KR20230000819U - concealed hinge - Google Patents

Abstract

The present invention provides a concealed hinge, including a housing, a left support arm, a left functional shaft, a right housing, a right support arm, and a right functional shaft, wherein rotation of the right support arm performs energy storage of the left functional shaft, , Energy release of the left functional axis performs reset of the right support arm, rotation of the left support arm performs energy storage of the right functional axis, and energy release of the right functional axis performs reset of the left support arm. The hinge is installed regardless of the left and right directions, the structure is reasonable and beautiful, the use is convenient, the maintenance and replacement are easy, and it can meet the needs of modern social life.

Description

concealed hinge

The present invention relates to the area of door metal parts, in particular to hinges.

Currently, the installation of the door requires a hinge, but a concealed hinge is used for aesthetics and safety, and the concealed hinge on the market only performs the hinge connection function of the door, if it is necessary to achieve the effect of automatic liquid pressure buffer opening and closing If there is, a concealed door device must be additionally installed, which is inconvenient, and usually, after installing a multi-function liquid pressure hinge, the hinge pipe body is exposed to the outside and is bulky, affects the overall aesthetics of the door, and installation and maintenance are difficult. It is not easy, and the above problems cause a lot of inconvenience to users.

The present invention provides a kind of hidden hinge, and solves the inconvenience of having to install a separate door closing device when the effect of automatic liquid pressure buffer opening and closing is required on the door by using the technical solution provided by the present embodiment, and the common liquid It solves the problem that the pressure hinge body is exposed to the outside and spoils the aesthetics, it is convenient to produce and manufacture, it is robust and reliable, it is easy to replace and repair, and it can satisfy the needs of modern social life.

The purpose of the embodiments of the present invention is to achieve through the following technical solutions:

The concealed hinge includes a left housing 11, a left supporting arm 12, a left functional shaft 13, a right housing 21, a right supporting arm 22, and a right functional shaft 23, The arm 12 includes a left shaft portion 121 and a curved left board module 122 extending along an axial direction perpendicular to the left shaft portion 121, and the right support arm 22 includes a right shaft portion 221 ), and a curved right board module 222 extending along an axial direction perpendicular to the right axis portion 221, and when the left axis portion 121 and the right axis portion 221 are parallel, the left board module ( 122) and the right board module 222 interlock and complement each other, the middle of the left board module 122 and the middle of the right board module 222 are hinged to each other, and the left housing 11 is hinged with the left shaft portion 121. The right housing 21 is connected to the right shaft portion 221, and a left functional shaft 13 capable of energy storage and energy release is installed inside the left housing 11, and the left functional shaft 13 is the right side. It is hingedly connected to the end of the board module 222, and a right functional shaft 23 capable of storing and discharging energy is installed inside the right housing 21, and the right functional shaft 23 is the left board module 122 Hinged to each other, the rotation of the right support arm 22 can cause the left functional shaft 13 to store energy, and the energy release of the left functional shaft 13 causes the right support arm 22 to be reset. Rotation of the left supporting arm 12 can cause the right functional shaft 23 to store energy, and energy release of the right functional shaft 23 can cause the left supporting arm 12 to reset.

Further, the specific manner in which the middle of the left board module 122 and the middle of the right board module 222 are hingedly connected to each other are: a left board module middle through hole exists in the middle of the left board module 122, and In the case where the right board module middle through hole exists in the middle of the board module 222 and the left board module 122 and the right board module 222 intersect and complement each other, one central axis 1 is used to make the left board module Pass through the central through hole of the module and through the central through hole of the right board module.

Further, the left housing 11 includes a left outer housing 111 and a left support frame 112, and a cavity for accommodating the left support frame 112 is installed in the left outer housing 111, and the left outer housing 111 is installed. On both sides of the outer housing 111, there is one extending left installation board 1111, the left support frame 112 includes one left bottom plate 1121, and both ends of the left bottom plate 1121, respectively. There is a left board 1122 extending upward from the end of one left bottom plate 1121, and at the ends of the two left boards 1122, there is one left flange board 1123 extending horizontally, respectively, and two There is a stair surface where the left mounting board 1111 is adjacent to the cavity, and a left spiral hole 1112 is present on both stair surfaces, and each of the two stair surfaces is two stair surfaces of the left support frame 112. Used to accommodate left flange boards 1123, each of the two left flange boards 1123 has one left through hole 1124, and the two left boards 1122 are mirror images of each other from top to bottom through an upward left through hole. 1125 and a downward through hole 1126 are provided;

The specific way in which the left housing 11 is connected to the left shaft portion 121 is: the left shaft portion 121 includes a left shaft portion through-hole, and one left fixing shaft 2 is used to pass through the left shaft portion through-hole , both ends of the left fixing shaft 2 are inserted into two upper left through holes 1125;

The specific way in which the left functional shaft 13 capable of storing and discharging energy is installed inside the left housing 11 is: one end of the left functional shaft 13 is fixedly connected to one lower left through hole 1126, The other end of the functional shaft 13 is rotationally connected to the other downward-left through hole 1126 .

Further, the right housing 21 includes a right outer housing 211 and a right support frame 212,

A cavity accommodating the right support frame 212 is installed in the right outer housing 211, and there is one extending right mounting board 2111 on both sides of the right outer housing 211, respectively, and the right support frame 212 ) includes one right bottom plate 2121, and at both ends of the right bottom plate 2121, there are right boards 2122 extending upward from the ends of one right bottom plate 2121, respectively, and two right boards ( 2122), there is one horizontally extending right flange board 2123 at the end, and the two right installation boards 2111 each have a stair surface at a position close to the cavity, and both of the two stair surfaces have a right helix. There is a hole 2112, the two stair faces are each used to receive the two right flange boards 2123 of the right supporting frame 212, and the two right flange boards 2123 each have one right through hole. exist, and the two right side boards 2122 are provided with a right-side through hole 2125 and a right-down through hole 2126 from top to bottom in mutual mirror images;

The specific manner in which the right housing 21 is connected to the right shaft portion 221 is: the right shaft portion 221 includes a right shaft through-hole, and one right shaft 3 is used to penetrate the right shaft through-hole; , both ends of the right fixed shaft 3 are inserted into two upper right through holes 2125;

The specific method in which the right functional shaft 23 capable of storing and discharging energy is installed inside the right housing 21 is: one end of the right functional shaft 23 is fixedly connected to one downward right through hole 2126, and the right functional shaft 23 is fixedly connected. The other end of the shaft 23 is rotatably connected to the other downward right through hole 2126 .

Further, the two left through holes 1124 are the left stair holes of the long inward concave groove, and the screws 14 pass through the left stair holes and are used to screw the left screw hole 1112 into thread connection, and the left support frame 112 is accommodated in the cavity of the left outer housing 111 in such a way that there is a gap in the longitudinal direction with the cavity of the left outer housing 111;

The two right through holes 2124 are the right stair holes of the inward concave groove, and the head of the stair screw 24 is fitted into the right stair hole, and the stair screw 24 is movably connected to the right stair hole, Forming a coupling structure with axial synchronous movement, the stair screw 24 passes through the right stair hole and is screwed into the right screw hole 2112.

Further, the two left through holes 1124 are the left stair holes of the inward concave groove, the head of the stair screw 24 is fitted into the left stair hole, and the stair screw 24 is connected to the left stair hole and the rotational movable connection. and form an axial synchronization coupling structure, and the stair screw 24 penetrates the right stair hole and is screwed into the left stair hole 1112;

The two right through holes 2124 are the right stair holes of the elongated inward concave groove, the screws 14 pass through the right stair holes and are used to thread connect the right screw holes 2112, and the right supporting frame 212 is It is accommodated in the cavity of the right outer housing 211 in such a way that there is a gap between the cavity of the right outer housing 211 and the longitudinal direction.

Further, the specific manner in which the left functional shaft 13 is hingedly connected to the end of the right board module 222 is: the left functional shaft 13 includes the outer shell tube 6, and the outer shell tube 6 A perforated shake arm 7 is installed at both ends, and a right board module end through hole is installed at the end of the right board module 222, and a right board module end using one left drive shaft 4 through the through hole and the perforated rocking arm 7;

The specific way in which the right functional shaft 23 is hingedly connected to the end of the left board module 122 is: The right functional shaft 23 includes a shell tube 6, and both ends of the shell tube 6 are perforated, respectively The rocking arm 7 is installed, the left board module end through hole is installed at the end of the left board module 122, and the left board module end through hole and the perforated rocking arm ( 7) penetrates.

Further, the structure of the left functional shaft 13 and/or the right functional shaft 23 is specifically: the entire sheath tube 6 exhibits a circular tube shape, and the inner lumen of the upper canal of the sheath tube 6 has an internal The upper sealing cover 81 of the hole is fixedly installed, the inner hole of the upper sealing cover 81 passes through the central axis 9, and the upper end of the central axis 9 protrudes from the upper tube of the outer shell tube. , A flange 91 is installed in the upper and middle column of the central axis 9, and a rotary bearing 10 is installed between the central axis 9 and the inner wall of the upper sealing cover 81, and the flange 91 A plurality of ball bearings are installed between the upper surface of the upper surface and the lower surface of the upper sealing cover 81, and a piston 82 is fitted into the lower middle lumen of the outer shell pipe 6, and the piston 82 has a cylindrical shape. Indicated, the lower column body of the central axis 9 is inserted into the inner hole of the piston 82, and the central axis 9 and the piston 82 form an axial slide connection and a coupling structure that rotates synchronously, the piston Two spiral slide grooves 821 are opened symmetrically on the cylinder body shaft of (82), and the transverse shaft 92 penetrates the two rotation slide grooves 821 of the piston, and the horizontal shaft 92 Both ends are symmetrically fitted into two transverse fitting holes 61 opened in the sheath pipe 6, and the central axis 9 is between the lower surface of the flange 91 and the upper surface of the cylinder body of the piston 82. A pressure spring 94 is sleeved on the column body, and the lower sealing cover 83 of the inner hole is fixedly inserted into the lumen of the lower tube of the outer sheath pipe 6, and the shortening of the lower sealing cover 83 Part 831 protrudes from the lower tube of the sheath tube 6.

Further, the spiral slide groove 821 includes an inclined end mutually inclined to the axis of the central axis 9 and a horizontal end mutually perpendicular to the axis of the central axis 9 .

Further, the specific method in which one end of the left functional shaft 13 is fixedly connected to one lower left through hole 1126 is: the central shaft 9 protrudes from the upper end of the upper tube of the outer shell tube 6 to connect the sleeve is fixedly connected with one downward-left through hole 1126 through;

The specific method in which the other end of the left functional shaft 13 is rotationally connected to the other downward left through hole 1126 is: the short end 831 of the lower sealing cover 83 passes through the rotary bearing to the other downward left through hole. rotationally connected with (1126);

The specific method in which one end of the right functional shaft 23 is fixedly connected to one lower right through hole 2126 is: the central axis 9 protrudes from the upper end of the upper tube of the outer sheath pipe 6, and through the connecting sleeve, one lower right through hole fixedly connected with the through hole 2126;

The specific manner in which the other end of the right functional shaft 23 is rotationally connected with the other downward right through hole 2126 is: the short end 831 of the lower sealing cover 83 rotates with the other downward right through hole through a rotating bearing. Connected.

Further, the left functional shaft 13 and/or the right functional shaft 23 further include a liquid pressure buffer mechanism.

Further, the specific structure of the liquid pressure buffer mechanism is as follows: a one-way valve 822 is installed at the bottom of the cylinder of the piston 82, and a second valve 822 is installed between the outer wall of the upper sealing cover 81 and the inner wall of the outer shell pipe 6. 1 sealing ring 62 is installed, a second sealing ring 63 is installed between the inner hole wall of the upper sealing cover 81 and the outside of the column body of the central axis 9, and the column of the horizontal axis 92 A circular tube-shaped slide sleeve 84 is sleeved on the body, a ring-shaped sealing sleeve 64 is sleeved on the outer body of the outer shell pipe 6, and the sealing sleeve 64 has two transverse shaft fitting holes 61 ), and between the sealing sleeve 64 and the sheath pipe 6, an upper sealing ring 65 and a lower sealing ring 66 are installed, and the upper sealing ring 65 is on the upper side of the horizontal axis 92 position, the lower sealing ring 66 is located on the lower side of the transverse axis 92, the first sealing ring 67 is installed between the outer wall of the lower sealing cover 83 and the inner wall of the outer shell tube, and the inner hole of the lower sealing cover The speed control oil needle 85 exhibiting a pillar shape is spirally installed, the upper column body of the speed control oil needle 85 extends into the inner hole of the bottom of the cylinder of the piston 82, and the speed control oil needle 85 A fourth sealing ring 68 is installed between the outside of the lower column body and the inner hole wall of the lower sealing cover 83, and a fifth sealing ring 68 is installed between the lower outer wall of the cylinder body of the piston 82 and the inner wall of the outer shell pipe 6. The sealing ring 69 is installed, the space between the lower end surface of the one-way valve 822 and the inner end surface of the lower sealing cover 83 is an oil cavity 600 to be pressurized, and the one-way valve ( The space between the upper end surface of 822 and the inner end surface of the upper sealing lid 81 is the oil storage cavity 601.

In the technical scheme using the present invention, the left and right housings connect two mutually fitted support arms, the left and right housings surround the center of the support arm and move relative to the central axis installed, and the left and right housings It is composed of an outer housing, a support frame, a fixed shaft, a functional shaft, and a drive shaft, and the middle recess, the support frame of the flange mating board on both sides is fitted into the inner cavity of the box-shaped outer housing, and the two are connected using screws, etc., Two pairs of through-holes are installed vertically on the side boards on both sides of the support frame, and the through-holes are installed at both ends of the fixed shaft, one side of the through-holes is fixedly connected to the functional shaft and the other side is rotated. The support arm as a whole has a curved board shape, through holes are provided at both ends and in the middle to fit each other, the central axis penetrates through the through hole in the middle of both ends to form an intersection, and both support arms are once penetrated. The hole is connected to the central rod body of the fixed shaft, and the other end is installed with the driving shaft and connected to the perforated swing arm of the functional shaft. The production is simple, the product is beautiful, the installation is simple, and the structure is reasonable.

1 is an exploded view of an embodiment of the present invention.
Figure 2 is a side view of the hinge closed state of the embodiment of the present invention.
Figure 3 is a side view of the half-opened state of the hinge of the embodiment of the present invention.
Figure 4 is a side view of the fully open state of the hinge of the embodiment of the present invention.
5 is a cross-sectional view of the hinge of FIG. 2 in a closed state.
6 is a cross-sectional view of the hinge of FIG. 4 in an open state;
7 is a diagram of a left functional axis or a right functional axis of the present invention.
8 and 9 are diagrams of two states of pressure spring accumulation and energy release of the present invention.

In order to more clearly explain the purpose, technical solution and advantages of the present invention, the present invention will be further described with reference to drawings and embodiments below. Browse with reference to Figures 1 to 9.

Example 1:

Referring to FIGS. 1, 2, 5, and 6,

A concealed hinge is provided and includes a left housing 11, a left support arm 12, a left functional shaft 13, a right housing 21, a right supporting arm 22, and a right functional shaft 23, The support arm 12 includes a left shaft portion 121 and a curved left board module 122 extending along an axial direction perpendicular to the left shaft portion 121, and the right support arm 22 includes a right shaft portion ( 221), and a curved right board module 222 extending along an axial direction perpendicular to the right axis portion 221, and when the left axis portion 121 and the right axis portion 221 are parallel, the left board module 122 and the right board module 222 interlock and complement each other, the middle of the left board module 122 and the middle of the right board module 222 are hinged to each other, and the left housing 11 is the left shaft portion 121 , the right housing 21 is connected to the right shaft portion 221, and inside the left housing 11, a left functional shaft 13 capable of storing energy and discharging energy is installed, and the left functional shaft 13 It is hinged to the end of the right board module 222, and inside the right housing 21, a right functional shaft 23 capable of storing and discharging energy is installed, and the right functional shaft 23 is the left board module 122 ), the rotation of the right support arm 22 can cause the left functional shaft 13 to store energy, and the energy release of the left functional shaft 13 causes the right support arm 22 to reset Rotation of the left supporting arm 12 can cause the right functional shaft 23 to store energy, and energy release of the right functional shaft 23 can cause the left supporting arm 12 to reset. .

In the present invention, the number of left board modules may be one or more, and the number of right board modules may also be one or more.

One end of the right support arm is interlocked with the left functional shaft, the other end of the right support arm, that is, the right shaft, is hinged with the right housing, and one end of the left support arm is interlocked with the right functional shaft, and the other end of the left support arm, that is, The left shaft portion is hinged together with the left housing, the middle of the left and right support arms are hinged together again, and the functional shaft has the function of energy storage and energy release, resulting in mutual control between the functional shaft and the support arm; Accordingly, the movement of the hinge is controlled. The structure is simple, the appearance is beautiful, and the installation is easy.

Further, the specific manner in which the middle of the left board module 122 and the middle of the right board module 222 are hingedly connected to each other are: a left board module middle through hole exists in the middle of the left board module 122, and In the case where the right board module middle through hole exists in the middle of the board module 222 and the left board module 122 and the right board module 222 intersect and complement each other, one central axis 1 is used to make the left board module Pass through the central through hole of the module and through the central through hole of the right board module.

The method of using this kind of central axis to penetrate through holes has better connection strength and is more convenient to produce, and of course does not require penetration, only a few board modules are opened with impenetrable grooves; It extends into two grooves through one shaft, can be connected, and achieves the effect of use. The hinge connection method between the components of the present invention may alternately use these methods.

Further, the left housing 11 includes a left outer housing 111 and a left support frame 112, and a cavity for accommodating the left support frame 112 is installed in the left outer housing 111, and the left outer housing 111 is installed. On both sides of the outer housing 111, there is one extending left installation board 1111, the left support frame 112 includes one left bottom plate 1121, and both ends of the left bottom plate 1121, respectively. There is a left board 1122 extending upward from the end of one left bottom plate 1121, and at the ends of the two left boards 1122, there is one left flange board 1123 extending horizontally, respectively, and two There is a stair surface where the left mounting board 1111 is adjacent to the cavity, and a left spiral hole 1112 is present on both stair surfaces, and each of the two stair surfaces is two stair surfaces of the left support frame 112. Used to accommodate left flange boards 1123, each of the two left flange boards 1123 has one left through hole 1124, and the two left boards 1122 are mirror images of each other from top to bottom through an upward left through hole. 1125 and a downward through hole 1126 are provided;

This type of cavity installation support frame in the outer housing makes it very easy to conceal the parts in the outer housing, the appearance is simple and beautiful, the installation is more convenient, and the protection of the parts is more effective.

The specific way in which the left housing 11 is connected to the left shaft portion 121 is: the left shaft portion 121 includes a left shaft portion through-hole, and one left fixing shaft 2 is used to pass through the left shaft portion through-hole , both ends of the left fixing shaft 2 are inserted into two upper left through holes 1125;

The specific way in which the left functional shaft 13 capable of storing and discharging energy is installed inside the left housing 11 is: one end of the left functional shaft 13 is fixedly connected to one lower left through hole 1126, The other end of the functional shaft 13 is rotationally connected to the other downward-left through hole 1126 .

One end of the functional axis is fixedly connected to the housing, and the other end is movably connected to the housing, so that the energy emission of the functional axis can effectively transfer kinetic energy to other components, and the kinetic energy of other components is also movably connected to the functional axis. enable energy storage.

Further, the right housing 21 includes a right outer housing 211 and a right supporting frame 212, and a cavity for accommodating the right supporting frame 212 is installed in the right outer housing 211, and the right outer housing 211 is installed. There is one extending right installation board 2111 on both sides of the outer housing 211, the right support frame 212 includes one right bottom plate 2121, and both ends of the right bottom plate 2121, respectively. There is a right board 2122 extending upward from the end of one right bottom board 2121, and at the ends of the two right boards 2122 there is one right flange board 2123 extending horizontally, respectively, and two The right mounting board 2111 has a stair surface at a position adjacent to the cavity, respectively, and a right spiral hole 2112 exists on both stair surfaces, and the two stair surfaces are respectively two stair surfaces of the right supporting frame 212. It is used to accommodate the right flange board 2123, each of the two right flange boards 2123 has one right through hole, and the two right side boards 2122 are mirror images of each other, top to bottom right through hole 2125 and a right-down through hole 2126 is provided;

This type of cavity installation support frame in the outer housing makes it very easy to conceal the parts in the outer housing, the appearance is simple and beautiful, the installation is more convenient, and the protection of the parts is more effective.

The specific manner in which the right housing 21 is connected to the right shaft portion 221 is: the right shaft portion 221 includes a right shaft through-hole, and one right shaft 3 is used to penetrate the right shaft through-hole; , both ends of the right fixed shaft 3 are inserted into two upper through holes 2125;

The specific method in which the right functional shaft 23 capable of storing and discharging energy is installed inside the right housing 21 is: one end of the right functional shaft 23 is fixedly connected to one downward right through hole 2126, and the right functional shaft 23 is fixedly connected. The other end of the shaft 23 is rotationally connected with the other downward right through hole 2126, and the other end of the right functional shaft 23 is rotationally connected with the other downward right through hole 2126. A fixed connection can be made using a coupling sleeve, and a swivel connection can be made using a swivel bearing.

One end of the functional axis is fixedly connected to the housing, and the other end is movably connected to the housing, so that the energy emission of the functional axis can effectively transfer kinetic energy to other components, and the kinetic energy of other components is also movably connected to the functional axis. enable energy storage.

Example 2:

Further, the two left through holes 1124 are the left stair holes of the long inward concave groove, and the screws 14 pass through the left stair holes and are used to screw the left screw hole 1112 into thread connection, and the left support frame 112 is accommodated in the cavity of the left outer housing 111 in such a way that there is a gap in the longitudinal direction with the cavity of the left outer housing 111;

The two right through holes 2124 are the right stair holes of the inward concave groove, and the head of the stair screw 24 is fitted into the right stair hole, and the stair screw 24 is movably connected to the right stair hole, Forming a coupling structure with axial synchronous movement, the stair screw 24 passes through the right stair hole and is screwed into the right screw hole 2112.

Alternatively, the two left through holes are the left stair holes of the inward concave groove, the head of the stair screw 24 is fitted into the left stair hole, and the stair screw 24 is movably connected to the left stair hole and axially synchronized movement. forming a coupling structure where the stair screw 24 penetrates the right stair hole and is screwed into the left stair hole 1112;

The two right through holes 2124 are the right stair holes of the long inward concave groove, and the screw 14 is threaded through the right stair holes to the right helix hole 2112, and the right support frame 212 is the right stair hole. It is accommodated in the cavity of the right outer housing 211 in such a way that there is a gap between the cavity of the outer housing 211 and the longitudinal direction.

In the above embodiment, the left installation board and the right installation board may be fixedly connected to the door frame or the door leaf through screws. The hinge has a function that can be adjusted up and down, left and right, and can be installed in a mirror image, the left housing can be installed with a left and right movement function, the right housing can be installed with a vertical movement function, or the right housing can be installed with a left and right movement function. installed, and the left housing can be installed with a vertical movement function. In summary, on the one hand, it is installed in the housing as a vertical movement function, and on the other hand, it may have a left and right movement function. As described above, for example, the left stair hole is a cavity of an elongated inward concave groove, and the left supporting frame is accommodated in the cavity of the left outer housing in such a way that there is a gap in the longitudinal direction with the cavity of the left outer housing, This means that the left support frame can move longitudinally with the cavity of the left outer housing, the screw can still be screwed into the left stair hole, and the left stair hole inward concave groove allows the screw head to penetrate downward into the left stair hole. On the one hand, it is aesthetically pleasing, and on the other hand, the extension of the screw head does not affect the smoothness of opening and closing of both housings and the gap after closing of both housings. Unscrewing can shift the relative position of the left outer housing relative to the left supporting frame, when the left outer housing is higher than the right outer housing in the longitudinal direction, the door leaf interconnected with the left outer housing rises in the vertical direction, and the left outer housing rises in the vertical direction. can move downward, the right support frame maintains an unchanging relative position, and the door frame connected to the right outer housing where the right support frame is located does not need to be dug out again to install a binder, and accordingly, the upper and lower doors are adjusted. and adjust the size of the upper and lower door gap between the door leaf and the door frame.

The achievement of the function of left and right adjustment of the door leaf indicates: Since the stair screw forms a rotational action connection with the right stair hole and is a coupling structure that moves synchronously in the axial direction, the tightening depth of the rod part is reduced through the stair screw rotation. By adjusting, the right support frame can fit into the lumen of the right outer housing, and the left outer housing can change the relative distance with the board surface of the right outer housing, achieve left and right adjustment of the door leaf, and achieve left and right adjustment of the door leaf and door frame. , adjust the right gap size.

In the above, the advantage of adjusting the size of the upper and lower gap between the door leaf and the door frame by achieving the upper and lower adjustment of the door leaf and adjusting the size of the left and right gap between the door leaf and the door frame by achieving the left and right adjustment of the door leaf is You will no longer have to pay for a separate home opening and separate related services on the door leaf or door frame, and you can achieve this adjustment yourself or during the first installation.

Further, the specific manner in which the left functional shaft 13 is hingedly connected to the end of the right board module 222 is: the left functional shaft 13 includes the outer shell tube 6, and the outer shell tube 6 A perforated shake arm 7 is installed at both ends, and a right board module end through hole is installed at the end of the right board module 222, and a right board module end using one left drive shaft 4 through the through hole and the perforated rocking arm 7;

The specific way in which the right functional shaft 23 is hingedly connected to the end of the left board module 122 is: The right functional shaft 23 includes a shell tube 6, and both ends of the shell tube 6 are perforated, respectively The rocking arm 7 is installed, the left board module end through hole is installed at the end of the left board module 122, and the left board module end through hole and the perforated rocking arm ( 7) penetrates.

Further, the structure of the left functional shaft 13 and/or the right functional shaft 23 is specifically: the entire sheath tube 6 exhibits a circular tube shape, and the inner lumen of the upper canal of the sheath tube 6 has an internal The upper sealing cover 81 of the hole is fixedly installed, the inner hole of the upper sealing cover 81 passes through the central axis 9, and the upper end of the central axis 9 protrudes from the upper tube of the outer shell tube. , A flange 91 is installed in the upper and middle column of the central axis 9, and a rotary bearing 10 is installed between the central axis 9 and the inner wall of the upper sealing cover 81, and the flange 91 A plurality of ball bearings are installed between the upper surface of the upper surface and the lower surface of the upper sealing cover 81, and a piston 82 is fitted into the lower middle lumen of the outer shell pipe 6, and the piston 82 has a cylindrical shape. Indicated, the lower column body of the central axis 9 is inserted into the inner hole of the piston 82, and the central axis 9 and the piston 82 form an axial slide connection and a coupling structure that rotates synchronously, the piston Two spiral slide grooves 821 are opened symmetrically on the cylinder body shaft of (82), and the transverse shaft 92 penetrates the two rotation slide grooves 821 of the piston, and the horizontal shaft 92 Both ends are symmetrically fitted into two transverse fitting holes 61 opened in the sheath pipe 6, and the central axis 9 is between the lower surface of the flange 91 and the upper surface of the cylinder body of the piston 82. A pressure spring 94 is sleeved on the column body, and the lower sealing cover 83 of the inner hole is fixedly inserted into the lumen of the lower tube of the outer sheath pipe 6, and the shortening of the lower sealing cover 83 Part 831 protrudes from the lower tube of the sheath tube 6.

Further, the spiral slide groove 821 includes an inclined end mutually inclined to the axis of the central axis 9 and a horizontal end mutually perpendicular to the axis of the central axis 9 .

Further, the specific method in which one end of the left functional shaft 13 is fixedly connected to one lower left through hole 1126 is: the central shaft 9 protrudes from the upper end of the upper tube of the outer shell tube 6 to connect the sleeve is fixedly connected with one downward-left through hole 1126 through;

The specific method in which the other end of the left functional shaft 13 is rotationally connected to the other downward left through hole 1126 is: the short end 831 of the lower sealing cover 83 passes through the rotary bearing to the other downward left through hole. rotationally connected with (1126);

The specific method in which one end of the right functional shaft 23 is fixedly connected to one lower right through hole 2126 is: the central axis 9 protrudes from the upper end of the upper tube of the outer sheath pipe 6, and through the connecting sleeve, one lower right through hole fixedly connected with the through hole 2126;

The specific manner in which the other end of the right functional shaft 23 is rotationally connected with the other downward right through hole 2126 is: the short end 831 of the lower sealing cover 83 rotates with the other downward right through hole through a rotating bearing. Connected.

Example 3:

Further, the left functional shaft 13 and/or the right functional shaft 23 further include a liquid pressure buffer mechanism.

Further, the specific structure of the liquid pressure buffer mechanism is as follows: a one-way valve 822 is installed at the bottom of the cylinder of the piston 82, and a second valve 822 is installed between the outer wall of the upper sealing cover 81 and the inner wall of the outer shell pipe 6. 1 sealing ring 62 is installed, a second sealing ring 63 is installed between the inner hole wall of the upper sealing cover 81 and the outside of the column body of the central axis 9, and the column of the horizontal axis 92 A circular tube-shaped slide sleeve 84 is sleeved on the body, a ring-shaped sealing sleeve 64 is sleeved on the outer body of the outer shell pipe 6, and the sealing sleeve 64 has two transverse shaft fitting holes 61 ), and between the sealing sleeve 64 and the sheath pipe 6, an upper sealing ring 65 and a lower sealing ring 66 are installed, and the upper sealing ring 65 is on the upper side of the horizontal axis 92 position, the lower sealing ring 66 is located on the lower side of the transverse axis 92, the first sealing ring 67 is installed between the outer wall of the lower sealing cover 83 and the inner wall of the outer shell tube, and the inner hole of the lower sealing cover The speed control oil needle 85 exhibiting a pillar shape is spirally installed, the upper column body of the speed control oil needle 85 extends into the inner hole of the bottom of the cylinder of the piston 82, and the speed control oil needle 85 A fourth sealing ring 68 is installed between the outside of the lower column body and the inner hole wall of the lower sealing cover 83, and a fifth sealing ring 68 is installed between the lower outer wall of the cylinder body of the piston 82 and the inner wall of the outer shell pipe 6. The sealing ring 69 is installed, the space between the lower end surface of the one-way valve 822 and the inner end surface of the lower sealing cover 83 is an oil cavity 600 to be pressurized, and the one-way valve ( The space between the upper end surface of 822 and the inner end surface of the upper sealing lid 81 is the oil storage cavity 601.

The concealed hinge is fitted into the door frame on the one hand and fitted into the door leaf on the other hand, and under the closed state of the door, the inner cross section of the hinge is as shown in FIG. 4; The left and right housings are opposite, the left support arm and the right support arm are inserted into the ends of the drive shaft and are located close to the bottom of the left and right support frames, the connected functional shafts are all in an energy release state, and the internal piston is Located at the position of the adjacent lower sealing cover, as shown in FIG. 5 when the user opens the door, the left and right housings are relatively separated along the central axis, and in the left and right support arms hingedly connected by the central axis, one end The sleeve is installed on the fixed shaft of the support frame, the position is invariant and only covers its rotation, the other end is outwardly extended, and the perforated swing arm is interlocked through the drive shaft, and the perforated swing arm and the drive shaft sheath are along the axis of the functional shaft. It rotates outward along the axis, and the head at both ends is inserted into the horizontal axis of the functional shaft sheath pipe and follows the rotation. It is compressed to perform the energy storage function, the valve body of the one-way valve leaves the bottom of the piston cylinder, the one-way valve forms a passage, and the liquid pressure oil in the functional shaft flows from the oil reservoir through the one-way valve to the pressurized oil steel. flow towards, as shown in Figure 6. After the external force to open the door disappears, the pressure spring releases the pressure to drive the piston to move forward, and the transverse shaft rotates under the action of the inclined end of the piston spiral slide groove, accompanied by the sheath tube and the perforated swing arm of the functional shaft. When the reset rotates, the perforated swing arm penetrates the drive shaft to pull the support arm reciprocating reset, achieves automatic opening and closing, and when the piston resets downwards, the valve body of the one-way valve joins the piston to form a seal, and the pressurized oil The liquid pressure oil in the steel flows toward the oil reservoir through the gap between the speed control oil needle and the oil hole at the bottom of the piston cylinder, and adjusts the insertion amount of the speed control oil needle to keep the gap between the speed control oil needle and the piston oil hole. The size is adjusted, the liquid pressure oil is controlled so that the pressurized oil cavity flows in the direction of the oil storage cavity, and the descending speed of the piston is controlled to achieve buffer opening and closing adjustment.

When the transverse axis moves to the horizontal end of the spiral slide groove of the piston, the piston does not move in the axial direction and the pressure released by the pressure spring does not drive the transverse axis, so the hinge can stop in this situation, and the horizontal end has A fitting groove is opened to be fitted with the horizontal axis, and the hinge is also correspondingly caused to pull the door at this angle.

In the above, the adjustable hinge provided by the embodiments of the present invention has been introduced in detail, and the principles and implementation methods of the present invention have been described by applying specific individual examples in the text, and the description of the above embodiments is only to understand the core technical idea of the present invention is intended to help; At the same time, those skilled in the art, based on the technical idea of the present invention, there is room for modification both in terms of specific implementation methods and scope of application, and overall, the content of this specification is to limit the present invention. should not be understood

Claims (12)

In the concealed hinge,
It includes a left housing 11, a left support arm 12, a left functional shaft 13, a right housing 21, a right support arm 22, and a right functional shaft 23,
The left support arm 12 includes a left shaft portion 121 and a curved left board module 122 extending along an axial direction perpendicular to the left shaft portion 121, and the right support arm 22 includes a right axis portion 221 and a curved right side board module 222 extending along an axial direction perpendicular to the right axis portion 221, and the left axis portion 121 and the right axis portion 221 are When parallel, the left board module 122 and the right board module 222 intersect and complement each other, and the middle of the left board module 122 and the middle of the right board module 222 are hinged to each other, The left housing 11 is connected to the left shaft part 121, the right housing 21 is connected to the right shaft part 221, and inside the left housing 11, energy storage and energy emission are possible on the left side. A functional shaft 13 is installed, the left functional shaft 13 is hingedly connected to the end of the right board module 222, and inside the right housing 21, a right functional shaft capable of storing and discharging energy 23 is installed, the right functional shaft 23 is hingedly connected to the end of the left board module 122, and the rotation of the right support arm 22 causes the left functional shaft 13 to store energy Energy release of the left functional shaft 13 can cause the right support arm 22 to be reset, and rotation of the left support arm 12 causes the right functional shaft 23 to store energy. Characterized in that, the energy release of the right functional shaft 23 can cause the left support arm 12 to reset,
Concealed hinge. According to claim 1,
The specific way in which the middle of the left board module 122 and the middle of the right board module 222 are hingedly connected to each other is: a left board module middle through hole is present in the middle of the left board module 122, and the right When the middle through hole of the right board module exists in the middle of the board module 222, and the left board module 122 and the right board module 222 intersect and complement each other, one central axis 1 is used to Passing through the left board module central through hole and the right board module central through hole,
Concealed hinge. According to claim 1 or 2,
The left housing 11 includes a left outer housing 111 and a left support frame 112,
A cavity accommodating the left support frame 112 is installed in the left outer housing 111, and one extending left installation board 1111 exists on both sides of the left outer housing 111, respectively, The support frame 112 includes one left bottom plate 1121, and at both ends of the left bottom plate 1121, there is a left board 1122 extending upward from one end of the left bottom plate 1121, respectively, , At the end of the two left boards 1122, there is one horizontally extending left flange board 1123, and the two left installation boards 1111 each have a stair surface at a position adjacent to the cavity, , there are left spiral holes 1112 on both of the two stair surfaces, each of the two stair surfaces is used to accommodate the two left flange boards 1123 of the left supporting frame 112, and the two Each of the left flange boards 1123 has one left through hole 1124, and the two left boards 1122 have an upper left through hole 1125 and a lower left through hole 1126 installed from top to bottom in mirror images of each other. become;
The specific way in which the left housing 11 is connected to the left shaft part 121 is: The left shaft part 121 includes a left shaft through-hole, and one left fixing shaft 2 is used to penetrate the left shaft. through the hole, and both ends of the left fixing shaft 2 are inserted into the two upper left through holes 1125;
The specific way in which the left functional shaft 13 capable of storing and discharging energy is installed inside the left housing 11 is: One end of the left functional shaft 13 is fixedly connected to the one lower left through hole 1126. And, characterized in that the other end of the left functional shaft 13 is rotationally connected with the other one of the lower left through holes 1126.
Concealed hinge. According to claim 3,
The right housing 21 includes a right outer housing 211 and a right support frame 212,
A cavity accommodating the right support frame 212 is installed in the right outer housing 211, and one extending right installation board 2111 exists on both sides of the right outer housing 211, respectively, The support frame 212 includes one right bottom plate 2121, and at both ends of the right bottom plate 2121, there is a right board 2122 extending upward from the end of the right bottom plate 2121, respectively, , At the ends of the two right boards 2122, there is one horizontally extending right flange board 2123, and the two right installation boards 2111 each have a stair surface at a position adjacent to the cavity, , there are right spiral holes 2112 on both of the two stair surfaces, and the two stair surfaces are respectively used to accommodate the two right flange boards 2123 of the right supporting frame 212, and the two stair surfaces are Each of the right flange boards 2123 has a right through hole, and the two right boards 2122 are provided with an upper right through hole 2125 and a lower right through hole 2126 from top to bottom in mirror images of each other;
The right housing 21 is connected to the right shaft portion 221 in a specific way: The right shaft portion 221 includes a right shaft through-hole, and one right shaft 3 is used to penetrate the right shaft. through the hole, and both ends of the right fixing shaft 3 are inserted into the two upper right through holes 2125;
The specific method in which the right functional shaft 23 capable of storing and discharging energy is installed inside the right housing 21 is: one end of the right functional shaft 23 is fixedly connected to one of the lower right through holes 2126 , Characterized in that the other end of the right functional shaft 23 is rotationally connected with the other one of the right downward through holes 2126.
Concealed hinge. According to claim 4,
The two left through holes 1124 are the left stair holes of the long inward concave groove, and the screw 14 passes through the left stair holes and is used to thread connect the left spiral hole 1112, and the left support frame 112 is accommodated in the cavity of the left outer housing 111 in such a way that there is a gap in the longitudinal direction with the cavity of the left outer housing 111;
The two right through holes 2124 are the right stair holes of the inward concave groove, and the head of the stair screw 24 is fitted into the right stair hole, and the stair screw 24 rotates with the right stair hole ( movable) and form a coupling structure that is axially synchronously moved, characterized in that the stair screw 24 penetrates the right stair hole and is spirally connected to the right spiral hole 2112,
Concealed hinge. According to claim 4,
The two left through holes 1124 are the left stair holes of the inwardly concave groove, and the head of the stair screw 24 is fitted into the left stair hole, and the stair screw 24 is connected to the left stair hole and rotationally movable. and form an axial synchronizing coupling structure, the stair screw 24 penetrates the right stair hole and is screwed into the left stair hole 1112;
The two right through holes 2124 are the right stair holes of the long inward concave groove, and the screw 14 passes through the right stair holes and is used to thread connect the right spiral hole 2112, and the right support frame ( 212) is accommodated in the cavity of the right outer housing 211 in such a way that there is a gap in the longitudinal direction of the cavity of the right outer housing 211,
Concealed hinge. According to claim 4,
The specific way in which the left functional shaft 13 is hingedly connected to the end of the right board module 222 is: The left functional shaft 13 includes a shell tube 6, and the shell tube 6 A perforated shake arm 7 is installed at both ends, and a right board module end through hole is installed at the end of the right board module 222, and a left drive shaft 4 is used to provide the right board module 222 with a through hole. passing through the module end through hole and the perforated rocking arm 7;
The specific way in which the right functional shaft 23 is hingedly connected to the end of the left board module 122 is: The right functional shaft 23 includes a shell pipe 6, and Perforated rocking arms 7 are installed at both ends, and a left board module end through hole is installed at the end of the left board module 122, and a right drive shaft 5 is used to penetrate the left board module end. Characterized in that through the hole and the perforation rocking arm (7),
concealed hinge. According to claim 7,
The structure of the left functional axis 13 and/or the right functional axis 23 is specifically:
The outer shell tube 6 as a whole is in the shape of a circular tube, and an upper sealing lid 81 of an inner hole is fixedly fitted into the lumen of the upper tube of the outer shell tube 6, and the upper sealing lid 81 The inner hole passes through the central axis 9, the upper end of the central axis 9 protrudes from the upper conduit of the sheath pipe, and the flange 91 is installed on the upper and middle pillars of the central axis 9, A rotary bearing 10 is installed between the central axis 9 and the inner wall of the upper sealing cover 81, and between the upper surface of the flange 91 and the lower surface of the upper sealing cover 81 A plurality of ball bearings are installed, and a piston 82 is inserted into the lower middle lumen of the outer shell pipe 6, and the piston 82 has a cylindrical shape, and the lower column body of the central axis 9 It is inserted into the inner hole of the piston 82, and the central axis 9 and the piston 82 form a coupling structure that slides in the axial direction and rotates synchronously, and the cylinder body axis of the piston 82 has Two spiral slide grooves 821 are opened symmetrically, the transverse shaft 92 passes through the two rotary slide grooves 821 of the piston, and both ends of the horizontal shaft 92 symmetrically It is inserted and installed into two transverse axis insertion holes 61 opened in the outer shell pipe 6, and the central axis 9 is located between the lower surface of the flange 91 and the upper surface of the cylinder body of the piston 82 and is installed. A pressure spring 94 is sleeved on the body, and a lower sealing cover 83 of the inner hole is fixedly inserted into the lumen of the lower tube of the outer sheath pipe 6, and the shortening of the lower sealing cover 83 Part 831 is characterized in that it protrudes from the lower tube of the sheath pipe 6,
Concealed hinge. According to claim 8,
The spiral slide groove 821 is characterized in that it includes an inclined end inclined to the axis of the central axis 9 and a horizontal end mutually perpendicular to the axis of the central axis 9,
Concealed hinge. According to claim 8,
The specific method in which one end of the left functional shaft 13 is fixedly connected to the one lower left through hole 1126 is: the central shaft 9 protrudes from the upper end of the upper tube of the outer sheath pipe 6 to connect the sleeve. is fixedly connected with one downward-left through hole 1126 through;
The specific manner in which the other end of the left functional shaft 13 is rotatably connected to the other lower left through hole 1126 is: the short end 831 of the lower sealing cover 83 is connected to the other through a rotating bearing. is rotationally connected with the lower left through hole 1126 of;
The specific method in which one end of the right functional shaft 23 is fixedly connected to the one lower right through hole 2126 is: the central shaft 9 protrudes from the upper end of the upper tube of the outer sheath pipe 6 to form a connection sleeve. fixedly connected with one downward through hole 2126 through;
The specific manner in which the other end of the right functional shaft 23 is rotationally connected with the other downward right through hole 2126 is: the short end 831 of the lower sealing cover 83 is connected to the other end through a rotating bearing. Characterized in that it is rotationally connected with the right-down through hole,
Concealed hinge. According to any one of claims 8 to 10,
Characterized in that the left functional shaft (13) and/or the right functional shaft (23) further include a liquid pressure buffer mechanism.
Concealed hinge. According to claim 11,
The specific structure of the liquid pressure buffer mechanism is:
A one-way valve 822 is installed at the bottom of the cylinder of the piston 82, and a first sealing ring 62 is installed between the outer wall of the upper sealing cover 81 and the inner wall of the outer shell pipe 6, , The second sealing ring 63 is installed between the inner hole wall of the upper sealing cover 81 and the outside of the column body of the central axis 9, and the circular tube-shaped slide sleeve is installed on the column body of the horizontal axis 92. 84 is sleeved, and a ring-shaped sealing sleeve 64 is sleeved on the outer body of the outer shell pipe 6, and the sealing sleeve 64 covers the two transverse shaft fitting holes 61, An upper sealing ring 65 and a lower sealing ring 66 are installed between the sealing sleeve 64 and the sheath pipe 6, and the upper sealing ring 65 is located above the transverse shaft 92. , The lower sealing ring 66 is located on the lower side of the horizontal axis 92, a second sealing ring 67 is installed between the outer wall of the lower sealing cover 83 and the inner wall of the outer shell tube, and the lower sealing ring 67 is installed. A speed control oil needle 85 representing a columnar shape is spirally installed in the inner hole of the cover, and the upper column body of the speed control oil needle 85 extends into the inner hole of the bottom of the cylinder of the piston 82, A fourth sealing ring 68 is installed between the outside of the lower column body of the speed control oil needle 85 and the inner hole wall of the lower sealing cover 83, and the lower side of the outer wall of the cylinder body of the piston 82 and the outer shell. A fifth sealing ring 69 is installed between the inner walls of the pipe 6, and the space between the lower end surface of the one-way valve 822 and the inner end surface of the lower sealing cover 83 is the oil steel to be pressurized. (oil cavity) 600, and the space between the upper end surface of the one-way valve 822 and the inner end surface of the upper sealing cover 81 is an oil storage cavity 601, characterized in that,
Concealed hinge.

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