CN205689022U - A kind of hydraulic heavy glass door hinge - Google Patents

Abstract

This utility model provides a kind of hydraulic heavy glass door hinge, including: panel, sliding seat, spring base, mounting seat and rotating shaft, spring base is fixed by screws in mounting seat, rotating shaft runs through spring base top, sliding seat is mounted elastically and is connected by rotating shaft, panel is connected with sliding seat in opposite directions by fixing screw, the surface configuration of rotating shaft has the groove of two spacing side by side distributions, it is mounted on apical axis assembly in two grooves, apical axis assembly includes hydraulic jack, back-moving spring and spacing apical axis, the bottom of back-moving spring is fixed in mounting seat, hydraulic jack is socketed in back-moving spring, spacing apical axis is arranged on the top of hydraulic jack and contacts with the groove of rotating shaft surface configuration.This hydraulic heavy glass door hinge is by arranging two hydraulic jacks in hinge, strengthen the motive force of hinge return, simultaneously by arranging anti-buffer spring, can effectively control speed during glass door return, be particularly suited for the heavy glass door that volume and weight is bigger.

Description

A kind of hydraulic heavy glass door hinge

Technical field

This utility model relates to field of hardware, is specifically related to a kind of hydraulic heavy glass door hinge.

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 hinge resilience force is relatively Little, then return dynamics is inadequate, the heavy glass door that especially volume and weight is bigger, Normal hydraulic formula glass in the market Door hinge is limited due to the push-and-pull stress of hydraulic jack, is difficult to heavy glass door bigger for volume and weight is retracted pass accurately Closed position, it is necessary to additional configuration floor spring, and floor spring is strict to bottom surface borehole dimensional requirement, easy install failure, the most not side Just.And be with after floor spring owing to resilience force is relatively big, make door leaf generation reciprocating rotation the most upon rebound, and likely hit Hinder user, there is potential safety hazard.And in traditional spring, external-open hinge rotation playback is spring, during playback is Acceleration condition, can cause connector damaged in collision occur.It addition, external-open hinge does not possess scalable glass in traditional spring The function of glass door setting angle, when wall body and product itself exist certain angle, i.e. needs customized corresponding setting angle Hinge, and cause glass door, in " zero " position closed the door, deviation occurs when wall body and product self exist certain cumulative error Time, in traditional spring, external-open hinge is difficult to repair this kind of deviation.

Utility model content

The purpose of this utility model is to provide a kind of hydraulic heavy glass door hinge, by arranging two hydraulic pressure in hinge Oil cylinder, strengthens the motive force of hinge return, simultaneously by arranging anti-buffer spring, can effectively control speed during glass door return Degree, is particularly suited for the heavy glass door that volume and weight is bigger.

For realizing technique scheme, this utility model provides a kind of hydraulic heavy glass door hinge, including: panel, Sliding seat, spring base, mounting seat, rotating shaft and apical axis assembly, described spring base is fixed by screws in mounting seat, rotating shaft Running through spring base top, sliding seat is mounted elastically and is connected by rotating shaft, and panel is by fixing screw and sliding seat phase To connection, the surface configuration of described rotating shaft has the groove of two spacing side by side distributions, is mounted on apical axis in said two groove Assembly, described apical axis assembly includes hydraulic jack, back-moving spring and spacing apical axis, and the bottom of described back-moving spring is fixed on installation On base, hydraulic jack is socketed in back-moving spring, spacing apical axis be arranged on hydraulic jack top and with rotating shaft surface configuration Groove contact.

In technique scheme, can realize this hinge by mounting seat and be connected with the fixing of body of wall, glass door is fixed Between panel and sliding seat, the switch being realized glass door by the relative motion of sliding seat Yu rotating shaft is closed.When external force promotes When glass door is opened, when sliding seat rotates, drive the spacing apical axis in two apical axis assemblies simultaneously sliding in rotating shaft surface groove Dynamic, spacing top axle compression reseting spring and hydraulic jack；After the external force promoting glass door to open is removed, back-moving spring and hydraulic pressure Oil cylinder stretches automatically, promotes rotating shaft to be returned in situ, so that sliding seat rotates relative to rotating shaft, and then realize glass Being automatically switched off of door.

Preferably, being provided with buffer spring between described two apical axis assemblies, the bottom of described buffer spring is fixed on installation On base, the top of described buffer spring is socketed with deceleration apical axis, described deceleration apical axis and shaft contacts.Glass door masterpiece outside During with lower unlatching, buffer spring, at deceleration apical axis surface pivots, is compressed by rotating shaft, during glass door return, multiple Position spring and hydraulic jack promote rotating shaft to reset, and simultaneously, buffer spring slowly stretches, and stop back-moving spring and hydraulic jack Promote the excessive velocities that rotating shaft resets so that the slow return of sliding seat phase countershaft, reach to buffer closing function.

Preferably, described rotating shaft is fixed on the top within spring base by copper sheathing, and the side of described copper sheathing is provided with tune The regulation screw of joint copper sheathing degree of tightness.The setting angle of glass door is mainly determined by the setting angle between sliding seat and rotating shaft, adjusts When saving the setting angle of glass door, first unscrew regulation screw so that it is freely rotatable that rotating shaft relative motion seat makees axle center, determines After the setting angle of sliding seat and rotating shaft, then tighten regulation screw so that copper sheathing presses rotating shaft, to determine sliding seat and rotating shaft Setting angle, can realize the regulation of glass door setting angle.

Preferably, four end angles of described mounting seat are each provided with an installation screw for connecting wall.When When needing to use this chain connection body of wall and glass door, only mounting seat need to be fixed on body of wall by installation screw, by glass Glass door is clamped between sliding seat and panel, when needs use this chain connection glass and glass, uses two hinges Relatively connected by mounting seat.

Relative to prior art, having the beneficial effects that of a kind of hydraulic heavy glass door hinge that this utility model provides: 1) this hydraulic heavy glass door hinge is by arranging two hydraulic jacks in hinge, strengthens the motive force of hinge return, simultaneously By arranging anti-buffer spring, can effectively control speed during glass door return, be particularly suited for volume and weight bigger Heavy glass door；2) this hydraulic heavy hinge construction of French casement 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 rotating shaft, and then realizes established angle between glass door and this hinge The regulation of degree.

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 scheme of installation of the present utility model.

In figure: 100, panel；200, sliding seat；300, spring base；400, mounting seat；500, rotating shaft；600, apical axis group Part；610, hydraulic jack；620, back-moving spring；630, spacing apical axis；710, buffer spring；720, deceleration apical axis；800, copper sheathing； 910, regulation screw；920, fixing screw.

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: a kind of hydraulic heavy glass door hinge.

Referring to figs. 1 through shown in Fig. 4, a kind of hydraulic heavy glass door hinge, including: panel 100, sliding seat 200, spring base 300, mounting seat 400, rotating shaft 500 and apical axis assembly 600, described spring base 300 is fixed by screws in mounting seat 400 On, rotating shaft 500 runs through spring base 300 top, and sliding seat 200 is arranged on spring base 300 and is connected by rotating shaft 500, panel 100 are connected with sliding seat 200 in opposite directions by fixing screw 920, and the surface configuration of described rotating shaft 500 has two spacing side by side distributions Groove, be mounted on apical axis assembly 600 in said two groove, described apical axis assembly 600 include hydraulic jack 610, reset Spring 620 and spacing apical axis 630, the bottom of described back-moving spring 620 is fixed in mounting seat 400, and hydraulic jack 610 is socketed In back-moving spring 620, spacing apical axis 630 is arranged on the top of hydraulic jack 610 and connects with the groove of rotating shaft 500 surface configuration Touch.

In technique scheme, can realize this hinge by mounting seat 400 and be connected with the fixing of body of wall, glass door is solid Being scheduled between panel 100 and sliding seat 200, the switch being realized glass door by the relative motion of sliding seat 200 with rotating shaft 500 is closed Close.When external force promotes glass door to open, when sliding seat 200 rotates, drive the spacing apical axis 630 in two apical axis assemblies 600 same Time in rotating shaft 500 surface groove slide, spacing apical axis 630 compression reseting spring 610 and hydraulic jack 620；When promoting glass After the external force that door is opened is removed, back-moving spring 610 and hydraulic jack 620 stretch automatically, promote rotating shaft 500 to be returned in situ, from And sliding seat 200 is rotated relative to rotating shaft 500, and then realize being automatically switched off of glass door.

With reference to shown in Fig. 2, between described two apical axis assemblies 600, it is provided with buffer spring 710, described buffer spring 710 Bottom is fixed in mounting seat 400, and the top of described buffer spring 710 is socketed with deceleration apical axis 720, described deceleration apical axis 720 contact with rotating shaft 500.When glass door is opened under external force, rotating shaft 500 is at deceleration apical axis 720 surface pivots, to buffering Spring 710 is compressed.During glass door return, back-moving spring 610 and hydraulic jack 620 promote rotating shaft 500 to reset, Simultaneously, buffer spring 710 slowly stretches, and stops the speed that back-moving spring 610 and hydraulic jack 620 promote rotating shaft 500 to reset Spend fast so that the slow return of sliding seat 200 phase countershaft 500, reach to buffer closing function.

With reference to shown in Fig. 3, described rotating shaft 500 is fixed on the top within spring base 300, described copper sheathing by copper sheathing 800 The side of 800 is provided with the regulation screw 910 of regulation copper sheathing 800 degree of tightness.The setting angle of glass door mainly by sliding seat 200 with Setting angle between rotating shaft 500 determines, when regulating the setting angle of glass door, first unscrews regulation screw 910 so that rotating shaft It is freely rotatable that 500 relative motion seats 200 make axle center, after determining the setting angle of sliding seat 200 and rotating shaft 500, then tightens tune Joint screw 910 so that copper sheathing 800 presses rotating shaft 500, to determine the setting angle of sliding seat 200 and rotating shaft 500, can realize The regulation of glass door setting angle.

With reference to shown in Fig. 1, four end angles of described mounting seat 400 are each provided with an installation for connecting wall Screw.When needs use this chain connection body of wall and glass door, only mounting seat 400 need to be fixed on wall by installation screw On body, glass door is clamped between sliding seat 200 and panel 100, when needs use this chain connection glass and glass Time, use two hinges relatively to be connected by mounting seat 400.

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 (4)

1. a hydraulic heavy glass door hinge, it is characterised in that including: panel (100), sliding seat (200), spring base (300), mounting seat (400), rotating shaft (500) and apical axis assembly (600), described spring base (300) is fixed by screws in peace On dress base (400), rotating shaft (500) runs through spring base (300) top, and sliding seat (200) is arranged on spring base (300) and above and leads to Crossing rotating shaft (500) to connect, panel (100) is connected with sliding seat (200) in opposite directions by fixing screw (920), described rotating shaft (500) Surface configuration have the groove of two spacing side by side distribution, be mounted on apical axis assembly (600), described top in said two groove Shaft assembly (600) includes hydraulic jack (610), back-moving spring (620) and spacing apical axis (630), described back-moving spring (620) Bottom is fixed in mounting seat (400), and hydraulic jack (610) is socketed in back-moving spring (620), and spacing apical axis (630) is pacified It is contained in the top of hydraulic jack (610) and contacts with the groove of rotating shaft (500) surface configuration.

2. hydraulic heavy glass door hinge as claimed in claim 1, it is characterised in that: between described two apical axis assemblies (600) Being provided with buffer spring (710), the bottom of described buffer spring (710) is fixed in mounting seat (400), described buffer spring (710) top is socketed with deceleration apical axis (720), and described deceleration apical axis (720) contacts with rotating shaft (500).

3. hydraulic heavy glass door hinge as claimed in claim 1, it is characterised in that: copper sheathing is passed through in described rotating shaft (500) (800) being fixed on the top that spring base (300) is internal, the side of described copper sheathing (800) is provided with regulation copper sheathing (800) degree of tightness Regulation screw (910).

4. hydraulic heavy glass door hinge as claimed in claim 1, it is characterised in that: four of described mounting seat (400) End is each provided with an installation screw for connecting wall on angle.