The invention relates to a door closer which belongs to the technical field of the door closers, in particular to a door closer capable of realizing self-control positioning.
At present, door closers are ordinarily adopted in safety doors, anti-theft doors, room doors, toilet doors, kitchen doors, screen window doors, cabinet doors or windows and the like for realizing the automatic closing function, thereby realizing effective fireproof and anti-theft effect. In the prior art, the types of the door closers can be mechanical type, pneumatic type and hydraulic type generally, wherein the mechanical door closers generally adopt springs for constituting elastic components, when an operator pushes a door leaf, the spring is driven to accumulate energy by stretching, compression or torsion and other deformation, when the operator leaves the door leaf, the status of the spring is changed from energy accumulation to energy release, and a pull rod can close a door under the drive of the spring. But, the mechanical door closers in the prior art have one problem during the using process, that is the door closer can only fix a position of the door leaf when the opening angle of the door leaf exceeds 90 degrees, otherwise, the door closer can automatically drive the door leaf to close, so that the use is not convenient enough sometimes.
The invention aims at overcoming the shortcomings and the deficiencies in the prior art and providing a door closer capable of realizing self-control positioning, which is reasonable and compact in structure, convenient and easy for operation, practical and reliable.
In order to realize the purposes, the invention is realized through the following technical scheme: A door closer capable of realizing self-control positioning comprises an elastic mechanism, wherein the elastic mechanism comprises a cylindrical housing, a piston component, a long spring and a pull rod, the piston component is built in the cylindrical housing and connected and fastened with one end of the pull rod, the pull rod is sheathed in the long spring, and two end parts of the long spring respectively are in contact with a sealing lid of the piston component and the cylindrical housing; and the door closer further comprises a self-control positioning mechanism, the self-control positioning mechanism comprises a cylindrical outer sleeve, a control part and a locking part, the cylindrical outer sleeve is connected and fastened with the cylindrical housing, the control part is engaged and disengaged with the locking part, and the locking part is engaged and disengaged with the pull rod, and the pull rod is provided with a series of grooves any one of which is clasped with the locking part.
Further, the pull rod is in a square structure, the other end of the pull rod, which is opposite to another end fastened the piston component, penetrates the cylindrical outer sleeve and extends out of the end part of the cylindrical outer sleeve, the series of grooves is arranged on a top surface of the pull rod, one side wall of each groove is a vertical plane, and the opposite side wall thereof is an inclined plane.
Further, the control part comprises a rotary control handle, a locking switch and an elastic latch component, wherein the rotary control handle is arranged outside the cylindrical outer sleeve; the locking switch is connected and joined with the rotary control handle to form a connection part and in rotating connection with the cylindrical outer sleeve through a movable pin, a pressing-down convex is arranged at the lower end of the locking switch, the lower is near to the connection part, a pressing-down locking block is arranged at one end which is farther away from the connection part, and a circular arc-shaped bulge is arranged on the outer end side of the pressing-down locking block; and the elastic latch component comprises a latch spring and an elastic latch bar, the latch spring is arranged in a chamber positioned at the upper end of the cylindrical outer sleeve, one end of the elastic latch bar pushes against and is in contact with the latch spring, and the other end of the elastic latch bar extends out of the chamber and is contacted in sliding fit with the circular arc-shaped bulge of the pressing-down locking block of the locking switch.
Further, the locking part is built in the cylindrical outer sleeve and comprises connecting side plates and a movable lock core, wherein the connecting side plates comprise a left connecting side plate, a right connecting side plate, a front connecting side plate and a rear connecting side plate, the connecting side plates are mutually connected for forming a frame-shaped structure, the left connecting side plate and the right connecting side plate are correspondingly provided with special-shaped inclined holes, the front connecting side plate and the rear connecting side plate are correspondingly provided with square holes for enabling the pull rod to penetrate, an extended block is arranged at the upper end of the front connecting side plate, and a guide wedge block is arranged at the upper end of the rear connecting side plate; and the movable lock core is engaged and disengaged with the locking switch, the movable lock core is arranged in the frame-shaped structure of the connecting side plates and connected in sliding fit with the special-shaped inclined holes of the left connecting side plate and the right connecting side plate through a movable bolt, two ends of the movable bolt are respectively connected and matched with tension springs positioned at the left connecting side plate and the right connecting side plate, and a clasp is arranged at the lower end of the movable lock core, which is clasped with any one of the series of grooves on the pull rod when locking.
Further, the movable lock core pushes against the extended block when the pull rod is in a locking state, and pushes against the guide wedge block when the pull rod is in a free state. Further, the movable lock core is formed by connecting and fastening a plurality of sheets, and each sheet is respectively provided with the clasp which is clasped with any one of the series of grooves on the pull rod when locking.
Further, the locking part comprises a positioning support, and the positioning support is respectively fixed in plug-in manner with the left connecting side plate and the right connecting side plate.
Compared with the prior art, the invention has the following benefits:
1) the pull rod can be limited and positioned at any angle through the self-control positioning mechanism, thereby ensuring that a door leaf can be positioned arbitrarily and facilitating personnel circulation or cargo transportation and the like; and
2) the overall structure is reasonable and compact, the operation is convenient and easy, and the door closer is safe, practical and reliable, and further applicable to popularization and use in different occasions.
In order to understand the invention more clearly, in combination of the figures, the invention is further described through the following embodiments.
a, 4b and 4c are schematic diagrams of using principles of the invention.
As shown in
The elastic mechanism 1 comprises a cylindrical housing 11, a piston component 12, a long spring 13 and a pull rod 14, wherein the piston component 12 is built in the cylindrical housing 11 and connected and fastened with one end of the pull rod 14, the pull rod 14 is sheathed in the long spring 13, two end parts of the long spring 13 respectively are in contact with a sealing lid of the piston component 12 and the cylindrical housing 14, the pull rod 14 is in a square structure, a series of grooves is arranged on a top surface of the pull rod 14, one side wall of each groove 141 is a vertical plane, and the opposite side wall thereof is an inclined plane.
The self-control positioning mechanism 2 comprises a cylindrical outer sleeve 21, a control part 22 and a locking part 23, the cylindrical outer sleeve 21 is connected and fastened with the cylindrical housing 11, the control part 22 is engaged and disengaged with the locking part 23, and the locking part 23 is engaged and disengaged with the pull rod 14.
Further, the control part 22 comprises a rotary control handle 221, a locking switch 222 and an elastic clamping component 223, wherein the rotary control handle 221 is arranged outside the cylindrical outer sleeve 21; the locking switch 222 is connected and joined with the rotary control handle 221 to form a connection part and in rotating connection with the cylindrical outer sleeve 21 through a movable pin 2221, a pressing-down convex 2222 is arranged at the lower end of the locking switch, the lower end is near to the connection part, a pressing-down locking block 2223 is arranged at one end which is farther away from the connection part, and a circular arc-shaped bulge 2224 is arranged on the outer end side of the pressing-down locking block 2223; and the elastic latch component 223 comprises a latch spring 2231 and an elastic latch bar 2232, the latch spring 2231 is arranged in a chamber positioned above the upper end of the cylindrical outer sleeve 21, one end of the elastic latch bar 2232 pushes against and is in contact with the latch spring 2231, and the other end of the elastic latch bart extends out of the chamber and is contacted in sliding fit with the circular arc-shaped bulge 2224 of the pressing-down locking block 2223 of the locking switch.
Further, the locking part 23 is built in the cylindrical outer sleeve 21 and comprises connecting side plates 231 and a movable lock core 232, wherein the connecting side plates 231 comprise a left connecting side plate 2311, a right connecting side plate 2312, a front connecting side plate 2313 and a rear connecting side plate 2314, the connecting side plates are mutually connected for forming a frame-shaped structure, the left connecting side plate 2311 and the right connecting side plate 2312 are correspondingly provided with special-shaped inclined holes 2315, a positioning support 2316 is arranged between the left connecting side plate 2311 and the right connecting side plate 2312 by plug-in connection, the front connecting side plate 2313 and the rear connecting side plate 2314 are correspondingly provided with square holes 2317 for enabling the pull rod 14 to penetrate, an extended block 2318 is arranged at the upper end of the front connecting side plate 2313, and a guide wedge block 2319 is arranged at the upper end of the rear connecting side plate 2314; and the movable lock core 232 is engaged and disengaged with the locking switch 222, the movable lock core 232 is arranged in the frame-shaped structure of the connecting side plates and connected in sliding fit with the special-shaped inclined holes 2315 of the left connecting side plate 2311 and the right connecting side plate 2312 through a movable bolt 2321, two ends of the movable bolt 2321 are respectively connected and matched with tension springs 2322 positioned at the left connecting side plate 2311 and the right connecting side plate 2312, the movable lock core 232 is formed by connecting and fastening a plurality of sheets 2323, and each sheet 2323 is respectively provided with clasp 2324 which can be clasped with the series of grooves on the pull rod 14. Preferably, the movable lock core 232 pushes against the extended block 2318 when the pull rod 14 is in the locking state, and pushes against the guide wedge block 2319 when the pull rod 14 is in the free state.
The using principles of the inventions are as follows:
As shown in
As shown in
As shown in
The invention is not limited to the above embodiments, if the changes or the derivations to the invention are not separated from the spirit and the range of the invention, and the changes and the derivations belong to the claims and the equivalent technical range, the invention also intends to include the changes and the derivations.
Number | Date | Country | Kind |
---|---|---|---|
2011 1 0000407 | Jan 2011 | CN | national |
Number | Name | Date | Kind |
---|---|---|---|
2423118 | Ramsay | Jul 1947 | A |
2732920 | Newton | Jan 1956 | A |
4382311 | Watts | May 1983 | A |
4639969 | Obenshain | Feb 1987 | A |
4813163 | Livingston et al. | Mar 1989 | A |
4894883 | Fleischhauer | Jan 1990 | A |
5529148 | O'Leary | Jun 1996 | A |
5630248 | Luca | May 1997 | A |
5832562 | Luca | Nov 1998 | A |
6615449 | Alvarez | Sep 2003 | B1 |
7134168 | Qing | Nov 2006 | B1 |
20030226235 | Hodson | Dec 2003 | A1 |
Number | Date | Country |
---|---|---|
2545322 | Apr 2003 | CN |
201424887 | Mar 2010 | CN |
201554315 | Aug 2010 | CN |
WO 9612077 | Apr 1996 | WO |
Number | Date | Country | |
---|---|---|---|
20120167340 A1 | Jul 2012 | US |