CN103883060A - Clamping piece, assembling method of clamping piece and ceiling and disassembling method of clamping piece and ceiling - Google Patents

Abstract

The invention discloses a clamping piece which comprises a keel clamping part and a ceiling clamping part. The ceiling clamping part comprises a limiting clamping plate and a pair of bearing clamping plates. The limiting clamping plate is provided with limiting clamping grooves. Each bearing clamping plate is divided into a main bearing plate and an auxiliary bearing plate, the main bearing plates are provided with sliding adjustment pieces, and bearing clamping grooves are formed between the sliding adjustment pieces and the auxiliary bearing plates. Due to the fact that the bearing clamping grooves are formed by the sliding adjustment pieces and the auxiliary bearing plates, the bearing clamping grooves can be changed by adjusting the relative positions between the sliding adjustment pieces and the auxiliary bearing plates, the positions of the sliding adjustment pieces can be changed through the clamping piece, and accordingly the clamping piece is mounted and dismounted. The invention further discloses an assembling method and disassembling method of the clamping piece and a ceiling.

Description

Shackle member, shackle member and ceiling-mounted method and shackle member and ceiling method for dismounting

Technical field

The present invention relates to decoration material field, particularly relate to a kind of shackle member, shackle member and ceiling-mounted method and shackle member and ceiling method for dismounting.

Background technology

In the time of interior decoration, ceiling often can be installed.Conventionally installing when ceiling, before this ceiling supporting member was installed on wall, and then by ceiling by pasting or the mode such as welding is installed on ceiling on supporting member.But so mode has certain difficulty of construction, user is difficult to install voluntarily ceiling, and installs and disassemble difficulty.

Summary of the invention

Based on this, the invention reside in the defect that overcomes prior art, a kind of shackle member, shackle member and ceiling-mounted method and shackle member and ceiling method for dismounting are provided, simplify the mounting means of ceiling.

Its technical scheme is as follows:

A kind of shackle member, comprise keel Access Division and ceiling clamping portion, described smallpox Access Division comprises spacing clamp and a pair of load-bearing clamp, described spacing clamp has spacing draw-in groove, each load-bearing clamp is divided into main bearing plate and auxiliary bearing plate, on described main bearing plate, slip adjustment part is installed, between described slip adjustment part and auxiliary bearing plate, forms load-bearing draw-in groove.

Because having slip adjustment part and auxiliary bearing plate, the draw-in groove of weighing forms, by adjusting the relative position between described slip adjustment part and auxiliary bearing plate, the draw-in groove of weighing described in can changing, shackle member can, by changing the position of described slip adjustment part, realize the installation and removal of shackle member.

Described slip adjustment part comprises lever arm fixed block, travelling arm, cover and magnet piece, the formation adjustment tank of described cover and described lever arm fixed block, described travelling arm is arranged between lever arm fixed block and cover, and slide in described adjustment tank, described magnet piece is fixed on lever arm, forms described load-bearing draw-in groove between described travelling arm and auxiliary bearing plate.

Described slip adjustment part comprises lever arm fixed claw, travelling arm and magnet piece, described lever arm fixed claw is arranged on main bearing plate and with main bearing plate and forms adjustment tank, described travelling arm is arranged in described adjustment tank, and slide in described adjustment tank, described magnet piece is fixed on lever arm, forms described load-bearing draw-in groove between described travelling arm and auxiliary bearing plate.

By utilizing large magnet or other magnetisable materials to draw magnet piece, thereby the front and back activity of control travelling arm, even if make not visible in the situation that, also can be installed on dismounting by described shackle member.

Described travelling arm slides along the direction of vertical described spacing clamp place plane, and one end projection of lever arm is also bent to form magnet piece fixed part, and described magnet piece is fixed on the magnet piece fixed part of lever arm.The other end of described lever arm has protruding hook part, while having avoided lever arm to slide in adjustment tank, may occur excessive slip and causes lever arm unexpected situation about skidding off from adjustment tank to occur.

Described spacing draw-in groove is one, it is directly offered from described spacing clamp, it is free-ended horn-like towards spacing clamp that described spacing draw-in groove is opening, the inwall of described each spacing draw-in groove has pawl, described pawl is continuous fluctuating shape, it has multiple protuberances, and described protuberance tilts to the cecum of spacing draw-in groove.

Described spacing draw-in groove is two, between described two spacing draw-in grooves, be provided with dividing plate, each spacing draw-in groove is all directly offered from described spacing clamp, it is free-ended horn-like towards spacing clamp that described spacing draw-in groove is opening, the inwall of described each spacing draw-in groove has pawl, described pawl is continuous fluctuating shape, and it has multiple protuberances, and described protuberance tilts to the cecum of spacing draw-in groove.

Described a pair of load-bearing clamp is from the relative two ends bending of described spacing clamp, described main bearing plate and described auxiliary bearing plate are respectively from described spacing clamp towards two contrary direction bendings, described keel Access Division comprises fixed head and pair of sliding plate, described pair of sliding plate is from the relative two ends bending of described fixed head, on each sliding panel, be recessed to form thickness of slab and dodge mouth, described thickness of slab is dodged the one end that mouthful is positioned at sliding panel and approaches load-bearing clamp, described thickness of slab is dodged mouth for square groove, its opening is towards the link of described a pair of load-bearing clamp and spacing clamp, on each sliding panel, be recessed to form screw terminal and dodge mouth, described screw terminal is dodged mouth and is positioned at the medium position place of sliding panel away from one end of fixed head, described screw terminal is dodged mouth for semi-circular recesses, its opening is described fixed head dorsad.

The opening direction of load-bearing draw-in groove is vertical with the opening direction of spacing draw-in groove.

A kind of shackle member and ceiling-mounted method, comprise step:

Lever arm slides into one end place away from described auxiliary bearing plate;

The side plate of ceiling is snapped in spacing draw-in groove;

Large magnetic patch attracts the drive lever arm lever arm to move towards the direction of auxiliary bearing plate from ceiling by magnetic attraction, forms load-bearing draw-in groove to block the clamp of ceiling.

A kind of shackle member and ceiling method for dismounting, comprise step:

Large magnetic patch attracts the drive lever arm on lever arm to assist dorsad the direction of bearing plate to move by magnetic attraction;

Described load-bearing draw-in groove disappears;

Ceiling drops from spacing draw-in groove.

Due to can be by the activity of large magnetic patch control lever arm, and then form or dismounting load-bearing draw-in groove, to make ceiling and shackle member not visible or ceiling is installed and removed cannot touch in the situation that, to be applicable to the installation of the ceiling of edge.

Brief description of the drawings

Fig. 1 is the schematic perspective view of the shackle member of first embodiment of the invention.

Fig. 2 is the sawing sheet figure of the shackle member of first embodiment of the invention.

Fig. 3 is the front elevation drawing of Fig. 1.

Fig. 4 is the schematic perspective view of the shackle member of second embodiment of the invention.

Fig. 5 is the schematic perspective view of the shackle member of third embodiment of the invention.

Fig. 6 is the front elevation drawing of Fig. 5.

Fig. 7 is the front-view schematic diagram of the shackle member of fourth embodiment of the invention.

Fig. 8 is the schematic perspective view of the shackle member of fifth embodiment of the invention.

Fig. 9 is the front elevation drawing of Fig. 8.

Figure 10 is the schematic perspective view of the shackle member of sixth embodiment of the invention.

Figure 11 is the schematic perspective view of the shackle member of seventh embodiment of the invention.

Figure 12 is the schematic perspective view of another angle of the shackle member described in Figure 11.

Figure 13 is the decomposed figure of Figure 12.

Figure 14 is the schematic perspective view of the shackle member of eighth embodiment of the invention.

Figure 15 is the shackle member of the 8th embodiment and the first confined state schematic diagram of ceiling.

Figure 16 is the partial enlarged drawing of Figure 15.

Figure 17 is the shackle member of the 8th embodiment and the second confined state schematic diagram of ceiling.

Figure 18 is the partial enlarged drawing of Figure 17.

Description of reference numerals:

10, 10a, 10b, 10c, 10d, 10e, 10f, 10g, shackle member, 11, 11a, 11b, 11d, 11e, 11f, 11g, keel Access Division, 12, 12a, 12d, 12e, 12f, 12g, ceiling clamping portion, 13, 13a, 13b, 13d, 13f, 13g, fixed head, 130, 130a, 130d, 130e, 130f, 130g, fixing hole, 14, 14a, 14b, 14c, 14d, 14e, 14f, 14g, spacing clamp, 140, 140b, 140d, 140e, 140f, 140g, spacing draw-in groove, 142, 142d, 162, 162d, pawl, 144, through hole, 146, 146d, neck, 15, 15a, 15b, 15d, 15e, 15f, 15f sliding panel, 150, 150d, 150f, screw thread, 152a, 152e, 152g thickness of slab is dodged mouth, 154a, 154g, screw terminal is dodged mouth, and 16, 16a, 16b, 16d, 16e, 16f, 16g, load-bearing clamp, 160, 160d, 160e, load-bearing draw-in groove, 164f, 164g, main bearing plate, 166f, 166g, auxiliary bearing plate, 18b, 18c, locating part, 180f, slip adjustment part, 182b, 184c, be connected and fixed portion, 184b, 184c, elastic arm, 186b, resilient clip opening, 182f, lever arm fixed block, 184f, 184g, travelling arm, 186f, cover, 188f, 188g, magnet piece, 182g, lever arm fixed claw, 30, 30a, ceiling, 32, 32a, body, 34, 34a, side plate, 36, 36a, clamp, 90, screw.

Detailed description of the invention

Below embodiments of the invention are elaborated:

As Figure 1-3, shackle member 10 of the present invention comprises keel Access Division 11 and ceiling clamping portion 12.Described shackle member 10 has metal veneer to be bent into.Described ceiling clamping portion 12 offers spacing draw-in groove 140 for connecting adjacent two ceilings and the load-bearing draw-in groove 160 for fixing keel and ceiling relative position.

The keel Access Division 11 of the shackle member 10 in first embodiment of the invention comprises fixed head 13 and the pair of sliding plate 15 from the relative two ends bending of described fixed head 13.Described smallpox Access Division 12 comprises spacing clamp 14 and a pair of load-bearing clamp 16 from the relative two ends bending of described spacing clamp 14.Described keel Access Division 11 is bent to form along straightway A by metal veneer with smallpox Access Division 12.Described fixed head 13 and pair of sliding plate 15 are bent to form towards the direction that deviates from ceiling clamping portion 12 along straightway B by keel Access Division 11.Described spacing clamp 14 and a pair of load-bearing clamp 16 are bent to form towards the direction that deviates from keel Access Division 11 along straightway C by ceiling clamping portion 12.In the present embodiment, described fixed head 13 is vertical with pair of sliding plate 15, and described spacing clamp 14 is vertical with a pair of load-bearing clamp 16.The width of described fixed head 13 equals the width of described spacing clamp 14.That is to say that the distance of pair of sliding plate 15 equals the distance of a pair of load-bearing clamp 16.

Described fixed head 13 medium position places offer fixing hole 130.On each sliding panel 15, offer screw thread 150.In the present embodiment, the spacing draw-in groove 140 of ceiling clamping portion 12 is directly offered from spacing clamp 14.It is free-ended horn-like towards described spacing clamp 14 that described spacing draw-in groove 140 is opening.The inwall of described spacing draw-in groove 140, that is to say that the fluting edge of spacing clamp 14 has pawl 142.Described pawl 142 is continuous fluctuating shape, and it has multiple protuberances, and described protuberance tilts to the cecum of spacing draw-in groove 140.In described spacing clamp 14, also offer some through holes 144.In an embodiment, described spacing clamp 14 has three through holes 144, and one of them is distributed near spacing draw-in groove 140 cecums, and two other is distributed in the both sides of spacing draw-in groove 140.Spacing clamp 14 protrudes out and forms a neck 146 with the junction of fixed head 13.The width of described neck 146 is less than the width of described spacing clamp 14.The load-bearing draw-in groove 160 of ceiling clamping portion 12 is directly offered from each load-bearing clamp 16.It is free-ended horn-like towards described load-bearing clamp 16 that described load-bearing draw-in groove 160 is opening.The opening direction of load-bearing draw-in groove 160 is vertical with the opening direction of spacing draw-in groove 140.The inwall of described load-bearing draw-in groove 160, that is to say that the fluting edge of load-bearing clamp 16 has pawl 162.Described pawl 162 is continuous fluctuating shape, and it has multiple protuberances, and described protuberance tilts to the cecum of load-bearing draw-in groove 160.On described load-bearing clamp 16, also offer through hole (figure is mark not).Through hole on described load-bearing clamp 16 is distributed in load-bearing draw-in groove 160 and opening direction spacing draw-in groove 140 a side in the same way.The groove width of described spacing draw-in groove 140 is greater than the groove width of described load-bearing draw-in groove 160.Because spacing clamp 14 and the fluting edge of load-bearing clamp 16 have pawl 142,162, therefore, while utilizing spacing draw-in groove 140 with load-bearing draw-in groove 160, ceiling to be located, pawl 142,162 is further clamped ceiling, reaches installation object even if also make shackle member 10 have error in production also can utilize pawl 142,162 that the inwall of ceiling is eaten to wound simultaneously.Have because described pawl 142,162 is continuous fluctuating shape, and there are multiple protuberances, and described protuberance is respectively to the cecum inclination of spacing draw-in groove 140, load-bearing draw-in groove 160, is more conducive to ceiling in the time snapping in spacing draw-in groove 140, load-bearing draw-in groove 160.

As shown in Figure 4, the something in common of the shackle member 10 in the shackle member 10a in second embodiment of the invention and the first embodiment is, a pair of load-bearing clamp 16a that the smallpox Access Division 12a of shackle member 10a also comprises spacing clamp 14a and bends from the relative two ends of described spacing clamp 14a.And the spacing clamp 14a in the present embodiment has identical structure with the spacing clamp 14 in load-bearing clamp 16a and the first embodiment with load-bearing clamp 16.The not something in common of the shackle member 10 in the shackle member 10a in the second embodiment and the first embodiment is, pair of sliding plate 15a and horizontal sliding panel 17a that the keel Access Division 11a of shackle member 10a comprises fixed head 13a, bends from the relative two ends of described fixed head 13a.Described fixed head 13a medium position place offers fixing hole 130a.On each sliding panel 15a, be recessed to form thickness of slab and dodge a mouthful 152a.Described thickness of slab is dodged mouthful 152a and is positioned at sliding panel 15a and approaches one end of load-bearing clamp 16a.It is square groove that described thickness of slab is dodged mouthful 152a, and its opening is towards the link of described a pair of load-bearing clamp 16a and spacing clamp 14a.On each sliding panel 15a, be also recessed to form screw terminal and dodge a mouthful 154a.Described screw terminal is dodged mouthful 154a and is positioned at the medium position place of sliding panel 15a away from one end of fixed head 13a, and screw terminal to dodge mouthful 154a be semi-circular recesses, its opening is described fixed head 13a dorsad.In the present embodiment, described fixed head 13a is vertical with pair of sliding plate 15a, and described spacing clamp 14a is vertical with a pair of load-bearing clamp 16a.The width of described fixed head 13a equals the width of described spacing clamp 14a.That is to say that the distance of pair of sliding plate 15a equals the distance of a pair of load-bearing clamp 16a.The width of described horizontal sliding panel 17a is less than or equal to the width of described fixed head 13a.On described horizontal sliding panel 17a, offer through hole (figure is mark not).

Because described shackle member 10,10a are bent into by metal veneer, therefore the manufacture of shackle member 10,10a is simple, and toughness is large.In the time that shackle member 10,10a are used for connecting keel and ceiling, its enough toughness makes the installation of keel and ceiling firm.Again because the keel Access Division 11 of shackle member 10 comprises fixed head 13 and pair of sliding plate 15, the keel Access Division 11a of shackle member 10a comprises fixed head 13a, pair of sliding plate 15a and horizontal sliding panel 17a, therefore can utilize the mode of slip by sliding as in keel to sliding panel 15,15a, 17a, realize the assembling of shackle member 10,10a and keel.And fixed head 13 makes keel Access Division 11,11a have good support force with the structure of pair of sliding plate 15, and then snaps in keel process at shackle member 10,10a, can not cause because of affected error shackle member 10,10a distortion.Have again, because the ceiling clamping portion 12 of shackle member 10,10a has spacing clamp 14,14a and a pair of load-bearing clamp 16,16a.And on spacing clamp 14,14a, offer spacing draw-in groove 140, on load-bearing clamp 16,16a, offer load-bearing draw-in groove 160.Therefore, can utilize the mode of clamping, spacing draw-in groove 140 is blocked two ceilings, realize the splicing of adjacent two ceilings.Utilize equally the mode of clamping, by load-bearing draw-in groove 160 and ceiling clamping, realize the location of ceiling and keel, thereby complete the assembling of ceiling.Have, because ceiling clamping portion 12,12a only have a spacing draw-in groove 140, two adjacent ceilings are by same spacing draw-in groove 140 clampings again, and therefore two adjacent ceiling close joints splice.

As shown in Fig. 5-6, shackle member 10 structures in the shackle member 10b in third embodiment of the invention and the first embodiment are basic identical, and its keel Access Division 11b also comprises fixed head 13b and the pair of sliding plate 15b from the relative two ends bending of described fixed head 13b.And the fixed head 13b in the present embodiment has identical structure with the fixed head 13 in sliding panel 15b and the first embodiment with sliding panel 15.The smallpox Access Division 12b of shackle member 10b also comprises spacing clamp 14b and a pair of load-bearing clamp 16b from the relative two ends bending of described spacing clamp 14b.And the load-bearing clamp 16b in the present embodiment has identical structure with the load-bearing clamp 16 in the first embodiment.The not something in common of the shackle member 10 in the shackle member 10b in the present embodiment and the first embodiment is, offers locating part fitting recess 140b on spacing clamp 14b.On described locating part fitting recess 140b, locating part 18b is installed.Described locating part 18b comprises and is connected and fixed the 182b of portion and a pair of elastic arm 184b.The described 182b of portion that is connected and fixed is fixed in the through hole on spacing clamp 14b by screw 90, and locating part 18b is installed on described spacing clamp 14b.Described a pair of elastic arm 184b is connected and is connected with the described 182b of portion that is connected and fixed.Described a pair of elastic arm 184b is ") (" shape, thereby the middle part of the two bending is mutually near the spacing draw-in groove that forms the present embodiment.The free end of a pair of elastic arm 184b forms resilient clip opening 186b.Described locating part 18b is stainless steel elastic component, and it,, owing to having a pair of elastic arm 184b, therefore goes for connecting the ceiling of any thickness.

As shown in Figure 7, the shackle member 10b in the shackle member 10c in fourth embodiment of the invention and the 3rd embodiment is basic identical, and its difference is, the elastic arm 184c of the locating part 18c in the present embodiment is different from the locating part 10b in the 3rd embodiment.Locating part 18c also comprises fixed part 182c and a pair of elastic arm 184c, and locating part 18c is identical with the 3rd embodiment with the connected mode of spacing clamp 14c.A pair of elastic arm 184c surface in the present embodiment is continuous fluctuating shape.Described contoured elastic arm 184c, makes locating part 18c in the time connecting ceiling, have more grasp.

As Figure 8-9, the shackle member 10 in the shackle member 10d in fifth embodiment of the invention and the first embodiment is basic identical.The keel Access Division 11d of shackle member 10d also comprises fixed head 13d and the pair of sliding plate 15d from the relative two ends bending of described fixed head 13d.And the fixed head 13d in the present embodiment has identical structure with the fixed head 13 in sliding panel 15d and the first embodiment with sliding panel 15.Fixed head 13d medium position place offers fixing hole 130d, on each sliding panel 15d, offers screw thread 150d.Shackle member 10 differences of the shackle member 10d of this fact Example and the first embodiment are, a pair of load-bearing clamp 16d that smallpox Access Division 12d comprises spacing clamp 14d and bends from the relative two ends of described spacing clamp 14d.The ceiling clamping 12d of portion has two spacing draw-in groove 140d.Described two spacing draw-in groove 140d directly offer from spacing clamp 14d.It is free-ended horn-like towards described spacing clamp 14d that each spacing draw-in groove 140d is opening.The inwall of described each spacing draw-in groove 140d, that is to say that the fluting edge of spacing clamp 14d has pawl 142d.Described pawl 142d is continuous fluctuating shape, and it has multiple protuberances, and described protuberance tilts to the cecum of spacing draw-in groove 140d.Between described two spacing draw-in groove 140d, be provided with dividing plate 148d.The free end of described dividing plate 148d is than the free end indent from described spacing clamp 14d.The junction of spacing clamp 14d and fixed head 13d protrudes out and forms a neck 146d.The width of described neck 146d is less than the width of described spacing clamp 14d, is also less than the width of described fixed head 13d.The load-bearing draw-in groove 160d of the ceiling clamping 12d of portion directly offers from each load-bearing clamp 16d.It is free-ended horn-like towards described load-bearing clamp 16d that described load-bearing draw-in groove 160d is opening.The opening direction of load-bearing draw-in groove 160d is vertical with the opening direction of spacing draw-in groove 140d.The inwall of described load-bearing draw-in groove 160d, that is to say that the fluting edge of load-bearing clamp 16d has pawl 162d.Described pawl 162d is continuous fluctuating shape, and it has multiple protuberances, and described protuberance tilts to the cecum of load-bearing draw-in groove 160d.On described load-bearing clamp 16d, offer through hole (figure is mark not).Through hole on described load-bearing clamp 16d is distributed in load-bearing draw-in groove 160d and opening direction spacing draw-in groove 140d a side in the same way.The groove width of described spacing draw-in groove 140d is greater than the groove width of described load-bearing draw-in groove 160d.The width of described fixed head 13d is less than the width of described spacing clamp 14d.That is to say that the distance of pair of sliding plate 15d is less than the distance of a pair of load-bearing clamp 16d.

As shown in figure 10, shackle member 10a in shackle member 10c in sixth embodiment of the invention and the second embodiment is basic identical, pair of sliding plate 15e and horizontal sliding panel 17e that the keel Access Division 11e of shackle member 10e also comprises fixed head 13e, bends from the relative two ends of described fixed head 13e.Described fixed head 13e medium position place offers fixing hole 130e.On each sliding panel 15e, be recessed to form thickness of slab and dodge a mouthful 152e.Described thickness of slab is dodged mouthful 152a and is positioned at sliding panel 15a and approaches one end of load-bearing clamp 16a.On each sliding panel 15a, be also recessed to form screw terminal and dodge a mouthful 154a.Described screw terminal is dodged mouthful 154a and is positioned at the medium position place of sliding panel 15a away from one end of fixed head 13a.In the present embodiment, described fixed head 13e is vertical with pair of sliding plate 15e, and described spacing clamp 14e is vertical with a pair of load-bearing clamp 16e.The difference of the shackle member 10a of the shackle member 10c of the present embodiment and the second embodiment is, the width of described fixed head 13e is less than the width of described spacing clamp 14e.That is to say that the distance of pair of sliding plate 15e is less than the distance of a pair of load-bearing clamp 16e.The width of described horizontal sliding panel 17e is less than or equal to the width of described fixed head 13e.On described horizontal sliding panel 17e, offer through hole (figure is mark not).Smallpox Access Division 12e comprises spacing clamp 14e and a pair of load-bearing clamp 16de from the relative two ends bending of described spacing clamp 14e.The ceiling clamping 12e of portion has two spacing draw-in groove 140e.Described two spacing draw-in groove 140e directly offer from spacing clamp 14e.It is free-ended horn-like towards described spacing clamp 14e that each spacing draw-in groove 140e is opening.Between described two spacing draw-in groove 140e, be provided with dividing plate 148e.The free end of described dividing plate 148e is than the free end indent from described spacing clamp 14e.The junction of spacing clamp 14e and fixed head 13e protrudes out and forms a neck (figure is mark not).The width of described neck is less than the width of described spacing clamp 14e, is also less than the width of described fixed head 13e.The load-bearing draw-in groove 160e of the ceiling clamping 12e of portion directly offers from each load-bearing clamp 16e.It is free-ended horn-like towards described load-bearing clamp 16e that described load-bearing draw-in groove 160e is opening.The opening direction of load-bearing draw-in groove 160e is vertical with the opening direction of spacing draw-in groove 140e.On described load-bearing clamp 16e, offer through hole (figure is mark not).Through hole on described load-bearing clamp 16e is distributed in load-bearing draw-in groove 160e and opening direction spacing draw-in groove 140e a side in the same way.

Because the ceiling clamping 12d of portion, 12e have two spacing draw-in groove 140d, 140e, two adjacent ceilings are connected in respectively in spacing draw-in groove 140d, a 140e, stitch splicing thereby realize staying of two adjacent ceilings.

As shown in Figure 11-13, shackle member 10 something in common in shackle member 10f in seventh embodiment of the invention and the first embodiment are, the pair of sliding plate 15f that its keel Access Division 11f also comprises fixed head 13f and bends from the relative two ends of described fixed head 13f.And the fixed head 13f in the present embodiment has identical structure with the fixed head 13 in sliding panel 15f and the first embodiment with sliding panel 15.Fixed head 13f medium position place also offers fixing hole 130f, on each sliding panel 15f, offers screw thread 150f.The smallpox Access Division 12f of shackle member 10f also comprises spacing clamp 14f and a pair of load-bearing clamp 16f from the relative two ends bending of described spacing clamp 14f.And the spacing clamp 14f in the present embodiment is identical with spacing clamp 14 structures in the first embodiment, on spacing clamp 14f, also directly offer spacing draw-in groove 140f, and described spacing draw-in groove 140f is identical with the spacing draw-in groove 140 in the first embodiment.The difference of the shackle member 10 in the shackle member 10f in the present embodiment and the first embodiment is, in the present embodiment, the a pair of load-bearing clamp 16f of the two ends bending that described spacing clamp 14f is relative, each load-bearing clamp 16f is divided into main bearing plate 164f and auxiliary bearing plate 166f.Described main bearing plate 164f is the direction bending towards described keel Access Division 11f from described spacing clamp 14f, described auxiliary bearing plate 166f deviates from the direction bending of described keel Access Division 11f from described spacing clamp 14f, or the overbending direction of the two exchanges, as long as the overbending direction of the two on the contrary.On described main bearing plate 164f, slip adjustment part 180f is installed.Between described slip adjustment part 180f and auxiliary bearing plate 166f, form load-bearing draw-in groove (figure is mark not).Described slip adjustment part 180f comprises lever arm fixed block 182f, travelling arm 184f, cover 186f and magnet piece 188f.Described lever arm fixed block 182f is installed on main bearing plate 164f by screw.Described lever arm fixed block 182f comprises the recess that length direction is identical with the direction of vertical described spacing clamp 14f place plane.Described cover 186f is installed on described lever arm fixed block 182f by screw, and form adjustment tank with the recess of described lever arm fixed block 182f, described travelling arm 184f is arranged between lever arm fixed block 182f and cover 186f, and slides in described adjustment tank.One end projection of described lever arm 184f is also bent to form magnet piece fixed part, and described magnet piece 188f is fixed on the magnet piece fixed part of lever arm 184f.The other end of described lever arm 184f has protruding hook part.Because the two ends of described lever arm 184f all have protruding structure, while having avoided lever arm 184f to slide in the adjustment tank that lever arm fixed block 182f and cover 186f form, may there is excessive slip and cause lever arm 184f unexpected situation about skidding off from adjustment tank to occur.In the time that described lever arm 184f slides into certain position, between lever arm 184f and auxiliary bearing plate 166f, form described load-bearing draw-in groove (figure is mark not).Described auxiliary bearing plate 166f towards the skirt selectivity of lever arm 184f there is contoured pawl (figure is mark not).

As shown in figure 14, shackle member 10 something in common in shackle member 10g in eighth embodiment of the invention and the second embodiment are, pair of sliding plate 15g and horizontal sliding panel 17g that keel Access Division 11g also comprises fixed head 13g and bends from the relative two ends of described fixed head 13g.Fixed head 13g, pair of sliding plate 15g in the present embodiment and laterally sliding panel 17g have identical structure with fixed head 13a, pair of sliding plate 15a and horizontal sliding panel 17a in the second embodiment.Wherein, fixed head 13g medium position place also offers fixing hole 130g, is also recessed to form that thickness of slab is dodged mouthful 152g and screw terminal is dodged a mouthful 154g on each sliding panel 15g.The smallpox Access Division 12g of shackle member 10g also comprises spacing clamp 14g and a pair of load-bearing clamp 16g from the relative two ends bending of described spacing clamp 14g.The difference of shackle member 10a in shackle member 10g in the present embodiment and the second embodiment is, in the present embodiment, directly offers spacing draw-in groove 140g on spacing clamp 14g, and each load-bearing clamp 16g is divided into main bearing plate 164g and auxiliary bearing plate 166g.Described main bearing plate 164g is the direction bending towards described keel Access Division 11g from described spacing clamp 14g, and described auxiliary bearing plate 166g deviates from the direction bending of described keel Access Division 11g from described spacing clamp 14g.On described main bearing plate 164g, be provided with adjustment part (figure is mark not).On described main bearing plate 164g, there is lever arm fixed claw 182g.In the present embodiment, lever arm fixed claw 182g one bending from described main bearing plate 164g is protruded and is formed.Described lever arm fixed claw 182g and main bearing plate 164g form adjustment tank.In described adjustment tank, be provided with the travelling arm 184g sliding along the direction of vertical described spacing clamp 14f place plane.One end projection of described lever arm 184g is also bent to form magnet piece fixed part, and described magnet piece 188g is fixed on the magnet piece fixed part of lever arm 184g.The other end of described lever arm 184g has protruding hook part.Lever arm fixed claw 182g, travelling arm 184g and magnet piece 188g form the adjustment part of the present embodiment.Because the two ends of described lever arm 184g all have protruding structure, while having avoided lever arm 184g to slide in adjustment tank, may there is excessive slip and cause lever arm 184g unexpected situation about skidding off from adjustment tank to occur.In the time that described lever arm 184g slides into certain position, between lever arm 184g and auxiliary bearing plate 166g, form load-bearing draw-in groove (figure is mark not).

By utilizing large magnet or other magnetisable materials to draw magnet piece 188f, 188g, thereby the front and back activity of control travelling arm 184f, 184g, even if make not visible in the situation that, also can successfully be connected to ceiling in described load-bearing draw-in groove.

Understandably; the shackle member 10 of above-mentioned the first embodiment to the eight embodiment, 10a, 10b, 10c, 10d, 10e, 10f, 10g can be out of shape by rational; by different keel Access Division 11,11a, 11b, 11c, 11d, 11e, 11f, 11g and different ceiling clamping portion 12,12a, 12b, 12c, 12d, 12e, 12f, 12g combination, all belong to the scope that the present invention protects.In like manner; between spacing draw-in groove 140 in different embodiment, 140d, 140e, 140f and lever arm 184f, 184g in load-bearing draw-in groove 160,160d, 160e and the seven or eight embodiment in different embodiment and auxiliary bearing plate 166f, 166g, form load-bearing draw-in groove and be combined, all belong to the scope that the present invention protects.

As shown in Figure 15-18, in the time that the shackle member 10f in the 7th, the 8th embodiment and 10g and ceiling 30 assemble, lever arm 184f, 184g slid into one end place away from described auxiliary bearing plate 166f, 166g before this, now, between lever arm 184f, 184g and auxiliary bearing plate 166f, 166g, do not form load-bearing draw-in groove.First the side plate of ceiling 30 34 is snapped in spacing draw-in groove 140f, 140g, thereby then attract magnet piece 188f, 188g lever arm 184f, 184g to drive lever arm 184f, 184g towards the direction of auxiliary bearing plate 166f, 166g move away from a side of described shackle member 10 by magnetic attraction from ceiling 30 by large magnetic patch, form load-bearing draw-in groove to block the clamp 36 of ceiling 30, thereby shackle member 10f and 10g and ceiling 30 are assembled.In the time of the described shackle member 10f of dismounting and 10g and ceiling 30, thereby utilize large magnetic patch to attract magnet piece 188f, 188g lever arm 184f, 184g to drive lever arm 184f, 184g dorsad assist the direction of bearing plate 166f, 166g move away from a side of described shackle member 10 by magnetic attraction from ceiling 30, described load-bearing draw-in groove disappears, and ceiling 30 drops from spacing draw-in groove 140f, 140g.By utilizing large magnet or other magnetisable materials to draw magnet piece 188f, 188g, thereby control the front and back activity of travelling arm 184f, 184g, even if make not visible in the situation that, also ceiling 30 successfully can be connected in described load-bearing draw-in groove.Due to can be by the activity of large magnetic patch control lever arm 184f, 184g, and then form or dismounting load-bearing draw-in groove, to make ceiling 30 and shackle member 10f and 10g not visible or ceiling 30 is installed and dismounting cannot touch in the situation that, to be applicable to the installation of the ceiling 30 of edge.

The above embodiment has only expressed the specific embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.

Claims (10)

1. a shackle member, it is characterized in that, comprise keel Access Division and ceiling clamping portion, described smallpox Access Division comprises spacing clamp and a pair of load-bearing clamp, described spacing clamp has spacing draw-in groove, each load-bearing clamp is divided into main bearing plate and auxiliary bearing plate, on described main bearing plate, slip adjustment part is installed, and between described slip adjustment part and auxiliary bearing plate, forms load-bearing draw-in groove.

2. shackle member as claimed in claim 1, it is characterized in that, described slip adjustment part comprises lever arm fixed block, travelling arm, cover and magnet piece, the formation adjustment tank of described cover and described lever arm fixed block, described travelling arm is arranged between lever arm fixed block and cover, and slide in described adjustment tank, described magnet piece is fixed on lever arm, forms described load-bearing draw-in groove between described travelling arm and auxiliary bearing plate.

3. shackle member as claimed in claim 1, it is characterized in that, described slip adjustment part comprises lever arm fixed claw, travelling arm and magnet piece, described lever arm fixed claw is arranged on main bearing plate and with main bearing plate and forms adjustment tank, described travelling arm is arranged in described adjustment tank, and slide in described adjustment tank, described magnet piece is fixed on lever arm, forms described load-bearing draw-in groove between described travelling arm and auxiliary bearing plate.

4. shackle member as claimed in claim 2 or claim 3, it is characterized in that, described travelling arm slides along the direction of vertical described spacing clamp place plane, and one end projection of lever arm is also bent to form magnet piece fixed part, and described magnet piece is fixed on the magnet piece fixed part of lever arm.The other end of described lever arm has protruding hook part.

5. shackle member as claimed in claim 1, it is characterized in that, described spacing draw-in groove is one, it is directly offered from described spacing clamp, it is free-ended horn-like towards spacing clamp that described spacing draw-in groove is opening, and the inwall of described each spacing draw-in groove has pawl, and described pawl is continuous fluctuating shape, it has multiple protuberances, and described protuberance tilts to the cecum of spacing draw-in groove.

6. shackle member as claimed in claim 1, it is characterized in that, described spacing draw-in groove is two, between described two spacing draw-in grooves, be provided with dividing plate, each spacing draw-in groove is all directly offered from described spacing clamp, and it is free-ended horn-like towards spacing clamp that described spacing draw-in groove is opening, the inwall of described each spacing draw-in groove has pawl, described pawl is continuous fluctuating shape, and it has multiple protuberances, and described protuberance tilts to the cecum of spacing draw-in groove.

7. shackle member as claimed in claim 1, it is characterized in that, described a pair of load-bearing clamp is from the relative two ends bending of described spacing clamp, described main bearing plate and described auxiliary bearing plate are respectively from described spacing clamp towards two contrary direction bendings, described keel Access Division comprises fixed head and pair of sliding plate, described pair of sliding plate is from the relative two ends bending of described fixed head, on each sliding panel, be recessed to form thickness of slab and dodge mouth, described thickness of slab is dodged the one end that mouthful is positioned at sliding panel and approaches load-bearing clamp, described thickness of slab is dodged mouth for square groove, its opening is towards the link of described a pair of load-bearing clamp and spacing clamp, on each sliding panel, be recessed to form screw terminal and dodge mouth, described screw terminal is dodged mouth and is positioned at the medium position place of sliding panel away from one end of fixed head, described screw terminal is dodged mouth for semi-circular recesses, its opening is described fixed head dorsad.

8. shackle member as claimed in claim 9, is characterized in that: the opening direction of load-bearing draw-in groove is vertical with the opening direction of spacing draw-in groove.

9. shackle member and a ceiling-mounted method, comprises step:

Lever arm slides into one end place away from described auxiliary bearing plate;

The side plate of ceiling is snapped in spacing draw-in groove;

Large magnetic patch attracts the drive lever arm lever arm to move towards the direction of auxiliary bearing plate from ceiling by magnetic attraction, forms load-bearing draw-in groove to block the clamp of ceiling.

10. shackle member and a ceiling method for dismounting, comprises step:

Large magnetic patch attracts the drive lever arm on lever arm to assist dorsad the direction of bearing plate to move by magnetic attraction;

Described load-bearing draw-in groove disappears;

Ceiling drops from spacing draw-in groove.

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