CN207016433U - A kind of telescopic drive assembly device and lifting column - Google Patents

Abstract

The utility model discloses a kind of telescopic drive assembly device,Belong to transmission device field,Solve existing electric lifting vertical column and be driven unstable technical problem,The technical scheme for solving the problem is mainly provided with external screw thread hollow mandrel including outer wall,Drive screw in hollow mandrel,First sleeve provided with the first transmission nut and the second sleeve pipe being set in outside first sleeve,The drive screw can drive hollow mandrel synchronous rotary and drive screw axially opposed can stretch with hollow mandrel,External screw thread and the first transmission nut screw thread on hollow mandrel coordinate,Drive screw and the second transmission nut screw thread coordinate,Hollow mandrel rotatably positions in the axial direction with the second transmission nut,The invention also discloses a kind of lifting column with the drive assembly device,The lifting process of the lifting column is more stable,Noise is lower,And the life-span is higher.

Description

A kind of telescopic drive assembly device and lifting column

Technical field

The utility model belongs to transmission device field, vertical more particularly to a kind of telescopic drive assembly device and lifting Post.

Background technology

Electric lifting vertical column is widely used in the fields such as household, medical treatment, and the body of existing electric lifting vertical column is general Including be set with successively from inside to outside inner tube, middle pipe, outer tube, the drain pan being fixedly connected with inner tube upper end, be arranged in drain pan Drive device and with drive device transmission with drive assembly device, in order that the stroke of electric lifting vertical column is as far as possible Greatly, drive assembly device therein is usually disposed as drive screw and the hollow screw being set in together, and by inner tube With transmission nut is set respectively in middle pipe, be allowed to be coordinated with drive screw and hollow screw, so as to realize inner tube, middle pipe and The relative telescopic of outer tube.

This drive assembly device can conduct power to inner tube and middle pipe, in the feelings of electric lifting vertical column discontinuity Under condition, cause to produce extruding between inner tube, the tube and the outer tube, cause the transmission of electric lifting vertical column unstable, more seriously The life-span of electric lifting vertical column can be shortened.

Utility model content

Technical problem to be solved in the utility model is just to provide a kind of lifting column, solves existing electric up-down and stands Post is driven unstable technical problem.

In order to solve the above technical problems, the utility model adopts the following technical scheme that：

A kind of telescopic drive assembly device, including：

Hollow mandrel, its outer wall are provided with external screw thread；

Drive screw, it is located in hollow mandrel, and the drive screw can drive hollow mandrel synchronous rotary and drive screw Axially opposed it can be stretched with hollow mandrel；

First sleeve, it is provided with the first transmission nut, external screw thread and the first transmission nut screw thread on the hollow mandrel Coordinate；

Second sleeve pipe, it is set in outside first sleeve, and second sleeve pipe is provided with the second transmission nut, the drive screw Coordinate with the second transmission nut screw thread, the hollow mandrel rotatably positions in the axial direction with the second transmission nut.

Further, the drive screw has drive end, and the drive end is non-cylindrical configuration, the hollow mandrel tool There is not rounded endoporus, non-cylindrical configuration is adapted to not rounded endoporus so that drive screw transmits driving force to hollow mandrel.

Further, the upper end fixed cover of the hollow mandrel is equipped with clutch shaft bearing, and the clutch shaft bearing is firmly fixed In on the second transmission nut.

Further, the first sleeve and the second sleeve pipe are non-round, and first transmission nut is connected in first The upper end of sleeve pipe, second transmission nut are connected in the upper end of the second sleeve pipe.

The invention also discloses a kind of lifting column, including be set with successively from inside to outside inner tube, middle pipe, outer tube, The drain pan that is fixedly connected with inner tube upper end, the drive device being arranged in drain pan and total with transmission that drive device transmission coordinates Into device, the drive assembly device be above-mentioned any one technical scheme described in drive assembly device, the drive device It is driven and coordinates with drive screw, the outer tube lower end is provided with bottom plate, and the lower end of the first sleeve is held in bottom plate, and described second Sleeve pipe drives middle pipe lifting.

Further, the lower end of second sleeve pipe is connected with fixed block, and the fixed block is convex with radially extending Edge, the convex edge are located at the underface of middle tube wall.

Further, the drive device includes motor, the worm screw being connected on motor output shaft, is fixed on motor case On housing and the worm gear that is arranged in housing, the worm screw stretch into housing and coordinate with worm-drive, the worm gear is provided with Upper profiled holes, the drive screw have input, and the input is configured to the special-shaped body of rod, and the special-shaped body of rod sequentially passes through Coordinate after drain pan and housing with profiled holes.

Further, second bearing and 3rd bearing are equipped with the housing, two end faces up and down of the worm gear are equal Bearing position provided with protrusion, the second bearing are assemblied on a bearing position, and the 3rd bearing is assemblied in another bearing On position, the profiled holes are configured to run through two bearing positions.

Further, fixed plate and rubber blanket are provided with the drain pan, the fixed plate is located at the lower section of housing, described Rubber blanket be located at fixed plate lower section or fixed plate and housing between and fixed plate below be equipped with rubber blanket, the shell Body, fixed plate and rubber blanket lock onto drain pan by bolt.

Further, the drive screw is set with fourth bearing, and the fourth bearing is located at the lower section of input, described The upper end of fixed plate is provided with the groove of accommodating fourth bearing.

Further, the drive screw is set with mounting seat, and the mounting seat is located at the lower section of fixed plate, the installation Torsion spring is set with seat, the torsion spring has pin, the pin and fixed plate clamping.

Further, the lower end of the first sleeve is provided with end cap, and the end cap is connected in the lower end of first sleeve, described End cap is bolted to connection with bottom plate.

The beneficial effects of the utility model are：

1. in drive assembly device of the present utility model, drive screw can drive the second transmission nut with passing when rotating Relative displacement occurs for dynamic screw rod, and the second transmission nut is fixed with the second sleeve pipe, therefore drives the second sleeve pipe during drive screw rotation Linear movement is done, the relative displacement that the second sleeve pipe occurs relative to drive screw is fixed tentatively as L1；At the same time, drive screw rotates When can drive hollow mandrel synchronous axial system, when hollow mandrel rotates, the first transmission nut can be driven to occur with hollow mandrel relative Displacement, because the first transmission nut is connected with first sleeve, relative displacement occurs equivalent to hollow mandrel and first sleeve, in The relative displacement that hollow shaft occurs with first sleeve is fixed tentatively as L2；Because hollow mandrel and the first transmission nut are rotatable sides Formula axially position, rotatably axially position refer to only rotating between hollow mandrel and the second transmission nut, but It is to move axially, therefore means that the position in the axial direction of hollow mandrel and the second sleeve pipe is relatively fixed, so See on the whole, for drive screw when rotating, the relative displacement occurred between first sleeve and drive screw is L1+L2, so Structure design, for traditional single transmission nut, be equally drive screw rotate one circle on the premise of, this practicality The displacement that first sleeve in new occurs is bigger, therefore it is the utility model has the advantage of in the unit interval, first sleeve Lifting faster；In addition, driving force produced by drive screw and hollow mandrel is applied in first sleeve and the second sleeve pipe, After drive assembly device is assemblied in lifting column, the inner tube, the tube and the outer tube of lifting column only can be driven by axial direction Power, therefore, the inner tube, the tube and the outer tube of lifting column will not produce the extruding force of radial direction, can thus make lifting column Lifting becomes highly stable, significantly reduces the noise in lifting process, lifting column can obtain the higher life-span；

2. hollow mandrel is by the way that the clutch shaft bearing being set with an upper portion thereof is installed on the second transmission nut, in being realized with this Hollow shaft and the positioning of the second transmission nut in the axial direction, have been achieved in that hollow mandrel and the second sleeve pipe synchronization lifting, and Because the supporting role of the second transmission nut can ensure that hollow mandrel rotation is more stable, clutch shaft bearing and the second transmission nut Mounting structure it is also compacter；

3. because first sleeve and the second sleeve pipe are non-round, can active balance drive screw and hollow mandrel be driven During apply to the revolving force in first sleeve and the second sleeve pipe, make drive assembly device driving process it is more stable can Lean on, and the first transmission nut and first sleeve and the second transmission nut and the second sleeve pipe are installed by clamping, with respect to screw The mode of installation, structural strength, reliability and production and assembly efficiency can be greatly improved, in addition, first sleeve and second set Installation is generally fixed according to circular tube structure, the first transmission nut and the second transmission nut in pipe in the form of threaded connection, This mounting means easily in the rotary course of drive screw and hollow mandrel, causes the first transmission nut and second to be driven spiral shell Mother gets loose, and first sleeve and the second sleeve pipe use not rounded tubular construction, then can avoid this influence, ensures the first transmission The relatively reliable stabilization of installation of nut and the second transmission nut；

4. lifting column of the present utility model employs the drive assembly device of above-mentioned advantage, by the second casing part Outer wall on fixed block is set, and middle pipe is driven with the convex edge on fixed block, promotes the bottom plate of outer tube with the second casing part To realize the lifting of inner tube, structure closely, and carries out power conduction in the axial direction so that the reliability of transmission significantly carries Rise, therefore, for lifting column in telescopic process, inner tube, the tube and the outer tube are subjected only to axial force, interior without producing radial load The problem of mutually extruding is not present in pipe, middle pipe and outer tube；

5. motor, housing and worm gear can be assembled completion in advance by drive device used by lifting column of the present utility model Afterwards, it is reloaded into drain pan, is greatly improved the production efficiency of lifting column, and profiled holes and biography by being set on worm gear The special-shaped body of rod set on dynamic screw rod realizes power transmission, at utmost simplifies the part of drive connection, power transmission can It is obviously improved by property；

6. the worm gear in drive device is fixed by second bearing and 3rd bearing respectively in upper and lower part, can obtain more High transmission efficiency, driveability are more stable；

7. by setting rubber blanket between fixed plate and drain pan, the connection between the housing and drain pan of drive device is set to be It is flexible coupling, therefore, the housing of drive device allows to produce slight angle adjustment, can active balance drive device and drain pan assembling Concentricity, the equipped straightness error of error and drive screw in itself, avoid stress concentration, greatly improve The reliability of lifting column transmission, while also effectively reduce caused resonance noise between drive device and drain pan；

8. drive screw is installed in fixed plate by will be set with fourth bearing at an upper portion thereof, come realize drive screw with The positioning of fixed plate in the axial direction, it is ensured that the more stable rotation of middle drive screw, and cause fourth bearing and fixed plate Mounting structure it is compacter, it is often more important that, bottom is installed on by bolt in the housing of drive device, fixed plate and rubber blanket In the assembling process of shell, fourth bearing can be compressed by housing simultaneously, can thus simplify the assembly technology of lifting column, carry High efficiency；

9. due to being provided with mounting seat and torsion spring on drive screw, for torsion spring by pin and fixed plate clamping, torsion spring can be with Twisting resistance is applied to drive screw during lifting column decline, realizes the work(that self-locking is produced during the unpowered input of drive screw Energy；

10. the lower end of first sleeve carries out bolt fastening by end cap and bottom plate, first sleeve can be made to apply to outer tube The process of driving force is more reliable and more stable, and the mode of end cap sleeving and riveting is fixed in first sleeve, is fixed without screw, greatly Improve structural strength, reliability and production and assembly efficiency.

Particular technique effect of the present utility model will be further described in a specific embodiment.

Brief description of the drawings

The utility model is described further below in conjunction with the drawings and specific embodiments：

Fig. 1 is the exploded perspective view of drive assembly device in the utility model the first embodiment；

Fig. 2 is the exploded perspective view of lifting column in second of embodiment of the utility model；

Fig. 3 is the sectional view of lifting column in second of embodiment of the utility model；

Fig. 4 is the explosive view of drive device in second of embodiment of the utility model；

Fig. 5 is the partial enlarged drawing of a-quadrant in Fig. 3.

Embodiment

Specific embodiment of the present utility model is elaborated below in conjunction with the accompanying drawings.

Embodiment one：

As shown in figure 1, a kind of telescopic drive assembly device, including hollow mandrel 1, drive screw 2, first sleeve 3 With the second sleeve pipe 4, the outer wall of hollow mandrel 1 is provided with external screw thread 11, and drive screw 2 is located in hollow mandrel 1, drive screw 2 With drive end, the drive end is non-cylindrical configuration, and hollow mandrel 1 has not rounded endoporus, and non-cylindrical configuration is fitted with not rounded endoporus With so that drive screw 2 transmits driving force and drives hollow mandrel synchronous rotary to hollow mandrel 1 so as to drive, in the present embodiment In, it is preferred to use non-cylindrical configuration be that the bottom for being located at drive screw 2 is provided with convex key 21, not rounded endoporus is hollow mandrel 1 The endoporus that is formed of keyway 12 is provided with inwall, convex key 21 to be engaged by clamping with keyway 12, and then realize drive screw 2 with it is hollow The power transmission of mandrel 1, but non-cylindrical configuration and not rounded endoporus are not limited thereto structure or such as D types bar and D types The cooperation in hole and the cooperation of polygon bar and polygonal hole etc., as long as the rotation of drive screw 2 and hollow mandrel 1 can be realized The non-cylindrical configuration of the transmission of power and not rounded endoporus, specific structure be not impossible to exhaust in this embodiment.

Wherein, the top of first sleeve 3 is connected with the first transmission nut 31, the external screw thread 11 and first on hollow mandrel 1 The screw thread of transmission nut 31 coordinates, and the second sleeve pipe 4 is set in outside first sleeve 3, and the top of the second sleeve pipe 4 is connected with the second transmission Nut 41, the screw thread of 2 and second transmission nut of drive screw 41 coordinate, and hollow mandrel 1 is rotatably driven spiral shell with second Mother 41 positions in the axial direction, that is to say, that hollow mandrel 1 can rotate relative to the second transmission nut 41, but can not be in the axial direction Moved relative to the second transmission nut 41.

This rotatably simultaneously axially position is mainly realized by bearing, and suit is fixed in the upper end of hollow mandrel 1 There is clutch shaft bearing 13, clutch shaft bearing 13 is fixedly installed on the second transmission nut 41, and specific mounting structure is preferably, in The upper end axial plane of hollow shaft 1 is provided with Step Shaft, and clutch shaft bearing 13 is sleeved on Step Shaft, and Step Shaft is provided with groove 1a, groove Jump ring 13a is embedded with 1a, jump ring 13a prevents clutch shaft bearing 13 from deviating from from the Step Shaft of hollow mandrel 1, the second transmission nut 41 inwalls are provided with the inside groove of installation clutch shaft bearing 13, and the lower section of the second transmission nut 41 is provided with installation sheet 41a, installation sheet 41a is located at the lower section of clutch shaft bearing 13, and installation sheet 41a has the through hole 41b passed through for hollow mandrel 1, filled in clutch shaft bearing 13 After the inside groove for entering the second transmission nut 41, the lower end of installation sheet 41a and the second transmission nut 41 is fixed by screw 41c and connected Connect, now, installation sheet 41a can form the accommodation space installed for clutch shaft bearing 13 with the inside groove of the second transmission nut 41, and Installation sheet 41a then act as the supporting plate of clutch shaft bearing 13.

The sleeve pipe 4 of first sleeve 3 and second is non-round, for the ease of processing, in the present embodiment, the He of first sleeve 3 Second sleeve pipe 4 preferably uses square tube, and certain sleeve pipe 4 of first sleeve 3 and second can also use the non-round of other shapes.First Transmission nut 31 is connected in the upper end of first sleeve 3, and the second transmission nut 41 is connected in the upper end of the second sleeve pipe 4, in this implementation In example, specific interface arrangment uses, and the upper inside wall of first sleeve 3 is provided with buckle 3a, in the upper inside wall of the second sleeve pipe 4 Provided with buckle 4a, the outside of the first transmission nut 31 is provided with neck 31a, and the outside of the second transmission nut 41 is provided with neck 411, leads to Cross the mode of sleeving and riveting the first transmission nut 31 is pressed into first sleeve 3 and buckle 3a and neck 31a is engaged by clamping, likewise, The second transmission nut 41 is pressed into buckle 4a and neck 411 in the second sleeve pipe 4 by the mode of sleeving and riveting to be engaged by clamping, is worth What is illustrated is that buckle 3a and neck 31a and buckle 4a and 41a set location can exchange, that is to say, that first sleeve 3 Upper inside wall and the upper inside wall of the second sleeve pipe 4 can set neck, accordingly, the first transmission nut 31 and the second transmission Buckle can be set on nut 41, can equally realize above-mentioned clamping function.In the present embodiment, the mode of sleeving and riveting refers to by machine First transmission nut 31 is pressed into first sleeve 3 by tool pressure, and the second transmission nut 41 is pressed into the second sleeve pipe 4, filled herein During matching somebody with somebody, buckle 3a and buckle 4a produce deformation first, and final buckle 3a partly or entirely recovers deformation and is caught in neck 31a In, buckle 4a partly or entirely recovers deformation and is caught in neck 411, so as to realize the first transmission nut 31 and first sleeve 3 with And second transmission nut 41 and the second sleeve pipe 4 assembled without screw, what deserves to be explained is, the first transmission nut 31 and the second transmission Nut 41 is using the non-circular nut being adapted to the sleeve pipe 4 of first sleeve 3 and second, because the sleeve pipe 4 of first sleeve 3 and second is Non-round simultaneously preferably employs square tube, therefore accordingly, the first transmission nut 31 and the second transmission nut 41 it is also preferred that using with The cubic shaped of square tube adaptation.

Embodiment two：

As shown in Figure 1 to Figure 3, a kind of lifting column, including be set with successively from inside to outside inner tube 5, middle pipe 6, outer tube 7, The drain pan 8 that is fixedly connected with the upper end of inner tube 5, the drive device 9 being arranged in drain pan 8 and coordinate with the transmission of drive device 8 Drive assembly device, the drive assembly are the drive assembly device described in embodiment one.Drain pan 8 includes box body 81 and lid 82, lid 82 is fastened on the opening of box body 81 so that there is drain pan 8 accommodation space to be used to accommodate drive device 9, drive device 9 with The upper end transmission of drive screw 2 coordinates, and the lower end of outer tube 7 is provided with bottom plate 71, and the lower end of first sleeve 3 is held in bottom plate 71, and second Sleeve pipe 4 drives middle pipe 6 to lift.

In the present embodiment, the scheme that the second sleeve pipe 4 drives the lifting of middle pipe 6 to use is, on the outer wall of the bottom of the second sleeve pipe 4 Provided with fixed block 42, fixed block 42 has the convex edge 421 extended laterally, and the convex edge 421 is located at the lower section of the tube wall of middle pipe 6, In the present embodiment, for the ease of the installation of fixed block 42, fixed block 42 is divided to for two pieces, the outer wall of the sleeve pipe 4 of fixed block 42 and second The inner surface of contact is provided with projection 422, and the outer wall of the second sleeve pipe 4 is provided with through hole 43, stretches into through hole 43 by projection 422 and realize Two pieces of fixed blocks 42 are fixedly mounted on the outer wall of two sleeve pipes 4, when the second sleeve pipe 4 is lifted, in being lifted by convex edge 421 Pipe 6, when the second sleeve pipe 4 declines, middle pipe 6 is declined automatically by Action of Gravity Field, and such structural benefit is the assembling of fixed block 42 Relatively simple convenience, middle pipe 6 with fixed block 42 without especially being assembled.It is, of course, also possible to the lower end using the second sleeve pipe 4 It is fixedly connected with the lower end of middle pipe 6, can equally realizes the purpose that the second sleeve pipe 4 drives middle pipe 6 to lift.

The running of lifting column is：Drive device 9 drives drive screw 2 to rotate, and drive screw 2 passes through drive when rotating Moved end drives the synchronous rotary of hollow mandrel 1.Drive the second transmission nut 41 and the second sleeve pipe 4 same during 2 own rotation of drive screw Step is linear mobile, and the second sleeve pipe 4 declines displacement relative to drive screw 2 and fixed tentatively as L1；Meanwhile during the rotation of hollow mandrel itself 1, Drive the first transmission nut 31, first sleeve 3 synchronous linear mobile, the displacement that first sleeve 3 declines relative to hollow mandrel 1 is temporary Determine L2, when being rotated equivalent to drive screw 2, both driven the second sleeve pipe 4 to decline, also drive first sleeve 3 to decline, it is hollow due in Axle 1 is fixed holding position in the axial direction with the second transmission nut 41, therefore generally speaking, first sleeve 3 relative to drive screw 2, There occurs L1+L2 displacement.The design of this structure, compared to more traditional single-drive nut, drive screw equally rotates a circle On the premise of, the relative displacement that first sleeve 3 occurs in the present embodiment is bigger, and effect faster is lifted in the unit interval so as to realize Fruit.

When first sleeve 3 carries out linear movement, the bottom of first sleeve 3 applies thrust to bottom plate 71, vertical due to lifting The bottom of the outer tube 7 of post connects column leg when in use, and column leg is supported on ground, and therefore, drive screw 2 will band Dynamic drain pan rises or falls, and when the second sleeve pipe 4 does linear rise motion, the second sleeve pipe 4 drives middle pipe 6 by convex edge 421 Rise together, when the second sleeve pipe 4 does linear decline motion, middle pipe 6 is affected by gravity automatic decline and retracted.That is whole process In, outer tube 7 is axially retaining relatively motionless with first sleeve 3, and middle pipe 6 is axially retaining relatively motionless with the second sleeve pipe 4, inner tube 5 are axially retaining relatively motionless with drive screw 2.In this way, it is motionless to realize outer tube 7, and inner tube 5 and middle pipe 6 are relative respectively In the function that outer tube 7 lifts.

As shown in Figures 2 to 5, in the present embodiment, drive device 9 includes motor 91, is connected on the output shaft of motor 91 Worm screw 92, the housing 93 being fixed on the shell of motor 91 and the worm gear 94 being arranged in housing 93, worm screw 92 stretch into housing 93 coordinate with the transmission of worm gear 94, and the profiled holes 941 that worm gear 94 is provided with, drive screw 2 has input, and input is configured to The special-shaped body of rod 22, the special-shaped body of rod 22 coordinate through box body 81 and housing 93 with profiled holes 941, profiled holes 941 and the special-shaped body of rod Abnormal shape in 22 refers to non-cylindrical structure, and profiled holes 941 preferably use hexagon ring, and the special-shaped body of rod 22 is preferably using adaptation six The hexagonal bar of corner apertures, certainly, profiled holes 941 and the special-shaped body of rod 22 can also use the abnormally-structured of other polygons, as long as energy Realizing the power transmission of profiled holes 941 and the special-shaped body of rod 22 can implement.In addition, housing 93 includes upper shell 931 and lower house 932, upper shell 931 and lower house 932 pass through the fixing assembling of bolt 933, upper shell 931 or lower house 932 and the shell of motor 91 It is fixedly connected, it can be integrated injection molding, and therefore, before lifting column assembling, drive device 9 can carry out independence in advance Assembling, and be fitted into as a global facility in drain pan 8, without motor 91 and worm gear 94 are respectively charged into drain pan 8, this Sample largely improves the efficiency of assembling of lifting column.

In order to improve the transmission efficiency of worm gear 94, as shown in figure 4, being equipped with second bearing 95 and 3rd bearing in housing 93 96, second bearing 95 is installed on upper shell 931, and 3rd bearing 96 is installed on lower house 932, and two end faces of worm gear 94 are equal Provided with bearing position 942, bearing position 942 and the second bearing 95 of top are assembled, and bearing position and the 3rd bearing 96 of lower section are assembled.

As shown in Figure 3 and Figure 5, fixed plate 97 and rubber blanket 98 are provided with drain pan 8, fixed plate 97 is located under housing 93 The purpose for eliminating the vibrations of fixed plate 97 is played in side, the lower section that rubber blanket 98 is located at fixed plate 97, but in order to further improve rubber The damping effect of pad, in the present embodiment, rubber blanket 98, fixed plate 97 and rubber are also equipped between fixed plate 97 and housing 93 Rubber cushion 98 is respectively provided with the through hole 97a passed through for drive screw 2, and housing 93, fixed plate 97 and rubber blanket 98 are lock onto by bolt Drain pan 8, the bolt 934 by sequentially passing through housing 93, fixed plate 97 and rubber blanket 98 from top to bottom are threadedly coupled the box of drain pan 8 The inner bottom surface of body 81, housing 93, fixed plate 97 and rubber blanket 98 are pressed on the inner bottom surface of box body 81 of drain pan 8, in order to carry The reliability that high fixed plate 97 is installed, fixed plate 97 are also fixed on the inner bottom surface of box body 81 of drain pan 8 by bolt 97b, spiral shell Bolt 934 is also used as assembling upper shell 931 and lower house simultaneously as the locking member for compressing housing 93, fixed plate 97 and rubber blanket 98 932 connector.

As shown in Figure 1, Figure 2, shown in Fig. 3 and Fig. 5, in the present embodiment, drive screw 2 is set with fourth bearing 23, the 4th axle 23 lower sections for being located at input are held, the upper end of fixed plate 97 is provided with the groove 97c of accommodating fourth bearing 23, and fourth bearing 23 is by shell The lower house 932 of body 93 is pressed in groove 97c bottom surface.

In the case where drive screw 2 runs out of steam input, drive screw 2 possesses auto-lock function will be safer, is The auto-lock function of drive screw 2 is realized, drive screw 2 is set with mounting seat 25, torsion spring 26, torsion spring are set with mounting seat 25 26 have pin 261, and pin 261 and the clamping of fixed plate 97, specific assembling structure are that fixed plate 97 is convex with protruding out downwards Go out portion, the protuberance passes through the box body 81 of drain pan 8, pin 261 and the protuberance clamping, and drive screw 2 drives the He of mounting seat 25 Torsion spring 26 rotates, and when drive screw 2 does ascending motion, this rotation direction rotation direction causes torsion spring 26 to loosen mounting seat 25, and is passing When dynamic screw rod 2 does descending motion, this rotation direction causes torsion spring 26 to hold mounting seat 25 tightly, that is to say, that torsion spring 26 can be in drive screw 2 run out of steam in the case of input, prevent lifting column from declining suddenly, realize the auto-lock function of drive screw 2.

The lower end of first sleeve 3 is provided with end cap 32, and end cap 32 is connected in the lower end of first sleeve 3, specific using as implemented Interface arrangment and sleeving and riveting assembly method in example one, that is to say, that the lower end inner wall of first sleeve 3 is provided with buckle, end cap 32 Outer wall be provided with neck 321, end cap 32 is pressed into the lower ending opening of first sleeve 3 by mechanical pressure, realizes buckle and neck 321 clamping, certainly, the outer wall of end cap 32 can also set buckle, and corresponding, be set on the lower end inner wall of first sleeve 3 Neck, it can equally realize the clamping of end cap 32 and first sleeve 3.And it is last, end cap 32 is solid by bolt 72 with bottom plate 71 Fixed connection.

The utility model preferred embodiment is described above, but is not to be construed as limiting the scope of the invention. The utility model is not only limited to above example, and its concrete structure allows to change, and those skilled in the art can be according to this Utility model is variously modified and deformed, and without departing from spirit of the present utility model, belongs to the appended power of the utility model Scope defined in profit requirement.

Claims (12)

1. A kind of 1. telescopic drive assembly device, it is characterised in that including：

   Hollow mandrel, its outer wall are provided with external screw thread；

   Drive screw, it is located in hollow mandrel, and the drive screw can drive hollow mandrel synchronous rotary and drive screw is with Hollow shaft axially opposed can be stretched；

   First sleeve, it is provided with the first transmission nut, and the external screw thread and the first transmission nut screw thread on the hollow mandrel coordinate；

   Second sleeve pipe, it is set in outside first sleeve, and second sleeve pipe is provided with the second transmission nut, the drive screw and Two transmission nut screw threads coordinate, and the hollow mandrel rotatably positions in the axial direction with the second transmission nut.
2. 2. a kind of telescopic drive assembly device according to claim 1, it is characterised in that the drive screw has Drive end, the drive end are non-cylindrical configuration, and the hollow mandrel has not rounded endoporus, and non-cylindrical configuration is fitted with not rounded endoporus With so that drive screw transmits driving force to hollow mandrel.
3. A kind of 3. telescopic drive assembly device according to claim 1, it is characterised in that the hollow mandrel it is upper End fixed cover is equipped with clutch shaft bearing, and the clutch shaft bearing is fixedly installed on the second transmission nut.
4. 4. a kind of telescopic drive assembly device according to claims 1 to 3 any one, it is characterised in that described First sleeve and the second sleeve pipe are non-round, and first transmission nut is connected in the upper end of first sleeve, and described second passes Dynamic nut is connected in the upper end of the second sleeve pipe.
5. 5. a kind of lifting column, including be set with successively from inside to outside inner tube, middle pipe, outer tube, be fixedly connected with inner tube upper end Drain pan, the drive device being arranged in drain pan and the drive assembly device coordinated with drive device transmission, it is characterised in that institute Drive assembly device is stated as the drive assembly device described in Claims 1 to 4 any one, the drive device and drive screw Transmission coordinates, and the outer tube lower end is provided with bottom plate, and the lower end of the first sleeve is held in bottom plate, during second sleeve pipe drives Pipe lifts.
6. 6. a kind of lifting column according to claim 5, it is characterised in that the lower end of second sleeve pipe is connected with fixation Block, the fixed block have the convex edge radially extended, and the convex edge is located at the underface of middle tube wall.
7. 7. a kind of lifting column according to claim 5, it is characterised in that the drive device includes motor, is connected to Worm screw, the housing being fixed on motor case and the worm gear being arranged in housing, the worm screw on motor output shaft stretch into Housing coordinates with worm-drive, and the worm gear is provided with upper profiled holes, and the drive screw has input, the input quilt The special-shaped body of rod is configured to, the special-shaped body of rod coordinates after sequentially passing through drain pan and housing with profiled holes.
8. 8. a kind of lifting column according to claim 7, it is characterised in that second bearing and are equipped with the housing Three bearings, two end faces up and down of the worm gear are equipped with the bearing position of protrusion, and the second bearing is assemblied in a bearing position On, the 3rd bearing is assemblied on another bearing position, and the profiled holes are configured to run through two bearing positions.
9. A kind of 9. lifting column according to claim 7 or 8, it is characterised in that in the drain pan be provided with fixed plate and Rubber blanket, the fixed plate are located at the lower section of housing, the rubber blanket be located at fixed plate lower section or fixed plate and housing it Between and fixed plate below be equipped with rubber blanket, the housing, fixed plate and rubber blanket lock onto drain pan by bolt.
10. A kind of 10. lifting column according to claim 9, it is characterised in that the drive screw is set with fourth bearing, The fourth bearing is located at the lower section of input, and the upper end of the fixed plate is provided with the groove of accommodating fourth bearing.
11. 11. a kind of lifting column according to claim 9, it is characterised in that the drive screw is set with mounting seat, institute The lower section that mounting seat is located at fixed plate is stated, torsion spring is set with the mounting seat, the torsion spring has pin, and the pin is with consolidating Fixed board clamping.
12. 12. a kind of lifting column according to claim 5~8 any one, it is characterised in that under the first sleeve End is provided with end cap, and the end cap is connected in the lower end of first sleeve, and the end cap is bolted to connection with bottom plate.