CN110552563A

CN110552563A - Structure of linear hinged universal hinge

Info

Publication number: CN110552563A
Application number: CN201810604223.7A
Authority: CN
Inventors: 严能进
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-05-30
Filing date: 2018-05-30
Publication date: 2019-12-10
Anticipated expiration: 2038-05-30
Also published as: CN110552563B

Abstract

The invention relates to a structure of a linear hinged universal hinge, which comprises an S-shaped connecting plate, an F-shaped connecting plate, a connecting column and a plug, and is characterized in that: the semi-circular ring body and the semi-circular groove of the S-shaped connecting plate main body of the S-shaped connecting plate are connected with the groove and the small groove of the F-shaped connecting plate main body of the F-shaped connecting plate respectively to form a cavity which is connected through a connecting column, the notch of the S-shaped connecting plate and the corresponding notch of the F-shaped connecting plate are arranged side by side, the connecting column is sequentially connected with round holes of the rectangular straight edge partition plate and the bean sprout-shaped partition plate in the notch, and the rectangular groove of the S-shaped connecting plate is connected with the rectangular column. The beneficial effects are as follows: the transverse supporting partition plate and the limiting function are achieved, and meanwhile, the processing is simple and the cost is low.

Description

Structure of linear hinged universal hinge

Technical Field

The invention belongs to the technical field of hinge products, and particularly relates to a structure technology of a linear hinged universal hinge.

Background

Chinese patent: the "improvement of linear connection device (ZL 2006100358498)" and its extension technology disclose a technical solution of linear articulation, which can be generally met in the transverse articulation and has a limit function. But the disadvantages are: first, it cannot be used in vertical hinges because of the lack of lateral supporting partitions. Secondly, the connecting shaft of the traditional hinge can be assembled only by cutting and stamping, and the processing cost is relatively high.

Disclosure of Invention

The invention aims to provide a structure of a linear hinged universal hinge, which has the functions of transversely supporting a partition plate and limiting, and is simple to process and low in cost.

In order to achieve the purpose, the technical solution of the invention is as follows: a structure of a linear hinge general hinge is shown in a sectional view 1, a sectional view 2 and a sectional view 3 and comprises an S-shaped connecting plate, an F-shaped connecting plate, a connecting column and a plug. The S-shaped connecting plate is shown in figure 4 and a sectional view 5 and comprises an S-shaped connecting plate main body, a separation column and a rectangular straight-edge partition plate. The S-shaped connecting plate main body is shown in cross-sectional views 6 and 7, and one end of the S-shaped connecting plate main body is provided with a semi-circular ring body which is used for being connected with a groove of the F-shaped connecting plate main body of the F-shaped connecting plate. The center of the semi-circular ring body is provided with a semi-circular groove which is used for being connected with the small groove of the F-shaped connecting plate to form a cavity with about three quarters of a circle. The tail end position of the excircle of the semi-circular ring body is provided with two notch grooves for connecting the isolating columns and playing a role in preventing direct friction between aluminum materials. The other end of the connecting rod is provided with a round hole for connecting a part needing to be hinged through a rivet or a screw. The tail end of the connecting plate is provided with a rectangular groove used for connecting a rectangular column of the plug. An arc-shaped notch groove is formed at the other end of the excircle of the semi-circular ring body and adjacent to the connecting plate and used for avoiding the tail end of the outer wall of the groove after the F-shaped connecting plate rotates by 90-120 degrees. The S-shaped connecting plate main body is provided with more than two notches for connecting the rectangular straight-side partition plates. The isolation column is a column body made of silica gel, nylon or copper wire as shown in fig. 8. The rectangular straight-edge partition plate is shown in fig. 9, one side of the rectangular straight-edge partition plate is a rectangular straight edge and is used for being connected with the bottom of the notch of the S-shaped connecting plate main body, so that the rectangular straight-edge partition plate can rotate along with the S-shaped connecting plate main body. The middle of the rectangular straight-side clapboard is provided with a round hole for connecting a connecting column. The gap groove of the S-shaped connecting plate main body is connected with the isolation column. The notch of the S-shaped connecting plate main body is connected with the rectangular straight-side partition plate, and the rectangular straight side of the rectangular straight-side partition plate is connected with the bottom of the notch of the S-shaped connecting plate main body.

The F-shaped connecting plate includes an F-shaped connecting plate main body, a spacer column and a bean sprout-shaped spacer, as shown in fig. 10 and a cross-sectional view 11. The F-shaped connecting plate main body is shown in cross-sectional views 12 and 13, and one end of the F-shaped connecting plate main body is provided with a groove for connecting the semicircular ring body of the S-shaped connecting plate. The circle center of the groove is provided with a small groove used for connecting the semicircular groove of the S-shaped connecting plate. The inner circle tail end of the outer wall of the groove is provided with a notch groove used for being connected with an isolation column to prevent direct friction between aluminum materials. The other end of the connecting rod is provided with a round hole for connecting a part needing to be hinged through a rivet or a screw. The tail end of the connecting plate is provided with a rectangular groove for connecting the rectangular sheet of the bean sprout-shaped clapboard. More than two gaps are arranged on the F-shaped connecting plate main body and are used for connecting the bean sprout-shaped partition plates. The isolation column is shown in FIG. 8 and outlined. The bean sprout-shaped partition is shown in fig. 14, and a round hole is formed in the middle of the main body of the bean sprout-shaped partition and used for being connected with a connecting column. The other side of the bean sprout-shaped partition board is provided with a rectangular sheet which is connected with the rectangular groove of the F-shaped connecting board main body, so that the bean sprout-shaped partition board can rotate along with the F-shaped connecting board main body. The gap groove of the F-shaped connecting plate main body is connected with the isolation column. The notch of the F-shaped connecting plate main body is connected with the bean sprout-shaped partition plate, and the rectangular sheet of the bean sprout-shaped partition plate is connected with the rectangular groove of the F-shaped connecting plate main body.

The connecting column is a circular column. Outlined.

The plug is shown in fig. 15, and the main body of the plug is a cover plate for covering the cross section of the hinge. The upper part of the cover plate is provided with a cylinder which is used for connecting a cavity formed by the semicircular groove of the S-shaped connecting plate and the small groove of the F-shaped connecting plate. The lower part of the cover plate is provided with a rectangular column which is used for connecting the rectangular groove of the S-shaped connecting plate.

FIG. 16 is a schematic view of the F-shaped web rotated 100 degrees relative to the S-shaped web, connecting post and plug.

The connection of the S-shaped connecting plate, the F-shaped connecting plate, the connecting column and the plug is shown in a sectional view 1, a sectional view 2 and a sectional view 3, wherein a semicircular body and a semicircular groove of an S-shaped connecting plate main body of the S-shaped connecting plate are respectively connected with a groove and a small groove of an F-shaped connecting plate main body of the F-shaped connecting plate to form a cavity, and the cavity is connected with a cylinder of the connecting column and the plug. The gaps of the S-shaped connecting plates and the corresponding gaps of the F-shaped connecting plates are arranged side by side, and the round holes of the rectangular straight-edge partition plates and the bean sprout-shaped partition plates in the gaps are sequentially connected with the connecting columns. The rectangular groove of the S-shaped connecting plate is connected with the rectangular column of the plug.

In addition to the above solutions, in the transverse hinge, the structure of the linear hinge universal hinge may also include an S-shaped connecting plate, an F-shaped connecting plate, a connecting column and a plug as shown in fig. 17 and a cross-sectional view 18. The S-shaped connecting plate is shown in fig. 19, and one end of the S-shaped connecting plate is provided with a semi-circular ring body. The center of the semi-circular ring body is provided with a semi-circular groove. Two gap grooves are arranged at the tail end of the excircle of the semi-circular ring body and connected with the isolation column. The other side is a connecting plate which is provided with a round hole. The end of the connecting plate is provided with a rectangular groove. The other end of the excircle of the semi-circular ring body is provided with an arc-shaped notch groove adjacent to the connecting plate. The F-shaped web is shown in cross-section in fig. 20 and has a groove at one end. The center of the groove is provided with a small groove. The inner circle tail end of the outer wall of the groove is provided with a notch groove connected with the isolation column. The other end is a connecting plate which is provided with a round hole. The end of the connecting plate is provided with a rectangular groove. Obviously, a rectangular recess may not be required.

The working principle is as follows: because the notch of the S-shaped connecting plate main body is connected with the rectangular straight-side partition plate and synchronously rotates; the gap of the F-shaped connecting plate is connected with the bean sprout-shaped partition plate and synchronously rotates. The rectangular straight-edge partition plates and the round holes of the bean sprout-shaped partition plates in the gaps are sequentially connected with the connecting columns. Therefore, when the vertical hinge joint and the S-shaped connecting plate and the F-shaped connecting plate are relatively rotated, the rectangular straight-edge partition plate and the bean sprout-shaped partition plate bear the load, the contact surface between the rectangular straight-edge partition plate and the bean sprout-shaped partition plate is increased, and the friction force is small.

The technical scheme is a universal hinge product which can be linearly connected (connected by the whole edge) and used for products such as furniture, electric appliances, doors and windows. And a small section can be cut to manufacture a standard component as the existing hinge. And will vary in adaptation during use. For example, to enhance the strength of the connection with the sheet and reduce leverage, the web may be designed to be L-shaped to wrap around two adjacent sides (or three sides) of the sheet. It should also fall within the scope of the present disclosure.

After the scheme is adopted, the invention has the beneficial effects that: the transverse supporting partition plate and the limiting function are achieved, and meanwhile, the processing is simple and the cost is low.

Drawings

Figure 1 is a schematic view of an assembly of the present invention.

Figure 2 is a cross-sectional view of the combination of the present invention.

Figure 3 is a front cross-sectional view of the combination of the present invention.

FIG. 4 is a schematic view of an S-shaped web of the present invention.

FIG. 5 is a front cross-sectional view of the S-shaped web of the present invention.

FIG. 6 is a cross-sectional view of the S-shaped web body of the present invention.

FIG. 7 is a front cross-sectional view of the S-shaped web body of the present invention.

FIG. 8 is a schematic view of an isolation column of the present invention.

fig. 9 is a schematic view of a rectangular straight-sided separator plate of the present invention.

FIG. 10 is a schematic view of an F-shaped web of the present invention.

FIG. 11 is a front cross-sectional view of an F-shaped web of the present invention.

FIG. 12 is a cross-sectional view of the F-shaped web body of the present invention.

FIG. 13 is a front cross-sectional view of the F-shaped web body of the present invention.

Fig. 14 is a schematic view of the bean sprout-shaped spacer of the present invention.

Figure 15 is a schematic view of a plug of the present invention.

FIG. 16 is a schematic view of the F-shaped web of the present invention rotated 100 degrees relative to the S-shaped web, connecting post and plug.

Figure 17 is a schematic view of a combination of the second aspect of the invention.

Figure 18 is a front view of a combination of the second aspect of the invention.

Fig. 19 is a front view of an S-shaped connecting plate of a second aspect of the present invention.

Fig. 20 is a front view of an F-shaped connecting plate of a second aspect of the present invention.

Description of reference numerals:

10. An S-shaped connecting plate; 11. an S-shaped connecting plate body; 111. a semi-torus; 112. a semicircular groove; 113. a notch groove; 114. a connecting plate; 115. a circular hole; 116. a rectangular groove; 117. an arc-shaped notch groove; 118. a notch; 12. an isolation column; 13. a rectangular straight-side baffle plate; 131. a rectangular straight side; 132. a circular hole; 20. an F-shaped connecting plate; 21. an F-shaped connecting plate body; 211. a groove; 212. a small groove; 213. an outer wall; 214. a notch groove; 215. a connecting plate; 216. a circular hole; 217. a rectangular groove; 218. a notch; 22. an isolation column; 23. a bean sprout-shaped partition plate; 231. a circular hole; 232. a rectangular sheet; 30. connecting columns; 40. a plug; 41. a cover plate; 42. a cylinder; 43. a rectangular column; 50. an S-shaped connecting plate; 51. a semi-torus; 52. a semicircular groove; 53. an isolation column; 54. a connecting plate; 55. a rectangular groove; 56. an arc-shaped notch groove; 60. an F-shaped connecting plate; 61. a groove; 62. a small groove; 63. an isolation column; 64. a connecting plate; 65. a circular hole; 66. a rectangular groove.

Detailed Description

Example 1:

A structure of a linear hinge universal hinge is shown in a sectional view 1, a sectional view 2 and a sectional view 3 and comprises an S-shaped connecting plate 10, an F-shaped connecting plate 20, a connecting column 30 and a plug 40. As shown in fig. 4 and a cross-sectional view 5, the S-shaped connecting plate 10 includes an S-shaped connecting plate body 11, a spacer 12, and a rectangular straight-side spacer 13. The S-shaped connecting plate body 11 is shown in cross-sectional views 6 and 7, and has a semi-circular ring 111 at one end. The center of the semi-circular ring body 111 is provided with a semi-circular groove 112. The end position of the excircle of the semi-circular ring body 111 is provided with two notch grooves 113. The other end is a connecting plate 114, and the connecting plate 114 is provided with a round hole 115. The end of the connecting plate 114 has a rectangular recess 116. The other end of the outer circle of the semi-circular ring body 111 is provided with an arc-shaped notch groove 117 adjacent to the connecting plate 114. The S-shaped connecting plate body 11 is provided with more than two notches 118. The isolation column 12 is a column made of silica gel, nylon or copper wire, as shown in fig. 8. The rectangular straight-edge partition 13 is shown in fig. 9, and one side thereof is a rectangular straight edge 131. A circular hole 132 is formed in the middle of the rectangular straight-side partition plate 13. The gap groove 113 of the S-shaped connecting plate body 11 is connected with the isolation column 12. The notch 118 of the S-shaped connecting plate body 11 is connected with the rectangular straight-side partition plate 13, and the rectangular straight side 131 of the rectangular straight-side partition plate 13 is connected with the bottom of the notch 118 of the S-shaped connecting plate body 11.

The F-shaped connecting plate 20 includes an F-shaped connecting plate main body 21, a spacer column 22 and a bean sprout-shaped spacer 23 as shown in fig. 10 and a sectional view 11. The F-shaped connecting plate body 21 is shown in cross-sectional views 12 and 13, and has a groove 211 at one end, and a small groove 212 at the center of the groove 211. An inner circumferential end of the outer wall 213 of the recess 211 is provided with a notch groove 214. The other end is a connecting plate 215, and a round hole 216 is arranged on the connecting plate 215. The web 215 terminates in a rectangular recess 217. The F-shaped connecting plate body 21 is provided with more than two notches 218. The isolation column 22 is shown in fig. 8, and outlined. The bean sprout-shaped partition 23 is shown in fig. 14, and has a circular hole 231 in the middle of its main body. On the other side of which there is a rectangular tab 232. The notch groove 214 of the F-shaped connecting plate main body 21 is connected with the isolation column 22. The gap 218 of the F-shaped connecting plate main body 21 is connected with the bean sprout-shaped clapboard 23, and the rectangular sheet 232 of the bean sprout-shaped clapboard 23 is connected with the rectangular groove 217 of the F-shaped connecting plate main body 21.

The connecting column 30 is a circular column. Outlined.

The plug 40 is shown in fig. 15, and the main body thereof is a cover plate 41. The upper part of the cover plate 41 has a cylinder 42. The lower portion of the cover 41 has a rectangular post 43.

Fig. 16 is a schematic view of the F-shaped web 20 rotated 100 degrees relative to the S-shaped web 10, connecting post 30 and plug 40.

The connection of the S-shaped connecting plate 10, the F-shaped connecting plate 20, the connecting column 30 and the plug 40 is as shown in the sectional view 1, the sectional view 2 and the fig. 3, and the semicircular ring body 111 and the semicircular groove 112 of the S-shaped connecting plate main body 11 of the S-shaped connecting plate 10 are respectively connected with the groove 211 and the small groove 212 of the F-shaped connecting plate main body 21 of the F-shaped connecting plate 20 to form a cavity which is connected through the cylinders 42 of the connecting column 30 and the plug 40. The notches 118 of the S-shaped connecting plate 10 and the corresponding notches 218 of the F-shaped connecting plate 20 are arranged side by side, and the rectangular straight-edge partition plates 13 in the notches 118 and 218 and the round holes 132 and 231 of the bean sprout-shaped partition plates 23 are sequentially connected with the connecting column 30. The rectangular groove 116 of the S-shaped connecting plate 10 is connected with the rectangular column 43 of the plug 40.

Example 2:

In the transverse hinge, the structure of the hinge for linear hinge is shown in fig. 17 and a sectional view 18, and comprises an S-shaped connecting plate 50, an F-shaped connecting plate 60, a connecting column 30 and a plug 40. The S-shaped connecting plate 50 is shown in fig. 19, and has a semi-circular ring 51 at one end. The semi-circular ring body 51 has a semi-circular groove 52 at the center. The tail end of the excircle of the semi-circular ring body 51 is provided with two gap grooves connected with the isolating columns 53. The other side is a connecting plate 54, and the connecting plate 54 is provided with a round hole. The connecting plate 54 terminates in a rectangular recess 55. The other end of the excircle of the semi-circular ring body 51 is provided with an arc-shaped notch groove 56 adjacent to the connecting plate 54. The F-shaped web 60 is shown in cross-section in fig. 20 and has a groove 61 at one end. The center of the groove 61 is provided with a small groove 62. The inner circular end of the outer wall 63 of the groove 62 is provided with a notch groove connected with a separation column 64. The other end is a connecting plate 65, and a round hole is arranged on the connecting plate 65. The web 65 terminates in a rectangular recess 66.

Claims

1. The utility model provides a structure of general hinge of linear hinge, includes S-shaped connecting plate, F shape connecting plate, spliced pole and end cap, characterized by: the semi-circular ring body and the semi-circular groove of the S-shaped connecting plate main body of the S-shaped connecting plate are connected with the groove and the small groove of the F-shaped connecting plate main body of the F-shaped connecting plate respectively to form a cavity which is connected through a connecting column, the notch of the S-shaped connecting plate and the corresponding notch of the F-shaped connecting plate are arranged side by side, the connecting column is sequentially connected with round holes of the rectangular straight edge partition plate and the bean sprout-shaped partition plate in the notch, and the rectangular groove of the S-shaped connecting plate is connected with the rectangular column.

2. A structure of a linear hinge universal hinge according to claim 1, wherein: the S-shaped connecting plate comprises an S-shaped connecting plate main body, an isolating column and a rectangular straight-edge baffle plate, the other end of the S-shaped connecting plate main body is a connecting plate, a rectangular groove is formed in the tail end of the connecting plate, an arc-shaped notch groove is formed in the position, adjacent to the connecting plate, of the other end of the excircle of the semicircular body, a notch is formed in the S-shaped connecting plate main body, the notch of the S-shaped connecting plate main body is connected with the rectangular straight-edge baffle plate, and the rectangular straight edge of the rectangular straight-edge baffle plate is connected.

3. A structure of a linear hinge universal hinge according to claim 1, wherein: the F-shaped connecting plate comprises an F-shaped connecting plate main body, isolating columns and bean sprout-shaped partition plates, the other end of the F-shaped connecting plate main body is a connecting plate, a rectangular groove is formed in the tail end of the connecting plate, a notch is formed in the F-shaped connecting plate main body, the notch of the F-shaped connecting plate is connected with the bean sprout-shaped partition plates, and rectangular pieces of the bean sprout-shaped partition plates are connected with the rectangular groove of the F-shaped connecting plate main body.

4. A structure of a linear hinge universal hinge according to claim 2, wherein: one end of the S-shaped connecting plate main body is provided with a semicircular ring body, the circle center of the semicircular ring body is provided with a semicircular groove, and the tail end of the excircle of the semicircular ring body is provided with two notch grooves.

5. A structure of a linear hinge universal hinge according to claim 2, wherein: the gap groove of the S-shaped connecting plate main body is connected with the isolation column.

6. A structure of a linear hinge universal hinge according to claim 3, wherein: a groove is formed in one end of the F-shaped connecting plate main body, a small groove is formed in the circle center of the groove, and a notch groove is formed in the tail end of the inner circle of the outer wall of the groove.

7. A structure of a linear hinge universal hinge according to claim 3, wherein: the gap groove of the F-shaped connecting plate main body is connected with the isolation column.