WO2017054728A1 - 高密封式门能调节角度定位及自闭铰链 - Google Patents
高密封式门能调节角度定位及自闭铰链 Download PDFInfo
- Publication number
- WO2017054728A1 WO2017054728A1 PCT/CN2016/100555 CN2016100555W WO2017054728A1 WO 2017054728 A1 WO2017054728 A1 WO 2017054728A1 CN 2016100555 W CN2016100555 W CN 2016100555W WO 2017054728 A1 WO2017054728 A1 WO 2017054728A1
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- WIPO (PCT)
- Prior art keywords
- magnet
- sleeve
- screw
- ring
- fixed
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05D—HINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
- E05D11/00—Additional features or accessories of hinges
- E05D11/10—Devices for preventing movement between relatively-movable hinge parts
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05F—DEVICES FOR MOVING WINGS INTO OPEN OR CLOSED POSITION; CHECKS FOR WINGS; WING FITTINGS NOT OTHERWISE PROVIDED FOR, CONCERNED WITH THE FUNCTIONING OF THE WING
- E05F1/00—Closers or openers for wings, not otherwise provided for in this subclass
- E05F1/02—Closers or openers for wings, not otherwise provided for in this subclass gravity-actuated, e.g. by use of counterweights
- E05F1/04—Closers or openers for wings, not otherwise provided for in this subclass gravity-actuated, e.g. by use of counterweights for wings which lift during movement, operated by their own weight
- E05F1/06—Mechanisms in the shape of hinges or pivots, operated by the weight of the wing
Definitions
- the invention relates to a high-sealed door capable of adjusting angular positioning and a self-closing hinge.
- the Chinese Patent Database has announced the invention of the utility model name "A Lifting and Closing Device", Patent No. 2013208356551. It includes a top hinge, a lower hinge, a drive base and a drive rod.
- the upper hinge comprises an upper sleeve and an upper joint blade fixed to the upper sleeve;
- the lower hinge comprises a lower sleeve and a lower joint blade fixed to the lower sleeve;
- the transmission seat is fixed to the upper sleeve, and the bottom end of the transmission seat is concave
- a transmission cavity is provided, and the inner spiral surface of the transmission cavity is provided with a first spiral portion.
- the transmission rod is fixed to the lower sleeve, and the rotating surface of the transmission rod is provided with a second spiral portion, the transmission rod is connected to the transmission cavity, and the first spiral portion and the second spiral portion are adapted to engage, wherein: pushing the upper hinge
- the upper hinge is rotated relative to the lower hinge, and the upper hinge is raised by the cooperation of the first spiral portion and the second spiral portion; the release of the upper hinge is lowered by gravity, and the first spiral portion and the second spiral portion are passed.
- the cooperation can make the upper hinge automatically reset and return to close.
- the lifting and closing device directly realizes the transfer by using the upper and lower sleeves, and the utility model has poor practicability when applied to the high-sealed door, and there is a possibility of air leakage.
- the present invention provides a high-sealed door that can adjust a hinged blade positioning angle self-positioning and a self-closing hinge that overcomes the deficiencies of the lift hinge device of the prior art.
- the high-sealed door can adjust the angular positioning and the self-closing hinge, and includes a hinge, a fixed seat, a fixed rod, a screw ring and a screw sleeve.
- the hinge is provided with a sleeve and a blade fixed to the outside of the sleeve, and the fixed seat is provided with another a sleeve, the hinge can rotate relative to the fixed seat, the fixed rod has a screw; and the utility model further comprises: a plug and an adjusting seat, the screw sleeve is fixed in a sleeve, and the plug is fixed to the sleeve The screw sleeve and the plug are spaced apart; a screw rod, a spiral ring, a first magnet, a second magnet, a first spring, a cup body, a second spring and an adjustment are arranged between the screw sleeve and the plug between the two sleeves a screw of the fixing rod is screwed to the threaded s
- the high-sealed door can adjust the angular positioning and the self-closing hinge, and includes a hinge, a fixed seat, a fixed rod and a screw sleeve.
- the hinge is provided with a sleeve and a blade fixed to the outside of the fixed seat, and the screw sleeve has a thin rod.
- the screw sleeve is rotatably disposed in the sleeve, the blade is rotatable relative to the fixed rod and the fixed seat, the fixed rod has a screw, and the utility model further comprises: a plug and an adjusting seat, the screw sleeve is fixed to the sleeve In one end, the plug is fixed in the other end of the sleeve, and the screw sleeve is spaced from the plug; the screw sleeve and the plug in the sleeve are provided with a solid rod, a spiral ring, a first magnet, and a second a magnet, a first spring, a cup body and a second spring, the screw of the fixing rod is screwed to the threaded sleeve, the first spring is abutted between the fixed rod and the first magnet, and the first magnet is movable relative to the fixed rod, One end of the second spring can abut against the plug, the other end of the second spring abuts against
- a screw rod and a screw ring and two magnets and two springs and an adjusting seat are arranged between the screw sleeve and the plug.
- the screw sleeve and the screw rod in the connecting sleeve of the two bushing sleeves can rotate relative to each other to make the rod
- a six-straight pitch pitch convex spiral rod tooth having more than two of the screws can slide axially downward with respect to six straight-slant pitch concave spiral rod teeth of two or more of the screw sleeve
- the six spiral pitch pitch male spiral teeth of the screw can be slid and moved axially downward with respect to the six straight oblique pitch concave spiral teeth of the screw sleeve, so that the screw sleeve and the screw can also be along the shaft.
- the relative force of the lower and upper movements is within a predetermined angle of rotation of the hinge vane, and the top end of the solid rod is balanced by the magnetic force of the two magnets and the elastic force of the first spring, so that the hinge of the hinge can be self-contained.
- the positioning is in the predetermined set positioning angle of the rotation, and the leaf of the hinge can also be self-closing at other angles, which is convenient to use.
- the hinge of the hinge is rotated to a single positioning angle position in the predetermined angle, and the starting point is self-positioning, and When a predetermined angle is below the starting point of the positioning position, the hinge vane can be self-closing at the boundary point, so that the hinged blade can realize the self-closing function.
- the adjusting seat is adjusted to rotate to be adapted to cooperate with the second magnet and the plug and the cup bottom of the cup, so as to adjust and adjust the position of the second magnet and the first magnet to make the second position
- the magnet and the first magnet can be magnetically positioned together in the connecting sleeve, so that the adjusting seat can be self-aligned correspondingly to a predetermined angle required for adjusting the hinge vane, so that the hinged vane can be between any predetermined angles.
- the positioning angle position starts from the self-positioning, and when the hinge can be self-aligned at any predetermined angular position, the hinge can realize the self-closing function.
- FIG. 1 is a schematic structural view of a hinge of the first embodiment.
- FIG. 2 is a schematic structural view of a hinge of the first embodiment.
- FIG 3 is a schematic view showing the structure of a blade of the hinge of the first embodiment.
- FIG. 4 is a schematic structural view of the fixing seat of the first embodiment.
- FIG. 5 is a schematic view showing the assembly structure of the connecting sleeve of the first embodiment.
- FIG. 6 is a schematic structural view of the connecting sleeve of the first embodiment.
- FIG. 7 is a schematic structural view of the first bearing of the first embodiment.
- FIG. 8 is a schematic structural view of the screw sleeve of the first embodiment.
- FIG. 9 is a schematic perspective view of the screw sleeve of the first embodiment.
- FIG. 10 is a schematic perspective view of the spiral ring of the first embodiment.
- FIG. 11 is a perspective view of the solid rod of the first embodiment.
- FIG. 12 is a schematic structural view of the solid rod of the first embodiment.
- FIG. 13 is a schematic structural view of a second bearing of the first embodiment.
- FIG. 14 is a schematic structural view of the gasket of the first embodiment.
- FIG. 15 is a schematic view showing the structure of a first magnet of the first embodiment.
- FIG. 16 is a schematic perspective view of the first magnet of the first embodiment.
- FIG. 17 is a schematic structural view of a second magnet of the first embodiment.
- FIG. 18 is a perspective view showing the second magnet of the first embodiment.
- FIG. 19 is a schematic structural view of the first screw of the first embodiment.
- 20 is a perspective view of a second screw of the first embodiment.
- 21 is a perspective view of the sliding sleeve of the first embodiment.
- FIG. 22 is a schematic perspective view of the sealing apron of the first embodiment.
- FIG. 23 is a perspective view of the cup of the first embodiment.
- Figure 24 is a schematic view showing the structure of the cup of the first embodiment.
- 25 is a perspective view of the plug of the first embodiment.
- FIG. 26 is a schematic structural view of the plug of the first embodiment.
- FIG. 27 is a schematic structural view of the adjusting seat of the first embodiment.
- FIG. 29 is a schematic structural view of the hinge of the second embodiment.
- FIG. 30 is a schematic structural view of the bottom plate and the boss of the second embodiment.
- Figure 31 is a schematic view showing the structure of the blade of the hinge of the embodiment.
- FIG. 33 is a schematic structural view of a swivel of the second embodiment.
- Figure 34 is a schematic view showing the structure of the hinge of the third embodiment.
- 35 is a schematic structural view of a hinge of the fourth embodiment.
- FIG. 36 is a schematic structural view of a hinge of Embodiment 5.
- FIG. 37 is a perspective view of the screw pull ring of the fifth embodiment.
- 39 is a schematic structural view of a through-spring through hole of a screw sleeve of Embodiment 5.
- 40 is a perspective view showing the first magnet of the fifth embodiment.
- Figure 41 is a perspective view showing the second magnet of the fifth embodiment.
- Figure 42 is a perspective view showing the first magnet cover of the fifth embodiment.
- Figure 43 is a perspective view showing the second magnet cover of the fifth embodiment.
- the high-sealed door can adjust the angular positioning and the predetermined setting positioning angle of the self-closing hinge, and can be set to a predetermined setting positioning angle set to 180 degrees from a positional positioning position position of a predetermined setting positioning angle of 20 degrees, and is set at a predetermined positioning angle of 20 Degree positioning angle position to 180 degrees predetermined setting positioning angle, any predetermined position of the positioning angle position starting point, the hinge of the leaf can achieve self-positioning, and the starting point of any predetermined positioning angle position, the hinge of the blade can be The position of the positioning is below the starting point so that the hinges of the hinge can be self-closing.
- the high-sealing flat door can adjust the angular positioning and the self-closing hinge and the high-sealed convex door can adjust the angular positioning and the self-closing hinge, such as can be installed in a freezer, refrigerator, cold storage, oven, oven experimental equipment door, experimental box Doors, simulated environmental test equipment doors, mechanical equipment doors, drying equipment doors, soundproof doors, special doors, fresh storage doors, tea warehouse doors, civil engineering doors and any ship doors, etc.
- Highly sealed flat door hinges and high sealing convex Door hinges can be installed in a freezer, refrigerator, cold storage, oven, oven experimental equipment door, experimental box Doors, simulated environmental test equipment doors, mechanical equipment doors, drying equipment doors, soundproof doors, special doors, fresh storage doors, tea warehouse doors, civil engineering doors and any ship doors, etc.
- FIG. 1 to FIG. 28 including the hinge 10, the fixed seat 20, the fixed rod 30, the screw sleeve 40, the screw ring 43, the connecting sleeve 50, the plug 60 and the adjusting seat 70.
- the hinge 10 includes a sleeve 11 and a blade 12 fixed to the outside of the sleeve 11.
- the holder 20 includes a fixing plate 25 and a vertical bottom plate 22 and a protrusion 23 fixed to the bottom plate 22, the protrusion A sleeve 21 is recessed in the end surface of the vertical bottom plate 22 of the seat 23.
- the connecting sleeve 50 is connected to the sleeve 11 and the sleeve 21 of the boss 23; the third bearing 39 is rotatably coupled to the circumferential plane of one end of the sleeve 11 and the circumferential plane of one end of the sleeve 21 of the boss 23.
- the third bearing 39 can also be rotatably sleeved outside the connecting sleeve 50 to make the hinge 10 rotate more smoothly with respect to the axis of the fixing seat 20, and the sleeve 11 and the sleeve 21 are arranged side by side so that the hinge has The blade can rotate relative to the sleeve 21 of the boss 23, so that the hinge can form a high-sealed hinge hinge structure and a high-sealed flat door hinge structure.
- the threaded sleeve 40 is rotatably and non-slidably coupled in the connecting sleeve 50 in the sleeve 11.
- the hinge 10 has a swivel 41 in the sleeve 11 and a threaded rod 42 of the threaded sleeve 40 extending out of the connecting sleeve 50.
- the outer part is fixedly connected, and the rotating part is provided with a rotating ring 41.
- the upper part of the threaded sleeve 40 is convexly provided with a thin rod 42 having a thin shape
- the rod 42 is rotatably passed through the through hole of the first bearing 44 and the through hole passing through the rotating ring 41.
- the rotating ring 41 is fitted to the upper portion in the sleeve 11, and is screwed through the shaft by providing a fixing screw 98.
- the screw through hole of the sleeve 11 is locked and passed through the rotating ring 41 and then locked into the fixing thin rod, so that the sleeve 11 and the rotating ring 41 and the thin rod are fixed together, so as to be able to position the fixing rod under the opposite threaded sleeve along the axis
- the axial and circumferential spacing dimension positions with respect to the upper sliding and moving are opposite to the hinged blades so that the hinged blades can freely be set to a predetermined positioning angle.
- the swivel 41 and the sleeve 11 can also limit and control the axial movement of the nut 40.
- a second flange 52 is disposed in the connecting sleeve 50, and can be abutted in the annular groove 520 of the plug 60 through the second flange 52 so that the second flange 52 can be disposed in the connecting sleeve 50.
- the annular groove 520 of the plug 60 is inserted to fix the plug 60 and the second flange 52 and the connecting sleeve 50 together in the connecting sleeve 50.
- the plug 60 extends out of the outer portion of the connecting sleeve 50 and is fixed by the fixing.
- the screw 98 is screwed into the screw through hole of the sleeve 21, and after locking the fixing plug 60, the fixing adjustment seat 70 is screwed into the fixing socket 70, and at the same time, the fixing screw 98 does not need to cooperate with the sleeve 21 and the plug first.
- 60 locks the fixed adjustment seat 70 together, waiting for the adjustment seat 70 to be adjusted to rotate to correspond to the plug 60 and the second magnet 82 and the cup bottom of the cup 61 to adjust and adjust the second magnet 82 and the first
- the pitch of the magnet 81 is sized so that the second magnet and the first magnet can be magnetized together in the connecting sleeve 50, so that the adjusting seat can be adjusted to match the hinge of the blade at a predetermined angle.
- the locking adjustment seat 70 is restarted by the waiting fixing screw 98 to prevent the adjusting seat from loosening.
- the screw sleeve and the plug are spaced apart, and a screw 30, a screw ring 43, a first magnet 81, a second magnet 82, a cup body 61, a gasket 85, and a first spring are disposed between the screw sleeve and the plug.
- the fixing rod 30 has a screw 31; the fixing rod 30 has a rod tooth of the rod matching screw 40 of the screw 31, so that the screw 31 of the fixing rod 30 can be relatively screwed 40 slides along the axis and moves up and down.
- the fixing rod 30 has a screw ring 31 having a fixed convex ring 32 at the end thereof.
- the convex ring 32 is fixed with an annular convex ring 32, and the annular convex ring 32 is fixed with a connecting rod 33.
- the screw 31 is screwed to the screw.
- the sleeve 40 is disposed between the fixed rod 30 and the spacer 85 of the front end surface of the cup body 61.
- the first magnet 81 is fixedly connected to the connecting rod 33 and can be rotated together with the fixed rod 30 along the sleeve.
- the second spring 92 can be oppositely abutted against the cup bottom of the cup 61 and the plug 60.
- the other end of the second spring 92 abuts against the second magnet 80, and the second magnet 82 can be opposite to the plug 60.
- the axis moves, the first magnet 81 and the second magnet 82 are magnetically attracted, and the adjusting seat 70 is adjusted to rotate to match the second magnet 82 and the plug 60 and the cup bottom of the cup 61 to adjust the second magnet 82.
- the adjusting seat 70 is adjusted to rotate to correspond to the plug 60 and the second magnet 82, so as to adjust and adjust the second magnet 82 and the first magnet.
- the size position is such that the second magnet and the first magnet can be magnetically positioned together in the connecting sleeve, so that the adjusting seat can be correspondingly adjusted to adjust the hinge 10 so that the blade 12 can be positioned at a predetermined angle and a desired positioning angle.
- the hinge vane If the hinge vane needs to be self-positioned at a positioning angle position in a predetermined angle, the hinge vane is opened to a position angle of a desired predetermined angle so that the hinge vane drives the inner sleeve
- the screw sleeve in the connecting sleeve 50 is rotated so that the screw provided by the fixing rod can slide and move downward along the axis with respect to the screw sleeve, and at the same time, the screw and the first magnet of the fixing rod correspond to the hinge leaf Rotating and sliding, until the hinge vane is opened to a desired predetermined angular position, relative to a predetermined angle of the predetermined angle required by the hinge vane, while the hinge vane has no positioning function, and at the same time
- the adjustment seat When the leaf blade needs to be positioned at a positioning angle in a predetermined angle, the adjustment seat must be adjusted through the adjusting seat in the plug so that the adjusting seat can correspond to the plug and the bottom of the second magnet and the cup body, The position
- the hinge leaf After the angle of the maximum limit point of the predetermined angle is 180 degrees, the hinge leaf will be self-closing and return to a positioning angle position that has been adjusted by the adjustment seat in the plug.
- the hinge leaf needs to be closed to make the hinge
- the hinge vane can achieve self-closing when the positioning angle of the leaf blade is separated from a positioning angle position that has been adjusted in place by the adjusting seat in the plug.
- the magnetic attraction of the energy storage of the first magnet 81 and the second magnet 82 by the magnetic attraction must be greater than the energy storage elastic force of the first spring 91 and the energy storage pre-tension of the first spring.
- the first magnet in the hinge is that the steel does not store magnetic attraction or the second magnet is that the steel does not store magnetism.
- the hinged blade can be self-positioned at a single positioning angular position between the predetermined positioning angles, and the hinged blade can achieve self-closing when the single positioning angle is below the starting point of the self-positioning position.
- the chute cam 32 is a convex ring 32.
- the connecting sleeve 50 is a center sleeve 50.
- the fixing rod 30 has a screw 31 end having a fixed convex ring 32, the convex ring 32 is fixed with an annular convex ring 32, and the annular convex ring 32 is fixed with a connecting rod 33, the convex ring 32 and The annular ring 32 is fixedly coupled to form a convex ring 32.
- the annular groove 321 is recessed in the outer circumferential direction of the annular ring 32, and the annular groove 321 of the annular ring 32 is sleeved with a sealing ring.
- the annular convex ring 32 slides and moves up and down in the connecting sleeve 50, so as to generate sealing damping force and resistance force in the connecting sleeve 50 and to strengthen and reinforce and strengthen the annular convex ring 32 in the connecting sleeve.
- the effect of the damping force and the resistance force generated by the sliding and moving on the upper side increases the coefficient of the several times, and the strength of the self-positioning force of the annular convex ring 32 in the connecting sleeve 50 is increased by several times.
- the strength of the position self-positioning force is increased by a factor of several times, and the relative release of the energy storage top elastic force of the first spring 91 can be simultaneously controlled and limited, and the first spring 91 is also relatively
- the top abutting force and the top abutment speed of the ring-shaped convex ring 32 which can be used for the top force of the upward force can be slowed down and buffered, and the blade 12 can be controlled and restrained relative to the hinge 10
- the self-closing speed is fast and slow, and the safety of the hinge and the safety of the hinge can be improved and enhanced.
- a first flange 51 is disposed in the connecting sleeve 50, and the first flange 51 in the connecting sleeve 50 can abut against the annular groove 403 of the screw ring 43 in the connecting sleeve 50 to make the first convex
- the rim 51 can be embedded with the annular groove 403 of the spiral ring in the connecting sleeve 50, so that the screw ring 43 and the first flange 51 and the connecting sleeve 50 are connected and fixed together in the connecting sleeve 50, so that the screw ring 43 cannot be
- the rotation can also be slidably and movably connected and fixed in the connecting sleeve 50.
- the spiral ring 43 is recessed through the through hole, and the circumferential edge of the inner ring of the spiral ring 43 penetrating through hole is convexly disposed inside the spiral ring.
- the ring flange 433 is configured such that the inner ring flange of the spiral ring can abut against the convex ring sliding track groove so that the inner ring flange 433 of the screw ring can correspond to the convex ring 32 of the fixed rod 30.
- the convex ring slides the track groove 332 so as to be able to position and limit the distance between the axial direction and the wheelbase of the sliding and moving of the fixed rod in the axial direction downward and upward relative to the screw sleeve, and the hinge can be matched with the hinge
- the blade 12 of 10 is predetermined to have a positioning angle so that the positioning angle of the blade 12 of the hinge 10 can be set from a positioning position of 50 degrees to a positioning angle of 180 degrees.
- the blade 12 of the hinge 10 needs to be positioned at a predetermined setting position angle of 90 degrees between the predetermined set positioning angles, while the blade 12 of the hinge 10 is set to a predetermined angle by opening to 90 degrees.
- the blade 12 of the hinge 10 is rotated to drive the screw sleeve in the connecting sleeve 50 in the sleeve so that the fixing rod has six straight lines of two or more of the screws.
- the convex thread of the pitch pitch can be more than two of the threaded sleeve 40
- the sliding teeth move downwards in the axial direction, so that the six straight-slant pitch pitches of the screw can be compared with the six straight-inclined concave spirals of the screw sleeve.
- the rod teeth slide and move down in the axial direction, while the rod and the first magnet of the rod correspond to the blade 12 of the hinge 10 and slide to the hinge 10 to be opened to a desired
- the 90 degree predetermined angular position is relative to the 90 degree positioning angle position of the predetermined angle required by the blade 12 of the hinge 10, while the blade 12 of the hinge 10 has no positioning function, while the hinge blade is required
- the adjusting seat can adjust the hinge correspondingly 10 leaves required for the blade 12
- the 180 degree angular position of the predetermined rotation angle of the predetermined rotation angle of the blade is released, and at the same time, the first spring 91 is the high pressure compression first spring of the annular convex ring 32 of the fixed rod 30 which is subjected to the top-down strength.
- the energy storage state of the first spring 91 is changed to cause the energy storage elastic force to be released, so that the energy storage elastic force at one end of the first spring 91 can be strong.
- the convex ring 32, and the energy storage elastic force of the other end of the first spring 91 is strong against the circumferential surface of the top spacer 85 and the front end of the cup 61, so that the blades 12 of the hinge 10 are self-closing.
- the blades 12 of the hinge 10 need to be closed to make the positioning angle of the blades 12 of the hinge 10 .
- the screw ring 43 is located under the screw sleeve and the screw 31 is sleeved through the screw ring through hole to screw the screw sleeve 40.
- the fixing rod has a screw end having a fixed convex ring, the convex ring is fixed with an annular convex ring, and the annular convex ring is fixed with a connecting rod.
- the convex ring 32 and the annular convex ring 32 are fixed together to form the convex ring 32.
- the fixing rod 30 has a convex ring sliding track groove 332 at a circumferential side of the outer ring of the convex ring 32, and an inner ring flange 433 of the inner ring of the spiral ring is convexly provided with a spiral ring
- the inner ring flange of the spiral ring can be abutted in the convex ring sliding track groove so that the inner ring flange 433 of the spiral ring can fit the convex ring sliding track groove 332 to position and restrain the fixed rod
- the spacing between the axial and the wheelbase of the sliding and moving in the axial direction of the opposing nut sleeve does not change, so as to correspond to the hinge 10
- the blade 12 is predetermined to set a positioning angle.
- the screw ring 43 cooperates with the convex ring sliding track groove 332 so as to be able to position and limit the axial and vertical distances of the sliding and moving of the fixed rod in the axial direction downward and upward relative to the screw sleeve, and the relative spacing does not change.
- the blade can be matched with the hinge so that the hinge blade can freely set the positioning angle, and the blade 12 can be positioned at a predetermined angle relative to the corresponding hinge 10.
- a third flange 53 is disposed in the connecting sleeve 50, and can be abutted in the annular groove 530 of the first bearing through the third flange 53 so that the third flange 53 can be disposed in the connecting sleeve 50.
- the screw sleeve 40 has a thin rod 42 sleeved through the first A bearing 44 through hole, the connecting rod 33 of the fixing rod 30 and the first spring and the connecting sleeve are also provided with a second bearing 34, which is the rotation energy between the opening and closing of the blade 12 of the auxiliary hinge 10 More smoothly, the first spring 91 sleeves the connecting rod 33 and abuts against the second bearing 34 and the spacer 85 on the front end surface of the cup 61.
- a second flange 52 is disposed in the connecting sleeve 50, and can be abutted in the annular groove 520 of the plug 60 through the second flange 52 so that the second flange 52 can be disposed in the connecting sleeve 50.
- the annular groove 520 of the plugging head 60 is inserted so that the plug 60 and the second flange 52 are not slidably and movably coupled together and fixed in the connecting sleeve, and the plug 60 is extended from the outer portion of the connecting sleeve.
- a convex ring rim 811 is disposed on the bottom of the first magnet.
- the first magnet sleeve is provided with a gasket 85.
- the gasket 85 abuts against the front end surface of the cup body 61.
- the first spring top abuts against the gasket 85 and the second bearing.
- the inner ring flange 433 of the spiral ring is sleeved to the sliding sliding sleeve 333, so that the spiral inner ring flange 433 of the sleeve sliding sliding sleeve 333 can abut against the convex ring sliding track concave
- the inner ring flange 433 of the spiral ring 433 which is slidably coupled to the sliding sleeve 333 can correspond to the convex ring sliding track groove 332 of the convex ring 32 of the fixed rod 30, so as to
- the auxiliary reinforcing rod is smoother in the movement of the relative screw sleeve along the axis and the upper sliding and moving, so that the hinged blade can be more smoothly opened and closed.
- the screw ring 43 is located under the screw sleeve and the screw thread 31 passes through the screw ring 43 and then the screw sleeve 40 is screwed so that the screw ring 43 can restrict the rotation and movement of the screw rod 31 relative to the screw sleeve 40, and the spacing coefficient coefficient generated.
- the spacing between the axial and the wheelbase that can position and limit the sliding and moving of the fixed rod in the axial direction downward and upward relative to the screw sleeve does not change, and the hinged blade can be matched to the hinged blade.
- the positioning angle can be freely set, and the positioning angle of the predetermined angle can be self-positioned correspondingly to a positioning angle of the blade that can match the hinge.
- first screw 83 and a second screw 84, and a fastening screw 98 both of which have a polished rod section and threaded sections 831, 841 at the end; a polished rod section of the first screw 83 Passing through the inner ring through hole of the first magnet 81, and the threaded portion 831 is screwed into the screw through hole of the connecting rod 33 of the fixed rod 30, so that the screw head 832 of the first screw 83 is supported in the first magnet 81
- the loop through hole step 801 is configured to fix the first magnet 81 and the connecting rod 33 together, so that the first magnet 81 can slide and move together with the fixed rod 30, and the first magnet can be restrained from the first screw.
- the position is disengaged so as to be able to adjust and rotate the adjusting seat 70 in the plug 60 so as to adjust the rotation of the adjusting seat 70 to match the plug 60 and the second magnet 82 and the cup bottom of the cup 61.
- the position of the second magnet 82 and the first magnet 81 is opposite to each other so that the adjusting seat can cooperate with the blade for adjusting the hinge so that the hinge of the hinge can be at a predetermined positioning angle.
- the polished rod section of the second screw 84 passes through the inner ring through hole of the second magnet 82, and the screw
- the segment 841 is screwed into the screw through hole of the end surface of the adjusting base 70 such that the screw head 842 of the second screw 84 is supported at the inner ring through hole step 821 of the second magnet 82, so that the second magnet 82 and the second magnet
- the two screws 84 and the adjustment base 70 are coupled together to restrict the second magnet 82 from being detached from the second screw 84 so that the second magnet 82 can engage the plug 60 and the adjustment base 70 and the cup bottom of the cup 61 so that
- the adjusting seat 70 is adjusted to rotate to correspond to the plug 60 and the second magnet 82 and the cup bottom of the cup 61, so as to adjust the position of the second magnet 82 and the first magnet 81 to make the second magnet and
- the first magnet can be magnetically positioned together in the connecting sleeve so that the adjusting seat can cooperate with the adjusting blade of the hinge so that the hinged blade
- the fixing screw 98 is not used first and the sleeve 21 and the plug 60 are used. Locking the screw into the fixed adjustment seat 70 together, waiting for the adjustment seat 70 to be adjusted to rotate to match the plug 70 and
- the second magnet 82 and the cup bottom of the cup 61 are oppositely arranged to adjust the position of the second magnet 82 and the first magnet 81 so as to position the second magnet and the first magnet together in the connecting sleeve. Relatively so that the adjusting seat can be correspondingly matched with the predetermined setting positioning angle of the blade for adjusting the hinge, so that the hinged blade can be at a predetermined positioning angle, and a predetermined positioning angle between the positioning angles is required.
- the locking adjustment seat is re-activated by the waiting fixing screw 98 to prevent the adjusting seat from loosening; the fixing screw 98 passes through the sleeve 11 and is screwed through the rotating ring 41 to be fixed in the locking screw.
- the threaded sleeve has a thin rod 42 for fixing the sleeve 11 and the rotating ring 41 and the thin rod 42 together, so that the opening of the hinge 10 of the hinge 10 can drive the screw sleeve 40 to rotate, so that the screw 31 can be rotated along the threaded sleeve 40. Sliding and moving under the axis.
- the adjusting seat 70 is a third screw, and the third screw is screwed through the protruding portion of the plug and abuts against the bottom of the cup body, and is adjusted and rotated by the third screw to be matched with the plug.
- the blade 12 that can be adjusted to fit the hinge 10 can be self-positioned at a predetermined positioning angle.
- the threaded section 841 of the second screw 84 is threadedly coupled within the end face 70 of the adjustment seat of the plug 60.
- the second spring and the second magnet are all located on the second magnet fitting sliding cup body, and the lower part of the first magnet is adapted to the sliding cup body.
- the screw is controlled by the screw sleeve and the screw ring, and the rod teeth of the screw rod are adapted to the rod teeth of the screw sleeve, so that the inner ring flange 433 of the screw ring can match the convex ring 32 of the fixed rod 30.
- the cam ring slide track grooves 332 generate a predetermined set of lower and upper sliding and moving movements of fixed angles and pitches to position and limit the sliding and moving of the solid rods in the axial direction downward and upward relative to the screw sleeves.
- the pitch dimension of the axial direction and the wheelbase does not change, and the blade corresponding to the hinge can be correspondingly arranged to allow the hinge blade to freely set the positioning angle.
- the first spring 91 and the second spring 92 can cause the blade 12 of the hinge 10 to be released after opening the 125 degree angular position at which the blade 12 of the hinge 10 is opened, while the blade 12 of the hinge 10 is opened.
- the first spring 91 Compressing the elastic state of the first spring 91 by the high pressure of the top to the bottom, so that the energy storage state of the first spring 91 is changed, so that the stored energy elastic force is released, so that the first spring 91 is
- the energy storage elastic force at one end can strongly support the top annular ring 32, and the energy storage elastic force at the other end of the first spring 91 is strong enough to support the top spacer 85 and the front end circumferential plane of the cup 61
- the second spring 92 is an energy storage elastic state of the second spring 92 of the high pressure compressed by the annular convex ring 32 of the fixed rod 30 and the first magnet 81 and the second magnet 82 with a top-down strength.
- the release is generated such that the energy storage elastic force at one end of the second spring 92 can strongly support the second magnet 82, and the energy storage elastic force of the other end of the second spring 92 is strong enough to support the top cup
- the cup bottom of the body 61 is opposed such that the first spring 91 and the second spring 92 enable the blades 12 of the hinge 10 to be closed so that the first spring 91 and the second spring 92 can reset the blades 12 of the hinge 10.
- the above-mentioned protrusion is convexly disposed, and the protrusion is about half of the fixing plate, and the hinge sleeve is located above the protrusion.
- the hinge 10 includes a sleeve 11 and a blade 12 fixed to the outside of the sleeve 11.
- the holder 20 includes a fixing plate 25, a vertical bottom plate 22, and a protrusion 23 fixed on the vertical bottom plate 22, the convex portion A sleeve 21 is recessed in the end surface of the vertical bottom plate 22 of the seat 23.
- the connecting sleeve 50 is connected in the sleeve 11 of the sleeve 11 and the boss 23, and the sleeve 11 and the sleeve 21 are arranged side by side such that the blade 12 of the hinge 10 can be opposite to the sleeve of the seat 20 and the boss 23. 21 rotation, so that the hinge can form a high-sealed convex door hinge structure and a high-sealed flat door hinge structure.
- the threaded sleeve 40 is rotatable and non-slidably and movably coupled within a coupling sleeve 50 in the sleeve 11.
- the hinge 10 has a swivel 41 in the sleeve 11 and a thin rod 42 of the threaded sleeve 40 extendingly connected
- the outer portion of the sleeve 50 is fixedly connected, and a fixed ring 41 is disposed on the fixed portion.
- the upper portion of the screw sleeve 40 is convexly provided with a thin rod 42.
- the screw sleeve 40 has a thin rod 42 rotatably passing through the rotating ring 41.
- the ring 41 is fitted to the upper part of the sleeve 11, and is screwed into the sleeve 11 by the fixing screw 98 and locked through the rotating ring 41 to lock the fixing rod so that the sleeve 11 and the rotating ring 41 and the thin rod are fixed together to position the axial and circumferential spacing of the fixed rod relative to the upper and lower sliding and moving along the axis so that the rotating ring 41 and the right sleeve 21 can
- the axial movement of the threaded sleeve 40 is limited and controlled so that the hinged blades are free to be predetermined to set the positioning angle.
- a second flange 52 is disposed on the connecting sleeve 50, and the second flange 52 and the mating connecting sleeve 50 are engaged by the circumferential groove 520 of the outer ring of the plug to make the plug 60 and the second flange 52 and the connecting sleeve 50
- the connection is fixed together in the connecting sleeve 50.
- the plug 60 extends out of the outer portion of the connecting sleeve 50, and is screwed into the screw through hole of the sleeve 21 through the fixing screw 98, and then screwed into the fixing plug 60.
- the locking screw is fixed to the fixing seat 70.
- the fixing screw 98 is firstly locked with the adjusting sleeve 70 without the sleeve 21 and the plug 60, and the adjusting seat 70 is adjusted to rotate to match the plug 60 and
- the second magnet 82 and the cup bottom of the cup 61 are oppositely arranged to adjust the position of the second magnet 82 and the first magnet 81 so that the second magnet and the first magnet can be magnetized together in the connecting sleeve.
- the blade can adjust the hinge of the adjusting seat to be able to re-start the locking screw in the predetermined angle by a predetermined angle in the predetermined angle.
- the adjustment seat 70 is fixed to prevent the adjustment seat 70 from loosening.
- the screw sleeve and the plug are spaced apart, and a screw 30, a screw ring 43, a first magnet 81, a second magnet 82, a cup body 61, a gasket 85, and a first spring are disposed between the screw sleeve and the plug. 91 and a second spring 92, the fixed rod 30 has a screw 31; the first magnet 81 and the second magnet 82 are magnetically attracted.
- the chute cam 32 is a convex ring 32.
- the connecting sleeve 50 is a center sleeve 50.
- the high-sealed door can adjust the angular positioning and the self-closing hinge, including the hinge, the fixed seat, the fixed rod and the screw sleeve, and the screw sleeve 40 has the thin rod 42
- the rods 12 can be rotated relative to the fixed rod 30 and the fixed seat 20; the thin rod 42 is fixed to the door leaf of the high-sealed door by the fixing screw 98.
- the sleeve 11 constitutes a connecting sleeve 50, the hinge is rotatable relative to the fixed seat, the fixing rod has a screw; and the plug and the adjusting seat are rotatable and non-movablely connected in one end of the sleeve,
- the screw ring 43 is fixed in the screw through hole of the sleeve 11 by the fixing screw 98, and the screw ring 43 can support the screw sleeve 40 to prevent the screw sleeve 40 from falling down, and the plug is fixed to the shaft.
- the other end of the sleeve; the screw sleeve and the plug are spaced apart, and the screw sleeve and the plug in the sleeve are provided with a solid rod, a screw ring 43, a first magnet, a second magnet, a cup body, a gasket, and a first a spring and a second spring, the screw of the fixing rod is screwed on the threaded sleeve, the first spring is abutted between the fixed rod and the front end surface of the cup body and the gasket, and the first magnet can slide and move together with the solid rod, One end of the second spring can abut against the bottom of the cup and the plug, and the other end of the second spring abuts against the second magnet, the second magnet can move relative to the plug, and the first magnet and the second magnet are magnetic Suction, the adjusting seat is adjusted to rotate to correspond to the second magnet and the plug and the bottom of the cup 61, so as to adjust and adjust the second magnet The spacing position of the plug
- the adjusting seat 70 connects the cup of the cup 61
- the bottom and the plug 60 are used for adjusting the spacing between the bottom of the cup and the plug, adjusting the spacing between the bottom of the cup and the plug, and adjusting and adjusting the spacing between the plug and the second magnet;
- the adjusting seat is matched with the second magnet And plugging, in order to adjust and adjust the position of the second magnet and the first magnet, so that the adjusting seat can cooperate with the adjustment of the blade 12 of the hinge 10 at a predetermined positioning angle, and a required positioning Angle self-positioning.
- the screw ring 43 is located under the screw sleeve and the screw thread 31 is sleeved through.
- the screw ring 43 is screwed to the screw sleeve 40, and the spiral ring 43 is penetrated.
- the inner circumferential flange 433 of the inner ring of the hole protrudes from the inner ring flange 433 of the spiral ring, and the convex ring 32 of the fixing rod 30 is concavely provided with the convex ring sliding track groove 332 so that the inner ring flange of the spiral ring Can be abutted in the groove of the convex ring sliding track, so that the inner ring flange 433 of the screw ring can correspond to the convex ring sliding track groove 332 of the convex ring 32 of the fixed rod 30, so as to be able to position and restrain the solid
- the axial and downward spacing of the rods in the axial direction downwards and upwards relative to the sleeve does not change, so
- the sleeve is rotated so that the six-straight pitch pitch convex spiral rod teeth of the two or more of the screw of the fixed rod can be compared with the six straight-slant pitch concave spiral rods of the two or more of the screw sleeve 40
- the tooth slides down in the axial direction, so that the screw rod in the connecting sleeve can slide and move the screw sleeve downward and upward along the axis, and at the same time, the screw and the first magnet of the solid rod will go to Rotate down and slide, while the hinge is opened to a 90 degree positioning angle, at the same time the hinge of the hinge is There is a positioning function, and at the same time, the blade of the hinge needs to be positioned at a predetermined angle of 90 degrees, and the adjustment seat must be adjusted through the adjustment seat in the plug so that the adjustment seat can correspond to the plug and the second magnet and
- the cup bottom of the cup 61 is opposite to the position of the gap between the second magnet and the first magnet so that the second magnet
- the high-sealed door can adjust the angular positioning and the self-closing hinge, including the hinge, the fixed seat, the fixed rod and the screw sleeve, the threaded sleeve 40 has a thin rod 42
- the fixed rod 30 and the fixed seat 20 rotate; the thin rod 42 constitutes the blade 12, because the thin rod 42 is fixed to the door page of the high-sealed door by the fixing screw 98.
- the sleeve 11 constitutes a connecting sleeve 50, the hinge is rotatable relative to the fixed seat, the fixing rod has a screw; and the plug and the adjusting seat are rotatable and non-movablely connected in one end of the sleeve,
- the screw ring 43 is fixed in the sleeve 11 by a fixing screw 98, and the screw ring 43 can support the screw sleeve 40 to prevent the screw sleeve 40 from falling down, and the plug is fixed to the other end of the sleeve.
- the screw sleeve and the plug are spaced apart, and a screw rod, a screw ring 43, a first magnet, a second magnet, a cup body, a gasket, a first spring and a second are arranged between the screw sleeve and the plug head in the sleeve a spring 92, the screw of the fixing rod is screwed to the threaded sleeve, the first spring is abutted between the fixed rod and the front end surface of the cup body and the gasket, and the first magnet can slide and move together with the solid rod, the second spring One end can be opposite to the bottom of the cup and the plug, and the other end of the second spring abuts against the second magnet, the second magnet can move relative to the plug, the first magnet and the second magnet are magnetically attracted, and The adjustment seat is adjusted to rotate
- the bottom of the cup can be adapted to match the second magnet and the plug and the cup 61, so as to adjust and adjust the position of the second magnet and the plug, so that
- the fixing rod 30 has a fixed screw 31, and the screw 31 also has a fixed convex ring 32 (and the convex ring 32 and the annular convex ring 32 are fixed together to form the convex ring 32).
- the auxiliary adjustment blade positioning angle pad 616 constitutes the cup bottom of the cup body 61 (the auxiliary adjustment blade positioning angle pad 616 is the cup bottom of the cup body 61).
- An annular mounting groove 811 is defined in the outer circumferential surface of the slide ring 32 of the fixed rod 30. The mounting groove 811 is provided with a leakage preventing sealing ring 824.
- the sealing ring 824 also protrudes out of the mounting groove 811 to Can be sealed against the sleeve 11 (connecting sleeve 50) to assist in stabilizing the axial and circumferential sliding and moving spacing of the screw in the sleeve 11 under the axial and downward sliding of the screw relative to the sleeve Will shake.
- the adjusting seat cooperates with the second magnet and the plug and the auxiliary adjusting blade positioning angle pad 616 to adjust and adjust the position of the second magnet and the first magnet to make the second magnet and the first magnet magnetic
- the suction is positioned together in the connecting sleeve, so that the adjusting seat can correspondingly adjust the preset positioning angle of the hinge leaf so that the hinge blade can self-position at a positioning angle position between the predetermined positioning angles, and is predetermined
- a positioning angle between the positioning angles is set from below the starting point of the positioning position, so that the hinge leaf cannot be self-aligned, the hinge blade is rotated to a positioning angle position in the predetermined angle, and is at a predetermined angle.
- a positioning angle is below the starting point of the positioning position, so that the hinge can achieve self-closing.
- the fixed sliding rod 339 is sleeved with a sliding sliding sleeve 333, so that the inner ring flange 433 of the spiral ring of the sliding sleeve 333 can be inserted into the convex ring sliding track groove 332
- the inner ring flange 433 of the spiral ring that is slidably coupled with the sliding sleeve 333 can correspond to the convex ring sliding track of the convex ring 32 of the fixed rod 30 through the groove through hole 332, so as to
- the auxiliary reinforcing rod is smoother in the movement of the relative screw sleeve along the axis and the upper sliding and moving, so that the hinged blade can be more smoothly opened and closed.
- the convex ring 32 is an annular convex ring 32, and the sliding convex ring 32 and the annular convex ring 32 are fixed together to form the convex ring 32.
- the second spring 92 is located between the annular collar 32 of the fixed rod 30 and the spring washer 93 and the first magnet 81; the second spring 92 can urge the blade 12 of the hinge 10 to be opened to the hinged blade 12
- the opening angle of 125 degrees is relative to the position of the self-aligning angle of 90 degrees between the 50 degree positioning angle of the hinge 10 and the positioning angle of the angle of 180 degrees between the positioning angles of the predetermined setting angle, and at the same time
- the two springs 92 are an annular convex ring 32 and a first magnet 81 which are provided by the fixed rod 30.
- the upper and lower strong high pressure compresses the energy storage elastic state of the second spring 92 to change the energy storage state of the second spring 92 to release the stored energy elastic force to make one end of the second spring 92
- the energy storage elastic force can strongly support the top annular ring 32, and the energy storage elastic force of the other end of the second spring 92 is strong against the spacer 85 and the first magnet 81, so as to make
- the two springs 92 can assist the blades 12 of the hinge 10 to be turned back so that the second spring 92 can reset the blades 12 of the hinge 10 to a predetermined angular position of 90 degrees.
- the second spring 92 can cause the blade 12 of the hinge 10 to be released after the blade 12 opening to the hinge 10 is opened by a 125 degree angular position, while the blade 12 of the hinge 10 is opened more than already scheduled.
- a positioning angle of 50 degrees in the positioning angle to a predetermined angle of self-positioning angle of 90 degrees between the positioning angles of 180 degrees, while the second spring 92 is an annular convex ring 32 of the fixed rod 30 cooperates with the first magnet 81
- the high-pressure compression of the second spring 92 is performed by the high-pressure of the top-down force to change the energy storage state of the second spring 92 to release the stored-energy spring force, so that the second spring 92 is released.
- the energy storage projectile at one end can strongly support the top annular ring 32, and the energy storage elastic force at the other end of the second spring 92 is strong against the spacer 85 and the first magnet 81,
- the second spring 92 is enabled to enable the blade 12 of the hinge 10 to be closed so that the second spring 92 can reset the blade 12 of the hinge 10 to a predetermined angular position of 90 degrees.
- the fixing rod has a screw end with a fixed chute cam 32, and the chute cam 32 is also There is a fixed convex ring 32, and the convex ring 32 also has a fixed connecting rod 33; wherein the screw 31 is fixed with a screw pull ring 311; and the size of the pull rod 313 is matched with the rotating ring 41 a hole, and the device position is flat on the upper end of the thin rod 42, wherein the screw sleeve 40 and the screw sleeve 40 have a thin rod 42 which is provided with a through-threaded spring through hole 315, and the tension spring 318 is a device The tension spring through hole 315 is fastened; and the tension spring 318 is fixed at both ends with a front pull hook 328 and a rear pull hook 338.
- the tension spring 318 has a front pull hook 328 hooked to the pull hook rod 313, and the tension spring 318 has a rear pull hook 338.
- the screw pull ring shackle 311 is hooked so that the tension spring 318 can control the position of the screw 31 of the fixed rod which does not change in the distance between the sliding and moving of the screw sleeve under the axis.
- the second spring 92 is located between the annular collar 32 of the fixed rod 30 and the spring washer 93 and the first magnet 81.
- the inner ring flange 433 of the spiral ring is sleeved and slidably connected with the sliding sleeve 333, so that the spiral inner ring flange 433 of the sleeve sliding sleeve 333 can be pressed against the convex ring sliding track concave
- the inner ring flange 433 of the slot 332 opposite to the spiral ring of the sliding sleeve 333 is configured to correspond to the slide of the fixed rod 30
- the convex ring of the convex ring 32 slides the track groove 332 to be relatively smooth, so as to help the reinforcing rod to slide and move relative to the upper and lower sides of the screw sleeve, and to make the hinge of the hinge open and self-aligned.
- the fixing rod has a screw end having a fixed convex ring 32
- the convex ring 32 is fixed with an annular convex ring 32
- the annular convex ring 32 is fixed with a connecting rod 33, so that the convex ring 32 and
- the annular ring 32 is fixedly coupled to form a convex ring 32, and an annular groove is formed in a circumferential direction of the outer ring of the convex ring 32, and the annular groove 321 of the annular ring 32 is sleeved with a sealing rubber ring 322, and
- the sealing rubber ring 322 also protrudes out of the annular mounting groove 321 so as to be sealingly abutted in the connecting sleeve 50, so as to assist in stabilizing the sliding and moving of the screw in the connecting sleeve 50 under the axis and the axis.
- the axial and circumferential sliding and moving pitches do not sway, and the leak-proof sealing rubber ring also has an auxiliary reinforcement and reinforcement and enhances the energy storage of the second magnet and the enhanced release of the storage magnetism of the first magnet. a function of causing the second magnet and the first magnet to be magnetically attracted together to be strongly positioned within the connecting sleeve, relative to a blade that can cooperate with the auxiliary reinforcing and reinforcing and reinforcing hinges between the predetermined set positioning angles The self-positioning strength of the self-positioning of the predetermined positioning angle position is further enhanced.
- the auxiliary adjustment blade positioning angle pad 616 constitutes the cup bottom of the cup body 61, and the cup bottom of the cup body 61 can be the spacer 85.
- the first magnet cover 811 is screwed into the first magnet 81 through the circumferential through hole of the first magnet cover 811 by the fixing screw 98, so that the first magnet cover 811 and the first magnet 81 are fixed to each other. together.
- the first magnet cover 811 is made of epoxy or any kind of glue to fix the first magnet 81 and the first magnet cover 811 together.
- the first screw 83 passes through the through hole of the first magnet cover 811 and then locks the screw ring collar 32 through the rubber column 922 to make the first magnet cover 811 and the first magnet 81 and the rubber column 922 and The annular collars 32 are joined together.
- the second magnet cover 822 is screwed through the circumferential through hole of the second magnet cover 822 by the fixing screw 98 to lock the second magnet 82 to fix the second magnet cover 822 and the second magnet 82. together.
- the second magnet cover 822 is passed through an epoxy or any kind of glue to secure the second magnet 82 and the second magnet cover 822 together.
- the adjusting seat 70 is screwed into the second magnet cover 822 to fix the second magnet cover 822 and the adjusting base 70 together.
- the adjusting seat 70 is adjusted and rotated to correspondingly engage the plug 60 and the second magnet 82 and the second magnet cover 822 to adjust and adjust the position of the second magnet 82 and the first magnet 81, and
- the predetermined angular position of the blade that matches the hinge can be self-aligned.
- the rubber post 922 can cause the blade 12 of the hinge 10 to be opened to a 125 degree angle at which the blade 12 of the hinge 10 is opened, such that the blade 12 of the hinge 10 is opened more than a 50 degree positioning angle that has been predetermined. a predetermined angle of 90 degrees between the positioning angles of 180 degrees from the positioning angle position, at the same time
- the rubber column 922 is in a state of energy storage elastic force of the high-pressure compression rubber column 922 of the top-down strength by the annular convex ring 32 of the fixed rod 30 and the first magnet cover 811, so that the rubber column 922 is stored.
- the state of the elastic force can be changed to release the stored elastic force of the rubber column 922 so that the elastic storage force of one end of the rubber column 922 can strongly support the annular annular ring 32, and the rubber column 922
- the other end of the storage elastic force is strong enough to abut against the first magnet cover 811, so that the rubber column 922 can turn the blade 12 of the hinge 10 back, so that the rubber column 922 can make the hinge 10
- the blade 12 is reset to a 90 degree predetermined angular position for self-positioning.
- the high-sealed door of the invention can adjust the angular positioning and the self-closing hinge, and overcomes the practicability and the existing air leakage problem when the traditional lifting hinge device directly uses the upper and lower sleeves to realize the adapter, so that the hinge blade can
- the position of any positioning angle between the predetermined angles is self-positioning, and when the hinge can be self-closing at any predetermined angular position, so that the hinges of the hinge can realize the self-closing function, and have wide application prospects and good Industrial applicability.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Hinges (AREA)
- Closing And Opening Devices For Wings, And Checks For Wings (AREA)
Abstract
Description
Claims (11)
- 高密封式门能调节角度定位及自闭铰链,包括合页、固座、固杆、螺环和螺套,该合页设轴套和固接在轴套外的叶片,该固座设另一轴套,该合页能相对固座转动,该固杆具有螺杆;其特征在于:还包括堵头和调节座,该螺套固接在一轴套内,该堵头固接在轴套内,该螺套和堵头间隔;该两轴套内之螺套和堵头间设有固杆、螺环、第一磁铁、第二磁铁、第一弹簧、杯体、第二弹簧和调节座,该固杆的螺杆螺接在螺套,该第一弹簧顶抵在固杆和杯体的前端面之间,该第一磁铁能和固杆一起移动,该第二弹簧一端能相对堵头顶抵,该第二弹簧之另一端顶抵第二磁铁,该第二磁铁能相对堵头移动,该第一磁铁和第二磁铁相磁吸,该调节座经调整转动以能对应配合第二磁铁和堵头和杯体的杯底,以能调节和调近第二磁铁和堵头的间距尺寸位置;该调节座经调整转动以能对应配合第二磁铁和堵头和杯体的杯底,以能调整和调近第二磁铁和第一磁铁的间距尺寸位置。
- 据权利要求1所述的高密封式门能调节角度定位及自闭铰链,其特征在于:该螺套固接在合页的轴套内,该堵头固接在固座的轴套内。
- 根据权利要求2所述的高密封式门能调节角度定位及自闭铰链,其特征在于:还包括连接套,该固杆能滑动和移动连接在连接套内,该螺套能转动且不能滑动地连接在连接套内,该第一磁铁、第二磁铁、第一弹簧和第二弹簧设在连接套内;该合页的轴套和螺套伸出连接套外的部分固接,该固座的轴套和堵头伸出连接套外的部分固接。
- 高密封式门能调节角度定位及自闭铰链,包括合页、固座、固杆和螺套,该合页设轴套和固接在固座外的叶片,该螺套具有的细杆构成叶片,该螺套能转动设在轴套内,该叶片能相对固杆和固座转动,该固杆具有螺杆,其特征在于:还包括堵头和调节座,该螺套固接在轴套的一端内,该堵头固接在轴套的另一端内,该螺套和堵头间隔;该轴套内之螺套和堵头间设有固杆、螺环、第一磁铁、第二磁铁、第一弹簧、杯体和第二弹簧,该固杆的螺杆螺接在螺套,该第一弹簧顶抵在固杆和第一磁铁之间,该第一磁铁能相对固杆移动,该第二弹簧一端能相对顶抵堵头,该第二弹簧之另一端顶抵第二磁铁,该第二磁铁能相对堵头移动,该第一磁铁和第二磁铁相磁吸,该调节座经调整转动以能配合第二磁铁和堵头和 杯体的杯底,以能调节和调近第二磁铁和堵头的间距尺寸位置;该调节座经调整转动以能配合第二磁铁和堵头和杯体的杯底,以能调整和调近第二磁铁和第一磁铁的间距尺寸位置;其中:该固杆具有凸环,该凸环的外环侧面处凹设有凸环滑动轨道凹槽,且该螺环的贯穿通孔的内环周向的前沿凸设有螺环的内环凸缘,以使该螺环的内环凸缘能抵靠在凸环滑动轨道凹槽内,相对以使该凸环的滑动轨道凹槽能对应配合螺环的内环凸缘,以能控制和定位固杆在相对螺套沿轴线下与上的滑动和移动的轴向和周向的间距尺寸系数位置,相对以能对应配合合页叶片预定设置定位角度。
- 根据权利要求1至4中任一项所述的高密封式门能调节角度定位及自闭铰链,其特征在于:还包括第一螺钉和第二螺钉,该第一螺钉和第二螺钉都具有光杆段和位于末端的螺纹段,该第一螺钉的光杆段穿过第一磁铁且螺纹段螺接在固杆,该第一螺钉的螺杆头支撑在第一磁铁;该第二螺钉的光杆段穿过第二磁铁且螺纹段螺接在堵头,该第二螺钉的螺杆头支撑在第二磁铁。
- 根据权利要求1至4中任一项所述的高密封式门能调节角度定位及自闭铰链,其特征在于:该杯体能相对活动设在轴套内,该第二弹簧顶抵在杯体的杯底和第二磁铁之间,该调节座连接杯体的杯底和堵头用于调整杯底和堵头间的间距,以能调节和调近堵头和第二磁铁的间距,相对以能调节和调近第二磁铁和第一磁铁的间距。
- 根据权利要求6所述的高密封式门能调节角度定位及自闭铰链,其特征在于:该调节座为第三螺钉,该第三螺钉螺接穿过堵头且顶抵在杯体的杯底。
- 根据权利要求6所述的高密封式门能调节角度定位及自闭铰链,其特征在于:该第二弹簧、第二磁铁都完全位于杯体内,该第二磁铁适配滑接杯体,该第一磁铁下部适配滑接杯体。
- 根据权利要求6所述的高密封式门能调节角度定位及自闭铰链,其特征在于:该凸环固接有环形凸环,且该环形凸环固接有连接杆,该第一弹簧套接连接杆且顶抵在凸环和杯体前外环缘及垫片之间。
- 根据权利要求7所述的高密封式门能调节角度自定位铰链,其特征在于:该第二弹簧完全位于固杆具有的凸环和垫片及第一磁铁之间,且该第一螺钉穿过第一磁铁内环通孔、垫片内环通孔和第二弹簧再螺接连接杆,以使第一磁铁和连 接杆连接在一起;该第二磁铁完全位于辅助调节叶片定位角度垫片上,且该第二螺钉穿过第二磁铁内环通孔、垫片内环通孔再螺接调节座,以使第二磁铁和调节座固接在一起;该凸环固接有环形凸环,且该环形凸环固接有连接杆,且该凸环和环形凸环固接一起以能构成凸环,在该环形凸环的外环周向处凹设有环形凹槽,且该环形凸环具有的环形凹槽套接有密封胶圈,且该密封胶圈还伸出环形安装槽外,以能密封靠接在连接套内,且该密封胶圈能配合环形凸环在连接套里下与上的滑动和移动,相对以能在连接套内产生密封阻尼力度和阻力力度和起到增强环形凸环在连接套里下与上的滑动和移动所产生的阻尼力度和阻力力度的效果作用,相对以使环形凸环在连接套里的自定位力度的强度更加增强,相对以能同时对应配合辅助和增强第二磁铁的储能和第一磁铁的储能磁吸一起的储能磁吸力度的增强释放,以使第二磁铁和第一磁铁能强力度的磁吸一起以能强力度的定位在连接套内,也相对以能同时辅助加强和增强合页的叶片在预定角度位置之间的一定位角度位置自定位的力度的强度更增强。
- 根据权利要求7所述的高密封式门能调节角度自定位铰链,其特征在于:该固杆具有的螺杆前缘处凸设有螺杆拉环圈;而该拉钩杆速配转环的内环贯穿通孔,且装置位置是平放位于螺套具有的细杆上;其中该螺套及螺套具有的细杆开设有贯穿的拉簧通孔,以使该拉簧能装置在已贯穿的拉簧通孔内;该拉簧两端固接有前拉钩和后拉钩,而该拉簧一端后拉钩且挂钩住螺杆拉环圈,该拉簧的另一端前拉钩且挂钩住拉钩杆,以使该拉簧能控制固杆具有的螺杆的上下滑动和移动的间距不会变动,相对以能对应配合合页叶片预定设置定位角度;其中:该固杆具有的凸环的外环侧面处凹设有凸环滑动轨道凹槽,且该螺环的贯穿通孔的内环周向的前沿凸设有螺环的内环凸缘,以使该螺环的内环凸缘能抵靠在凸环滑动轨道凹槽内,相对以使该凸环的滑动轨道凹槽能对应配合螺环的内环凸缘,以能定位和限制固杆在相对螺套沿轴向往下与往上的滑动和移动的轴向和轴距的间距尺寸不会变动。
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AU2016333281A AU2016333281B2 (en) | 2015-09-29 | 2016-09-28 | Angle-adjustable positioning and self-closing hinge for highly sealed door |
US15/764,783 US10829975B2 (en) | 2015-09-29 | 2016-09-28 | Angle-adjustable positioning and self-closing hinge for highly sealed door |
EP16850352.2A EP3342968B1 (en) | 2015-09-29 | 2016-09-28 | Angle-adjustable positioning and self-closing hinge for highly sealed door |
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