Technical Field
This utility model relates to a hinge, and in particular, to a hinge used for an oven door body.
Related Art
With gradual improvement of living standards of people, an oven used for making and cooking food is also gradually becoming a tool for everyday life of people. An oven includes an oven body and a door body that is installed at a front side of the oven body. During a using process, the door body is opened first, then food is put into the oven and the door body is closed, and the food is baked. For a common oven, the oven body and the door body are connected by using a common hinge. When the door body is closed, the door body is fastened to the oven body and covers the oven body. When the door body is opened, the door body stays in a horizontal state. A user needs to give a certain supporting force on the door body to make the door body to stay on a position of any angle. After the oven is used and needs to cool down, the door body can only be opened totally in a horizontal state, which occupies larger space and causing inconvenience to the user.
Certainly, all these hinges mostly depend on a pulling force of a spring, and a manner of twisting pulling is used. When the door needs to be opened, the oven door is being opened and the spring is pulled, and opening of the oven door is implemented. When the oven door needs to be closed, it is only needed to let the oven door free, and the oven door is closed because of a resetting function of the spring. In actual use, because resetting of the spring has a certain accelerated speed, at the moment when the oven door is nearly closed, the oven door has largest kinetic potential energy and a relatively large speed, and the oven is easy to be damaged if the oven is stroke in such way for a long time. A common method is to label a door sill with a damping material, such as sponge; however, the spring under this practice still has large potential energy, and is still easy to be damaged. In conclusion, a problem needing to be solved currently is to develop an oven hinge that can slow down automatically at a certain position and avoid striking an oven door sill, which damages a door sill or a hinge easily; certainly, for example, although an oven hinge mentioned in the public application CN201020193660.3 can solve the foregoing problem, but a structure is complicated, and for ovens of different types, overall adjustment needs to be made further for application.
An objective of the present utility model is to provide a hinge structure that has a simple structure and can provide, for an oven door body, a balancing force and a buffering force within a relatively large angle and can have a certain holding pressure when the door body is being closed.
To achieve the foregoing objective, the present utility model uses the following technical solutions:
This hinge includes a hinge arm and a hinge base fitting with the hinge arm, where a support is disposed between the hinge arm and the hinge base; a first end of the support is movably connected to the hinge arm, and a second end is movably disposed with the hinge base; a locking position is disposed on the hinge arm; a connecting piece is disposed in fitting with the locking position; a first end of the connecting piece is movably connected to the body of the support, and a second end is movably connected to a first end of a rocking bar; the body portion of the rocking bar is movably connected coaxially to a second end of the support and the hinge base; a connecting shaft is disposed on a second end of the rocking bar; a first end of a spring is hung to the connecting shaft, and the other end of the spring is hung to a hanging shaft that is disposed fixedly with the hinge base.
The body portion of the rocking bar, the second end of the support, and the hinge base are fixedly connected by using a same shaft, and a shaft sleeve is disposed separately at positions at which two ends of the shaft are in contact with the hinge base.
An elliptic elongated groove is disposed on the hinge base, and the shaft is disposed in the elongated groove.
The hinge arm and the first end of the support are movably connected by using a support rivet.
The connecting piece is disposed in the support in a locking manner, groove holes are disposed on two parallel side faces that are on the support and close to the first end, a roller shaft runs through the first end of the connecting piece and the groove hole, a roller is disposed on the roller shaft, and the roller is disposed in fitting with the locking position.
The first end of the rocking bar and the second end of the connecting piece are movably connected by using a rocking bar rivet.
The hinge arm and the hinge base are movably connected by using a hinged rivet and a hinged sleeve that is sleeved on the hinged rivet.
The connecting shaft and the hanging shaft are both rivets.
By using the foregoing technical solutions, this utility model has the following beneficial effects:
By using the foregoing simple structure, it can be ensured that the hinge maintains a balancing angle between 25° and 85° when a door body is opened; when a door is being opened, the hinge pulls a spring by rotating a hinge arm, and provides a supporting force to a roller by using a connecting piece and a support, and the hinge arm and the door can stop at any angle between 25° and 40°; when the door is being closed, the door causes the hinge arm to rotate, a tension force of the spring provides a pressure to the roller by using the connecting piece and the support, the roller presses on an inclined surface of the hinge arm, so that the door is quickly closed within 25°, and the door has a certain holding pressure, and therefore the door body can be opened and closed in a safer and more stable and convenient way; in addition, because of a connecting spring, the connecting piece and the support on a key component rocking bar, by adjusting a hole position of a connecting rivet and a force of the spring, a balancing force and a buffering force can be provided for gates with different weights in a changing way, and the adaptability is good.
The utility model is further described below with reference to the accompanying drawings.
As shown in
When in use, an oven door is pulled, that is, the hinge arm 1 is caused to rotate around the hinge base 6. A high spot of the locking position 12 is originally disposed under the roller 5. When an angle between the hinge arm and the hinge base reaches a certain degree, the high spot of the locking position 12 trips under the roller 5, and a side face of the locking position and a side face of the roller press against each other to form a new balance; in this process, because rotation of the hinge arm causes linked motion of the support, the connecting piece, and the rocking bar, the spring returns to an original state from a pulling state as long as a specific range of rotation of the hinge arm is between 25° and 85°. Meanwhile, because the hinge pulls the spring by rotating the hinge arm, and provides a supporting force to the roller by using the connecting piece and the support, the hinge arm and the door can stop at any angle between 25° and 40°; when the door is being closed, the door causes the hinge arm to rotate, a tension force of the spring provides a pressure to the roller by using the connecting piece and the support, the roller presses on an inclined surface of the hinge arm, so that the door is quickly closed within 25°, and the door has a certain holding pressure and can be closed slowly; besides, because the hinge base is provided with the elliptic elongated groove, so that the spring can adjust a forces at each angle by pulling of the support; the shaft is disposed in fitting with the elongated groove, and a shaft sleeve is disposed separately at two sides, so that the shaft rolls inside a hole, and wear resistance performance of a contact piece can be improved.
Filing Document | Filing Date | Country | Kind |
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PCT/CN2013/074353 | 4/18/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2014/169457 | 10/23/2014 | WO | A |
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Entry |
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International Search Report and Written Opinion for International Application PCT/CN2013/074353, dated Jan. 30, 2014, 8 pgs. |
Number | Date | Country | |
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20160083992 A1 | Mar 2016 | US |