CN204590894U - Adjustable glass clamp - Google Patents

Abstract

The utility model relates to the technical field of glass clamp, more specifically, relates to adjustable glass clamp.Adjustable glass clamp, comprise the holder be fixedly connected with body of wall, the sliding seat being located at holder side, described sliding seat is provided with pressing plate, panel for clamping glass door, wherein, be provided with annular knurl rotating shaft in described sliding seat, the sidepiece of annular knurl rotating shaft is provided with apical axis, sheathed spring on apical axis, spring one end abuts holder, and the other end abuts apical axis; Described annular knurl rotating shaft one end is provided with knurled portions, is provided with the copper sheathing be mated, sliding seat is also provided with adjustment screw outside knurled portions.The utility model by adjustment screw, can regulate arbitrarily the setting angle that setting angle reaches desirable when being in closed condition; Glass door is in ± 30 ° of automatic closing functions and can using as free style glass hinge; This product is practical, improves installation effectiveness, reduces installation cost.

Description

Adjustable glass clamp

Technical field

The utility model relates to the technical field of glass clamp, more specifically, relates to adjustable glass clamp.

Background technology

In traditional spring, external-open glass clamp does not possess the function of adjustable glass door setting angle.When wall body and product itself exist certain angle, namely need customized corresponding setting angle glass clamp.And when wall body and product self exist certain accumulated error cause glass door in " zero " position of closing the door time, once produce a little misalignment with fixing glass door, relative difficulty is repaired.

Summary of the invention

The utility model is for overcoming at least one defect described in above-mentioned prior art, and provide adjustable glass clamp, this adjustable glass is clipped in by adjustment screw when being in closed condition, can regulate arbitrarily the setting angle that setting angle reaches desirable.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: adjustable glass clamp, comprise the holder be fixedly connected with body of wall, the sliding seat being located at holder side, described sliding seat is provided with pressing plate, panel for clamping glass door, wherein, is provided with annular knurl rotating shaft in described sliding seat, the sidepiece of annular knurl rotating shaft is provided with apical axis, sheathed spring on apical axis, spring one end abuts holder, and the other end abuts apical axis; Described annular knurl rotating shaft one end is provided with knurled portions, is provided with the copper sheathing be mated, sliding seat is also provided with adjustment screw outside knurled portions.

In the utility model, when unscrewing adjustment screw, annular knurl rotating shaft just can be done axle center and freely rotates by relative motion seat.The copper sheathing in chamber is utilized to entangle annular knurl rotating shaft.Adjustment screw tightened with Allen key, namely annular knurl rotating shaft is tightly pushed down in the inserts distortion of sliding seat again.Glass door can be realized adjustable in setting angle optional position.

Further, by first unscrewing adjustment screw, after adjustment desired angle, tighten adjustment screw again.Can effectively repair body of wall not just or processing accumulated error and the glass door that causes closed time there is the misalignment phenomenon that produces with fixing glass.

Further, described annular knurl rotating shaft also comprises the rotating shaft main body being located at knurled portions side, rotating shaft main body and apical axis contact action.Described rotating shaft main body is cylindrical structural, and cylindrical structural offers square groove, and the cross section offering groove rotating shaft main body comprises arc sections and planar portions.

Glass door clamps back wall by sliding seat and pressing plate, panel and does ± 90 ° of rotations around annular knurl rotating shaft.Two apical axis are pressed in by spring in the planar portions of rotating shaft main body, when two apical axis slide in the arc sections of rotating shaft main body, glass door just achieves the function of 90 ° (unlatchings), and when in the planar portions that two apical axis get back to rotating shaft main body, glass door just achieves the function of 0 degree (closing).

Further, described apical axis comprises the top-joining part being located at top, the location division be located under top-joining part, top-joining part and the effect of rotating shaft body contact, sheathed spring outside location division.The radius of described rotating shaft main body is 5.5mm.Described apical axis quantity is two.

In the utility model, when the plane sliding into axle in the arc sections of two apical axis R5.5 in rotating shaft main body becomes 30 °, two apical axis under spring force, namely the arc sections of R5.5 can slide in planar portions in rotating shaft main body.Namely coloured glaze door is realized ± 30 ° of self-return functions.

In the utility model, square groove is probably opened in 1/4 circular arc place of rotating shaft main body, and apical axis quantity is two and ensure that enough spring forces make coloured glaze door at ± 30 ° of self-returns.

Compared with prior art, beneficial effect is: the utility model by adjustment screw, can regulate arbitrarily the setting angle that setting angle reaches desirable when being in closed condition; Glass door is in ± 30 ° of automatic closing functions and can using as free style glass hinge; This product is practical, improves installation effectiveness, reduces installation cost.

Accompanying drawing explanation

Fig. 1 is embodiment 1 overall structure schematic front view.

Fig. 2 is embodiment 1 overall structure schematic side view.

Fig. 3 is embodiment 1 sectional perspective structure first schematic diagram.

Fig. 4 is embodiment 1 sectional perspective structure second schematic diagram.

Fig. 5 is embodiment 1 annular knurl pivot structure schematic diagram.

Fig. 6 is embodiment 1 annular knurl rotating shaft generalized section.

Fig. 7 is embodiment 1 apical axis, spring structure schematic diagram.

Fig. 8 is the confined state schematic front view of embodiment 1.

Fig. 9 is the confined state schematic top plan view of embodiment 1.

Figure 10 is the structural representation of embodiment 2.

Figure 11 is the structural representation of embodiment 3.

Figure 12 is the structural representation of embodiment 4.

Detailed description of the invention

Accompanying drawing, only for exemplary illustration, can not be interpreted as the restriction to this patent; In order to better the present embodiment is described, some parts of accompanying drawing have omission, zoom in or out, and do not represent the size of actual product; To those skilled in the art, in accompanying drawing, some known features and explanation thereof may be omitted is understandable.Describe position relationship in accompanying drawing only for exemplary illustration, the restriction to this patent can not be interpreted as.

Embodiment 1

As shown in figs. 1-7, adjustable glass clamp, comprise the holder 7 be fixedly connected with body of wall, the sliding seat 8 being located at holder 7 side, sliding seat 8 is provided with pressing plate 1, panel 2 for clamping glass door, wherein, is provided with annular knurl rotating shaft 10 in sliding seat 8, the sidepiece of annular knurl rotating shaft 10 is provided with apical axis 6, sheathed spring 5 on apical axis 6, spring 5 one end abuts holder 7, and the other end abuts apical axis 6; Annular knurl rotating shaft 10 one end is provided with knurled portions 11, is provided with the copper sheathing 9 be mated, sliding seat 8 is also provided with adjustment screw 3 outside knurled portions 11.

In the present embodiment, when unscrewing adjustment screw 3, annular knurl rotating shaft 10 just can be done axle center and freely rotates by relative motion seat 8.The copper sheathing 9 in chamber is utilized to entangle the knurled portions 11 of annular knurl rotating shaft 10.Adjustment screw 3 tightened with Allen key, in Fig. 1, annular knurl rotating shaft 10 is tightly pushed down in the inserts distortion namely on the right of sliding seat 8 again.Glass door can be realized adjustable in setting angle optional position.

Further, by first unscrewing adjustment screw 3, after adjustment desired angle, tighten adjustment screw 3 again.Can effectively repair body of wall not just or processing accumulated error and the glass door that causes closed time there is the misalignment phenomenon that produces with fixing glass.

Annular knurl rotating shaft 10 also comprises the rotating shaft main body 12 being located at knurled portions 11 side, rotating shaft main body 12 and apical axis 6 contact action.Rotating shaft main body 12 is cylindrical structural, and cylindrical structural offers square groove, and the cross section offering groove rotating shaft main body 12 comprises arc sections 121 and planar portions 122.

In the present embodiment, glass door is clamped back wall and is done ± 90 ° of rotations by sliding seat 8 and pressing plate 1, panel 2 around annular knurl rotating shaft 10.Two apical axis 6 are pressed in the planar portions 122 of rotating shaft main body 12 by spring 5, when two apical axis 6 slide in the arc sections 121 of rotating shaft main body 12, glass door just achieves the function of 90 ° (unlatchings), when two apical axis 6 are got back in the planar portions 122 of rotating shaft main body 12, glass door just achieves the function of 0 degree (closing).

In the present embodiment, apical axis 6 comprises the top-joining part 61 being located at top, the location division 62 be located under top-joining part 61, top-joining part 61 and rotating shaft main body 12 contact action, the outer sheathed spring 5 in location division 62.The radius of rotating shaft main body 12 is 5.5mm.Apical axis 6 quantity is two.

In the utility model, when the plane sliding into axle in the arc sections 121 of two apical axis 6 R5.5 in rotating shaft main body 12 becomes 30 °, two apical axis 6 under spring force, namely the arc sections 121 of R5.5 can slide in planar portions 122 in rotating shaft main body 12.Namely coloured glaze door is realized ± 30 ° of self-return functions.

In the present embodiment, as in Fig. 6, square groove is probably opened in 1/4 circular arc place of rotating shaft main body 12, and apical axis quantity is two and ensure that enough spring forces make coloured glaze door at ± 30 ° of self-returns.

As shown in Figure 8,9,60 is 90 °, the center glass clamp of the present embodiment, and wherein, holder and body of wall 20 are fixed, 90 °, center glass clamp 60 clamping glass door 30, and install zero-bit 50, the opposite side of glass door 30 is fixing glass 40, and fixing glass 40 and body of wall are fixed.Such form is applicable to the 90 ° rotations of glass door 30 to a direction.

Embodiment 2

As in Figure 10, be double leaf 180 ° of glass clamps 70, such form is applicable to 180 ° of rotations of glass door.Its operating principle of all the other structures and the embodiment 1 of the present embodiment duplicate, and no longer describe at this.

Embodiment 3

As in Figure 11, be double leaf 135 ° of glass clamps 80, such form is applicable to 135 ° of rotations of glass door.Its operating principle of all the other structures and the embodiment 1 of the present embodiment duplicate, and no longer describe at this.

Embodiment 4

As in Figure 12, be double leaf 90 ° of glass clamps 90, such form is applicable to 90 ° of rotations of glass door.Its operating principle of all the other structures and the embodiment 1 of the present embodiment duplicate, and no longer describe at this.

Obviously, above-described embodiment of the present utility model is only for the utility model example is clearly described, and is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all embodiments.All do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., within the protection domain that all should be included in the utility model claim.

Claims (6)

1. adjustable glass clamp, comprise the holder (7) be fixedly connected with body of wall, the sliding seat (8) being located at holder (7) side, described sliding seat (8) is provided with pressing plate (1), panel (2) for clamping glass door, it is characterized in that, be provided with annular knurl rotating shaft (10) in described sliding seat (8), the sidepiece of annular knurl rotating shaft (10) is provided with apical axis (6), the upper sheathed spring (5) of apical axis (6), spring (5) one end abuts holder (7), and the other end abuts apical axis (6); Described annular knurl rotating shaft (10) one end is provided with knurled portions (11), is provided with the copper sheathing (9) be mated, sliding seat (8) is also provided with adjustment screw (3) outside knurled portions (11).

2. adjustable glass clamp according to claim 1, is characterized in that: described annular knurl rotating shaft (10) also comprises the rotating shaft main body (12) being located at knurled portions (11) side, rotating shaft main body (12) and apical axis (6) contact action.

3. adjustable glass clamp according to claim 2, it is characterized in that: described rotating shaft main body (12) is cylindrical structural, cylindrical structural offers square groove, and the cross section offering groove rotating shaft main body (12) comprises arc sections (121) and planar portions (122).

4. adjustable glass clamp according to claim 3, it is characterized in that: described apical axis (6) comprises the top-joining part (61) being located at top, the location division (62) be located under top-joining part (61), top-joining part (61) and rotating shaft main body (12) contact action, location division (62) are sheathed spring (5) outward.

5. adjustable glass clamp according to claim 4, is characterized in that: the radius of described rotating shaft main body (12) is 5.5mm.

6., according to the arbitrary described adjustable glass clamp of claim 1 to 5, it is characterized in that: described apical axis (6) quantity is two.