding wheel 30, and the worm is meshed with the worm wheel

The motor driving module 130 includes an MCU controller 20, a driving module 135, an electronic switch 30p, a dc motor V and a rectifying and filtering module 136, the MCU controller 20 drives the electronic switch 30p to switch to realize the forward and reverse rotation of the dc motor V through the driving module 135, and the commercial power is supplied to the dc motor V through the electronic switch 30p after passing through the rectifying and filtering module 136. A direct current motor V: the winding wheel 30 for winding and unwinding the steel wire rope S is driven to drive the airing rod 103 to lift.

MCU controller 20 drives electronic switch 30 p's switching in order to realize direct current motor V's positive and negative rotation through drive module 135, and the commercial power supplies power to direct current motor V through electronic switch 30p behind rectifier filter module 136, the utility model discloses a direct current motor V operation, dependable performance, and reducible manufacturing cost.

The MCU controller 20: the control signal input by the remote control receiving module 134, the electric signal input by the resistance sensor 131 and the rotating speed signal of the rotating speed detecting module 133 are received, the received rotating speed signal is analyzed and processed, if the rotating speed is greater than the set rotating speed, the motor is controlled to be decelerated through the electronic switch 30p, and if the rotating speed is less than the set rotating speed, the motor is controlled to be accelerated through the electronic switch 30 p.

The driving module 135: and receiving a control signal of the MCU controller 20, driving the electronic switch 30p, and controlling the electronic switch 30p to be opened and closed.

In the description of the present invention, it is also to be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "coupled" are to be construed broadly, e.g., as meaning fixedly attached, detachably attached, or integrally attached; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It is right above the utility model provides a line ball subassembly, take-up pulley device and power assembly have carried out detailed introduction, and it is right to have used specific individual example herein the utility model discloses a principle and implementation mode have been elucidated, and the explanation of above embodiment only is used for helping understanding the utility model discloses and core thought. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. The line ball subassembly, its characterized in that includes the pillar, roller bearing and the flexible line ball part with the integrative injection moulding of casing, the pillar distribute along vertical extension, the roller bearing rotationally the cover the pillar outside, line ball part fixed cover the roller bearing outside and can follow the roller bearing and rotate.

2. The punch assembly of claim 1 wherein said punch member is a silicone tube.

3. The clip assembly of claim 1 wherein said rollers are plastic rollers.

4. The clip assembly of claim 1 wherein said post has a stop root at one end and a stop washer at the other end and locked thereto by a screw, said stop root and stop washer cooperating to limit the movement of said roller and clip member from said post.

5. A wire winding wheel device, comprising a box body, a wire winding wheel and a wire pressing component according to any one of claims 1 to 4, wherein the wire winding wheel is arranged in the box body through a rotating shaft, the wire pressing component is arranged outside the wire winding wheel, and the wire pressing component is tightly attached to a steel wire rope wound on the wire winding wheel.

6. The reel device according to claim 5, wherein the housing comprises a housing bottom and a housing cover, and the upper and lower ends of the shaft are fitted with copper sleeves, the copper sleeves being provided at both ends of the reel.

7. A reel assembly according to claim 5, wherein the base of the housing is provided with a notch in one side thereof to allow the crimping member to be positioned in close proximity to the cord wound on the reel.

8. A power assembly comprising a dc motor and at least one take-up reel assembly according to claim 5, said dc motor driving said take-up reel via a worm and gear arrangement.

9. The powertrain according to claim 8, wherein the worm is coupled to an output shaft of the dc motor, and the worm wheel is disposed coaxially with the reel.

10. The locomotion assembly of claim 8, wherein the two symmetrical reel devices are distributed on one side of the motor.

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