CN205689023U - A kind of two-way semi-automatic glass door buffer hinge - Google Patents

Abstract

This utility model provides a kind of two-way semi-automatic glass door buffer hinge, including: sliding seat, panel, rotating shaft and fixed base plate, rotating shaft is fixed on fixed base plate by lock-screw, sliding seat and panel are arranged in rotating shaft in opposite directions, buffer spring it is provided with in sliding seat, buffer spring bottom is fixed on axle sleeve, axle sleeve is fixed on inside sliding seat, decelerating axle sleeve is connected on buffer spring top, deceleration apical axis agrees with the limited impression of rotating shaft surface configuration, the right side of buffer spring is provided with the first damping buffer, the left side of buffer spring is provided with the second damping buffer, the telescopic end of the first damping buffer and the second damping buffer all contacts with fixed base plate.This two-way semi-automatic glass door buffer hinge can realize the bidirectional opening of glass door, possesses appliance for releasing single return function, and return process is closed slowly, more safe and practical, this hydraulicefficiency hinge is easy for installation simultaneously, it is not necessary to install floor spring, can be directly installed on glass door, and setting angle is adjustable.

Description

A kind of two-way semi-automatic glass door buffer hinge

Technical field

This utility model relates to field of hardware, is specifically related to a kind of two-way semi-automatic glass door buffer 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 hydraulicefficiency hinge resilience force Less, 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 Strict to bottom surface borehole dimensional requirement, easy install failure, very inconvenient.And be with after floor spring owing to resilience force is relatively big, Easily make door leaf generation reciprocating rotation, and the user that likely wounds upon rebound, there is potential safety hazard.

Therefore glass door is it is generally required to install buffer hinge while installing hydraulicefficiency hinge, is presently used for glass door and opens The buffer hinge closed mainly includes that spring hinge and hydraulic damping hinge, the operation principle of existing spring hinge are to depend on when opening the door Tighten by spring and store energy, produce, relying on spring to release energy at closing time, moment of torsion of closing the door.This kind of spring hinge exists Weak point be: spring storage moment of torsion of closing the door increase along with the increase of open angle, close the door when moment of torsion of closing the door is bigger Action will produce bigger impulsive force, and this not only can produce bigger noise of closing the door, and can affect associated unit, as The service life of glass door, additionally, it is also possible to injure user because of closing the door rapidly.And hydraulic damping hinge overcomes quickly Close the door the noise jamming brought, but due to its hydraulic cylinder or use the dual pathways or the three Room types of employing, therefore there is following lacking Point: the volume of hinge entirety is big, consumptive material is many, cost is high, and common hydraulic damping hinge is in installation process, needs setting Put to dig on the ground of door and form certain space, bury hydraulic damping hinge underground, so installation process is the most inconvenient, there is pass automatically That closes door arranges the most troublesome problem.

And traditional spring or Hydrautic damping buffer hinge the most do not possess scalable glass door setting angle Function.When body of wall and product itself exist certain angular deviation, the hydraulicefficiency hinge of customized respective angles is i.e. needed to install；When Certain cumulative error that has wall and product self causes glass door when " zero " position closed the door, and produces the several years with fixing glass By difficulty reparation during dislocation.

Utility model content

The purpose of this utility model is to provide a kind of two-way semi-automatic glass door buffer hinge, it is possible to achieve glass door double To unlatching, can accurately control the speed of glass door switch, it is possible to prevent from door closing procedure touches or wind-force effect due to unexpected Lower occur that idle running acceleration is closed the door phenomenon；This hydraulicefficiency hinge is easy for installation simultaneously, it is not necessary to installs floor spring, can be directly installed on glass On glass door, and setting angle is adjustable.

For realizing technique scheme, this utility model provides a kind of two-way semi-automatic glass door buffer hinge, including: Sliding seat, panel, rotating shaft and fixed base plate, described rotating shaft is fixed on fixed base plate by lock-screw, sliding seat and panel Being arranged in opposite directions in rotating shaft, be provided with buffer spring in described sliding seat, the bottom of described buffer spring is fixed on axle sleeve, institute Stating axle sleeve and be fixed on inside sliding seat, decelerating axle sleeve is connected on the top of buffer spring, and described deceleration apical axis sets with rotating shaft surface The limited impression put agrees with, and the right side of described buffer spring is provided with the first damping buffer, the left side peace of described buffer spring Equipped with the second damping buffer, described first damping buffer and the second damping buffer are symmetrical about buffer spring, institute The telescopic end stating the first damping buffer and the second damping buffer all contacts with fixed base plate.

In technique scheme, this buffer hinge need with hydraulicefficiency hinge with the use of, can be realized by fixed base plate This hydraulicefficiency hinge is connected with the fixing of body of wall, and glass door is fixed between panel and sliding seat, by the phase of sliding seat with rotating shaft Motion realizes the switch Guan Bi of glass door, and this sliding seat can all carry out the rotation of 90 ° in the phase countershaft left and right sides, thus realizes The bidirectional opening of glass door.When glass door is closed, buffer spring and damping buffer in sliding seat are in poised state, glass Glass door is opened under the effect of external force, and sliding seat starts homing action relative to rotating shaft relative to axis of rotation, deceleration apical axis, makes Obtain buffer spring and damping buffer is in compressive state, after the external force promoting glass door is removed, pushing away at hydraulicefficiency hinge Under action, glass door starts to reset, and in glass door reseting procedure, sliding seat is relative to pivot, and deceleration apical axis is in buffering Under the cushioning effect of spring, promotion rotating shaft is relative to the slow action of sliding seat, the first damping buffer and the second damping buffering simultaneously Device the most slowly stretches, and forces the reset speed of sliding seat to slow down, at buffer spring, the first damping buffer and the second damping buffering Under the cooperation of device, accurately control the speed that glass door resets, to reach the effect that automatic buffer is closed the door.Simultaneously, it is possible to prevent Wind-force or accident touch the lower phenomenon occurring idle running acceleration to close the door, and prevent contingency.

Preferably, described sliding seat is provided with two symmetrical regulation screws on the outer surface of rotating shaft joining place. When unscrewing regulation screw, rotating shaft just can relative motion seat to make axle center freely rotatable, after being adjusted to the angle needed is installed, then use Screwdriver will regulate screw-driving, can realize the regulation of setting angle between sliding seat and rotating shaft, so realize glass door with The regulation of this hydraulicefficiency hinge setting angle.

Preferably, four of described fixed base plate end angles are provided with one for and body of wall or hydraulicefficiency hinge between Fixing installation screw.When needs use this hydraulicefficiency hinge connecting wall and glass door, only need to be by fixed base plate by installing Screw is fixed on body of wall, is clamped between sliding seat and panel by glass door, when needs use this hydraulicefficiency hinge to connect When glass and glass, two hydraulicefficiency hinges are used relatively to be connected by fixed base plate.

Relative to prior art, the beneficial effect of a kind of two-way semi-automatic glass door buffer hinge that this utility model provides It is: 1) this two-way semi-automatic glass door buffer hinge simple in construction, easy for installation, by the regulation spiral shell being arranged in sliding seat Nail can realize the regulation of setting angle between sliding seat and rotating shaft, and then realizes glass door and this hydraulicefficiency hinge setting angle Regulation；2) this two-way semi-automatic glass door buffer hinge is at buffer spring, the first damping buffer and the second damping buffer Under cooperation, be accurately controlled the speed that glass door resets, to reach the effect that automatic buffer is closed the door, it is possible to prevent at wind-force or Surprisingly touch the lower phenomenon occurring idle running acceleration to close the door, prevent contingency.

Accompanying drawing explanation

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

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

Fig. 3 is sectional view II of the present utility model.

Fig. 4 is top view of the present utility model.

In figure: 100, sliding seat；200, panel；300, rotating shaft；310, lock-screw；320, regulation screw；400, fixing Seat board；500, deceleration apical axis；600, buffer spring；700, axle sleeve；810, the first damping buffer；820, the second damping buffering Device.

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 two-way semi-automatic glass door buffer hinge.

Referring to figs. 1 through shown in Fig. 4, a kind of two-way semi-automatic glass door buffer hinge, including: sliding seat 100, panel 200, Rotating shaft 300 and fixed base plate 400, described rotating shaft 300 is fixed on fixed base plate 400 by lock-screw 310, sliding seat 100 It is arranged in opposite directions in rotating shaft 300 with panel 200, in described sliding seat 100, is provided with buffer spring 600, described buffer spring 600 Bottom be fixed on axle sleeve 700, described axle sleeve 700 is fixed on inside sliding seat 100, and deceleration apical axis 500 is socketed in buffering elastic The top of spring 600, described deceleration apical axis 500 agrees with the limited impression of rotating shaft 300 surface configuration, described buffer spring 600 Right side is provided with the first damping buffer 810, and the left side of described buffer spring 600 is provided with the second damping buffer 820, described First damping buffer 810 is symmetrical about buffer spring 600 with the second damping buffer 820, described first damping buffering Device 810 all contacts with fixed base plate 400 with the telescopic end of the second damping buffer 820.

In technique scheme, this buffer hinge need with hydraulicefficiency hinge with the use of, can be real by fixed base plate 400 Now this hydraulicefficiency hinge is connected with the fixing of body of wall, and glass door is fixed between panel 200 and sliding seat 100, by sliding seat 100 With the switch Guan Bi that the relative motion of rotating shaft 300 realizes glass door, this sliding seat 100 can all be entered phase countershaft 300 left and right sides The rotation that row is 90 °, thus realize the bidirectional opening of glass door.When glass door is closed, buffer spring 600 He in sliding seat 100 Damping buffer is in poised state, and glass door is opened under the effect of external force, and sliding seat 100 rotates relative to rotating shaft 300, Deceleration apical axis 500 is relative to rotating shaft 300 action so that buffer spring 600 and damping buffer are in compressive state, work as promotion After the external force of glass door is removed, under the impetus of hydraulicefficiency hinge, glass door starts to reset, and in glass door reseting procedure, lives Dynamic seat 100 starts reseting movement relative to rotating shaft 300, and deceleration apical axis 500 promotes rotating shaft under the cushioning effect of buffer spring 600 300 relative to the slow action of sliding seat 100, and the first damping buffer 810 is the most slowly stretched with the second damping buffer 820 simultaneously Exhibition, forces the reset speed of sliding seat 100 to slow down, at buffer spring the 600, first damping buffer 810 and the second damping buffering Under the cooperation of device 820, accurately control the speed that glass door resets, to reach the effect that automatic buffer is closed the door.Simultaneously, it is possible to prevent Touch the lower phenomenon occurring idle running acceleration to close the door at wind-force or accident, prevent contingency.

With reference to shown in Fig. 4, described sliding seat 100 and the outer surface of rotating shaft 300 joining place are provided with two symmetrical Regulation screw 320.When unscrewing regulation screw 320, rotating shaft 300 just can relative motion seat 100 to make axle center freely rotatable, regulation After the angle needed is installed, then with screwdriver, regulation screw 320 is tightened, can realize between sliding seat 100 and rotating shaft 300 The regulation of setting angle, and then realize the regulation of glass door and this hydraulicefficiency hinge setting angle.

With reference to shown in Fig. 1, four end angles of described fixed base plate 400 are provided with one for body of wall or hydraulic pressure Installation screw fixing between hinge.When needs use this hydraulicefficiency hinge connecting wall and glass door, only need to be by fixed base plate 400 are fixed on body of wall by installation screw, are clamped in by glass door between sliding seat 100 and panel 200, when needs make When connecting glass with glass with this hydraulicefficiency hinge, two hydraulicefficiency hinges are used relatively to be connected by fixed base plate 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 (3)

1. a two-way semi-automatic glass door buffer hinge, it is characterised in that including: sliding seat (100), panel (200), rotating shaft And fixed base plate (400) (300), described rotating shaft (300) is fixed on fixed base plate (400) by lock-screw (310), movable Seat (100) and panel (200) are arranged in rotating shaft (300) in opposite directions, are provided with buffer spring (600) in described sliding seat (100), The bottom of described buffer spring (600) is fixed on axle sleeve (700), and described axle sleeve (700) is fixed on sliding seat (100) inner side, Deceleration apical axis (500) is socketed in the top of buffer spring (600), described deceleration apical axis (500) and rotating shaft (300) surface configuration Limited impression agrees with, and the right side of described buffer spring (600) is provided with the first damping buffer (810), described buffer spring (600) left side is provided with the second damping buffer (820), described first damping buffer (810) and the second damping buffer (820) symmetrical about buffer spring (600), described first damping buffer (810) and the second damping buffer (820) Telescopic end all contacts with fixed base plate (400).

Two-way semi-automatic glass door buffer hinge the most as claimed in claim 1, it is characterised in that: described sliding seat (100) with Two symmetrical regulation screws (320) it are provided with on the outer surface of rotating shaft (300) joining place.

Two-way semi-automatic glass door buffer hinge the most as claimed in claim 1, it is characterised in that: described fixed base plate (400) Four end angles on be provided with one for and body of wall or hydraulicefficiency hinge between fixing installation screw.