Patent Application
20110138573
The present invention relates to a door closer, and particularly to an air pressure inner circulation-type automatic compensation control door closer.
Currently, a door closer is usually mounted between a door body and a doorframe in an office or some public sites. When the door is opened, it will close automatically close due to an elastic return force of the door closer, whereby to ensure accurate and timely closing to an initial position after the door is opened and providing great convenience to people's life.
Door closers are roughly classified into hydraulic door closers and air control-type door closers according to the driving sources. Hydraulic door closers have relatively complicated internal structures and therefore are not convenient for spread and application. In the prior art, air control-type door closers are mostly used generally.
In the prior art, some people makes specific improvements to the air control-type door closer, e.g., the patent for invention No. 200720181355.0 entitled “Constant Speed Device for Door Closers”, wherein the door closer can reduce a return speed of the telescope arm, i.e., lessen the return initial speed of the door body thereby achieving the effect of closing the door at a constant speed in the whole stroke. However, air vents are provided on the wall of the cylinder of the patented invention, air constantly enters from outside. Since air entrains dusts, after a large amount of dusts is mixed to lubricant oil between the cylinder walls, the mixed lubricant oil with dusts are extremely liable to obstructions of through holes of the cylinder wall and deprives the door closer of normal operations. In addition, due to presence of a lot of dusts in the lubricant oil, the lubricating effect of the lubricant oil deteriorates and the lubricating capacity is weakened, the frictional force thereof is increased and the service life of the door closer is shortened.
An object of the present invention is to overcome drawbacks in the prior art and provide an air pressure inner circulation-type automatic compensation control door closer which ensures air substantially flows cyclically in a cylinder body, reduces pollution caused by dusts in air into and out of the cylinder body to the lubricant oil in the cylinder wall, guarantees the lubricating effect of the lubricant oil, enables the door closer to operate normally and effectively prolong the service life of the door closer.
To achieve the above object, the present invention employs the following technical solution:
An air control-type door closer according to the present invention comprises a cylinder body and a telescopic rod running through an end cap at one end of the cylinder body and being freely telescopic to open and close the door, characterized in that a one-way air intake valve means is provided at the other end of the cylinder body to take in air in one way in an internal cavity of the cylinder body when the door is opened, at one end portion of the telescopic rod in the interior of the cylinder body is connected a regulating valve means wherein the gas in the cylinder body flows cyclically in the cavity of the cylinder body when the telescopic rod in a moving state, an inner cover sealing means is fixedly provided at a position of the cavity of the cylinder body inside the end cap to form gas sealing with the telescopic rod and with an inner wall of the cylinder body, and a large compression spring is provided in a cavity between the inner cover sealing means and the regulating valve means; the internal cavity of the cylinder body is divided into two automatically pressurizeable and automatically compensatable gas cavities through the inner cover sealing means, the regulating valve means and the air intake valve means. When the door is opened or closed, the gas inside the internal cavity of the cylinder body flows cyclically in the two gas cavities.
As a further improvement of the above technology, the inner cover sealing means comprises in turn an inner cover forming sealing with the inner wall of the cylinder body, a sealing block with a slot, and a gasket, which are provided around outside the telescopic rod, the gasket is embedded in the slot of the sealing block, a sealing rubber ring is provided between the inner cover and the sealing block and an inner wall surface of the cylinder body, between the inner side wall of the inner cover and the sealing block and between the sealing block and the telescopic rod.
In the present invention, the regulating valve means comprises a plunger sleeve connected to a free end of the telescopic rod, one end of the plunger sleeve is snap-fitted with the free end of the telescopic rod, the other end of the plunger sleeve is provided with an opening inside which a valve jacket and a first valve core are provided in turn from outside to inside, a central through hole is provided in the interior of the valve jacket and the first valve core, the first valve core is disposed in the central hole at a distal position of the valve jacket and cooperates sealingly with the valve jacket, a first head pin is provided in the central through hole of the first valve core to cooperate sealingly with the inner wall surface of the first valve core, a small compression spring is provided between a bottom portion of the first head pin and a bottom portion of the central through hole at a head position of the valve jacket, a plurality of air vents are provided symmetrically on the plunger sleeve, and an air flow channel for air circulation purpose is provided on the outer wall surface of the valve jacket.
To perform a speed regulating function of the door closer of the present invention, the plunger sleeve is threadedly connected to an end portion of the valve jacket, and an air gap for receiving air is provided between an internal cavity of the plunger sleeve and a middle position of the valve jacket. The size of the air gap receiving air can be changed by tightly screwing the valve jacket or screwing out the plunger sleeve to change a flow speed of the air flow, thereby achieving the object of better regulating the door closing speed of the door closer.
In order to improve the sealing performance of the present invention, a sealing rubber ring is provided respectively between the outer wall of the end portion of the plunger sleeve and the inner wall of the cylinder body, between the first valve core and an inner wall of the valve jacket, and on the outer wall of the valve jacket.
In the present invention, an annular slot is provided at a distal end portion of the telescopic rod, a boss is provided on the plunger sleeve, and the telescopic rod is snap fitted with the plunger sleeve via the annular slot and the boss so that the telescopic rod, upon rotation, cannot bring all the parts in the cylinder body 1 of the door closer into rotation so as to ensure a stable working performance of the door closer.
As a further improvement of the above technology, the one-way air intake valve means comprises a rotatable handwheel, a central through hole with stepped faces is provided in the rotatable handwheel, a second valve core in sealing cooperation with the rotatable handwheel is provided in the central through hole in the head portion of the rotatable handwheel, a central hole is also provided in the interior of the second valve core in which is disposed a head pin sealingly cooperating with the second valve core, a small compression spring is provided between a bottom portion of the head pin and a distal end stepped face of the central through hole of the rotatable handwheel, the dimension of the distal end of the rotatable handwheel cooperates with the dimension of the central hole of the valve jacket in the regulating valve means.
In the present invention, in order to better limit the end portion of the large compression spring, a spring clip for clipping the large compression spring is provided on the inner wall of the cylinder body at the same side of the one-way air intake valve means.
In the present invention, the central hole of the end portion of the valve jacket is a hexagonal or square hole; when the door is completely closed, the door closing speed can be effectively regulated, i.e., the valve jacket can be strewed into or out of the plunger sleeve by complete cooperation between the central hole of the end portion of the valve jacket and the rotatable handwheel and by rotating the valve jacket via the rotatable handwheel to better satisfy the user's needs.
Additionally, for easy replacement of the parts in the interior of the cylinder body, the end cap is snap-fitted with the open end of the cylinder body. In the event of maintenance or replacement, the end cap only needs to be opened, which is convenient and practical.
As compared with the prior art, the advantageous effects of the present invention are as follows:
(1) The door closer according to the present invention is an air pressure inner circulation-type automatic compensation door closer, wherein by means of the one-way air intake valve means, the regulating valve means and the inner cover sealing means provided at the internal cavity at the other end of the cylinder body, when the telescopic rod gradually extends when the door is opened, the cavity between the regulating valve means and the one-way air intake means forms a negative pressure, whereupon air between the inner cover sealing means and the regulating valve means flows into the cavity between the one-way air intake valve means and the regulating valve means, and when necessary, the one-way air intake valve means opens to complement air to the internal cavity of the cylinder body (air is sucked in chiefly by the one-way air intake valve means at the first time of use). When the door closes automatically, the telescopic rod retracts due to an elastic return force of the large compression spring, the cavity between the inner cover sealing means and the regulating valve means forms a negative pressure, whereupon the one-way air intake valve means is in a gas sealing state and does not release air outside, air between the regulating valve means and the one-way air intake valve means enters the cavity between the inner cover sealing means and the regulating valve means through the regulating valve means, and the gas in the cylinder still merely flows cyclically in the interior of the cylinder body. The two gas cavities in the cylinder body can pressurize automatically and compensate automatically, so that the gas in the cylinder body will not leak outside but flows cyclically in the interior of the cylinder body even if the door is opened and closed for many times, thereby avoiding pollution of the lubricant oil on the inner wall of the cylinder body caused by external air into and out of the cylinder body for many times and influence on normal use and service life of the door closer; a larger amount of compressed air between the one-way air intake valve means and the regulating valve means provides a greater resistance against the restoration of the telescopic rod so that the telescopic rod exhibits a good damping effect upon retraction and return, better ensures no greater impingement and small noise when the door body is closed, and protect the door body or doorframe from damages, with a great practicability.
(2) According to the present invention, the movement speed of the telescopic rod of the door closer can be regulated according to the user's own needs, thereby regulating the door closing speed of the door closer and providing convenience and practicability.
The present invention will be described in detail with reference to the drawings and preferred embodiments.
As shown in
As can be seen from
In the present invention, as shown in
In addition, as shown in
To improve the sealing effect, a sealing rubber ring 46 is provided at an end portion of the plunger sleeve 41, a sealing rubber ring 47 is provided between the first valve core 43 and an inner wall of the valve jacket 42, and a sealing rubber ring 48 is provided on the outer wall of the valve jacket 42.
In the present invention, an annular slot is provided at a distal end portion of the telescopic rod 2, a boss is provided on the plunger sleeve 41, and the telescopic rod 2 is snap fitted with the plunger sleeve 41 via the annular slot and the boss so that the telescopic rod 2, upon rotation, cannot bring all the parts in the cylinder body 1 of the door closer into rotation so as to ensure a stable working performance of the door closer.
In the present invention, as shown in
As shown in
In the present invention, the end cap 11 is snap-fitted with or can be detachably mounted with the open end of the cylinder body 1, thereby facilitating replacement or maintenance and cleaning of the internal parts of the cylinder body 1.
The working procedure of the pneumatic control-type door closure of the present invention is as follows:
As shown in
The door closer according to the present invention is adapted for a door body of any structure, mounted in a currently common mounting manner, generally mounted on a doorhead position in a way that a fixing end of the telescopic rod 2 is mounted on a top position of the door body and one end portion of the cylinder body 1 is mounted on the doorframe or between the doorframe.
The present invention is not limited to the above embodiments. If various modifications or variations to the present invention do not depart from the spirit and scope of the present invention and fall within the scope of claims of the present invention and equivalent technologies, the present invention also contains these modifications and variations.
| Number | Date | Country | Kind |
|---|---|---|---|
| 200910262299.7 | Dec 2009 | CN | national |
