CN205689014U - A kind of hydraulic pressure glass door hinge of adjustable angle - Google Patents

Abstract

This utility model provides the hydraulic pressure glass door hinge of a kind of adjustable angle, including: sliding seat, spring base, annular knurl rotating shaft, panel and mounting seat, spring base is fixed by screws in mounting seat, panel and sliding seat are fixed on spring base in opposite directions, annular knurl rotating shaft is fixed on the top within spring base by copper sheathing, the side of copper sheathing is provided with the regulation screw of regulation copper sheathing degree of tightness, the bottom of annular knurl rotating shaft is provided with groove, the lower section of groove is provided with apical axis assembly, the underface of apical axis assembly is provided with the first spring, apical axis assembly is embedded in described first spring, the side of the first spring is provided with the second spring, deceleration apical axis is embedded in the second spring top, the top of deceleration apical axis contacts with the bottom surface of annular knurl rotating shaft.The hydraulic pressure glass door hinge of this adjustable angle, can freely regulate setting angle according to installation requirement, the function that this glass clamp is also equipped with drawing glass door self-return and hydraulic cushion is at the uniform velocity closed simultaneously.

Description

A kind of hydraulic pressure glass door hinge of adjustable angle

Technical field

This utility model relates to field of hardware, is specifically related to the hydraulic pressure glass door hinge of a kind of adjustable angle.

Background technology

At present, in market, office building, all kinds of places such as station, people generally can install on glass door has merit of pulling back The hinge clip of energy, it is used for the return closed mode of appliance for releasing single behind the door that will be opened.But, existing glass clamp resilience force is relatively Little, then return dynamics is inadequate, it is impossible to exactly door leaf is retracted closed position, needs additionally to install floor spring, and floor spring pair Bottom surface borehole dimensional requirement is strict, and easy install failure is very inconvenient.And be with after floor spring owing to resilience force is relatively big, hold Easily make door leaf generation reciprocating rotation, and the user that likely wounds upon rebound, there is potential safety hazard.And traditional spring Interior external-open glass clamp rotates playback and is spring, is acceleration condition during playback, and connector can be caused to occur, and collision is damaged Bad.It addition, external-open glass clamp does not possess the function of scalable glass door setting angle in traditional spring, when wall body and product When itself there is certain angle, i.e. need customized corresponding setting angle glass clamp, and when wall body and product self exist Certain cumulative error causes glass door when " zero " position closed the door occurs deviation, and in traditional spring, external-open glass clamp is difficult To repair this kind of deviation.

Utility model content

The purpose of this utility model is to provide the hydraulic pressure glass door hinge of a kind of adjustable angle, can according to installation requirement certainly By regulation setting angle, this glass clamp is also equipped with drawing the merit that glass door self-return and hydraulic cushion are at the uniform velocity closed simultaneously Energy.

For realizing technique scheme, this utility model provides the hydraulic pressure glass door hinge of a kind of adjustable angle, including: Sliding seat, spring base, annular knurl rotating shaft, panel and mounting seat, described spring base is fixed by screws in mounting seat, panel Being fixed in opposite directions on spring base with sliding seat, annular knurl rotating shaft is fixed on the top within spring base by copper sheathing, described copper sheathing Side is provided with the regulation screw of regulation copper sheathing degree of tightness, and the bottom of described annular knurl rotating shaft is provided with groove, the lower section of described groove Being provided with apical axis assembly, the underface of described apical axis assembly is provided with the first spring, and apical axis assembly is embedded in described first spring In, the side of described first spring is provided with the second spring, and deceleration apical axis is embedded in the second spring top, described deceleration apical axis Top contacts with the bottom surface of annular knurl rotating shaft.

In technique scheme, can realize this glass clamp by mounting seat and be connected with the fixing of body of wall, glass door is solid Being scheduled between panel and sliding seat, the switch being realized glass door by the relative motion of sliding seat Yu annular knurl rotating shaft is closed.When outward When trying hard to recommend the unlatching of dynamic glass door, apical axis assembly is driven to slide in annular knurl rotating shaft groove when sliding seat rotates, the first spring and top Hydraulic cylinder in shaft assembly is in extended state；After the external force promoting glass door to open is removed, the first spring and apical axis group Hydraulic cylinder in part shrinks automatically, and apical axis assembly pulls annular knurl rotating shaft to be returned in situ, it is achieved being automatically switched off of glass door.Work as top Shaft assembly is during return, and deceleration apical axis compresses annular knurl rotating shaft under the active force of the second spring makes it slow down, the second spring Slowly rebound under the contraction of the hydraulic cylinder in apical axis assembly, make sliding seat relative to the slow return of annular knurl rotating shaft, reach slow Rush closing function.

In technique scheme, the setting angle of glass door is mainly by the setting angle between sliding seat and annular knurl rotating shaft Determine, when regulating the setting angle of glass door, first unscrew regulation screw so that annular knurl rotating shaft relative motion seat makees axle center freely Rotate, after determining the setting angle of sliding seat and annular knurl rotating shaft, then tighten regulation screw so that copper sheathing presses annular knurl rotating shaft, To determine the setting angle of sliding seat and annular knurl rotating shaft, the regulation of glass door setting angle can be realized.

Preferably, described apical axis assembly includes spacing apical axis, hydraulic cylinder and axle sleeve, and axle sleeve is arranged in mounting seat setting Mounting groove in, the bottom of hydraulic cylinder is arranged in axle sleeve, and the first spring housing is connected on the surface of hydraulic cylinder, the top of hydraulic cylinder with Spacing apical axis connects, and the groove that spacing apical axis can be arranged in annular knurl rotating shaft bottom slides.When sliding seat rotates with glass door, rolling Flower axis of rotation, thus drive the spacing apical axis motion being arranged on annular knurl rotating shaft bottom groove, spacing apical axis moves then band hydrodynamic Cylinder pressure stretches therewith, and after the external force driving glass door to rotate is removed, hydraulic cylinder shrinks automatically, drives annular knurl rotating shaft to reply former Position, and then drive sliding seat homing, finally drive glass door to automatically reply in situ.

Preferably, the upper surface of described deceleration apical axis is provided with the cambered surface that radius is 5.5mm.The upper surface of deceleration apical axis sets Putting cambered surface, can preferably agree with annular knurl rotating shaft, annular knurl rotating shaft can be freely rotatable in cambered surface.

Preferably, the front of described panel and sliding seat is fixed by soket head cap screw.During installation, soket head cap screw is twisted Going out, sliding seat and panel can be separated, be then mixed between sliding seat and panel by glass door, soket head cap screw of screwing on is i.e. Can, to facilitate the connection between this glass clamp and glass door.

Preferably, described mounting seat is provided with four for and body of wall or glass clamp between fixing installation spiral shell Hole.When needs use this glass clamp connecting wall and glass door, only mounting seat need to be fixed on body of wall by installation screw On, glass door is clamped between sliding seat and panel, when needs use this glass clamp to connect glass with glass, uses Two glass clamps are connected relatively by mounting seat.

Relative to prior art, the beneficial effect of the hydraulic pressure glass door hinge of a kind of adjustable angle that this utility model provides It being: 1) the hydraulic pressure hinge construction of French casement of this adjustable angle is simple, easy for installation, by being arranged on the tune in sliding seat end edge Joint screw can realize the regulation of setting angle between sliding seat and annular knurl rotating shaft, and then realizes glass door and the installation of this glass clamp The regulation of angle；2) the hydraulic pressure glass door hinge of this adjustable angle can push away by being arranged on automatically reseting of spring base inner spring Dynamic apical axis compressing annular knurl pivot, so that sliding seat is relative to annular knurl pivot, again resets to original place, and then drives Glass door automatically resets；3) the hydraulic pressure glass door hinge of this adjustable angle may utilize deceleration apical axis under the active force of the second spring Compress annular knurl rotating shaft and make its underdrive, make sliding seat relative to the slow return of annular knurl rotating shaft, reach to buffer closing function.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model.

Fig. 2 is sectional view of the present utility model.

Fig. 3 is side view of the present utility model.

Fig. 4 is the perspective view of apical axis assembly in this utility model.

Fig. 5 is the sectional view of apical axis assembly in this utility model.

Fig. 6 is the front view of annular knurl rotating shaft in this utility model.

Fig. 7 is the sectional view of this utility model deceleration apical axis decelerating axle.

Fig. 8 is scheme of installation of the present utility model.

In figure: 1, copper sheathing；2, sliding seat；3, spring base；4, annular knurl rotating shaft；41, groove；5, the first spring；6, apical axis group Part；61, spacing apical axis；62, hydraulic cylinder；63, axle sleeve；7, the second spring；8, deceleration apical axis；9, the 3rd spring；10, regulation spiral shell Nail；11, panel；12, mounting seat.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clear, complete description, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole Embodiment.The every other embodiment that this area ordinary person is obtained under not making creative work premise, belongs to Protection domain of the present utility model.

Embodiment: the hydraulic pressure glass door hinge of a kind of adjustable angle.

Referring to figs. 1 through shown in Fig. 8, the hydraulic pressure glass door hinge of a kind of adjustable angle, including: sliding seat 2, spring base 3, rolling Flower rotating shaft 4, panel 11 and mounting seat 12, described spring base 3 is fixed by screws in mounting seat 12, panel 11 and activity Seat 2 is fixed on spring base 3 in opposite directions, and annular knurl rotating shaft 4 is fixed on the top within spring base 3 by copper sheathing 1, described copper sheathing 1 Side is provided with the regulation screw 10 of regulation copper sheathing 1 degree of tightness, is provided with the 3rd spring 9 between copper sheathing 1 and annular knurl rotating shaft 4, described The bottom of annular knurl rotating shaft 4 is provided with groove 41, and the lower section of described groove 41 is provided with apical axis assembly 6, and described apical axis assembly 6 is just Lower section is provided with the first spring 5, and apical axis assembly 6 is embedded in described first spring 5, and the side of described first spring 5 is provided with Second spring 7, deceleration apical axis 8 is embedded in the second spring 7 top, and the top of described deceleration apical axis 8 connects with the bottom surface of annular knurl rotating shaft 4 Touch.

In technique scheme, this glass clamp can be realized by mounting seat 12 and be connected with the fixing of body of wall, glass door Being fixed between panel 11 and sliding seat 2, the switch being realized glass door by the relative motion of sliding seat 2 with annular knurl rotating shaft 4 is closed Close.When external force promotes glass door to open, when sliding seat 2 rotates, drive apical axis assembly 6 sliding in the groove 41 of annular knurl rotating shaft 4 Dynamic, the hydraulic cylinder 62 in the first spring 5 and apical axis assembly 6 is in extended state；When the external force promoting glass door to open is removed After, the hydraulic cylinder 62 in the first spring 5 and apical axis assembly 6 shrinks automatically, and apical axis assembly 6 pulls annular knurl rotating shaft 4 to be returned in situ, Realize being automatically switched off of glass door.Apical axis assembly 6 is during return, and deceleration apical axis 8 compresses under the active force of the second spring 7 Annular knurl rotating shaft 4 makes it slow down, and the second spring 7 slowly rebounds under the contraction of hydraulic cylinder 62 in apical axis assembly 6, makes sliding seat The 2 relative slow returns of annular knurl rotating shaft 4, it is achieved the function that buffering is closed.

In technique scheme, the setting angle of glass door is mainly by the established angle between sliding seat 2 and annular knurl rotating shaft 4 Degree determines, when regulating the setting angle of glass door, first unscrews regulation screw 10 so that annular knurl rotating shaft 4 relative motion seat 2 makees axle The heart is freely rotatable, after determining the setting angle of sliding seat 2 and annular knurl rotating shaft 4, then tightens regulation screw 10 so that copper sheathing 1 is tight Nip drum flower rotating shaft 4, to determine the setting angle of sliding seat 2 and annular knurl rotating shaft 4, can realize the regulation of glass door setting angle.

With reference to shown in Fig. 4 and Fig. 5, described apical axis assembly 6 includes spacing apical axis 61, hydraulic cylinder 62 and axle sleeve 63, axle sleeve 63 Being arranged in mounting seat 12 in the mounting groove arranged, the bottom of hydraulic cylinder 62 is arranged in axle sleeve 63, and the first spring 5 is socketed in The surface of hydraulic cylinder 62, the top of hydraulic cylinder 62 is connected with spacing apical axis 61, and spacing apical axis 61 can be arranged in annular knurl rotating shaft 4 bottom Groove 41 slide.When sliding seat 2 rotates with glass door, annular knurl rotating shaft 4 rotates, thus drives and be arranged on annular knurl rotating shaft 4 end Spacing apical axis 61 in end groove 41 moves, and spacing apical axis 61 moves, and drives hydraulic cylinder 62 to stretch therewith, when driving glass door After the external force rotated is removed, hydraulic cylinder 62 shrinks automatically, drives annular knurl rotating shaft 4 homing, and then drives sliding seat 2 to reply former Position, finally drives glass door to automatically reply in situ.

With reference to shown in Fig. 7, the upper surface of described deceleration apical axis 8 is provided with the cambered surface that radius is 5.5mm.Deceleration apical axis 8 Upper surface arranges cambered surface, can preferably agree with annular knurl rotating shaft 4, and annular knurl rotating shaft 4 can be freely rotatable in cambered surface.

With reference to shown in Fig. 1, the front of described panel 11 and sliding seat 2 is fixed by soket head cap screw.During installation, by interior six Angle screw is back-outed, and sliding seat 2 and panel 11 can be separated, is then mixed between sliding seat 2 and panel 11 by glass door, screw on Soket head cap screw, to facilitate the connection between this glass clamp and glass door.

With reference to shown in Fig. 1, described mounting seat 12 is provided with four for and body of wall or glass clamp between fixing Installation screw.When needs use this glass clamp connecting wall and glass door, only need to be solid by installation screw by mounting seat 12 Be scheduled on body of wall, glass door be clamped between sliding seat 2 and panel 11, when needs use this glass clamp connect glass with During glass, two glass clamps are used relatively to be connected by mounting seat 12.

The above is preferred embodiment of the present utility model, but this utility model should not be limited to this embodiment and Accompanying drawing disclosure of that, thus every without departing from the equivalence completed under spirit disclosed in the utility model or amendment, all fall Enter the scope of this utility model protection.

Claims (5)

1. the hydraulic pressure glass door hinge of an adjustable angle, it is characterised in that including: sliding seat (2), spring base (3), annular knurl turn Axle (4), panel (11) and mounting seat (12), described spring base (3) is fixed by screws in mounting seat (12), panel (11) being fixed in opposite directions on spring base (3) with sliding seat (2), annular knurl rotating shaft (4) is fixed in spring base (3) by copper sheathing (1) The top in portion, the side of described copper sheathing (1) is provided with the regulation screw (10) of regulation copper sheathing degree of tightness, described annular knurl rotating shaft (4) Bottom is provided with groove (41), and the lower section of described groove (41) is provided with apical axis assembly (6), described apical axis assembly (6) just under Side is provided with the first spring (5), and apical axis assembly (6) is embedded in described first spring (5), the side of described first spring (5) Being provided with the second spring (7), deceleration apical axis (8) is embedded in the second spring (7) top, the top of described deceleration apical axis (8) and rolling The bottom surface contact of flower rotating shaft (4).

2. the hydraulic pressure glass door hinge of adjustable angle as claimed in claim 1, it is characterised in that: described apical axis assembly (6) is wrapped Including spacing apical axis (61), hydraulic cylinder (62) and axle sleeve (63), axle sleeve (63) is arranged on the upper mounting groove arranged of mounting seat (12) In, the bottom of hydraulic cylinder (62) is arranged in axle sleeve (63), and the first spring (5) is socketed in the surface of hydraulic cylinder (62), hydraulic cylinder (62) top is connected with spacing apical axis (61), and the groove (41) that spacing apical axis (61) can be arranged in annular knurl rotating shaft (4) bottom is sliding Dynamic.

3. the hydraulic pressure glass door hinge of adjustable angle as claimed in claim 1, it is characterised in that: described deceleration apical axis (8) Upper surface is provided with the cambered surface that radius is 5.5mm.

4. the hydraulic pressure glass door hinge of adjustable angle as claimed in claim 1, it is characterised in that: described panel (11) and activity The front of seat (2) is fixed by soket head cap screw.

5. the hydraulic pressure glass door hinge of adjustable angle as claimed in claim 1, it is characterised in that: in described mounting seat (12) Be provided with four for and body of wall or glass clamp between fixing installation screw.