CN207633916U - Anti- tenesmus hinge - Google Patents
Anti- tenesmus hinge Download PDFInfo
- Publication number
- CN207633916U CN207633916U CN201721370485.9U CN201721370485U CN207633916U CN 207633916 U CN207633916 U CN 207633916U CN 201721370485 U CN201721370485 U CN 201721370485U CN 207633916 U CN207633916 U CN 207633916U
- Authority
- CN
- China
- Prior art keywords
- hinge
- hole
- hinge axis
- tenesmus
- nextpage
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Abstract
The utility model is related to hinge connector technical fields, disclose a kind of anti-tenesmus hinge.In the utility model, the anti-tenesmus hinge includes:Upper page, nextpage and hinge axis, upper page is equipped with first rotating shaft hole, nextpage is equipped with the second shaft hole, hinge axis penetrates through first rotating shaft hole and the second shaft hole is hinged by upper page and nextpage, hinge axis is fixedly connected with nextpage, hinge axis is rotatably adapted to first rotating shaft hole, upper page is provided with the through-hole radially extended along hinge axis, side in through-hole close to hinge axis is provided with elastic component, the side far from hinge axis is provided with nut in through-hole, elastic component side supports on nut, the elastic component other side supports on hinge axis, it is provided with screw thread on the inner wall of through-hole, nut is by being threaded into through-hole.Anti- tenesmus hinge provided by the utility model, it can be ensured that upper gap uniformity between page and nextpage, while preventing the upper page of hinge from dropping.
Description
Technical field
The utility model is related to hinge connector technical field, more particularly to a kind of anti-tenesmus hinge.
Background technology
In the prior art, hinge generally comprises page, nextpage and hinge axis, and upper page and nextpage are equipped with shaft hole, hinge
Axis penetrates through that axis hole is hinged by upper page and nextpage, and hinge axis is fixedly connected with nextpage, and hinge axis and upper page are rotatable
Adaptation.
Inventor has found that at least there are the following problems in the prior art:It is relatively rotated since hinge axis and upper page exist, hinge
Certain gap can be reserved between chain rivet and shaft hole, after the upper page of door body and hinge, which coordinates, to be installed, hinge is in door body
Meeting opposite from hinge axis generates inclination under gravity, can be uneven so as to cause the gap on hinge between page and nextpage, influences
To the appearance of hinge, while the tenesmus of hinge can also make door body and ground friction, influence the normal switch of door body.Therefore, have
Necessity provides a kind of structure of anti-tenesmus hinge newly to solve the above problems.
Utility model content
The purpose of this utility model is to provide a kind of anti-tenesmus hinges, it can be ensured that the gap uniformity of hinge itself, together
When prevent the tenesmus of hinge.
In order to solve the above technical problems, the embodiment of the utility model provides a kind of anti-tenesmus hinge, including:On
Page, nextpage and hinge axis, the upper page are equipped with first rotating shaft hole, and the nextpage is equipped with the second shaft hole, the hinge axis
Penetrate through first rotating shaft hole and the second shaft hole the upper page and the nextpage is hinged, the hinge axis with it is described under
Page fixing connects, and the hinge axis is rotatably adapted to the first rotating shaft hole, and the upper page is provided with along the hinge axis
The through-hole radially extended is provided with elastic component in the through-hole close to the side of the hinge axis, far from described in the through-hole
The side of hinge axis is provided with nut, and the elastic component side supports on the nut, and the elastic component other side supports
On the hinge axis, screw thread is provided on the inner wall of the through-hole, the nut is threaded by described in the through-hole.
The utility model embodiment in terms of existing technologies, the depth of through-hole is screwed in by adjusting nut, is adjusted
Elastic component adjusts the angle of inclination between hinge axis and upper page to the resist force of hinge axis, since hinge axis and nextpage are solid
Fixed connection, to which the relative position of upper page and nextpage can be adjusted by the adjusting of hinge axis, it is ensured that above between page and nextpage
Gap uniformity, while preventing the tenesmus of hinge.
In addition, the elastic component is spring.
In addition, the elastic component includes spring and thimble, the thimble includes head and is connected and is arranged with the head
In the tail portion of the spring inner, the side on the head supports on the hinge axis, and the other side supports on spring.Due to
Hinge axis contact area bigger is supported with the head of thimble, therefore can preferably adjust the inclination angle between hinge axis and upper page
Degree.
In addition, the quantity of the through-hole is multiple, multiple through-holes are around the hinge axis spaced set.So set
It sets, the elastic component in through-hole is more uniform to the resist force of hinge axis, and hinge axis is supported so as to more firm.
In addition, the number of the through-hole is even number, through-hole setting facing each other two-by-two described in even number.So set, phase
Two elastic components of setting can be supported from opposite direction on hinge axis, for different inclined directions (for example, left-leaning
Tiltedly, right bank), corresponding elastic component can be selected to carry out position correction.
In addition, be provided with the first revolving part on the upper page, it is provided with the second revolving part on the nextpage, described first turn
Axis hole is arranged on first revolving part, and second shaft hole is arranged on second revolving part, first rotation
Part includes the first plane not in same level height and the second plane close to the side of the nextpage and is connected to described
First Transition face between first plane and second plane, second revolving part close to the side of the upper page include with
The face of the first revolving part shape complementation.
In addition, the First Transition face and second transition face are inclined-plane.
In addition, the First Transition face and second transition face are curved surface.
In addition, the anti-tenesmus hinge further includes the spring being set on the hinge axis, the side of the spring supports
On the upper page, the other side supports on the nextpage.
Description of the drawings
Fig. 1 is the stereochemical structure explosive view for the anti-tenesmus hinge that the utility model embodiment provides;
Fig. 2 is the stereochemical structure assembling figure for the anti-tenesmus hinge that the utility model embodiment provides;
Fig. 3 is the sectional view along A-A directions shown in Fig. 2;
Fig. 4 is the dimensional structure diagram for the first revolving part that the utility model embodiment provides.
Specific implementation mode
It is new to this practicality below in conjunction with attached drawing to keep the purpose of this utility model, technical solution and advantage clearer
Each embodiment of type is explained in detail.However, it will be understood by those skilled in the art that each in the utility model
In embodiment, many technical details are proposed in order to make reader more fully understand the use of the new type.But even if without this
A little technical details and various changes and modifications based on the following respective embodiments, can also realize each claim of the utility model
Technical solution claimed.
The first embodiment of the utility model is related to a kind of anti-tenesmus hinge 100, as shown in Fig. 1 to 2, including:Upper page
1, nextpage 2 and hinge axis 3, the upper page 1 are equipped with first rotating shaft hole 4, and the nextpage 2 is equipped with the second shaft hole 5, the hinge
Chain rivet 3 penetrates through first rotating shaft hole 4 and the second shaft hole 5 is hinged by the upper page 1 and the nextpage 2, the hinge
Axis 3 is fixedly connected with the nextpage 2, and the hinge axis 3 is rotatably adapted to the first rotating shaft hole 4, and the upper page 1 is arranged
There is a through-hole 6 radially extended along the hinge axis 3, the side of the hinge axis 3 be provided with elastic component 7 in the through-hole 6,
Side far from the hinge axis 3 in the through-hole 6 is provided with nut 8, and 7 side of the elastic component supports on the nut 8,
7 other side of the elastic component supports on the hinge axis 3, and screw thread 9 (referring to Fig. 3), institute are provided on the inner wall of the through-hole 6
Nut 8 is stated to screw in the through-hole 6 by the screw thread 9.
The utility model embodiment in terms of existing technologies, the depth of through-hole 6 is screwed in by adjusting nut 8, is adjusted
Elastic component 7 is saved to the resist force of hinge axis 3, and then adjusts the angle of inclination between hinge axis 3 and upper page 1, due to hinge axis 3 with
Nextpage 2 is fixedly connected, to adjust the relative position of upper page 1 and nextpage 2 by the adjusting of hinge axis 3, it is ensured that hinge sheet
The gap of body, while preventing the tenesmus of hinge.Wherein, the rotation depth of nut 8 is particularly by adjusting its rotating cycle
Come what is realized.
In anti-tenesmus hinge 100 shown in Fig. 1 to 3, the elastic component 7 includes spring 10 and thimble 11, the thimble 11
It is connected including head 111 and with the head 111 and is set in the tail portion 112 inside the spring 10.The head 111
Side supports on the hinge axis 3, and the other side supports on spring 10.Due to supporting hinge axis 3 with the head 111 of thimble 11
Contact area bigger, therefore can preferably adjust the angle of inclination between hinge axis 3 and upper page 1.
It is understood that the elastic component 7 may also be only spring 10.The spring 10 is arranged in the through-hole 6
Close to the side of the hinge axis 3,10 side of the spring supports on the nut 8, and 10 other side of the spring supports
On the hinge axis 3.So set, when screwing in nut 8, nut 8 can inwardly press the side of spring 10, to spring
10 other side can compress hinge axis 3, to equally reach the effect of adjusting the angle of inclination between hinge axis 3 and upper page 1.
Specifically, the quantity of the through-hole 6 can be one, and the through-hole 6 of a quantity can be realized to the hinge
Adjustment to prevent hinge from dropping.
It is understood that the quantity of the through-hole 6 may be multiple, it is preferred that multiple through-holes 6 are around described
3 spaced set of hinge axis.Correspondingly, being correspondingly arranged in each through-hole 6, there are one elastic components 7, so set, each through-hole 6
Interior elastic component 7 uniformly acts on hinge axis 3 resist force of hinge axis 3, and hinge is supported so as to more firm
Axis 3.
In present embodiment, the number of the through-hole 6 is even number, the setting facing each other two-by-two of through-hole 6 described in even number.Such as
This setting, two elastic components 7 being oppositely arranged can be from faces and opposite direction supports on hinge axis 3, so that bullet
Property part 7 is supported more firm.
It is noted that being provided with the first revolving part 12 on the upper page 1, the second rotation is provided on the nextpage 2
Part 13, the first rotating shaft hole 4 are arranged on first revolving part 12, and the setting of the second shaft hole 5 is in second rotation
Turn on part 13, as shown in figure 4, first revolving part 12 includes not in same level height close to the side of the nextpage 2
The first plane 121 and the second plane 122 and be connected between first plane 121 and second plane 122
One transition face 123, second revolving part 13 include and 12 shape of the first revolving part complementation close to the side of the upper page 1
Face.So set, just can make under the opening of anti-tenesmus hinge 100, closure two states, not in same level height
The first plane 121 and the second plane 122 alternately with the second revolving part 13 against cooperation, realize that hinge is opened, under closed state,
Relative movement occurs between the door body that is fixedly connected respectively with upper page 1 and nextpage 2, doorframe and realizes lifting.
In present embodiment, the First Transition face 123 and second transition face 133 are curved surface.So set, mistake
The intersection for crossing face and plane is more smooth so that the anti-tenesmus hinge 100 is more smooth in opening procedure.
It is worth one, the First Transition face 123 and second transition face 133 can also be inclined-plane.
Preferably, the anti-tenesmus hinge 100 further includes the spring 14 being set on the hinge axis 3, the spring 14
Side support on the upper page 1, the other side supports on the nextpage 2.Spring 14 can be to upper page 1 under deformed state
Generate the elastic force elected upwards, to reduce the pressure between the first revolving part and the second revolving part, in turn, the first revolving part and
Frictional force can become smaller between second revolving part.It is arranged such, it is possible to reduce the abrasion between the first revolving part and the second revolving part,
Prolong the service life.
In another embodiment of present embodiment, the quantity of the through-hole 6 is odd number, through-hole 6 described in odd number
Around 3 spaced set of the hinge axis.For example, when the quantity of through-hole 6 is three, three through-holes 6 are around the hinge axis 3
Spaced set revolves three cooperations of elastic component 7 when needing to adjust the gap between hinge axis 3 and first rotating shaft hole 4
The adjustment enter, screwed out.
It will be understood by those skilled in the art that the respective embodiments described above are to realize the specific implementation of the utility model
Example, and in practical applications, can to it, various changes can be made in the form and details, without departing from the spirit of the utility model
And range.
Claims (9)
1. a kind of anti-tenesmus hinge, including:Upper page, nextpage and hinge axis, the upper page are equipped with first rotating shaft hole, the nextpage
It is equipped with the second shaft hole, the hinge axis penetrates through first rotating shaft hole and the second shaft hole and cuts with scissors the upper page and the nextpage
It being connected together, the hinge axis is fixedly connected with the nextpage, and the hinge axis is rotatably adapted to the first rotating shaft hole,
It is characterized in that, the upper page is provided with the through-hole radially extended along the hinge axis,
Side in the through-hole close to the hinge axis is provided with elastic component, the side far from the hinge axis in the through-hole
It is provided with nut, the elastic component side supports on the nut, and the elastic component other side supports on the hinge axis,
Screw thread is provided on the inner wall of the through-hole, the nut is threaded by described in the through-hole.
2. anti-tenesmus hinge according to claim 1, which is characterized in that the elastic component is spring.
3. anti-tenesmus hinge according to claim 1, which is characterized in that the elastic component includes spring and thimble, described
Thimble includes head and is connected and is set in the tail portion of the spring inner with the head, and the side on the head supports
On the hinge axis, the other side supports on spring.
4. anti-tenesmus hinge according to claim 2 or 3, which is characterized in that the quantity of the through-hole is multiple, Duo Gesuo
Through-hole is stated around the hinge axis spaced set.
5. anti-tenesmus hinge according to claim 4, which is characterized in that the number of the through-hole is even number, even number institute
State through-hole setting facing each other two-by-two.
6. anti-tenesmus hinge according to claim 1, which is characterized in that be provided with the first revolving part, institute on the upper page
It states and is provided with the second revolving part on nextpage, the first rotating shaft hole is arranged on first revolving part, second shaft hole
It is arranged on second revolving part, first revolving part includes not in same level height close to the side of the nextpage
The first plane and the second plane and the First Transition face that is connected between first plane and second plane, institute
It includes the second transition face with the complementation of First Transition face shape that the second revolving part, which is stated, close to the side of the upper page.
7. anti-tenesmus hinge according to claim 6, which is characterized in that the First Transition face and second transition face
It is inclined-plane.
8. anti-tenesmus hinge according to claim 6, which is characterized in that the First Transition face and second transition face
It is curved surface.
9. anti-tenesmus hinge according to claim 1, which is characterized in that the anti-tenesmus hinge further include be set in it is described
The side of spring on hinge axis, the spring supports on the upper page, and the other side supports on the nextpage.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721370485.9U CN207633916U (en) | 2017-10-23 | 2017-10-23 | Anti- tenesmus hinge |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721370485.9U CN207633916U (en) | 2017-10-23 | 2017-10-23 | Anti- tenesmus hinge |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207633916U true CN207633916U (en) | 2018-07-20 |
Family
ID=62858956
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721370485.9U Active CN207633916U (en) | 2017-10-23 | 2017-10-23 | Anti- tenesmus hinge |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207633916U (en) |
-
2017
- 2017-10-23 CN CN201721370485.9U patent/CN207633916U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
KR101543649B1 (en) | Adjustable torque hinge | |
US8966715B1 (en) | Synchronous rotation mechanism for dual-shaft hinge | |
KR20070049036A (en) | Hinge capable of adjusting torque | |
CN207633916U (en) | Anti- tenesmus hinge | |
CN206418899U (en) | A kind of door hinge structure of wine cabinet or refrigerator | |
CN207245441U (en) | Hinge and suspension arrangement | |
US20220018423A1 (en) | Torque-variable single-shaft rotary shaft structure with multiple frictional pairs | |
CN205782195U (en) | A kind of anti-dazzle plate structure and light fixture | |
CN210624018U (en) | Double-angle limiting structure | |
CN107130870A (en) | A kind of hinge | |
CN201228486Y (en) | Hidden two dimension adjustable shaft type hinge | |
CN205689022U (en) | A kind of hydraulic heavy glass door hinge | |
CN110630627A (en) | Ultrathin notebook computer | |
CN205297114U (en) | Hinge | |
CN207988886U (en) | A kind of laboratory cultures chamber door regulating system | |
CN201753728U (en) | Hinge capable of providing variable friction torque | |
CN105401811A (en) | Hinge | |
CN209653694U (en) | A kind of hinge of included limit function | |
CN109723304A (en) | A kind of hinge of adjustable reset speed | |
CN104975792A (en) | Spherical hinge type gravity self-locking channel safety door | |
CN218375995U (en) | Buffer device | |
CN205744872U (en) | The two-shaft hinge mechanism on mobile terminal and mobile terminal can be used for | |
EP3508673A1 (en) | Self-balancing sliding wheel | |
CN214092697U (en) | Novel rotating shaft mechanism | |
CN211549260U (en) | Hinge structure with damping effect |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |