CN104343307A

CN104343307A - Liftable hinge device

Info

Publication number: CN104343307A
Application number: CN201310693690.9A
Authority: CN
Inventors: 吴裕龙; 赵芬
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-12-17
Filing date: 2013-12-17
Publication date: 2015-02-11
Anticipated expiration: 2033-12-17
Also published as: CN104343307B

Abstract

The invention discloses a liftable hinge device. The liftable hinge device comprises an upper hinge, a lower hinge, a transmission base and a transmission rod, wherein the upper hinge comprises an upper shaft sleeve and an upper hinge sheet fixedly connected with the upper shaft sleeve; the lower hinge comprises a lower shaft sleeve and a lower hinge sheet fixedly connected with the lower shaft sleeve; the transmission base is fixedly connected with the upper shaft sleeve; a transmission cavity is concavely formed in the bottom end surface of the transmission base; a first spiral part is arranged on an internal rotary surface of the transmission cavity; the transmission rod is fixedly connected with the lower shaft sleeve; a second spiral part is arranged on an external rotary surface of the transmission rod; the transmission rod is connected with the transmission cavity; the first spiral part is adapted and meshed with the second spiral part; the upper hinge is pushed to rotate relative to the lower hinge, and the upper hinge is lifted through matching of the first spiral part and the second spiral part; a pushing action is released to decline the upper hinge under the action of gravity, and the upper hinge can automatically return to a closed state through matching of the first spiral part and the second spiral part. The liftable hinge device has the advantages of low cost, high connection strength, high stability, difficult damage, long service life and attractive appearance.

Description

Rising hinge device

Technical field

The present invention relates to a kind of rising hinge device.

Background technology

Automatically closing to realize door, in prior art, disclosing two kinds of self-close hinge devices.

The first, self-close hinge device, comprises hinge, lower jaw and axle core.On this, hinge comprises the upper leaf of hinge of Upper shaft sleeve and affixed Upper shaft sleeve, and this lower jaw comprises the lower jaw sheet of Lower shaft sleeve and affixed Lower shaft sleeve.This axle core is located in Upper shaft sleeve, Lower shaft sleeve, and axle core and Lower shaft sleeve affixed, Upper shaft sleeve can be actively socketed on outside axle core.In order to realize automatic closedown, between axle core and Upper shaft sleeve, establish elastic body.In promotion, hinge makes hinge rotate relative to lower jaw, and elastic body energy storage; Pine oil promotes, and elastic body is released and hinge can be made to automatically reset.This kind of self-close hinge device need arrange axle core and elastic body, and therefore have following deficiency: a. sets up elastic body, cost is high; B. assemble inconvenience, assembly cost is high; C. complex structure, cost is high.

The second, lifting self-close hinge device, as the CN2435489 of Chinese patent database bulletin, comprises hinge, lower jaw and axle core.On this, hinge comprises the upper leaf of hinge of Upper shaft sleeve and affixed Upper shaft sleeve, and this lower jaw comprises the lower jaw sheet of Lower shaft sleeve and affixed Lower shaft sleeve.This axle core is located in Upper shaft sleeve, Lower shaft sleeve, and axle core and Lower shaft sleeve affixed, Upper shaft sleeve can be actively socketed on outside axle core.Upper shaft sleeve lower limb is set to helical margin, and Lower shaft sleeve top edge is set to helical margin, and Upper shaft sleeve lower limb and Lower shaft sleeve top edge coordinate.In promotion, hinge makes hinge rotate relative to lower jaw, is coordinated upper hinge can be made to increase by two helical margin; Pine oil promotes hinge is declined under gravity, is coordinated upper hinge can be made to automatically reset by two helical margin.Being coordinated by two helical margin makes upper hinge rise or the reset of upper hinge, therefore has following deficiency: a. needs separately to arrange axle core, and cost is high; B. bear gravity by helical margin, helical margin bears power transmission effect, and fragile, application life is short; C. outward appearance unsightly; D. can only single-screw be set.

Summary of the invention

The invention provides self-close hinge device, which overcome the deficiency existing for self-close hinge device in background technology.

One of the present invention's technical scheme adopted solving its technical problem is:

Rising hinge device, comprising:

Hinge on one, comprises the upper leaf of hinge of Upper shaft sleeve and affixed Upper shaft sleeve;

One lower jaw, comprises the lower jaw sheet of Lower shaft sleeve and affixed Lower shaft sleeve;

One retainer, affixed Upper shaft sleeve, this retainer bottom face is arranged with drive cavity, and within this drive cavity, the surface of revolution is provided with the first spiral part; And

One drive link, affixed Lower shaft sleeve, outside this drive link, the surface of revolution is provided with the second spiral part, this drive link is connected in drive cavity, this first spiral part and the engagement of the second spiral part adaptation, wherein: in promotion, hinge makes hinge rotate relative to lower jaw, upper hinge can be made to increase by the first spiral part and the cooperation of the second spiral part; Pine oil promotes hinge is declined under gravity, is coordinated upper hinge can be made to automatically reset by the first spiral part and the second spiral part.

Among one embodiment: this retainer lower part stretches out Upper shaft sleeve, this Lower shaft sleeve adaptation is actively socketed on outside retainer lower part.

Among one embodiment: this drive link is rotary structure and comprises the rod member of a solid seat and an affixed solid seat, and this second spiral part is located at rod member place, and this solid seat external diameter is greater than rod member external diameter, and this solid seat adaptation is fixed in Lower shaft sleeve.

Among one embodiment: this solid seat upper part stretches out Lower shaft sleeve, and this Upper shaft sleeve adaptation is actively socketed on outside solid seat upper part.

Among one embodiment: this first spiral part and the second spiral part are respectively flanged structure and groove structure, or, be respectively groove structure and flanged structure.

The present invention solves two of the technical scheme adopted of its technical problem:

Rising hinge device, comprising:

One drive link, affixed Upper shaft sleeve, outside this drive link, the surface of revolution is provided with the second spiral part; And

One retainer, affixed Lower shaft sleeve, this retainer top end face is arranged with drive cavity, and within this drive cavity, the surface of revolution is provided with the first spiral part; This drive link is connected in drive cavity, this first spiral part and the engagement of the second spiral part adaptation, wherein: in promotion, hinge makes hinge rotate relative to lower jaw, is coordinated upper hinge can be made to increase by the first spiral part and the second spiral part; Pine oil promotes hinge is declined under gravity, is coordinated upper hinge can be made to automatically reset by the first spiral part and the second spiral part.

Among one embodiment: this retainer upper part stretches out Lower shaft sleeve, and this Upper shaft sleeve is also actively socketed on outside retainer upper part.

Among one embodiment: this drive link is rotary structure and comprises the rod member of a solid seat and an affixed solid seat, and this second spiral part is located at rod member place, and this solid seat external diameter is greater than rod member external diameter, and this solid seat adaptation is fixed in Upper shaft sleeve.

Among one embodiment: this solid seat lower part stretches out Upper shaft sleeve, and this Lower shaft sleeve adaptation is actively socketed on outside solid seat lower part.

The technical program is compared with background technology, and its tool has the following advantages:

1. the affixed retainer of Upper shaft sleeve, the affixed drive link of Lower shaft sleeve, or, the affixed drive link of Upper shaft sleeve, the affixed retainer of Lower shaft sleeve, drive link connection for transmission chamber, the first spiral part and the engagement of the second spiral part adaptation, in promotion, hinge makes hinge rotate relative to lower jaw, is coordinated upper hinge can be made to increase by the first spiral part and the second spiral part; Pine oil promotes hinge is declined under gravity, being coordinated by the first spiral part and the second spiral part to make upper hinge reset, and this reset is such as self-closing, therefore which overcomes the deficiency existing for background technology, and producing following technique effect: a. is without the need to separately establishing axle core, and cost is low; B. bear gravity by drive link and retainer, bear power transmission effect, and drive link is located in retainer, and bonding strength is high, and stability is high, not fragile, long service life; C. upper and lower axle sleeve ora terminalis flushes, appearance looks elegant; D. can arrange as required single, double, three, four, five, six, seven, the spirals such as eight; When e. rotating, upper hinge rises, door leaf can not with ground friction.

Upper shaft sleeve is stretched out in retainer bottom, and Lower shaft sleeve adaptation is actively socketed on outside retainer bottom, can ensure Lower shaft sleeve coaxial line.

Gu Lower shaft sleeve is stretched out on seat top, Upper shaft sleeve adaptation is actively socketed on outside solid seat top, can ensure Lower shaft sleeve coaxial line.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described.

Fig. 1 depicts the structural representation of the self-close hinge device of embodiment one.

Fig. 2 depicts the structural representation that the retainer of embodiment one and drive link are in decomposing state.

Fig. 3 depicts the A-A generalized section of Fig. 2.

Fig. 4 depicts the structural representation of the self-close hinge device of embodiment two.

Fig. 5 depicts the structural representation that the retainer of embodiment two and drive link are in decomposing state, and wherein, the first spiral part, the second spiral part are that right-handed screw nibbles tooth.

Fig. 5-1 depicts the structural representation that the retainer of embodiment two and drive link are in decomposing state, and wherein, the first spiral part, the second spiral part are that backpitch nibbles tooth.

Fig. 6 depicts the structural representation of the self-close hinge device of embodiment three.

Fig. 7 depicts the structural representation that the retainer of embodiment three and drive link are in decomposing state, and wherein, the first spiral part, the second spiral part are that right-handed screw nibbles tooth.

Fig. 7-1 depicts the structural representation that the retainer of embodiment three and drive link are in decomposing state, and wherein, the first spiral part, the second spiral part are that backpitch nibbles tooth.

Fig. 8 depicts the structural representation of the self-close hinge device of embodiment four.

Fig. 9 depicts the structural representation that the retainer of embodiment four and drive link are in decomposing state, and wherein, the first spiral part, the second spiral part are that right-handed screw nibbles tooth.

Fig. 9-1 depicts the structural representation that the retainer of embodiment four and drive link are in decomposing state, and wherein, the first spiral part, the second spiral part are that backpitch nibbles tooth.

Figure 10 depicts the structural representation of the self-close hinge device of embodiment five.

Figure 11 depicts the structural representation that the retainer of embodiment five and drive link are in decomposing state.

Detailed description of the invention

Embodiment one

Please refer to Fig. 1, Fig. 2 and Fig. 3, rising hinge device, such as, be elevated self-close hinge device, comprise hinge 10, lower jaw 20, retainer 30 and a drive link 40 on one.

Hinge 10 on this, comprises the upper leaf of hinge 12 of Upper shaft sleeve 11 and affixed Upper shaft sleeve 11.This lower jaw 20, comprises the lower jaw sheet 22 of Lower shaft sleeve 21 and affixed Lower shaft sleeve 21.Among the present embodiment, this Upper shaft sleeve 11 and the isometric and end flush arrangement of upper leaf of hinge 12, this Lower shaft sleeve 21 and the isometric and end flush arrangement of lower jaw sheet 22.On this, leaf of hinge, lower jaw sheet place establish installing hole, installing door-plate or luffer boards etc.

This retainer 30, adaptation is fixed in Upper shaft sleeve 11, and this is adapted for power transmission shaft external diameter and Upper shaft sleeve internal diameter is corresponding, and this retainer 30 bottom face is arranged with drive cavity 31, and within this drive cavity 31, the surface of revolution is provided with the first spiral part 32.This drive link 40, is fixed in Lower shaft sleeve 21, and outside this drive link 40, the surface of revolution is provided with the second spiral part 42.This first spiral part 32 and the second spiral part 42 are respectively flanged structure and groove structure, or, be respectively groove structure and flanged structure.As required, this spiral part is single-screw, double helix (two parallel spires), three spirals, four spirals, five spirals, six spirals, seven spirals, 8 spirals, 9 spirals etc., preferably be set at least double helix, strengthening support strength, this spiral is such as right-handed screw or backpitch.In one better embodiment, the central angle in the projection vertically of this spiral is preferably less than 250 degree.In this drive link 40 connection for transmission chamber 31, this first spiral part 32 and the engagement of the second spiral part 42 adaptation.Wherein: in promotion, hinge 10 makes hinge 10 rotate relative to lower jaw 20, upper hinge 10 can be made to increase by the first spiral part 32 and the cooperation of the second spiral part 42; Pine oil promotes hinge 10 is declined under gravity, by the first spiral part 32 and the second spiral part 42 coordinate upper hinge 10 can be made to automatically reset return closed.Such as: as above the relative lower jaw of hinge opens to 90 degree clockwise from 0 degree, go up hinge relative lower jaw rising 9MM, the people now opening door leaf discharges door knob simultaneously, upper hinge decline 9MM state, and upper hinge can drive door leaf automatically close with doorframe close; Relatively open to 175 degree as opened upper hinge, go up hinge rising 17.5MM, the people now opening door leaf discharges door knob simultaneously, upper hinge decline 17.5MM, and upper hinge can drive door leaf automatically close with doorframe close.As required, the relative lower jaw sheet of upper leaf of hinge opens to 90 degree from 0 degree, now design size making can rise to 4MM or 5MM or rises to 6MM etc., discharging door knob equally, namely upper hinge can decline 4MM or 5MM or 6MM, and upper hinge can drive door leaf automatically to close and close with doorframe.Those skilled in the art, can open the door according to the left side, the right opens the door, or, open the door clockwise, open the door counterclockwise, or, automatically open, automatically close, determine to select right-handed screw or backpitch.

This retainer 30 bottom is stretched out under Upper shaft sleeve 11, and this Lower shaft sleeve 21 adaptation is actively socketed on outside retainer 30 bottom, among the present embodiment, utilizes retainer 30 to guarantee the axis of upper Lower shaft sleeve.In order to lower frictional force, best, between Upper shaft sleeve 11 and Lower shaft sleeve 21, establish pad 90.

This drive link 40 is rotary structure and comprises the rod member 41 of a solid seat 43 and an affixed solid seat, and this second spiral part 42 is located at rod member 41 place, and this solid seat 43 external diameter is greater than rod member 41 external diameter, and this solid seat 43 adaptation is fixed in Lower shaft sleeve 21.

In one preferred version, the lower end of this drive link 40 is installed with plug seat 50, namely this plug seat 50 is installed in solid seat 43, this plug seat 50 external diameter is greater than solid seat 43 external diameter, this plug seat 50 has the anchor ring stretched out outside solid seat 43, this anchor ring adaptation leans against Lower shaft sleeve 21 bottom face, this plug seat 50 external diameter and Lower shaft sleeve 21 external diameter suitable.Separately establish plug 80 attaching Upper shaft sleeve upper port.

Affixed about between this retainer 30 and Upper shaft sleeve 11, such as adopt following structure: this retainer 30 is provided with more than one screw, this Upper shaft sleeve 11 offers more than one corresponding through hole, another arranging first screw 60 through through hole and interlocking in screw, with this, retainer 30 and Upper shaft sleeve 11 are fixed together; Affixed about between this drive link 40 and Lower shaft sleeve 21, such as adopt following structure: this drive link 40 is provided with more than one screw, this Lower shaft sleeve 21 offers more than one corresponding through hole, another arranging second screw 70 through through hole and interlocking in screw, with this, drive link 40 and Lower shaft sleeve 21 are fixed together.

Embodiment two

It and embodiment one difference are: please refer to Fig. 4, Fig. 5 and Fig. 5-1, and this solid seat 43 top is stretched out on Lower shaft sleeve 21, and this Upper shaft sleeve 11 adaptation is actively socketed on outside solid seat 43 upper part.The solid seat 43 of drive link 40 is utilized to ensure the accuracy that Hinge rotates.This retainer 30 adaptation is installed in Upper shaft sleeve 11, this retainer 30 end sets firmly plug seat 50, this plug seat 50 external diameter is greater than retainer 30 external diameter, this plug seat 50 has the anchor ring stretched out outside retainer 30, this anchor ring adaptation leans against Upper shaft sleeve top end face, this plug seat external diameter and Upper shaft sleeve external diameter suitable.Plug 80 is installed in the lower port of Lower shaft sleeve.

This consults Fig. 5, and wherein, the first spiral part 32 and the second spiral part 42 are that right-handed screw nibbles tooth, and this retainer 30 is opened and driven Upper shaft sleeve 11 and upper hinge 12 to rotate rising with relative to lower jaw 22 in counter-clockwise direction.Please refer to Fig. 5-1, wherein, the first spiral part 32 and the second spiral part 42 are that backpitch nibbles tooth, and this retainer 30 is opened and driven Upper shaft sleeve 11 and upper hinge 12 to rotate rising relative to lower jaw 22 in clockwise direction.

Embodiment three

It and embodiment one difference are: please refer to Fig. 6, Fig. 7 and Fig. 7-1, and this drive link 40 is fixed in Upper shaft sleeve 11, and outside this drive link 40, the surface of revolution is provided with the second spiral part 42.This retainer 30 is fixed in Lower shaft sleeve 21, and this retainer 30 top end face is arranged with drive cavity 31, and within this drive cavity 31, the surface of revolution is provided with the first spiral part 32.This retainer 30 upper part is stretched out on Lower shaft sleeve 21, and this Upper shaft sleeve is also actively socketed on outside retainer upper part.The upper end of this drive link 40 is installed with plug seat 50, namely this plug seat 50 is installed in solid seat 43, and this plug seat 50 external diameter is greater than solid seat 43 external diameter, and this plug seat 50 has the anchor ring stretched out outside solid seat 43, this anchor ring adaptation leans against Upper shaft sleeve top end face, this plug seat external diameter and Upper shaft sleeve external diameter suitable.This Lower shaft sleeve lower port establishes plug 80.Wherein, in Fig. 7, the first spiral part 32 and the second spiral part 42 are that right-handed screw nibbles tooth, and this drive link 40 is opened and driven Upper shaft sleeve 11 and upper hinge 12 to rotate rising relative to lower jaw 22 in counter-clockwise direction; In Fig. 7-1, the first spiral part 32 and the second spiral part 42 are that backpitch nibbles tooth, and this drive link 40 is opened and driven Upper shaft sleeve 11 and upper hinge 12 to rotate rising relative to lower jaw 22 in clockwise direction.

Embodiment four

It and embodiment three difference are: please refer to Fig. 8, Fig. 9 and Fig. 9-1, and this solid seat 43 lower part is stretched out under Upper shaft sleeve 11, and this Lower shaft sleeve 21 adaptation is actively socketed on outside solid seat 43 upper part.The solid seat 43 of drive link 40 is utilized to ensure the accuracy that Hinge rotates.This retainer 30 adaptation is fixed in Lower shaft sleeve 21, this retainer 30 end sets firmly plug seat 50, this plug seat 50 external diameter is greater than retainer 30 external diameter, this plug seat 50 has the anchor ring stretched out outside retainer 30, this anchor ring adaptation leans against Lower shaft sleeve bottom face, this plug seat external diameter and Lower shaft sleeve external diameter suitable.This Upper shaft sleeve upper port establishes plug 80.Wherein, in Fig. 9, the first spiral 32 and the second spiral 42 are that right-handed screw nibbles tooth, and this drive link 40 is opened and driven Upper shaft sleeve 11 and upper hinge 12 to rotate rising relative to lower jaw 22 in counter-clockwise direction.In Fig. 9-1, the first spiral part 32 and the second spiral part 42 are that backpitch nibbles tooth, and this drive link 40 is opened and driven Upper shaft sleeve 11 and upper hinge 12 to rotate rising relative to lower jaw 22 in clockwise direction.

Embodiment four

It and embodiment three difference are: please refer to Figure 10 and Figure 11, and hinge 10 on this comprises the upper leaf of hinge 12 of Upper shaft sleeve 11 and affixed Upper shaft sleeve 11.This lower jaw 20, comprises the lower jaw sheet 22 of Lower shaft sleeve 21 and affixed Lower shaft sleeve 21.Among the present embodiment, this Upper shaft sleeve 11 is fixed in leaf of hinge 12 the first half; This Lower shaft sleeve 21 is fixed in lower jaw sheet 22 the latter half; This Upper shaft sleeve 11 is positioned on Lower shaft sleeve 21; Leaf of hinge 12 and the isometric alignment of lower jaw sheet 22 on this.Among the present embodiment, on this, the relative lower jaw of hinge turns to 180 degree, the relative lower jaw of upper hinge rising about 13mm in the axial direction.

The above, be only present pre-ferred embodiments, therefore can not limit scope of the invention process according to this, the equivalence change namely done according to the scope of the claims of the present invention and description with modify, all should still belong in scope that the present invention contains.

Claims

1. rising hinge device, comprising:

It is characterized in that: also comprise:

2. require described rising hinge device according to right 1, it is characterized in that: this retainer lower part stretches out Upper shaft sleeve, this Lower shaft sleeve adaptation is actively socketed on outside retainer lower part.

3. require described rising hinge device according to right 1, it is characterized in that: this drive link is rotary structure and comprises the rod member of a solid seat and an affixed solid seat, this second spiral part is located at rod member place, and this solid seat external diameter is greater than rod member external diameter, and this solid seat adaptation is fixed in Lower shaft sleeve.

4. require described rising hinge device according to right 3, it is characterized in that: this solid seat upper part stretches out Lower shaft sleeve, and this Upper shaft sleeve adaptation is actively socketed on outside solid seat upper part.

5. the rising hinge device described in requiring according to right 1 or 2 or 3 or 4, is characterized in that: this first spiral part and the second spiral part are respectively flanged structure and groove structure, or, be respectively groove structure and flanged structure.

6. rising hinge device, comprising:

It is characterized in that: also comprise:

7. require described rising hinge device according to right 6, it is characterized in that: this retainer upper part stretches out Lower shaft sleeve, and this Upper shaft sleeve is also actively socketed on outside retainer upper part.

8. require described rising hinge device according to right 6, it is characterized in that: this drive link is rotary structure and comprises the rod member of a solid seat and an affixed solid seat, this second spiral part is located at rod member place, and this solid seat external diameter is greater than rod member external diameter, and this solid seat adaptation is fixed in Upper shaft sleeve.

9. require described rising hinge device according to right 8, it is characterized in that: this solid seat lower part stretches out Upper shaft sleeve, and this Lower shaft sleeve adaptation is actively socketed on outside solid seat lower part.

10. the rising hinge device described in requiring according to right 6 or 7 or 8 or 9, is characterized in that: this first spiral part and the second spiral part are respectively flanged structure and groove structure, or, be respectively groove structure and flanged structure.