CN117536516A - Wire wheel, glass driving assembly and single-arm glass lifter with same - Google Patents

Abstract

The invention relates to the field of glass lifters, in particular to a wire wheel, a glass driving assembly and a single-arm glass lifter using the driving assembly; the wheel comprises a wheel body, wherein a wire winding groove is formed in the side surface of the wheel body; the end part of the wheel body is provided with a inhaul cable sinking groove; the inhaul cable sinking groove is communicated with the outer side surface of the wheel body through a lateral groove; the inhaul cable sinking groove comprises an assembly groove; a clamping groove is formed in one side, close to the lateral groove, of the assembly groove; the assembly groove is communicated with the lateral groove through the clamping groove; according to the wire wheel disclosed by the invention, through optimizing the stay cable sinking groove structure, the assembly mode of the stay cable can be limited during assembly, so that the problem that the stay cable head and the wire wheel are not assembled in place is avoided.

Description

Wire wheel, glass driving assembly and single-arm glass lifter with same

Technical Field

The invention relates to the field of glass lifters, in particular to a wire wheel, a glass driving assembly and a single-arm glass lifter using the driving assembly.

Background

An automobile glass lifter is an important component part of a modern automobile, is installed in an automobile door, and mainly has the function of providing an automobile glass lifting function for a driver.

The automobile glass lifter mainly comprises a single-arm glass lifter and a double-arm glass lifter.

Whether the single arm glass lifter or the double arm glass lifter mainly comprises a sliding rail mechanism, a glass bracket assembly, a glass driving assembly, a steel wire rope assembly and a pulley mechanism.

Although the conventional glass lifter can realize normal lifting operation of glass, there are the following technical problems:

1. the problem that the inhaul cable head in the steel wire rope is not assembled in place easily occurs when the inhaul cable head is assembled, and then the steel wire rope is easily separated from the wire wheel when the inhaul cable head is used subsequently;

2. the assembly part of the steel wire rope and the wire wheel cover is lack of positioning, and the outer tube of the steel wire rope is easy to float;

3. the joint of the steel wire rope and the wire wheel cover is easy to wear; the service life of the steel wire rope is influenced;

4. the screw wheel cover and the driving motor structure lack the installation and positioning of assembly.

In order to solve or ameliorate at least one of the above problems, it is necessary to optimally design the structure or components of the existing glass lifter.

Disclosure of Invention

The invention aims to provide a novel wire wheel structure capable of avoiding the assembly of a inhaul cable head and a wire wheel.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the wire wheel for the glass comprises a wheel body, wherein a wire winding groove is formed in the side surface of the wheel body; the end part of the wheel body is provided with a inhaul cable sinking groove; the inhaul cable sinking groove is communicated with the outer side surface of the wheel body through a lateral groove;

the inhaul cable sinking groove comprises an assembly groove; a clamping groove is formed in one side, close to the lateral groove, of the assembly groove; the assembly groove is communicated with the lateral groove through the clamping groove.

The wire wheel is connected with a wire rope; the steel wire rope comprises an outer tube;

a pull rope is arranged in the outer tube; the end part of the inhaul cable is provided with an inhaul cable head;

the assembly steps of the steel wire rope on the wire wheel through the inhaul cable head are as follows:

the control inhaul cable head firstly enters the inhaul cable sinking groove along the direction parallel to the central axis of the wheel body through the assembly groove; after the inhaul cable head enters the assembly groove, the inhaul cable head rotates under the drive of the inhaul cable wire, and the inhaul cable head is controlled to enter the clamping groove by pulling the steel wire rope.

A glass drive assembly comprising a drive motor structure;

the output shaft of the driving motor structure is connected with a wire wheel; the driving motor structure is connected with a wire wheel cover, and the wire wheel cover is connected with the driving motor structure in a detachable connection mode.

The wire wheel cover comprises a cover body, and a wire wheel sinking groove is formed in the cover body; the cover body is also provided with a motor screw rod which is embedded in the screw wheel cover; the motor screw comprises a screw body, and an embedded block and an embedded plate are arranged at the end part of the screw body; the embedded plates and the embedded blocks are distributed at intervals;

when the motor screw is connected to the screw wheel cover, the end part of the embedded plate is flush with the end surface of the screw wheel cover; and limiting gear teeth are arranged on the outer side face of the embedded block.

The cover body is provided with an introduction groove which is communicated with the wire wheel sinking groove; the end of the introducing groove is provided with an outer tube limiting groove, and the inner diameter of the outer tube limiting groove is larger than that of the introducing groove.

A single arm glass lifter comprising a slide rail mechanism provided with a glass bracket assembly, the glass bracket assembly being connected with the glass drive assembly according to any one of claims 1 to 8; the glass driving assembly is connected with the glass bracket assembly through the steel wire rope assembly;

the glass lifter further comprises a pulley assembly, wherein the pulley assembly comprises a pulley arranged at the end part of the sliding rail; the steel wire rope in the steel wire rope assembly is connected with the glass driving assembly and the glass bracket assembly by bypassing the pulley.

The glass bracket assembly includes a glass bracket; the glass bracket comprises a bracket plate;

a wire clamping groove is formed in the bracket plate;

the wire clamping groove comprises an installation groove and an external groove; the mounting groove is communicated with the outer side of the bracket plate through the external groove.

The bracket plate is connected with the sliding rail mechanism through the clamping mechanism;

the clamping mechanism comprises a slideway groove arranged on the bracket plate; a limiting claw is arranged at the edge of the slideway slot, one end of the limiting claw is connected to the bracket plate, and the other end extends towards one side far away from the bracket plate; the limiting claw is obliquely arranged; and the limiting claw is partially overlapped with the horizontal projection of the slideway groove.

The end part of the sliding rail is provided with a wire buckle; the wire buckle comprises a buckle body, wherein a through hole is formed in the buckle body; the end part of the buckle body is provided with an assembly clamping groove; the buckle body is clamped at the end part of the sliding rail through the assembly clamping groove.

The steel wire rope assembly comprises a plurality of steel wire ropes; the steel wire rope comprises an outer tube;

a pull rope is arranged in the outer tube; the end part of the outer tube is provided with a protection mechanism; the protection mechanism comprises a metal rivet head arranged at the end part of the outer tube; a plastic bushing is arranged on the inner side of the metal rivet; the inhaul cable line penetrates through the plastic bushing and is connected with the metal rivet.

The invention has the advantages that:

the invention discloses a wire wheel, a glass driving assembly and a single-arm glass lifter using the driving assembly.

According to the wire wheel disclosed by the invention, through optimizing the stay cable sinking groove structure, the assembly mode of the stay cable can be limited during assembly, so that the problem that the stay cable head and the wire wheel are not assembled in place is avoided.

Through the structural optimization of the screw cap and the motor screw, not only can the position of the steel wire rope be limited, but also the outer protrusion and the end face of the screw cap under the action of the torque gun during the assembly of the motor screw can be avoided.

Meanwhile, the self structure of the steel wire rope is optimally designed, and the service life of the steel wire rope can be prolonged to a certain extent through the arrangement of the metal rivet.

Drawings

The following is a brief description of what is expressed in the various figures of the specification of the invention:

fig. 1 is a schematic structural view of a first view of a yarn wheel according to the present invention.

Fig. 2 is a schematic structural view of a second view of the yarn wheel according to the present invention.

Fig. 3 is a schematic view showing a structure of a glass lifter according to a first view angle of the present invention.

Fig. 4 is a schematic view showing a structure of a glass lifter according to a first view angle of the present invention.

Fig. 5 is a schematic view showing the structure of the glass lifter without the driving motor according to the present invention.

Fig. 6 is a schematic view of the structure of the glass lifter without the wire wheel cover according to the present invention.

Fig. 7 is a schematic view of the structure of the glass lifter without the slide rail mechanism.

Fig. 8 is a schematic structural view of a wire wheel cover in the present invention.

FIG. 9 is a schematic view of a first view of a glass bracket assembly according to the present invention.

Fig. 10 is an enlarged view of a partial structure of the region a in fig. 9.

FIG. 11 is a schematic view of a second view of a glass bracket assembly according to the present invention.

Fig. 12 is an enlarged view of a partial structure of a region B in fig. 11.

Fig. 13 is a schematic view of a partial structure of an end portion of a wire rope according to the present invention.

Fig. 14 is a schematic structural diagram of a wire buckle in the present invention.

Fig. 15 is a schematic view of the structure of the motor screw in the present invention.

Detailed Description

The following detailed description of the invention refers to the accompanying drawings, which illustrate preferred embodiments of the invention in further detail.

The invention discloses a wire wheel 12 for glass, which mainly discloses a wire wheel 12 structure for a single-arm glass lifter, and mainly comprises a wheel body 121; the wheel body 121 is a main supporting structure of the wire wheel 12, and when in actual connection, the wheel body 121 is connected to an output shaft of the driving motor structure 13 in the lifter; subsequent pulling of the cord 412 by winding; pulling of the wire rope 41 to the glass carrier 201 is achieved, and then the position of the glass is changed through the glass carrier 201, and then lifting operation of the glass is achieved.

Meanwhile, in the present invention, a wire winding groove 122 is provided on the side of the wheel body 121; the winding groove 122 is arranged to facilitate the winding operation of the inhaul cable 412, and the inhaul cable sinking groove 123 is arranged at the end part of the wheel body 121; the stay cable sinking groove 123 is arranged, so that the stay cable head 413 is conveniently limited in position, and then the connection between the steel wire rope 41 and the wire wheel 12 is realized; meanwhile, in the invention, the stay cable sinking groove 123 is communicated with the outer side surface of the wheel body 121 through the lateral groove 124; the lateral groove 124 plays an external communication role, so that the guy wire 412 is conveniently led into the wire wheel 12 from the side surface of the wire wheel 12, the convex arrangement of the guy wire 412 on the wire wheel 12 is avoided, and meanwhile, the guy sinking groove 123 comprises an assembling groove 1231 in the invention; the arrangement of the rotating and matching groove facilitates the penetration of the stay rope head 413 in the stay rope sinking groove 123, and the side of the assembling groove 1231, which is close to the lateral groove 124, is provided with a clamping groove 1232 in the invention; the clamping groove 1232 is arranged, so that the inhaul cable and the clamping groove 1232 are convenient to install and assemble; meanwhile, in the present invention, the fitting groove 1231 communicates with the lateral groove 124 through the catching groove 1232; the clamping groove 1232 plays a role in limiting the position, ensures the position stability of the cable head 413, and prevents the cable head 413 from being separated from the wire wheel 12.

Meanwhile, it should be noted here that the catching groove 1232 is provided on the side wall of the fitting groove 1231 in the present invention; the stay cable head 413 is partially inserted into the clamping groove 1232 during subsequent installation.

Further, in the present invention, a limiting chuck 1233 is disposed on the inner wall of the assembly groove 1231; in the invention, the limiting clamp 1233 plays a good end limiting role, so that the problem that the limiting clamp 1233 is separated from the clamping groove 1232 along the axial direction of the clamping groove 1232 is well avoided; in order to achieve the above technical effect better, in the present invention, it is required that the limiting chuck 1233 is disposed on the inner wall of the assembly groove 1231, and the limiting chuck 1233 and the clamping groove 1232 have partial projection overlapping in the axial direction of the clamping groove 1232; during actual production, the limiting clamp 1233 can be installed later or produced earlier, when the limiting clamp 1233 is installed later, the limiting clamp 1233 can be connected with the inner wall of the assembly groove 1231 in a clamping or gluing mode, and if the limiting clamp 1233 is produced earlier in an integrated mode, the existence of the limiting clamp 1233 is required to not influence the normal assembly of the inhaul cable head 413.

In the present invention, a wire rope 41 is connected to the wire wheel 12; the wire rope 41 includes an outer tube 411; a pull cord 412 is arranged in the outer tube 411; the end part of the guy cable wire 412 is provided with a guy cable head 413; the assembly steps of the steel wire rope 41 on the wire wheel 12 through the inhaul cable head 413 are as follows: the control cable head 413 firstly enters the cable sinking groove 123 through the assembly groove 1231 along the direction parallel to the central axis of the wheel body 121; after the cable head 413 enters the assembly groove 1231, the cable head 413 rotates under the drive of the cable wire 412, and then the cable head 413 is controlled to enter the clamping groove 1232 by pulling the steel wire rope 41; based on such assembly methods, can guarantee that cable head 413 can stably assemble in joint groove 1232, guarantee that the assembly of cable head 413 is in place, avoid traditional cable head 413 only locally to articulate in the marginal position of cable sinking groove 123 and make the cable break away from wire wheel 12 when the follow-up use to influence glass's normal lift operation.

The glass driving assembly 1 mainly comprises a driving motor structure 13, wherein the glass driving assembly 1 is mainly a glass lifting driving assembly; the driving motor mainly provides driving force, and when in actual use, the driving motor controls the wire wheel 12 to rotate, and the wire wheel 12 drives the wire rope 41 to rotate and wind; thereby driving the glass bracket assembly 2 to move and finally realizing the pulling operation of the glass; in the actual connection, the output shaft of the driving motor structure 13 is required to be connected with a wire wheel 12 in the invention; the driving motor structure 13 can drive the wire wheel 12 to rotate, meanwhile, in the invention, the driving motor structure 13 is connected with the wire wheel cover 11, the wire wheel cover 11 plays an external protection role, and meanwhile, the connection of the glass driving assembly 1 on the whole vehicle or the sliding rail 3-1 is also convenient; in addition, in the invention, the wire wheel cover 11 is connected with the driving motor structure 13 in a detachable connection mode; the detachable connection mode is generally a screw connection mode, however, in practical design, other detachable connection modes such as a buckle can be also selected, meanwhile, in the invention, the wire wheel cover 11 comprises a cover body 111, the cover body 111 is a main body structure of the wire wheel cover 11, and a wire wheel sink 112 is arranged on the cover body 111; the silk wheel sink groove 112 is arranged, so that the silk wheel 12 is conveniently installed and assembled on the silk wheel cover 11, and meanwhile, the cover body 111 is also provided with the motor screw 114, and the motor screw 114 is embedded in the silk wheel cover 11; the arrangement of the motor screw 114 mainly plays a role in subsequent connection, and facilitates subsequent connection and assembly of the driving motor structure 13 and adjacent components.

Further, in the present invention, the motor screw 114 includes a screw body 1141, and an insert block 1143 and an insert plate 1142 are disposed at an end of the screw body 1141; the embedded plates 1142 and the embedded blocks 1143 are distributed at intervals; the motor screw 114 is provided with the embedded block 1143 and the embedded plate 1142, and the two parts are designed at intervals, so that the motor screw 114 forms a ladder structure, and the arrangement is such that the motor screw 114 is provided with a multiple connection structure when being connected with the screw cap 11, and the situation that the embedded plate 1142 protrudes out of the screw cap 11 to be arranged due to the fact that the motor screw 114 is pulled out of the screw cap 11 during subsequent assembly can be avoided, so that the connection part of the motor screw 114 and the screw cap 11 is not flush to influence the abutting joint and fitting with adjacent parts; meanwhile, in the present invention, when the motor screw 114 is connected to the screw cap 11, the end of the embedded plate 1142 is flush with the end surface of the screw cap 11; by the arrangement, the joint of the motor screw 114 and the screw cap 11 can be guaranteed to have a flush flat surface, so that the screw body 1141 can be conveniently penetrated and connected to the adjacent part, the screw cap 11 can be attached to the side surface of the adjacent part, a good calibration and limit effect is achieved, and meanwhile, limit gear teeth 1144 are arranged on the outer side surface of the embedded block 1143; the limiting gear teeth 1144 play a good role in limiting and limiting, and ensure the stability of connection between the screw cap 11 and the motor screw 114.

Meanwhile, in actual production, the motor screw 114 can be produced by machining, so that the production cost is low.

Further, in the present invention, the screw cap 11 is provided with a motor fixing portion, the motor fixing portion includes a fixing hole provided on the cap 111, the motor fixing portion facilitates connection between the driving motor and the screw cap 11, and a calibration portion is provided at an edge of the fixing hole; the calibration part comprises an arc-shaped positioning plate 113 arranged on the cover body 111; and the arc locating plate 113 is arranged at the edge of the fixing hole, and when in subsequent use, the arc locating plate 113 is attached to the side face of the motor shell, so that a good calibration limiting effect is achieved, and the driving motor is prevented from transversely moving on the screw cap 11.

Further, in the present invention, the cover 111 is provided with the introducing groove 115, and the introducing groove 115 facilitates the wire rope 41 to be introduced into the wire wheel sink groove 112, and the introducing groove 115 is communicated with the wire wheel sink groove 112; so as to facilitate the connection of the wire rope 41 with the wire wheel 12 through the wire wheel cover 11, and meanwhile, the end part of the introducing groove 115 is provided with an outer tube limiting groove 116 in the invention, and the inner diameter of the outer tube limiting groove 116 is larger than that of the introducing groove 115; by such a design, the outer tube defining groove 116 forms a stepped stage with the introduction groove 115; the end of the outer tube 411 of the wire rope 41 can be limited in the subsequent use, so that the end of the wire rope 41 is limited conveniently; the stability of the arrangement of the wire rope 41 on the wire wheel cover 11 is ensured.

The single-arm glass lifter comprises a sliding rail mechanism 3, wherein a glass bracket assembly 2 is arranged on the sliding rail mechanism 3, and the glass bracket assembly 2 is connected with the glass driving assembly 1; the glass driving assembly 1 is connected with the glass bracket assembly 2 through the steel wire rope assembly 4; the sliding rail mechanism 3 plays a role in guiding, so that the glass bracket assembly 2 is conveniently guided, meanwhile, the glass bracket assembly 2 is conveniently connected with the window glass, the glass can conveniently move up and down under the drive of the glass driving assembly 1, and then the glass can be opened and closed; meanwhile, the arrangement of the steel wire rope assembly 4 mainly plays a good connection role, and the final purpose is to realize power transmission and facilitate the driving control of the glass driving assembly 1 on the glass bracket assembly 2.

In actual design, the design is based on different design requirements.

The number of the sliding rail 3-1 in the sliding rail mechanism 3, the glass bracket 201 in the glass bracket assembly 2 and the steel wire rope 41 in the steel wire rope assembly 4 is selected according to the requirement; finally, the single-arm glass lifter or the double-arm glass lifter is formed according to the requirement.

Further, the glass bracket assembly 2 includes a glass bracket 201 in the present invention; the arrangement of the glass bracket 201 facilitates the connection between the glass and the lifter, and in addition, the glass bracket 201 comprises a bracket plate 21 in the present invention; the bracket plate 21 is a main body structure of the glass bracket 201, so that the arrangement and placement of glass on the sliding rail mechanism 3 are facilitated; meanwhile, a wire clamping groove 23 is arranged on the bracket plate 21 in the invention; the arrangement of the wire clamping grooves 23 is mainly used for connecting corresponding steel wire ropes 41, so that the connection between the steel wire ropes 41 and the glass bracket 201 is realized, two wire clamping grooves 23 are arranged on the bracket plate 21 in actual connection, the two wire clamping grooves 23 are oppositely arranged, and in specific use, one wire clamping groove 23 is connected with the end part of one steel wire rope 41, and the two steel wire ropes 41 are arranged in an intersecting manner; based on such an arrangement, the glass bracket assembly 2 is conveniently driven by the glass driving assembly 1 to reciprocate on the slide rail mechanism 3.

In addition, the slot 23 includes a mounting slot 231 and an external slot 232; the mounting groove 231 is communicated with the outer side of the bracket plate 21 through an external groove 232; the installation of the installation groove 231; the arrangement and placement of the steel wire ropes 41 in the mounting grooves 231 are facilitated, and meanwhile, the arrangement of the external grooves 232 facilitates the introduction of the steel wire ropes 41 into the mounting grooves 231, so that the influence on the stable arrangement of the steel wire ropes 41 due to the arrangement of the steel wire ropes 41 outside the bracket plates 21 is avoided.

Further, in the present invention, a limiting protrusion 233 is provided on the inner wall of the installation groove 231; the outer side surface of the limit bulge 233 is in an outer arc shape; with such a design, the cable head 413 at the end of the wire rope 41 can be end-limited, and the wire rope 41 is prevented from coming out of the mounting groove 231.

Further, in the present invention, the side surface of the bracket plate 21 is provided with a lead block 24 near the external slot 232; the lead block 24 plays a good limiting role, and can assist the wire rope 41 to be led into the corresponding external groove 232, so as to avoid the wire deviation of the wire rope 41; meanwhile, in the invention, one lead block 24 is respectively arranged at the edges of the two external grooves 232, and the two lead blocks 24 are arranged in a dislocation manner; the two steel wire ropes 41 can be led in a staggered way, so that friction caused by relative movement of the steel wire ropes 41 during action is avoided.

Further, in the present invention, a limiting guide groove 241 is provided on the lead block 24; the limiting guide groove 241 plays a good penetration limiting role, in other words, through the arrangement of the limiting guide groove 241, one role is to facilitate the wire rope 41 to penetrate through the lead block 24, and the other role is to play a good limiting role of the limiting guide groove 241, so that the wire rope 41 is prevented from deviating in threading; meanwhile, the trend of the steel wire rope can be limited, and when the steel wire rope is prevented from swinging too much in the wire clamping groove.

Further, in the present invention, the bracket plate 21 is connected to the slide rail mechanism 3 through a clamping mechanism 22; the clamping mechanism 22 is arranged, so that the bracket plate 21 is convenient to connect with the sliding rail mechanism 3; specifically, the clamping mechanism 22 in the present invention includes a slide groove 221 provided on the bracket plate 21; the slide groove 221 plays a good role in limiting and guiding, and is convenient for assembling and guiding the bracket plate 21 and the slide rail 3-1 in the slide rail mechanism 3, meanwhile, the edge of the slide groove 221 is provided with a limiting claw 222, one end of the limiting claw 222 is connected to the bracket plate 21, and the other end extends towards the side far away from the bracket plate 21; the limiting claw 222 is obliquely arranged; the limiting claw 222 is partially overlapped with the horizontal projection of the slideway groove 221; based on such a setting, the limiting claw 222 and the slideway slot 221 are positioned on two sides of the slideway 3-1 in the slideway mechanism 3, which plays a good role in limiting and preventing the bracket plate 21 from being separated from the slideway 3-1 along the direction vertical to the slideway 3-1.

Further, in the present invention, the sliding groove 221 is provided with a pressing rocker 223; the arrangement of the extrusion rocker 223 plays a good side limiting role, and the extrusion rocker 223 and the limiting jaws 222 are distributed on two opposite sides of the sliding rail 3-1 in actual use, and based on the design, one end of the extrusion rocker 223 is connected with the inner wall of the sliding rail groove 221, and the other end of the extrusion rocker is freely extended; by the arrangement, the extruding rocker 223 has good self-deformation capability, so that the extruding operation of the sliding rail 3-1 is facilitated, the mutual extrusion limiting between the bracket plate 21 and the sliding rail 3-1 is facilitated, and meanwhile, the extruding rocker 223 is an arc-shaped plate in the invention; this arrangement provides the pinch rocker 223 with better deformability; the stability of connection between the slide rail and the glass bracket can be better ensured.

Further, the sliding rail mechanism 3 comprises a sliding rail 3-1; the slide rail 3-1 is mainly used for placing a bracket plate 21 and guiding the up-and-down running track of the glass; specifically, in the present invention, the sliding rail 3-1 includes a base plate 31, and a rail flange 32 is provided on a side surface of the base plate 31; in the invention, a base plate 31 and a guide rail flange 32 are arranged in an intersecting way, and the guide rail flange 32 is connected with a clamping mechanism 22 in a bracket assembly; in the invention, the base plate 31 is a main plate structure of the sliding rail 3-1, and the guide rail flange 32 is mainly matched with the clamping mechanism 22 on the bracket plate 21, so that the guide rail disclosed by the invention can be connected with the bracket plate 21 and is convenient for guiding the operation of the bracket plate 21 in the subsequent operation based on the design.

Furthermore, in the invention, the end part of the sliding rail 3-1 is provided with a wire buckle 6; the wire buckle 6 of the invention is arranged to play a good role in connection and guiding, and in particular, the wire buckle 6 in the invention comprises a buckle body 61, and the buckle body 61 is provided with a through hole 63; the through hole 63 is arranged, so that the steel wire rope 41 can be conveniently connected in a through way, the outer tube of the steel wire rope 41 is limited in position, and meanwhile, the end part of the buckle body 61 is provided with an assembly clamping groove 63; the buckle body 61 is clamped at the end part of the sliding rail 3-1 through the assembly clamping groove 63; the arrangement of the assembly clamping groove 63 facilitates the connection between the wire buckle 6 and the sliding rail 3-1, and the wire buckle 6 can limit the position of the steel wire rope 41, control the jump of the steel wire rope 41, ensure the stability of the position of the steel wire rope during use and simultaneously avoid the steel wire rope 41 from being separated from the pulley 51.

Further, in the present invention, the slide rail 3-1 is provided with a detection groove 33; the detection groove 33 corresponds to the corresponding steel wire rope 41, and in the subsequent use process, the steel wire rope 41 can be extruded through the detection groove 33 by a detection rod with a specific fixed load, and the tension of the steel wire rope 41 can be detected by detecting the displacement of the steel wire rope 41.

Further, the glass lifter further comprises a pulley assembly 5, the arrangement of the pulley assembly 5 facilitates the running guiding and steering of the steel wire rope 41, and particularly, the pulley assembly 5 comprises a pulley 51 arranged at the end part of the sliding rail 3-1; the steel wire rope 41 in the steel wire rope assembly 4 is connected with the glass driving assembly 1 and the glass bracket assembly 2 by winding around the pulley 51; the pulley 51 plays a role in winding and steering the steel wire rope 41, and facilitates the subsequent reciprocating movement of the glass bracket assembly 2 on the sliding rail mechanism 3 under the drive of the glass driving assembly 1.

Further, the steel wire rope assembly 4 comprises a plurality of steel wire ropes 41; each of the wire ropes 41 includes an outer tube 411; a pull cord 412 is arranged in the outer tube 411; the end part of the outer tube 411 is provided with a protection mechanism; the protection mechanism comprises a metal rivet 414 arranged at the end part of the outer tube 411; a plastic lining 415 is arranged on the inner side of the metal rivet head 414; the cable wire 412 is connected with the metal rivet 414 through the plastic bushing 415; in the invention, the outer tube 411 is clamped with the plastic bushing 415 and then riveted with the metal rivet 414; the pull wire 412 penetrates from the outer tube 411 and slides freely; the steel wire rope 41 is assembled on the glass lifter after being assembled, the steel wire rope 41 drives the glass bracket 201 to slide up and down, glass is assembled on the glass bracket 201, and the glass slides up and down along with the glass bracket 201, so that the glass is lifted; the invention rivets with the outer tube 411 by adding a metal rivet 414; the performance of the metal piece is little degraded at high temperature, and the outer tube 411 of the steel wire rope 41 cannot penetrate through the wire wheel cover 11 to fail in the durable process; meanwhile, in order to prevent the wire rope 41 and the metal rivet 414 from generating scraping abnormal sound, a plastic bushing 415 is additionally arranged between the metal head and the outer tube 411, so that the wire rope 41 is prevented from being in direct contact with the metal rivet 414; abnormal sound can be eliminated to a certain extent.

It is obvious that the specific implementation of the present invention is not limited by the above-mentioned modes, and that it is within the scope of protection of the present invention only to adopt various insubstantial modifications made by the method conception and technical scheme of the present invention.

Claims (10)

1. The wire wheel for the glass is characterized by comprising a wheel body, wherein a wire winding groove is formed in the side surface of the wheel body; the end part of the wheel body is provided with a inhaul cable sinking groove; the inhaul cable sinking groove is communicated with the outer side surface of the wheel body through a lateral groove;

the inhaul cable sinking groove comprises an assembly groove; a clamping groove is formed in one side, close to the lateral groove, of the assembly groove; the assembly groove is communicated with the lateral groove through the clamping groove.

2. A wire wheel for glass according to claim 1, wherein the wire wheel is connected with a wire rope; the steel wire rope comprises an outer tube;

a pull rope is arranged in the outer tube; the end part of the inhaul cable is provided with an inhaul cable head;

the assembly steps of the steel wire rope on the wire wheel through the inhaul cable head are as follows:

the control inhaul cable head firstly enters the inhaul cable sinking groove along the direction parallel to the central axis of the wheel body through the assembly groove; after the inhaul cable head enters the assembly groove, the inhaul cable head rotates under the drive of the inhaul cable wire, and the inhaul cable head is controlled to enter the clamping groove by pulling the steel wire rope.

3. A glass drive assembly according to any of claims 1 to 2, comprising a drive motor arrangement;

the output shaft of the driving motor structure is connected with a wire wheel; the driving motor structure is connected with a wire wheel cover, and the wire wheel cover is connected with the driving motor structure in a detachable connection mode.

4. A glass drive assembly according to claim 3, wherein the wire wheel cover comprises a cover body provided with a wire wheel sink; the cover body is also provided with a motor screw rod which is embedded in the screw wheel cover; the motor screw comprises a screw body, and an embedded block and an embedded plate are arranged at the end part of the screw body; the embedded plates and the embedded blocks are distributed at intervals;

when the motor screw is connected to the screw wheel cover, the end part of the embedded plate is flush with the end surface of the screw wheel cover;

and limiting gear teeth are arranged on the outer side face of the embedded block.

5. A glass drive assembly according to claim 3, wherein the cover is provided with an inlet slot, the inlet slot being in communication with the wire wheel sink slot; the end of the introducing groove is provided with an outer tube limiting groove, and the inner diameter of the outer tube limiting groove is larger than that of the introducing groove.

6. A single-arm glass lifter comprising a slide rail mechanism, wherein a glass bracket assembly is arranged on the slide rail mechanism, and the glass bracket assembly is connected with the glass driving assembly according to any one of claims 1 to 8; the glass driving assembly is connected with the glass bracket assembly through the steel wire rope assembly;

the glass lifter further comprises a pulley assembly, wherein the pulley assembly comprises a pulley arranged at the end part of the sliding rail; the steel wire rope in the steel wire rope assembly is connected with the glass driving assembly and the glass bracket assembly by bypassing the pulley.

7. The single arm glass lifter of claim 6 wherein the glass bracket assembly includes a glass bracket; the glass bracket comprises a bracket plate;

a wire clamping groove is formed in the bracket plate;

the wire clamping groove comprises an installation groove and an external groove; the mounting groove is communicated with the outer side of the bracket plate through the external groove.

8. The single arm glass lifter of claim 7 wherein the bracket plate is connected to the rail mechanism by a snap-fit mechanism;

the clamping mechanism comprises a slideway groove arranged on the bracket plate; a limiting claw is arranged at the edge of the slideway slot, one end of the limiting claw is connected to the bracket plate, and the other end extends towards one side far away from the bracket plate;

the limiting claw is obliquely arranged; and the limiting claw is partially overlapped with the horizontal projection of the slideway groove.

9. The single arm glass lifter of claim 6 wherein the rail ends are provided with wire catches; the wire buckle comprises a buckle body, wherein a through hole is formed in the buckle body; the end part of the buckle body is provided with an assembly clamping groove; the buckle body is clamped at the end part of the sliding rail through the assembly clamping groove.

10. The single arm glass lifter of claim 6 wherein the wire rope assembly includes a plurality of wire ropes therein; the steel wire rope comprises an outer tube;

a pull rope is arranged in the outer tube; the end part of the outer tube is provided with a protection mechanism; the protection mechanism comprises a metal rivet head arranged at the end part of the outer tube; a plastic bushing is arranged on the inner side of the metal rivet; the inhaul cable line penetrates through the plastic bushing and is connected with the metal rivet.