CN205206477U - Telescopic handle structure, handle device and module structure - Google Patents

Abstract

The utility model discloses a telescopic handle structure, a handle device and a module structure, which are applied to doors, windows, drawers or objects needing force application operation and pulling, and comprise a telescopic head unit and a fixed unit, wherein both sides of the telescopic head unit are provided with a head part and a first limit flange; two sides of the fixing unit are provided with a second limiting flange and a combined part, and the second limiting flange is used for limiting by interfering with the first limiting flange; the telescopic head unit is movably combined with the fixing unit, the first limit flange can move back and forth and is far away from or close to the second limit flange, the first limit flange is in a stretching state when being closest to the second limit flange, and the head is in a condensation state when being closest to the second limit flange.

Description

Telescopic grip structure, handling device and modular structure

Technical field

The utility model relates to a kind of telescopic grip structure and handling device, is applied to door, window, drawer or needs force to operate on the object that pulls.

Background technology

The action need of the objects such as door, window, drawer is pulled and moves, and above-mentioned body surface has handling device and is beneficial to user's handling and force.Existing handling device is generally general in " ㄇ " font, directly protrudes and is arranged at above-mentioned body surface and takes up room, thus cause inaesthetic shortcoming.

Utility model content

The purpose of this utility model is to disclose a kind of telescopic grip structure, and it can be condensed state and reduce and take up room when not in use.

For reaching above-mentioned purpose and other objects, the utility model provides a kind of telescopic grip structure, comprises telescopic head unit and fixed cell, and the both sides of this telescopic head unit have head and the first defining flange; The both sides of this fixed cell have the second defining flange and combination section, and this second defining flange is spacing for mutually interfering with this first defining flange; Wherein, this telescopic head unit is incorporated into this fixed cell movably, this first defining flange reciprocally move and relatively this second defining flange away from or close, and when this first defining flange and this second defining flange closest to time be extended state, when this head and this second defining flange closest to time be condensed state.

Above-mentioned telescopic grip structure, wherein more comprises the first elastic parts, and the two ends of this first elastic parts support this telescopic head unit and this fixed cell respectively.

Above-mentioned telescopic grip structure, wherein this telescopic head unit is first sleeve with accommodation space, this fixed cell is placed in this first sleeve when condensed state, and this first defining flange is positioned at this first sleeve bottom side and inwardly protrudes out and this second defining flange outwards protrudes out.

Above-mentioned telescopic grip structure, wherein this telescopic head unit has convex buckle portion, this convex buckle portion connects this head, and this fixed cell has through hole, this convex buckle portion is passed this through hole and is protruded from outside this grip structure when this condensed state, maintains this condensed state for detachably fastening to object.

Above-mentioned telescopic grip structure, wherein the two ends of this first elastic parts support this head and this fixed cell top side respectively.

Above-mentioned telescopic grip structure, wherein this fixed cell top side is arranged with groove, and this first elastic parts is placed in this groove.

Above-mentioned telescopic grip structure, wherein the two ends of this first elastic parts are supported on this first defining flange and on the second defining flange respectively.

Above-mentioned telescopic grip structure, wherein this telescopic head unit comprises the first sleeve and has the telescopic tube assembly of accommodation space, this telescopic tube assembly combines movably with in this first sleeve, this fixed cell is placed in this telescopic tube assembly when condensed state, and this first defining flange is formed at the bottom side of this telescopic tube assembly and inwardly protrudes out and this second defining flange outwards protrudes out.

Above-mentioned telescopic grip structure, wherein this telescopic tube assembly has multiple sleeve pipe, and the interference flange between this first sleeve and adjacent sleeve pipe and by extending in the opposite direction between two adjacent sleeve pipes is mutually interfered spacing when extended state.

Above-mentioned telescopic grip structure, wherein more comprise at least one second elastic parts, it is arranged between two sleeve pipes between this first sleeve and adjacent sleeve pipe and adjacent, respectively the two ends of this second elastic parts be bonded to this first sleeve and adjacent sleeve pipe respectively interference flange on and adjacent two sleeve pipes interference flange on.

Above-mentioned telescopic grip structure, wherein this telescopic head unit has convex buckle portion, and this convex buckle portion connects this head, and this fixed cell has through hole, this convex buckle portion is passed this through hole and is protruded from outside this fixed cell when condensed state, maintains condensed state for detachably fastening to object.

Above-mentioned telescopic grip structure, wherein the two ends of this first elastic parts support this head and this fixed cell top side respectively.

Above-mentioned telescopic grip structure, wherein this fixed cell top side is arranged with groove, and this first elastic parts is placed in this groove.

Above-mentioned telescopic grip structure, wherein the two ends of this first elastic parts are supported on this first defining flange and on the second defining flange respectively.

Above-mentioned telescopic grip structure, wherein this fixed cell is second sleeve with accommodation space, this telescopic head unit is placed in this second sleeve when condensed state, and this second defining flange is positioned at this second sleeve top side and inwardly protrudes out and this first defining flange outwards protrudes out.

Above-mentioned telescopic grip structure, wherein this telescopic head unit has convex buckle portion, this convex buckle portion is positioned at this telescopic head unit bottom side, and this convex buckle portion is passed this second sleeve and protruded from outside this grip structure when condensed state, maintains this condensed state for detachably fastening to object.

Above-mentioned telescopic grip structure, wherein the two ends of this first elastic parts support this head and this second defining flange respectively.

Above-mentioned telescopic grip structure, wherein the two ends of this first elastic parts are supported on this first defining flange and on the second defining flange respectively.

Above-mentioned telescopic grip structure, wherein this fixed cell comprises the second sleeve and has the telescopic tube assembly of accommodation space, this telescopic tube assembly is combined with this second sleeve movably, this telescopic head unit is placed in this telescopic tube group when condensed state, and this second defining flange is formed at the top side of this telescopic tube assembly and inwardly protrudes out and this first defining flange outwards protrudes out.

Above-mentioned telescopic grip structure, wherein this telescopic tube assembly has multiple sleeve pipe, and the interference flange between the second sleeve and adjacent sleeve pipe and by extending in the opposite direction between adjacent two sleeve pipes is mutually interfered spacing when extended state.

Above-mentioned telescopic grip structure, wherein more comprises at least one second elastic parts, in the interference flange that the two ends of this second elastic parts each are bonded to this second sleeve and adjacent sleeve pipe respectively and in the interference flange of two adjacent sleeve pipes.

Above-mentioned telescopic grip structure, wherein this telescopic head unit has convex buckle portion, this convex buckle portion is positioned at this telescopic head unit bottom side, and this convex buckle portion is passed this fixed cell and protruded from outside this fixed cell when condensed state, maintains condensed state for detachably fastening to object.

Above-mentioned telescopic grip structure, wherein the two ends of this first elastic parts support this head and this second defining flange respectively.

Above-mentioned telescopic grip structure, wherein the two ends of this first elastic parts are supported on this first defining flange and on the second defining flange respectively.

For reaching above-mentioned purpose and other objects, the utility model also discloses a kind of handling device, comprises above-mentioned grip structure, and this telescopic head unit has Handheld Division, makes this telescopic head unit move relative to this fixed cell for operation.

Above-mentioned handling device, wherein this Handheld Division is articulated in this telescopic head unit.

Above-mentioned handling device, wherein this Handheld Division is arranged with sheath.

Above-mentioned handling device, wherein comprises two handles structures, and the Handheld Division of this two handles structure is connected to each other.

Above-mentioned handling device, wherein this Handheld Division is articulated in this telescopic head unit.

Above-mentioned handling device, wherein more comprises assembled plate, and the combination section of this fixed cell is combined with this assembled plate.

Above-mentioned handling device, wherein the combination section of this fixed cell and this assembled plate integrally formed.

For reaching above-mentioned purpose and other objects, the utility model also providing package loads tool, for accommodating above-mentioned grip structure or above-mentioned handling device, this packaging carrier comprises container, and this container has multiple storage tank with difference this grip structure accommodating or this handling device.

Above-mentioned packaging carrier, wherein more comprises lid, and this lid is arranged on this container for closing respectively this storage tank.

Above-mentioned packaging carrier, wherein this container is in banded or plate-like.

For reaching above-mentioned purpose and other objects, the utility model also discloses a kind of grip structure, to make the stroke between this telescopic head unit and this fixed cell or translational movement can adjust according to needed for reality, this grip structure comprises telescopic head unit, and it has head and the first defining flange; And fixed cell, it has the second defining flange and combination section, and this second defining flange is spacing for mutually interfering with this first defining flange; Wherein, this telescopic head unit is incorporated into this fixed cell movably, this first defining flange reciprocally move and relatively this second defining flange away from or close, and when this first defining flange and this second defining flange closest to time be extended state, when this head and this second defining flange closest to time be condensed state; This fixed cell is second sleeve with accommodation space, and this first defining flange is placed in this second sleeve, and this second defining flange is positioned at this second sleeve top side and inwardly protrudes out and this first defining flange outwards protrudes out.

Above-mentioned grip structure, stroke wherein between this telescopic head unit and this fixed cell is more than or equal to 0.1 millimeter respectively, or the translational movement between this telescopic head unit and this fixed cell is more than or equal to 0.1 millimeter respectively, or the stroke between this telescopic head unit and this fixed cell is more than or equal to 0.1 millimeter respectively and translational movement between this telescopic head unit and this fixed cell is more than or equal to 0.1 millimeter respectively.

Above-mentioned grip structure, wherein the quantity of this telescopic head unit is two, and the quantity of this fixed cell is two, and the head of above-mentioned telescopic head unit connects into Handheld Division.

Above-mentioned grip structure, wherein this combination section by welding, riveted joint, expand connect, interlocking, gluing or magnetic to be to combine with external object.

Above-mentioned grip structure, wherein more comprises manipulation portion, and it has the 3rd defining flange and the 4th defining flange, and the 3rd defining flange and this head or this fixed cell are interfered and spacing mutually.

Above-mentioned grip structure, wherein this manipulation portion has the 5th defining flange, and this head is limited between the 3rd defining flange and the 5th defining flange.

Above-mentioned grip structure, wherein more comprises the first elastic parts, and its two ends are resisted against this head and the 3rd defining flange respectively.

Above-mentioned grip structure, wherein the 3rd defining flange has the first buckle unit, and have at least one second buckle unit outside this fixed cell between this second defining flange and this combination section, this first buckle unit activity is snapped in above-mentioned second buckle unit.

Above-mentioned grip structure, wherein this first buckle unit is convexly, and above-mentioned second buckle unit is concavely; Or concavely, above-mentioned second buckle unit convexly for this first buckle unit.

Above-mentioned grip structure, wherein this first buckle unit is arc convex body or oblique convex body, and above-mentioned second buckle unit is arc groove or oblique groove; Or this first buckle unit is arc groove or oblique groove, above-mentioned second buckle unit is arc convex body or oblique convex body.

Above-mentioned grip structure, wherein the bottom side of this telescopic head unit has convex buckle portion.

Above-mentioned grip structure, wherein this convex buckle portion is threaded body, outer button, interior button, cylinder, snap-on pin or snap-on ball.

Above-mentioned grip structure, wherein more comprises contacting piece, and it is buckled in this convex buckle portion to coordinate with this combination section.

For reaching above-mentioned purpose and other objects, the utility model also provides a kind of modular structure, and it is combined into by this grip structure or this handling device and assembled plate.

For reaching above-mentioned purpose and other objects, the utility model also provides a kind of packaging carrier, and for this grip structure accommodating, this packaging carrier comprises container, and this container has multiple storage tank with difference this grip structure accommodating.

Above-mentioned packaging carrier, wherein more comprises lid, and this lid is arranged on this container for closing respectively this storage tank.

Above-mentioned packaging carrier, wherein this container is in banded or plate-like.

Accordingly, above-mentioned telescopic grip structure and handling device, it is not when user stretches this telescopic head unit, this grip structure can maintain condensed state, and the space that grip structure and handling device can be allowed to take is reduced, when user stretches this telescopic head unit, this grip structure is extended state and allows the hand of user have sufficient space to grip, so that operation.In addition, the stroke between above-mentioned telescopic head unit and above-mentioned fixed cell or translational movement can adjust needed for actual.

Accompanying drawing explanation

Figure 1A and Figure 1B is the structural representation of the grip structure of the first embodiment of the present utility model;

Fig. 2 A and Fig. 2 B is the structural representation in the grip structure of the first embodiment of the present utility model with the first elastic parts;

Fig. 3 A and 3B is the structural representation in the grip structure of the first embodiment of the present utility model with another aspect of the first elastic parts;

Fig. 4 A and Fig. 4 B is the structural representation that in the grip structure of the first embodiment of the present utility model, telescopic head unit has telescopic tube assembly;

Fig. 5 A to Fig. 5 F is the structural representation that in the grip structure of the first embodiment of the present utility model, telescopic head unit has convex buckle portion; .

Fig. 6 is the structural representation of the handling device of the second embodiment of the present utility model;

Fig. 7 is the structural representation of another aspect of the handling device of the utility model second embodiment;

Fig. 8 A and Fig. 8 B is the structural representation of the grip structure of the 3rd embodiment of the present utility model;

Fig. 9 A and Fig. 9 B is the structural representation in the grip structure of the 3rd embodiment of the present utility model with the first elastic parts;

Figure 10 A and Figure 10 B is the structural representation in the grip structure of the 3rd embodiment of the present utility model with another aspect of the first elastic parts;

Figure 11 A and Figure 11 B is the structural representation that in the grip structure of the 3rd embodiment of the present utility model, telescopic head unit has telescopic tube assembly;

Figure 12 is the structural representation that in the grip structure of the 3rd embodiment of the present utility model, telescopic head unit has convex buckle portion;

Figure 13 is the structural representation of the handling device of the 4th embodiment of the present utility model;

Figure 14 is the structural representation of another aspect of the handling device of the 4th embodiment of the present utility model;

Figure 15 is the schematic diagram that the grip structure of embodiment of the present utility model is placed in packaging carrier;

Figure 16 is the structural representation of the grip structure of the 5th embodiment of the present utility model;

Figure 17 is the stroke of grip structure and the schematic diagram of translational movement of the 5th embodiment of the present utility model;

Figure 18 is the making schematic diagram one of the grip structure of the 5th embodiment of the present utility model;

Figure 19 is the making schematic diagram two of the grip structure of the 5th embodiment of the present utility model;

Figure 20 is the schematic diagram of the grip structure of the 6th embodiment of the present utility model;

Figure 21 is the schematic diagram of the grip structure of the 7th embodiment of the present utility model;

Figure 22 is the schematic diagram one of the grip structure of the 8th embodiment of the present utility model;

Figure 23 is the schematic diagram two of the grip structure of the 8th embodiment of the present utility model;

Figure 24 is the schematic diagram three of the grip structure of the 8th embodiment of the present utility model;

Figure 25 is the schematic diagram four of the grip structure of the 8th embodiment of the present utility model;

Figure 26 is the schematic diagram one of the grip structure of the 9th embodiment of the present utility model;

Figure 27 is the schematic diagram two of the grip structure of the 9th embodiment of the present utility model;

Figure 28 is the schematic diagram of convex buckle portion of the present utility model.

[symbol description]

1 assembled plate

2 objects

3 containers

31 storage tanks

4 lids

100 grip structures

110 telescopic head unit

111 heads

112 first defining flanges

113,113 ' first sleeve

114 convex buckle portions

115 telescopic tube assemblies

115A, 115B sleeve pipe

116 interference flange

117,117 Handheld Divisions

120 fixed cells

121 second defining flanges

122 combination sections

123 through holes

124 grooves

130 first elastic parts

140 second elastic parts

200 handling devices

300 grip structures

310 telescopic head unit

311 heads

312 first defining flanges

313 convex buckle portions

314,314 ' Handheld Division

320 fixed cells

321 second defining flanges

322 combination sections

323,323 ' second sleeve

324 telescopic tube assemblies

324A, 324B sleeve pipe

325 interference flange

326 second buckle unit

330 manipulation portions

331 first buckle unit

333 the 3rd defining flanges

334 the 4th defining flanges

335 the 5th defining flanges

340 contacting pieces

400 handling devices

A translational movement

B stroke

Detailed description of the invention

For fully understanding the purpose of this utility model, characteristic sum effect, existing by following specific embodiment, and coordinate accompanying drawing, the utility model is described in further details, is described as follows:

The grip structure of the utility model embodiment and handling device can be applicable to door, window, drawer or need force to operate on the object that pulls.

As Figure 1A and 1B, the grip structure 100 of the first embodiment of the present utility model comprises telescopic head unit 110 and fixed cell 120, and the both sides of this telescopic head unit 110 have head 111 and the first defining flange 112; The both sides of this fixed cell 120 have the second defining flange 121 and combination section 122, and this second defining flange 121 is spacing for mutually interfering with this first defining flange 112; Wherein, this telescopic head unit 110 is incorporated into this fixed cell 120 movably, this first defining flange 111 reciprocally move and relatively this second defining flange 121 away from or close, this first defining flange 111 is reciprocally between this second defining flange 121 and this combination section 122, and as shown in Figure 1A, when this first defining flange 112 and this second defining flange 121 closest to time be extended state, as Figure 1B, when this head 111 and this second defining flange 121 closest to time be condensed state.

As shown in the figure, this telescopic head unit 110 can be first sleeve 113 with accommodation space, this head 111 is positioned at the side that this first sleeve 113 is closed, this first defining flange 112 is positioned at this first sleeve 113 bottom side, namely relative to the side of this head 111, and this first defining flange 112 inwardly protrudes out, this fixed cell 120 is less than the accommodation space of this first sleeve 113, this fixed cell 120 is placed in this first sleeve 113 when condensed state, and this fixed cell 120 generally can extend this second defining flange 121 of protrusion in cylinder and in the top side of this cylinder, this second defining flange 121 outwards protrudes out.

The combination section 122 of the bottom side of this fixed cell 120 is for being fixed to assembled plate 1 or other objects, as the present embodiment and graphic shown in, be screwed between this combination section 122 and this assembled plate 1, but be not limited thereto, can the various modes that this fixed cell 120 and this assembled plate or other objects are fixed all should be covered by category of the present utility model, such as, corresponding internal and external threads can be utilized between this combination section 122 with this assembled plate 1, snap-in structure, lock solid structure, fastening structure, expand access node structure or magnetic structure and be bonded to each other, or, this combination section 122 can be welded with this assembled plate 1 or rivet and be bonded to each other.

As Fig. 2 A and 2B, the grip structure 100 of the utility model embodiment more can comprise the first elastic parts 130, the two ends of this first elastic parts 130 support this telescopic head unit 110 and this fixed cell 120 respectively, utilize the elastic force of this first elastic parts 130 whereby by this grip structure 110 maintaining condensed state without during external force.Wherein, this first elastic parts 130 can be Compress Spring, shell fragment, cylindrical spring body, taper elastic body or washer.

This fixed cell 120 top side can be arranged with groove 124, and this first elastic parts 130 is placed in this groove 124, and the degree of depth of this groove 124 is substantially equal to the former length of this first elastic parts 130.Under condensed state, this head 111 can be close to this fixed cell 120, and the space that this grip structure 100 can be made to take is reduced.

As shown in figs.3 a and 3b, the two ends of this first elastic parts 130 are combined on this first defining flange 112 and on the second defining flange 121 respectively, this first Flexible element 130 is around being sheathed on this fixed cell 120, as shown in Figure 3A, when the condensed state of this grip structure 100, this first Flexible element 130 is former length, as shown in Figure 3 B, when the extended state of this grip structure 100, this first Flexible element 130 is compressed.

As shown in fig. 4 a and 4b, this telescopic head unit 110 comprises the first sleeve 113 ' and has the telescopic tube assembly 115 of accommodation space, this telescopic tube assembly 115 113 ' to combine movably with in this first sleeve, this fixed cell 120 is placed in this telescopic tube assembly 115 when condensed state, this first defining flange 112 is formed at the bottom side of this telescopic tube assembly 115 and inwardly protrudes out and this second defining flange 121 outwards protrudes out.

In this enforcement aspect, this telescopic tube assembly 115 has multiple sleeve pipe 115A, 115B, above-mentioned sleeve pipe 115A, 115B profile is similar and can be sheathed layer by layer, between this first sleeve 113 ' and adjacent sleeve pipe 115A and two adjacent sleeve pipe 115A, the interference flange 116 by extending in the opposite direction between 115B is mutually interfered spacing when extended state.Specifically, the interference flange 116 of this first sleeve 113 ' bottom side extends internally, and the outward extending interference flange in sleeve pipe 115A top side 116 that can be adjacent with this first sleeve 113 ' interferes with each other spacing; The interference flange 116 of this sleeve pipe 115B top side stretches out, and the interference flange 116 that can extend internally with this sleeve pipe 115A bottom side interferes with each other spacing, first defining flange 112 of this sleeve pipe 115B bottom side extends internally, and can interfere with each other spacing with outward extending second defining flange 122 in this fixed cell 120 top side.

In the present embodiment, this grip structure 100 more can comprise at least one second elastic parts 140, it is arranged at two sleeve pipe 115A between this first sleeve 113 ' and adjacent sleeve pipe 115A and adjacent, between 115B, respectively the two ends of this second elastic parts 140 are bonded to two sleeve pipe 115A in this first sleeve 113 ' and the interference flange 116 of adjacent sleeve pipe 115A and adjacent respectively, in the interference flange 116 of 115B.

Wherein, this second elastic parts 140 can be Compress Spring, shell fragment, cylindrical spring body, taper elastic body or washer.It is preferred that respectively this second elastic parts 140 is Compress Spring, it is around being sheathed on respectively this sleeve pipe 114A, 115B.

In this enforcement aspect, the two ends of this first elastic parts 130 are combined on this first defining flange 112 and on the second defining flange 121 respectively.But be not limited to this, this head and this fixed cell top side can be separated by a distance, and the two ends of this first elastic parts support this head and this fixed cell top side respectively, or, this fixed cell top side can be arranged with groove, and this first elastic parts is placed in this groove.

In addition, as shown in Fig. 5 A to 5F, this telescopic head unit has convex buckle portion 114, this convex buckle portion 114 connects this head 111, and this fixed cell 120 has through hole 123, this convex buckle portion 114 is passed this through hole 123 when condensed state and is protruded from outside this fixed cell 120, maintains condensed state for detachably fastening to object 2.Whereby, this grip structure 100 can being fixed on condensed state, when wanting to use, then this convex buckle portion 114 being dismantled separation from this object 2, to operate this grip structure 100 for extended state.Wherein, as shown in Fig. 5 A to 5F, this convex buckle portion 114 can have the structures such as external screw thread, screw, convex button, fastening hole or inserting column, correspondingly, this object 2 can have to should screw, screw thread projection, fastening hole, the structure such as convex button or jack of convex buckle portion 114.

As shown in Figure 6, it shows the structural representation of the handling device 200 for the second embodiment of the present utility model, this handling device 200 comprises the grip structure 100 of above-mentioned first embodiment, this telescopic head unit 110 has Handheld Division 117, make this telescopic head unit 110 move relative to this fixed cell 120 for operation, so operation respectively this grip structure 100 be extended state or condensed state.Wherein, this Handheld Division 117 is arranged with sheath (not shown), this sheath can utilize baking vanish, anode or plastics to cover on this Handheld Division 117 and have particular color, for visually eye-catching or identification marking, or, this sheath can be soft materials, for promoting the comfort gripped.

This handling device 200 can be provided with one or more grip structures 100, and in the present embodiment, this grip structure 200 comprises two handles structures 100, and the Handheld Division 117 of this two handles structure 100 is connected to each other, and is formed with cross bar for user's gripping.

In the present embodiment, this handling device 200 can comprise assembled plate 1, and the combination section 122 of this fixed cell 120 is combined with this assembled plate 1.Wherein, the combination section 122 of this fixed cell 120 be combined with each other by corresponding helicitic texture, snap-in structure or extra locked assembly with this assembled plate 1, or this fixed cell 120 can be integrally formed with this assembled plate 1.

As shown in Figure 7, in the grip structure 200 of the second embodiment of the present utility model, this Handheld Division 117 ' is articulated in this telescopic head unit 110, and as shown in the figure, this Handheld Division 117 ' can be articulated in side or the head 111 of this first sleeve 113 '.

As shown in Fig. 8 A and 8B, in the utility model, the grip structure 300 of the 3rd embodiment comprises telescopic head unit 310 and fixed cell 320, and the both sides of this telescopic head unit 310 have head 311 and the first defining flange 312; The both sides of this fixed cell 320 have the second defining flange 321 and combination section 322, and this second defining flange 321 is spacing for mutually interfering with this first defining flange 312; Wherein, this telescopic head unit 310 is incorporated into this fixed cell 320 movably, this first defining flange 311 is reciprocally between this second defining flange 321 and this combination section 322, and as shown in Figure 8 A, when this first defining flange 312 and this second defining flange 321 closest to time be extended state, as shown in Figure 8 B, when this head 311 and this second defining flange 321 closest to time be condensed state.

As shown in the figure, this fixed cell 320 is for having the second sleeve 323 of accommodation space, this telescopic head unit 310 is placed in this second sleeve 323 when condensed state, this second defining flange 321 is positioned at this second sleeve 323 top side inwardly protruding out, and this telescopic head unit 310 can generally stretch out in the top side of this cylinder and protrudes this first defining flange 312 in cylinder and form this head 311 in the bottom side of this cylinder.

The combination section 322 of the bottom side of this fixed cell 320 is for being fixed to assembled plate 1 or other objects, as the present embodiment and graphic shown in, fixed by corresponding helicitic texture between this combination section 322 with this assembled plate 1, but be not limited thereto, can the various modes that this fixed cell 320 and this assembled plate or other objects are fixed all should be covered by category of the present utility model, such as, corresponding snap-in structure can be utilized between this combination section 322 with this assembled plate 1, lock solid structure, fastening structure, expand access node structure or magnetic structure and be bonded to each other, or, this combination section 322 can be welded with this assembled plate 1 or rivet and be bonded to each other.

As illustrated in figures 9a and 9b, in the utility model, the grip structure 300 of embodiment more can comprise the first elastic parts 330, the two ends of this first elastic parts 330 support this telescopic head unit 310 and this fixed cell 320 respectively, utilize the elastic force of this first elastic parts 330 whereby by this grip structure 300 maintaining condensed state without during external force.Wherein, this first elastic parts 330 can be Compress Spring, shell fragment, cylindrical spring body, taper elastic body or washer.

In this enforcement aspect, the two ends of this first elastic parts 330 are combined on this first defining flange 312 and on the second defining flange 321 respectively, this first Flexible element 330 is around being sheathed on this fixed cell 320, as shown in Figure 9 A, when the condensed state of this grip structure 300, this first Flexible element 330 is former length, as shown in Figure 9 B, when the extended state of this grip structure 300, this first Flexible element 330 is compressed.

As illustrated in figs. 10 a and 10b, the two ends of this first elastic parts 330 can be combined in this head 311 and this fixed cell 320 respectively, this first elastic parts 330 is around being sheathed on this telescopic head unit 310, as shown in Figure 10 A, when the condensed state of this grip structure 300, this first Flexible element 330 is former length, as shown in Figure 9 B, when the extended state of this grip structure 300, this first Flexible element 330 is stretched.

As shown in Figure 11 A and 11B, this fixed cell 320 can comprise the second sleeve 323 ' and have the telescopic tube assembly 324 of accommodation space, this telescopic tube assembly 324 combines with this second sleeve 323 ' movably, this telescopic head unit 310 is placed in this telescopic tube group 324 when condensed state, this second defining flange 321 is formed at the top side of this telescopic tube assembly 324 and inwardly protrudes out and this first defining flange 312 outwards protrudes out.

In this enforcement aspect, this telescopic tube group 324 has multiple sleeve pipe 324A, 324B, above-mentioned sleeve pipe 324A, 324B profile is similar and can be sheathed layer by layer, between this second sleeve 323 ' and adjacent sleeve pipe 324A and two adjacent sleeve pipe 324A, the interference flange 325 by extending in the opposite direction between 324B is interfered spacing mutually when extended state.Specifically, the interference flange 325 of this second sleeve 323 ' top side extends internally, and the outward extending interference flange in sleeve pipe 324B bottom side 325 that can be adjacent with this second sleeve 323 ' interferes with each other spacing; The interference flange 325 of this sleeve pipe 324B top side extends internally, and can interfere with each other spacing with the outward extending interference flange in this sleeve pipe 324A bottom side 325, first defining flange 321 of this sleeve pipe 324A top side extends internally, and can interfere with each other spacing with outward extending first defining flange 312 in this telescopic head unit 310 bottom side.

In the present embodiment, this grip structure 300 more can comprise at least one second elastic parts 340, the two ends of this second elastic parts 340 each are bonded to the interference flange 324A of two sleeve pipes in this second sleeve 323 ' and the interference flange 325 of adjacent sleeve pipe 324B and adjacent respectively, on 324B.

Wherein, this second elastic parts 340 can be Compress Spring, shell fragment, cylindrical spring body, taper elastic body or washer.It is preferred that this second elastic parts 340 each is Compress Spring, it is around being sheathed on respectively this sleeve pipe 324A, 324B.

In this enforcement aspect, the two ends of this first elastic parts 330 are combined on this first defining flange 312 and on the second defining flange 321 respectively.But being not limited to this, these the first elastic parts two ends can be combined on this head and this second defining flange respectively.

In addition, as shown in figure 12, this telescopic head unit 310 can have convex buckle portion 313, this convex buckle portion 313 is positioned at this telescopic head unit 310 bottom side, this convex buckle portion 313 is passed this fixed cell 310 when condensed state and is protruded from outside this fixed cell 310, maintains condensed state for detachably fastening to object 2.Whereby, this grip structure 300 temporarily can be maintained condensed state, with when required, then this convex buckle portion 313 is separated with this object 2, and then to operate this grip structure 300 be extended state.In addition, similar above-mentioned first embodiment, this convex buckle portion 313 can have the structures such as external screw thread, screw, convex button, fastening hole or inserting column, correspondingly, this object 2 can have to should screw, screw thread projection, fastening hole, the structure such as convex button or jack of convex buckle portion 313.

As shown in figure 13, it shows the structural representation for the handling device 400 of the 4th embodiment in the utility model, this handling device 200 comprises the grip structure 300 of above-mentioned 3rd embodiment, this telescopic head unit 310 has Handheld Division 314, make this telescopic head unit 310 move relative to this fixed cell 320 for operation, so operation respectively this grip structure 300 be extended state or condensed state.Wherein, this Handheld Division 314 is arranged with sheath (not shown), this sheath can utilize baking vanish, anode or plastics to cover on this Handheld Division 314 and have particular color, for visually eye-catching or identification marking, or, this sheath can be soft materials, for promoting the comfort gripped.

This handling device 400 can be provided with one or more grip structures 300, and in the present embodiment, this grip structure 400 comprises two handles structures 300, and the Handheld Division 314 of this two handles structure 300 is connected to each other, and is formed with cross bar for user's gripping.

In the present embodiment, this handling device 400 can comprise assembled plate 1, and the combination section 322 of this fixed cell 320 is combined with this assembled plate 1.Wherein, the combination section 322 of this fixed cell 320 be combined with each other by corresponding helicitic texture, snap-in structure or extra locked assembly with this assembled plate 1, or this fixed cell 320 can be integrally formed with this assembled plate 1.

As shown in figure 14, in the grip structure 300 of the utility model the 4th embodiment, this Handheld Division 314 ' is articulated in this telescopic head unit 310, and as shown in the figure, this Handheld Division 314 ' can be articulated in the side of this head 311 or this first sleeve 323 '.

The grip structure of above-mentioned the utility model embodiment or handling device can be placed in packaging carrier, and as shown in figure 15, this packaging carrier comprises container 3, this container 3 has multiple storage tank 31, and can accommodating grip structure 100,300 or handling device 200,400.In addition, this packaging carrier can comprise lid 4, and this lid 4 is arranged on this container 3 for closing respectively this storage tank 31.Moreover this container 3 can in banded or plate-like, and wherein plate-like extends by the direction of graphic band shape towards vertical paper.

As shown in FIG. 16 and 17, the utility model discloses a kind of grip structure of the 5th embodiment again, it makes the stroke b between above-mentioned telescopic head unit 310 and above-mentioned fixed cell 320 or translational movement a can adjust according to needed for reality, and this grip structure comprises two telescopic head unit 310 and two fixed cells 320.Wherein, above-mentioned telescopic head unit 310 has head 311 and the first defining flange 312 respectively, and above-mentioned head 311 can stretch out and be connected to form Handheld Division 314, and this Handheld Division 314 can take the shape of the letter U or ㄇ shape; Above-mentioned fixed cell 320 has the second defining flange 321 and combination section 322 respectively, above-mentioned second defining flange 321 is respectively used to mutually interfere with above-mentioned first defining flange 312 and spacing, and this combination section 322 can be riveted structure, expands access node structure, welded construction, fastening structure, lock-connection structure, gluing structure or magnetic structure and combine with assembled plate 1; Wherein, above-mentioned telescopic head unit 310 is incorporated into above-mentioned fixed cell 320 respectively movably, this first defining flange 312 reciprocally move and relatively this second defining flange 321 away near or move left and right, and when this first defining flange 312 and this second defining flange 321 closest to time be extended state, when this head 311 and this second defining flange 321 closest to time be condensed state; This fixed cell 320 is for having the second sleeve 323 of accommodation space, this first defining flange 312 is placed in this second sleeve 323, and this second defining flange 321 is positioned at this second sleeve 323 top side and inwardly protrudes out and this first defining flange 312 protrudes out outside this telescopic head unit 310; Stroke b between above-mentioned telescopic head unit 310 and above-mentioned fixed cell 320 is more than or equal to 0.1 millimeter respectively, or the translational movement a between above-mentioned telescopic head unit 310 and above-mentioned fixed cell 320 is more than or equal to 0.1 millimeter respectively, or the stroke b between above-mentioned telescopic head unit 310 and above-mentioned fixed cell 320 is more than or equal to 0.1 millimeter respectively and translational movement a between above-mentioned telescopic head unit 310 and above-mentioned fixed cell 320 is more than or equal to 0.1 millimeter respectively.Whereby, the stroke b between above-mentioned telescopic head unit 310 and above-mentioned fixed cell 320 or translational movement a can adjust upward with needed for realistic by 0.1 millimeter.In addition, in the utility model, the grip structure of the 5th embodiment can be set to upright to (namely U-shaped Handheld Division 314 is opening down), to make this Handheld Division 314 can the condensation voluntarily because of gravity.

As shown in Figure 18 and Figure 19, second defining flange 321 of above-mentioned fixed cell 320 first can upwards be bent the opening expanding above-mentioned second defining flange 321 when making by the grip structure of the utility model the 5th embodiment, again the first defining flange 312 of above-mentioned telescopic head unit 310 is inserted afterwards in the opening of above-mentioned second defining flange 321 after expansion, then above-mentioned second defining flange 321 after the head 311 pressurization expansion of above-mentioned telescopic head unit 310 is recycled, to make above-mentioned second defining flange 321 in level and between the head 311 and the first defining flange 312 of above-mentioned telescopic head unit 310, last above-mentioned telescopic head unit 310 just can combine with above-mentioned fixed cell 320 activity.

As shown in figure 20, the utility model discloses a kind of grip structure of the 6th embodiment again, the difference of the grip structure of itself and the 5th embodiment is that the quantity of this telescopic head unit 310 is one, the quantity of this fixed cell 320 is one, and the grip structure of the 6th embodiment more comprises manipulation portion 330, this manipulation portion 330 can be tubular, and its upper and lower both sides have one the 3rd defining flange 333 and outward extending 4th defining flange 334 that extend internally respectively, the below that 3rd defining flange 333 is positioned at this head 311 is spacing mutually to interfere with this head 311, or the 3rd defining flange 333 mutually to interfere with this fixed cell 320 and spacing.In addition, the quantity in this manipulation portion 330 can be multiple, and be positioned at the below of the 4th defining flange 334 by the 3rd defining flange 333 between above-mentioned manipulation portion 330 spacing mutually to interfere, above-mentioned manipulation portion 330 can increase stretching space.As shown in Figure 22 to 25, the utility model discloses a kind of grip structure of the 8th embodiment again, the enforcement outward appearance of its display the 6th embodiment.

As shown in figure 21, the utility model discloses a kind of grip structure of the 7th embodiment again, the difference of the grip structure of itself and the 6th embodiment is that this manipulation portion 330 has the 5th defining flange 335 extended internally, 5th defining flange 335 can be positioned at sustained height with the 4th defining flange 334, and this head 311 is limited between the 3rd defining flange 333 and the 5th defining flange 335.Whereby, this manipulation portion 330 can be limited in specific range of stretch.

As shown in figure 21, in the utility model, the grip structure of the 7th embodiment more can comprise the first elastic parts 130, and this first elastic parts 130 can be helical spring, and its two ends are resisted against this head 311 and the 3rd defining flange 333 respectively.Whereby, this manipulation portion 330 can elastic stretching.In addition, this first elastic parts 130 is also applicable to the grip structure of the 6th embodiment.

As shown in Figure 26 and Figure 27, the utility model discloses a kind of grip structure of the 9th embodiment again, the difference of the grip structure of itself and the 5th embodiment is that the quantity of this telescopic head unit 310 is one, the quantity of this fixed cell 320 is one, and the inner edge of the 3rd defining flange 333 of the grip structure of the 9th embodiment has the first buckle unit 331, have at least one second buckle unit 326 outside this fixed cell 320 between this second defining flange 321 and this combination section 322, this first buckle unit 331 movable buckle is in above-mentioned second buckle unit 326.Whereby, after the grip structure of the utility model the 9th embodiment is combined in this assembled plate 1 by this combination section 322, this manipulation portion 330 by the mutual buckle of its first buckle unit 331 with above-mentioned second buckle unit 326, and temporarily can be positioned ad-hoc location when making this manipulation portion 330 stretch out or retract.In addition, the effect of buffering can be reached when this manipulation portion 330 also makes this manipulation portion 330 move relative to this fixed cell 320 by its first buckle unit 331 and the mutual buckle of above-mentioned second buckle unit 326.

As shown in Figure 26 and Figure 27, in above-mentioned grip structure, this first buckle unit 331 can convexly, and above-mentioned second buckle unit 326 can concavely (or this first buckle unit 331 can be concavely, above-mentioned second buckle unit 326 can convexly), with mutual buckle.In addition, this the first buckle unit 331 can be arc convex body or oblique convex body, above-mentioned second buckle unit 326 can be arc groove or oblique groove (or this first buckle unit 331 can be arc groove or oblique groove, above-mentioned second buckle unit 326 can be arc convex body or oblique convex body).This manipulation portion 330 can in the form of a ring and its top can extend out, bottom can inside contract, and this first buckle unit 331 can be positioned on the periphery that inside contracts, this the first buckle unit 331 can have multiple elasticity convex body maybe can have resilient annular flange, and above-mentioned second buckle unit 326 can have multiple spring groove respectively maybe can have annular resilient groove.

As shown in Figure 26 and Figure 27, in above-mentioned grip structure, the bottom side of this telescopic head unit 310 can have convex buckle portion 313 with in order to fasten external object, and this convex buckle portion 313 of graphic middle display is threaded body.

As shown in figure 28, in above-mentioned grip structure, this convex buckle portion 313 is except can be above-mentioned threaded body, and this convex buckle portion 313 also can be outer button (Figure 28 (a)), interior button (Figure 28 (b)), cylinder (Figure 28 (c)), snap-on pin (Figure 28 (d)) or snap-on ball (Figure 28 (e)).

As shown in Figure 26 and Figure 27, in above-mentioned grip structure, more can comprise contacting piece 340, it can be buckled in this convex buckle portion 313 to coordinate with this combination section 322, so can this assembled plate 1 of clipping between this combination section 322 and this contacting piece 340.In addition, this contacting piece 340 can have screw to fasten with the convex buckle portion 313 of threaded body, or this contacting piece 340 can have perforation to fasten with the convex buckle portion 313 of outer button, cylinder, snap-on pin or snap-on ball, or this contacting piece 340 can have perforation and can have convex body in this perforation to fasten with the convex buckle portion 313 of interior button.

The utility model also provides a kind of modular structure, and it can be combined into by grip structure as above or handling device and assembled plate 1.

Similarly, as shown in figure 15, the grip structure of above-mentioned the utility model embodiment can be placed in packaging carrier, and this packaging carrier comprises container 3, and this container 3 has multiple storage tank 31, and can accommodating above-mentioned grip structure.In addition, this packaging carrier can comprise lid 4, and this lid 4 is arranged on this container 3 for closing respectively this storage tank 31.Moreover this container 3 can in banded or plate-like, and wherein plate-like extends by the direction of graphic band shape towards vertical paper.

Accordingly, above-mentioned the utility model embodiment provides telescopic grip structure and handling device, it is not when user stretches this telescopic head unit, this grip structure can maintain condensed state, and the space that grip structure and handling device can be allowed to take is reduced, when user stretches this telescopic head unit, this grip structure is extended state and allows the hand of user have sufficient space to grip, so that operation.

The utility model is disclosed by preferred embodiment hereinbefore, but has the knack of and it will be understood by those skilled in the art that this embodiment only for describing the utility model, and should not be read as restriction scope of the present utility model.It should be noted, every change with this embodiment equivalence and displacement, all should be set to and be covered by category of the present utility model.Therefore, the scope that protection domain of the present utility model should define with claims is as the criterion.

Claims (40)

1. a telescopic grip structure, is characterized in that, comprises:

Telescopic head unit, its both sides have head and the first defining flange; And

Fixed cell, it has the second defining flange and combination section, and this second defining flange is spacing for mutually interfering with this first defining flange;

Wherein, this telescopic head unit is incorporated into this fixed cell movably, this first defining flange reciprocally move and relatively this second defining flange away from or close, and when this first defining flange and this second defining flange closest to time be extended state, when this head and this second defining flange closest to time be condensed state.

2. telescopic grip structure as claimed in claim 1, is characterized in that, also comprises the first elastic parts, and the two ends of this first elastic parts support this telescopic head unit and this fixed cell respectively.

3. telescopic grip structure as claimed in claim 1, it is characterized in that, this telescopic head unit is first sleeve with accommodation space, this fixed cell is placed in this first sleeve when condensed state, this first defining flange is positioned at this first sleeve and inwardly protrudes out and this second defining flange outwards protrudes out.

4. telescopic grip structure as claimed in claim 3, it is characterized in that, this telescopic head unit has convex buckle portion, this convex buckle portion connects this head, and this fixed cell has through hole, this convex buckle portion is passed this through hole when this condensed state and is protruded from outside this grip structure, maintains this condensed state for detachably fastening to object.

5. telescopic grip structure as claimed in claim 2, is characterized in that, the two ends of this first elastic parts support this head and this fixed cell respectively.

6. telescopic grip structure as claimed in claim 5, is characterized in that, this fixed cell is arranged with groove, and this first elastic parts is placed in this groove.

7. telescopic grip structure as claimed in claim 2, is characterized in that, the two ends of this first elastic parts are supported on this first defining flange and on the second defining flange respectively.

8. telescopic grip structure as claimed in claim 1 or 2, it is characterized in that, this telescopic head unit comprises the first sleeve and has the telescopic tube assembly of accommodation space, this telescopic tube assembly combines movably with in this first sleeve, this fixed cell is placed in this telescopic tube assembly when condensed state, this first defining flange is formed at this telescopic tube assembly and inwardly protrudes out and this second defining flange outwards protrudes out.

9. telescopic grip structure as claimed in claim 8, it is characterized in that, this telescopic tube assembly has multiple sleeve pipe, and the interference flange between this first sleeve and adjacent sleeve pipe and by extending in the opposite direction between two adjacent sleeve pipes is mutually interfered spacing when extended state.

10. telescopic grip structure as claimed in claim 9, it is characterized in that, more comprise at least one second elastic parts, it is arranged between two sleeve pipes between this first sleeve and adjacent sleeve pipe and adjacent, respectively the two ends of this second elastic parts be bonded to this first sleeve and adjacent sleeve pipe respectively interference flange on and adjacent two sleeve pipes interference flange on.

11. telescopic grip structures as claimed in claim 10, it is characterized in that, this telescopic head unit has convex buckle portion, this convex buckle portion connects this head, and this fixed cell has through hole, this convex buckle portion is passed this through hole when condensed state and is protruded from outside this fixed cell, maintains condensed state for detachably fastening to object.

12. telescopic grip structures as claimed in claim 2, it is characterized in that, this fixed cell is second sleeve with accommodation space, this telescopic head unit is placed in this second sleeve when condensed state, this second defining flange is positioned at this second sleeve top side and inwardly protrudes out and this first defining flange outwards protrudes out.

13. telescopic grip structures as claimed in claim 12, it is characterized in that, this telescopic head unit has convex buckle portion, this convex buckle portion is positioned at this telescopic head unit bottom side, this convex buckle portion is passed this second sleeve when condensed state and is protruded from outside this grip structure, maintains this condensed state for detachably fastening to object.

14. telescopic grip structures as described in claim 2 or 12, it is characterized in that, the two ends of this first elastic parts support this head and this second defining flange respectively.

15. telescopic grip structures as described in claim 2 or 12, it is characterized in that, the two ends of this first elastic parts are supported on this first defining flange and on the second defining flange respectively.

16. telescopic grip structures as claimed in claim 1 or 2, it is characterized in that, this fixed cell comprises the second sleeve and has the telescopic tube assembly of accommodation space, this telescopic tube assembly is combined with this second sleeve movably, this telescopic head unit is placed in this telescopic tube group when condensed state, this second defining flange is formed at this telescopic tube assembly and inwardly protrudes out and this first defining flange outwards protrudes out.

17. telescopic grip structures as claimed in claim 16, it is characterized in that, this telescopic tube assembly has multiple sleeve pipe, and the interference flange between the second sleeve and adjacent sleeve pipe and by extending in the opposite direction between adjacent two sleeve pipes is interfered spacing mutually when extended state.

18. telescopic grip structures as claimed in claim 17, it is characterized in that, more comprise at least one second elastic parts, respectively the two ends of this second elastic parts be bonded to this second sleeve and adjacent sleeve pipe respectively interference flange on and adjacent two sleeve pipes interference flange on.

19. telescopic grip structures as claimed in claim 16, it is characterized in that, this telescopic head unit has convex buckle portion, this convex buckle portion is positioned at this telescopic head unit bottom side, this convex buckle portion is passed this fixed cell when condensed state and is protruded from outside this fixed cell, maintains condensed state for detachably fastening to object.

20. 1 kinds of handling devices, is characterized in that, comprise the telescopic grip structure according to any one of claim 1 to 19, and this telescopic head unit has Handheld Division, make this telescopic head unit move relative to this fixed cell for operation.

21. handling devices as claimed in claim 20, it is characterized in that, this Handheld Division is articulated in this telescopic head unit.

22. handling device as claimed in claim 20, is characterized in that, this Handheld Division is arranged with sheath.

23. handling devices as claimed in claim 20, it is characterized in that, comprise two handles structures, and the Handheld Division of this two handles structure are connected to each other.

24. handling devices as claimed in claim 20, it is characterized in that, this Handheld Division is articulated in this telescopic head unit.

25. handling devices according to any one of claim 20 to 24, it is characterized in that, more comprise assembled plate, the combination section of this fixed cell is combined with this assembled plate.

26. handling devices as claimed in claim 25, is characterized in that, the combination section of this fixed cell and this assembled plate integrally formed.

27. 1 kinds of grip structures, is characterized in that, comprise:

Telescopic head unit, it has head and the first defining flange; And

Fixed cell, it has the second defining flange and combination section, and this second defining flange is spacing for mutually interfering with this first defining flange;

Wherein, this telescopic head unit is incorporated into this fixed cell movably, this first defining flange reciprocally move and relatively this second defining flange away from or close, and when this first defining flange and this second defining flange closest to time be extended state, when this head and this second defining flange closest to time be condensed state; This fixed cell is second sleeve with accommodation space, and this first defining flange is placed in this second sleeve, and this second defining flange is positioned at this second sleeve top side and inwardly protrudes out and this first defining flange outwards protrudes out.

28. grip structures as claimed in claim 27, it is characterized in that, stroke between this telescopic head unit and this fixed cell is more than or equal to 0.1 millimeter respectively, or the translational movement between this telescopic head unit and this fixed cell is more than or equal to 0.1 millimeter respectively, or the stroke between this telescopic head unit and this fixed cell is more than or equal to 0.1 millimeter respectively and translational movement between this telescopic head unit and this fixed cell is more than or equal to 0.1 millimeter respectively.

29. grip structures as claimed in claim 27, it is characterized in that, the quantity of this telescopic head unit is two, the quantity of this fixed cell is two, and the head of above-mentioned telescopic head unit connects into Handheld Division.

30. grip structures as claimed in claim 27, is characterized in that, this combination section by welding, riveted joint, expand connect, interlocking, gluing or magnetic to be to combine with external object.

31. grip structures as claimed in claim 27, is characterized in that, more comprise manipulation portion, it has the 3rd defining flange and the 4th defining flange, and the 3rd defining flange and this head or this fixed cell are interfered and spacing mutually.

32. grip structures as claimed in claim 31, it is characterized in that, this manipulation portion has the 5th defining flange, and this head is limited between the 3rd defining flange and the 5th defining flange.

33. grip structures as claimed in claim 31, is characterized in that, more comprise the first elastic parts, its two ends are resisted against this head and the 3rd defining flange respectively.

34. grip structures as claimed in claim 31, it is characterized in that, 3rd defining flange has the first buckle unit, have at least one second buckle unit outside this fixed cell between this second defining flange and this combination section, this first buckle unit activity is snapped in above-mentioned second buckle unit.

35. grip structures as claimed in claim 34, is characterized in that, convexly, above-mentioned second buckle unit concavely for this first buckle unit; Or concavely, above-mentioned second buckle unit convexly for this first buckle unit.

36. grip structures as claimed in claim 34, it is characterized in that, this first buckle unit is arc convex body or oblique convex body, above-mentioned second buckle unit is arc groove or oblique groove; Or this first buckle unit is arc groove or oblique groove, above-mentioned second buckle unit is arc convex body or oblique convex body.

37. grip structures as claimed in claim 31, it is characterized in that, the bottom side of this telescopic head unit has convex buckle portion.

38. grip structures as claimed in claim 37, is characterized in that, this convex buckle portion is threaded body, outer button, interior button, cylinder, snap-on pin or snap-on ball.

39. grip structures as claimed in claim 37, is characterized in that, more comprise contacting piece, it is buckled in this convex buckle portion to coordinate with this combination section.

40. 1 kinds of modular structures, it is characterized in that, it is combined into by the grip structure such as according to any one of claim 1 to 19 or the handling device according to any one of claim 20 to 26 or the grip structure according to any one of claim 27 to 39 and assembled plate.