CN113236054A

CN113236054A - Temperature control door for rubber support laboratory

Info

Publication number: CN113236054A
Application number: CN202110657175.XA
Authority: CN
Inventors: 李学峰; 王正; 谢忠阳; 王秀丽; 陈冰; 杭鹰; 赵学峰
Original assignee: Jiangsu Province Traffic Engineering Group Bairun Engineering Testing Co ltd
Current assignee: Jiangsu Province Traffic Engineering Group Bairun Engineering Testing Co ltd
Priority date: 2021-06-11
Filing date: 2021-06-11
Publication date: 2021-08-10

Abstract

The utility model relates to a rubber support is accuse temperature door for laboratory, relate to the field that building engineering quality detected, it includes the door frame and articulates in the door plant of door frame through the hinge, the door opening that is used for placing the door plant is offered to the door frame, the lateral wall of door plant is fixed with the electro-magnet, the electro-magnet salient in the door plant, and the electro-magnet salient in the part and the door frame magnetism of door plant inhale mutually and butt adaptation, the lateral wall of door plant is fixed with temperature-sensing ware and is used for the controller of controlling the electro-magnet outage under the high temperature condition, and the equal electricity of controller and temperature-sensing ware and electro-magnet is connected. This application has the effect that reduces the tester distraction number of times, can assist the laboratory intelligently to keep warm or dispel the heat, is favorable to promoting the detection precision of rubber support, and is favorable to reducing tester's intensity of labour.

Description

Temperature control door for rubber support laboratory

Technical Field

The application relates to the field of constructional engineering quality detection, in particular to a temperature control door for a rubber support laboratory.

Background

The rubber mount is a support member for supporting the weight of the container or the equipment and fixing the container or the equipment in a certain position, and also receives vibration and earthquake load during operation. The rubber support is used as an important component of a bridge, bears and transmits load and adapts to rotation and displacement of a beam body, the support is very difficult to replace once being installed, and the cost and the technical difficulty of replacing the support are quite high, so that the quality detection of the rubber support is very important.

At present, the test on the rubber support is generally carried out in a specific rubber support laboratory, in order to ensure the accuracy of the test result, the test on the rubber support needs to be carried out at a specific temperature, and the temperature is generally controlled by controlling the opening and closing of a door and a window in the test process.

The related art described above has the following disadvantages: because the door of rubber support laboratory usually adopts the handle of bolt formula for only the tester that is located the laboratory can open or close the door plant, consequently the tester that is located the laboratory when needs adjust indoor temperature or need pass in and out the laboratory need open or close the bolt on the door, leads to the tester to be easy to be distracted.

Disclosure of Invention

In order to improve the problem that the tester is easy to be distracted, the application provides a temperature control door for a rubber support laboratory.

The application provides a rubber support is temperature-controlled door for laboratory adopts following technical scheme:

the utility model provides a rubber support is accuse temperature door for laboratory, include the door frame and articulate in through the hinge the door plant of door frame, the door frame is offered and is used for placing the door opening of door plant, the lateral wall of door plant is fixed with the electro-magnet, the electro-magnet outstanding in the door plant, just the electro-magnet outstanding in the part of door plant with door frame magnetism looks inhale and butt adaptation, the lateral wall of door plant is fixed with temperature-sensing ware and is used for controlling under the high temperature condition the controller of electro-magnet outage, just the controller with temperature-sensing ware and the equal electricity of electro-magnet is connected.

By adopting the technical scheme, when the indoor temperature is lower than the set maximum temperature, the electromagnet is in an electrified state and has magnetism, the door plate is driven to rotate and enter the door opening through attraction between the electromagnet and the door frame, the temperature control door for the rubber support laboratory is in a stably closed state, the loss of the temperature of the laboratory is further reduced, and a tester does not need to manually close the temperature control door for the rubber support laboratory; when a person enters a test room in the test process, the door plate is pushed indoors, and a tester in the room does not need to open the temperature control door for the rubber support test room; when indoor temperature reaches the highest temperature of settlement, the controller control electro-magnet outage, the electro-magnet loses magnetism, separation that door plant and door frame can be relaxed need not the tester and opens or close the bolt many times to this effect that realizes reducing tester distraction number of times can assist the laboratory intelligently to keep warm or dispel the heat, is favorable to promoting rubber support's detection precision, and is favorable to reducing tester's intensity of labour.

Optionally, the door frame in first activity groove has all been seted up to two inner walls of mutual disposition in the door opening, the door frame in first activity inslot sliding is provided with first buckle, first buckle be used for sheltering from the door frame with gap between door plant top or the bottom, the door frame is provided with and is used for ordering about the actuating mechanism that first buckle slided.

Through adopting above-mentioned technical scheme, drive the first buckle of part through actuating mechanism and slide out first movable groove, shelter from the gap between door frame and the door plant, can reduce the heat that gives off by the gap between door frame and the door plant, be favorable to keeping the temperature of laboratory steadily, further promote rubber support's detection precision.

Optionally, actuating mechanism including slide in first transmission piece in the door frame, articulate in first articulated arm on the first transmission piece with be used for driving about the part first transmission piece slides out the first elastic component of door frame, the door frame is close to first driving groove has been seted up to the lateral wall of electro-magnet, the length direction of first driving groove is on a parallel with the thickness direction of door frame, and perpendicular to the direction of sliding of first buckle, the tip of first transmission piece with the electro-magnet butt adaptation, first articulated arm is kept away from the tip of first transmission piece articulate in on the first buckle.

By adopting the technical scheme, when the electromagnet is electrified, the door plate rotates and enters the door opening, the electromagnet is gradually close to the door frame and is abutted to the part, protruding out of the door frame, of the first transmission block, and pushes the first transmission block to gradually enter the door frame, the first elastic part is in a compression or stretching state, meanwhile, two ends of the first hinge rod rotate and push the first buckle plate to gradually slide out of the first movable groove, so that the door plate is closed and the first buckle plate slides out synchronously, the heat preservation effect of a test room is improved, the first elastic part can buffer the closing of the door plate, the collision strength between the electromagnet and the door frame is reduced, the service life of the temperature control door for the rubber support test room is prolonged, and the risk that the door frame collides users is reduced; when the electro-magnet outage, first elastic component begins to kick-back or contract back, and drive first transmission piece and first hinge bar and reset, and drive first buckle and get into first movable groove completely, first transmission piece butt electro-magnet simultaneously, and then promote the door plant and rotate and open, make the electro-magnet outage, first buckle returns first movable groove and the door plant rotates opens almost coincident emergence, the heat of being convenient for distributes out the laboratory fast, can accelerate the temperature in the laboratory and fall to normal temperature, further promote rubber support's detection precision, and need not the manual work and open the door plant, further reduce the number of times that the tester is distracted.

Optionally, a first guide way has been seted up along thickness direction to the door frame, just first guide way sets up along length direction's both ends closure, first transmission block be fixed with the first guide block of first guide way adaptation that slides.

Through adopting above-mentioned technical scheme, first guide block slides along the length direction of first guide way for first drive block slides steadily in the door frame, and above-mentioned structural design's first guide way can reduce the risk of first drive block and door frame separation.

Optionally, the first elastic element includes a first spring located in the first transmission groove, one end of the first spring is connected to the side wall of the first transmission block, and the other end of the first spring is connected to the bottom wall of the first transmission groove.

By adopting the technical scheme, when the electromagnet is electrified, the door plate rotates and enters the door opening, the electromagnet is gradually close to the door frame and is abutted to the part, protruding out of the door frame, of the first transmission block, and pushes the first transmission block to gradually enter the door frame, the first spring is in a compressed state, meanwhile, the two ends of the first hinge rod rotate and push the first buckling plate to gradually slide out of the first movable groove, so that the door plate is closed and the first buckling plate slides out synchronously, the heat preservation effect of a test room is improved, the first spring can buffer the closing of the door plate, the collision strength between the electromagnet and the door frame is reduced, the service life of the temperature control door for the rubber support test room is prolonged, and the risk that a user is bruised by the door frame is reduced; when the electro-magnet outage, first spring begins to kick-back, and drive first transmission piece and first hinge bar and reset, and drive first buckle and get into first movable groove completely, first transmission piece butt electro-magnet simultaneously, and then promote the door plant and rotate and open, make the electro-magnet outage, first buckle returns in the first movable groove and the door plant rotates opens almost simultaneous occurrence, the heat of being convenient for distributes out the laboratory fast, can accelerate the temperature in the laboratory and fall to normal temperature, further promote the detection precision of rubber support, and need not the manual work and open the door plant, further reduce the number of times that the tester is distracted.

Optionally, the door frame in the second activity groove has all been seted up to two other mutual disposition's of door opening inner wall, just the door frame in the second activity inslot sliding is provided with the second buckle, the direction of sliding perpendicular to of second buckle the direction of sliding of first buckle, the second buckle is used for the lock the door frame with the door plant is kept away from or is close to gap between the lateral wall of hinge, the door frame with be provided with between the door plant and order about the drive mechanism that the second buckle slided.

Through adopting above-mentioned technical scheme, order about the second buckle through drive mechanism and slide out the second activity groove, the second buckle can shelter from the gap between door frame and the door plant lateral wall, further reduces the heat that gives off by the gap between door frame and the door plant, is favorable to keeping the temperature in the laboratory steadily, further promotes the detection precision of rubber support.

Optionally, the transmission mechanism includes a pushing block slidably disposed in the door panel, a second transmission block slidably disposed in the door frame, a second hinge rod movably hinged to the second transmission block, a second elastic member for driving a part of the pushing block to slide out of the door panel, and a third elastic member for driving the second transmission block to reset, the door panel is far away from and close to the side wall of the hinge and is provided with a sliding groove adapted to the sliding of the pushing block, the end of the pushing block is adapted to the second transmission block in an abutting manner, the end of the pushing block is provided with two inclined planes for driving the pushing block to enter the sliding groove, the door frame is far away from the door opening and is close to the inner wall of the hinge and is provided with a second transmission groove adapted to the sliding of the second transmission block, and the extending direction of the second transmission groove is parallel to the extending direction of the second movable groove, the end part of the second hinge rod far away from the second transmission block is movably hinged to the second buckling plate.

By adopting the technical scheme, in the process that the door panel enters the door opening, the inclined plane of the pushing block is extruded and gradually enters the chute, meanwhile, the second elastic part is in a compressed or stretched state until the notch of the sliding groove is aligned with the second transmission groove, the second elastic part begins to rebound or retract and drives the pushing block to enter the second transmission groove, the second transmission block is driven to gradually get away from the door plate, the third elastic part is in compression or stretching, the second hinge rod is driven to rotate, and the two ends of the second hinge rod are also movable, thereby driving the second buckle plate to slide out of the second movable groove, closing the door panel and sliding out of the second buckle plate are synchronously carried out, being beneficial to further improving the heat preservation effect of the laboratory, and the second elastic component can cushion the closing of the door plate, reduce the collision strength between the electromagnet and the door frame, and is favorable for prolonging the service life of the temperature control door for the rubber support laboratory. Rotate the in-process that goes out the door opening at the door plant, the inclined plane that promotes the piece receives the extrusion and gets into the spout gradually in, third elastic component kick-backs gradually or contracts back simultaneously, and drive second transmission piece and second hinge bar and reset, and then order about the second buckle and slide back to the second movable groove in, make the second buckle return in the second movable groove and the door plant rotates and open almost simultaneous occurrence, the heat of being convenient for distributes out the laboratory fast, can accelerate the temperature in the laboratory and fall to normal temperature, further promote rubber support's detection precision.

Optionally, the second elastic element includes a second spring located in the sliding groove, one end of the second spring is connected to the side wall of the pushing block, and the other end of the second spring is connected to the bottom wall of the sliding groove.

Through adopting above-mentioned technical scheme, the second spring can exert drive power to pushing the piece to order about part to push the piece and slide out the spout, and then order about part second fly leaf and slide out the second movable groove, can cushion closing of door plant simultaneously.

Optionally, the third elastic element includes a third spring located in the second transmission groove, one end of the third spring is connected to the side wall of the second transmission block, and the other end of the third spring is connected to the bottom wall of the second transmission groove.

Through adopting above-mentioned technical scheme, the third spring can exert elastic force to the second transmission piece to order about the second transmission piece, and then order about the second movable block and return the second activity groove completely, make the second buckle return in the second activity groove and the door plant rotates and opens almost coincident emergence, the heat of being convenient for gives out the laboratory fast.

Optionally, the door plant in the lateral wall of spout has seted up the spacing groove, the length direction of spacing groove is on a parallel with the extending direction of spout, the both ends closure setting along length direction of spacing groove, promote the piece be fixed with the stopper of spacing groove adaptation that slides.

Through adopting above-mentioned technical scheme, the stopper slides along the length direction of spacing groove for promote the piece and slide in the spout steadily, and above-mentioned structural design's spacing groove can reduce the risk that promotes the piece and the separation of door plant.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the temperature sensor is used for monitoring the temperature in the test room, the controller is used for controlling the temperature of the electromagnet, a temperature control door for the rubber support test room does not need to be manually closed by a tester, and a bolt does not need to be opened or closed by the tester for multiple times, so that the effect of reducing the distraction times of the tester is realized, the test room can be intelligently assisted to carry out heat preservation or heat dissipation, and the detection accuracy of the rubber support is favorably improved;

2. the door plate can be closed synchronously with the sliding out of the first buckling plate through the first transmission block, the first hinge rod and the first spring, the heat preservation effect of a test room is favorably improved, the first spring can also buffer the closing of the door plate, the power failure of the electromagnet, the return of the first buckling plate into the first movable groove and the rotation and opening of the door plate almost simultaneously occur, and the heat can be conveniently and rapidly emitted out of the test room;

3. make closing of door plant and the roll-off of second buckle go on in step through promoting piece, second transmission piece, second hinge bar, second spring and third spring, be favorable to further promoting the heat preservation effect of laboratory, the second spring can also cushion closing of door plant, and makes in the second buckle returns the second movable groove and the door plant rotates opens almost coincident emergence, and the heat of being convenient for gives out the laboratory fast.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of the overall structure of the other side of the embodiment of the present application;

FIG. 3 is a schematic structural diagram of an electromagnet, a first pinch plate and a driving mechanism according to an embodiment of the present application;

FIG. 4 is a schematic illustration in partial cross-sectional view of an embodiment of the present application;

FIG. 5 is an enlarged schematic view of portion A of FIG. 4;

FIG. 6 is a schematic structural view of a second gusset and a transmission mechanism of an embodiment of the present application;

FIG. 7 is a schematic illustration in partial cross-sectional view of an embodiment of the present application;

fig. 8 is an enlarged schematic view of a portion B in fig. 7.

Reference numerals: 1. a door frame; 11. a door opening; 12. a hinge; 13. a first movable slot; 131. a first buckle plate; 1311. a second ear panel; 14. a second movable slot; 141. a second buckle plate; 1411. a second hinge groove; 15. a first transmission groove; 16. a first guide groove; 17. a second transmission groove; 18. a second guide groove; 19. a first hinge chamber; 110. a second hinge chamber; 2. a door panel; 21. a chute; 22. a limiting groove; 31. an electromagnet; 32. a temperature sensor; 33. a controller; 4. a drive mechanism; 41. a first transmission block; 411. a first guide block; 412. a first ear plate; 42. a first hinge lever; 43. a first spring; 5. a transmission mechanism; 51. a pushing block; 511. a limiting block; 52. a second transmission block; 521. a second guide block; 522. a first hinge slot; 53. a second hinge lever; 54. a second spring; 55. and a third spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses rubber support is temperature-controlled door for laboratory. Referring to fig. 1, the temperature control door for the rubber support laboratory comprises a door frame 1 and a door plate 2 hinged to the door frame 1 through a hinge 12, a door opening 11 for placing the door plate 2 is formed in the door frame 1, one piece of the hinge 12 is fixed to the door frame 1 through a screw, the other piece of the hinge 12 is fixed to the door plate 2 through a screw, and the door plate 2 is stably and rotatably connected to the door frame 1.

Referring to fig. 1, door plant 2 is close to indoor lateral wall and is fixed with electro-magnet 31, and electro-magnet 31 can set up one, still can set up a plurality ofly, and electro-magnet 31 is provided with two in this application embodiment, and an electro-magnet 31 sets up in the top of door plant 2, another electro-magnet 31 sets up in the bottom of door plant 2 for door plant 2 receives even geomagnetism, and then is favorable to driving door plant 2 to close steadily. The electromagnet 31 protrudes from the door panel 2, and the portion of the electromagnet 31 protruding from the door panel 2 is magnetically attracted and abutted to the door frame 1. The door panel 2 is fixed with a temperature sensor 32 for monitoring the temperature inside the laboratory and a controller 33 for controlling the electromagnet 31 to be powered off under the high temperature condition, and the controller 33 is electrically connected with the temperature sensor 32 and the electromagnet 31.

When the indoor temperature is lower than the set maximum temperature, the electromagnet 31 is in an electrified state and has magnetism, the door plate 2 is driven to rotate and enter the door opening 11 through attraction between the electromagnet 31 and the door frame 1, the temperature control door for the rubber support laboratory is in a stably closed state, the loss of the temperature of the laboratory is further reduced, and a tester does not need to manually close the temperature control door for the rubber support laboratory; when a person enters a test room in the test process, the door plate 2 is pushed indoors, and a tester in the room does not need to open the temperature control door for the rubber support test room; when indoor temperature reaches the highest temperature of settlement, the outage of controller 33 control electro-magnet 31, electro-magnet 31 loses magnetism, separation that door plant 2 and door frame 1 can be relaxed need not the tester and opens or close the bolt many times to this effect that realizes reducing tester distraction number of times can assist the laboratory intelligently to keep warm or dispel the heat, is favorable to promoting the detection precision of rubber support, and is favorable to reducing tester's intensity of labour.

Referring to fig. 2 and 3, the inner wall of the door frame 1 opposite to the door opening 11 is provided with first movable grooves 13 (refer to fig. 5), the notch of the first movable groove 13 faces the inner cavity of the door opening 11, and the extending direction of the first movable groove 13 is vertical and parallel to the height direction of the door panel 2. The door frame 1 is provided with a first buckle plate 131 in the first movable groove 13 in a sliding manner, and the first buckle plate 131 slides along the extending direction of the first movable groove 13, so that the first buckle plate 131 stably slides in the door frame 1 along the length direction of the first movable groove 13. The first buckle plate 131 located in the first movable groove 13 at the top is used for shielding a gap between the top ends of the doorframe 1 and the door panel 2, the first buckle plate 131 located in the first movable groove 13 at the bottom is used for shielding a gap between the bottom ends of the doorframe 1 and the door panel 2, and the doorframe 1 is provided with a driving mechanism 4 for driving the first buckle plate 131 to slide.

And the door frame 1 has second movable grooves 14 (refer to fig. 8) on the other two oppositely disposed inner walls of the door opening 11, the notches of the second movable grooves 14 face the inner cavity of the door opening 11, and the extending direction of the second movable grooves 14 is perpendicular to the extending direction of the first movable grooves 13 and is horizontal. And the door frame 1 is provided with a second buckle plate 141 in the second movable groove 14 in a sliding manner, the sliding direction of the second buckle plate 141 is perpendicular to the sliding direction of the first buckle plate 131, that is, the second buckle plate 141 slides in the door frame 1 along the extending direction of the second movable groove 14. The second buckle plate 141 close to the hinge 12 is used for buckling a gap between the side walls of the door frame 1 and the door panel 2 close to the hinge 12, the second buckle plate 141 far away from the hinge 12 is used for buckling a gap between the side walls of the door frame 1 and the door panel 2 far away from the hinge 12, and a transmission mechanism 5 (refer to fig. 6) for driving the second buckle plate 141 to slide is arranged between the door frame 1 and the door panel 2.

When closing door plant 2, drive the first buckle 131 of part through actuating mechanism 4 and slide out first movable groove 13, order about second buckle 141 through drive mechanism 5 and slide out second movable groove 14, first buckle 131 and second buckle 141 shelter from the gap between door frame 1 and the door plant 2, can reduce the heat of giving off by the gap between door frame 1 and the door plant 2, are favorable to keeping the temperature of laboratory steadily, further promote the detection precision of rubber support.

Referring to fig. 4 and 5, the driving mechanism 4 includes a first transmission block 41 sliding in the door frame 1, a first hinge rod 42 hinged on the first transmission block 41, and a first elastic member for driving a part of the first transmission block 41 to slide out of the door frame 1, a first transmission groove 15 is formed in a side wall of the door frame 1 close to the electromagnet 31, a notch of the first transmission groove 15 deviates from the door frame 1, a length direction of the first transmission groove 15 is parallel to a thickness direction of the door frame 1 and is a horizontal direction, and is perpendicular to a sliding direction of the first buckle plate 131, so that the first transmission block 41 slides in the door frame 1 along the length direction of the first transmission groove 15. For first drive block 41 steadily slides in first drive groove 15, first guide way 16 has been seted up along the thickness direction in the inner wall of first drive groove 15 to door frame 1, the notch of first guide way 16 towards first drive groove 15 in and first guide way 16 along the closed setting in length direction's both ends. The first transmission block 41 is fixed with a first guide block 411 which is matched with the first guide groove 16 in a sliding manner, the first guide block 411 slides along the length direction of the first guide groove 16 and is attached to the inner wall of the first guide groove 16, and the cross section of the first guide block 411 is T-shaped. When the door panel 2 is in the open state, the end of the first transmission block 41 protrudes from the door frame 1, and the end of the first transmission block 41 protruding from the door frame 1 is in contact fit with the electromagnet 31.

Referring to fig. 3 and 5, a first hinge cavity 19 for placing the first hinge rod 42 is formed in the door frame 1, and the first hinge cavity 19 is communicated with the first transmission groove 15 and the first movable groove 13. The number of the first hinge rods 42 can be one, and can also be multiple, in the embodiment of the present application, two first hinge rods 42 are provided, and the two first hinge rods 42 are respectively located at two ends of the first transmission block 41, so that the first buckle plate 131 can be stably driven to slide. The first driving block 41 has first ear plates 412 respectively fixed at two ends of the first hinge rod 42, and a first rotating rod (not shown) is fixed between the two first ear plates 412, and an axial direction of the first rotating rod is a horizontal direction and perpendicular to an extending direction of the first driving slot 15. The end of the first hinge lever 42 adjacent to the first transmission block 41 swings about the first rotation lever. The end of the first hinge rod 42 away from the first transmission block 41 is hinged to the first buckle plate 131, the first buckle plate 131 is fixed with second lug plates 1311 at two sides of the first hinge rod 42, a second rotation rod (not shown in the figure) parallel to the first rotation rod is fixed between the two second lug plates 1311, and the end of the first hinge rod 42 away from the first transmission block 41 swings around the second rotation rod.

Referring to fig. 3 and 5, the first elastic member includes a first spring 43 located in the first transmission groove 15, and there may be one or more first springs 43, and in the embodiment of the present invention, there are four first springs 43. The first spring 43 has one end connected to the side wall of the first transmission block 41 near the bottom wall of the first transmission slot 15 and the other end connected to the bottom wall of the first transmission slot 15.

When the electromagnet 31 is powered on, the door plate 2 rotates and enters the door opening 11, the electromagnet 31 gradually approaches the door frame 1 and abuts against the part, protruding out of the door frame 1, of the first transmission block 41, the first transmission block 41 is pushed to gradually enter the door frame 1, the first spring 43 is in a compressed state, meanwhile, two ends of the first hinge rod 42 rotate and push the first buckle plate 131 to gradually slide out of the first movable groove 13, so that the door plate 2 is closed and the first buckle plate 131 slides out synchronously, the heat insulation effect of a test room is improved, the first spring 43 can buffer the closing of the door plate 2, the collision strength between the electromagnet 31 and the door frame 1 is reduced, the service life of the temperature control door for the rubber support test room is prolonged, and the risk that the door frame 1 collides users is reduced; when electro-magnet 31 cuts off the power supply, first spring 43 begins to kick-back, and drive first transmission piece 41 and first hinge bar 42 and reset, and drive first buckle 131 and get into first movable groove 13 completely, 41 butt electro-magnet 31 of first transmission piece simultaneously, and then promote door plant 2 and rotate and open, make electro-magnet 31 cut off the power supply, first buckle 131 returns in first movable groove 13 and door plant 2 rotates and opens almost coincident emergence, the heat of being convenient for distributes out the laboratory fast, can accelerate the temperature in the laboratory and fall to normal temperature, further promote the detection precision of rubber support, and need not the manual work and open door plant 2, further reduce the number of times that the tester is distracted.

Referring to fig. 7 and 8, the transmission mechanism 5 includes a pushing block 51 disposed in the door panel 2 in a sliding manner, a second transmission block 52 disposed in the door frame 1 in a sliding manner, a second hinge rod 53 movably hinged to the second transmission block 52, a second elastic member for driving a part of the pushing block 51 to slide out of the door panel 2 and a third elastic member for driving the second transmission block 52 to reset, the door panel 2 is far away from and close to the side wall of the hinge 12, a sliding groove 21 adapted to slide with the pushing block 51 is disposed, the extending direction of the sliding groove 21 is parallel to the width direction of the door panel 2 and is a horizontal direction, and the pushing block 51 slides along the extending direction of the sliding groove 21. For promoting piece 51 to slide steadily in spout 21, door plant 2 has seted up spacing groove 22 in the lateral wall of spout 21, the notch of spacing groove 22 is towards spout 21, the length direction of spacing groove 22 is on a parallel with the extending direction of spout 21, spacing groove 22 sets up along length direction's both ends closure, it is fixed with the stopper 511 with the adaptation that slides of spacing groove 22 to promote piece 51, stopper 511 slides along the length direction of spacing groove 22, and the cross section of stopper 511 is the T style of calligraphy. The end of the pushing block 51 far from the door panel 2 is abutted and matched with the second transmission block 52, and the end of the pushing block 51 far from the door panel 2 is provided with two inclined planes which are convenient for driving the pushing block 51 to enter the sliding groove 21.

Referring to fig. 6 and 8, the inner walls of the door frame 1 far from the door opening 11 and close to the hinge 12 are both provided with second transmission grooves 17 slidably matched with the second transmission blocks 52, and the extending direction of the second transmission grooves 17 is parallel to the extending direction of the second movable grooves 14 and is a horizontal direction. For the second transmission block 52 stably slides in the second transmission groove 17, the door frame 1 has a second guide groove 18 formed in the inner wall of the second transmission groove 17, the notch of the second guide groove 18 faces the second transmission groove 17, and the extending direction of the second guide groove 18 is parallel to the extending direction of the second transmission groove 17, the second transmission block 52 is fixed with a second guide block 521 which is matched with the second guide groove 18 in a sliding manner, the second guide block 521 slides along the extending direction of the second guide groove 18 and is attached to the inner wall of the second guide groove 18, and the second guide block 521 is T-shaped.

Referring to fig. 6 and 8, the door frame 1 is provided with a second hinge chamber 110 for placing the second hinge lever 53, and the second hinge chamber 110 is communicated with both the second transmission groove 17 and the second movable groove 14. The second hinge rod 53 may be provided in one or more than one, and in the embodiment of the present invention, the second hinge rod 53 is provided in more than one, so that the second pinch plate 141 can be stably driven to move. Second transmission piece 52 offers the first hinge groove 522 that is used for placing second hinge bar 53 tip, and second transmission piece 52 is fixed with the third dwang (not shown in the figure) between the two opposite sides in first hinge groove 522, the third dwang is on a parallel with the length direction of door plant 2 and is vertical direction, the tip that second hinge bar 53 is close to first transmission piece 41 swings around the third dwang, and second hinge bar 53 is close to the tip of first transmission piece 41 and offers the waist circle groove (not shown in the figure) that is used for the third dwang to pass. The end of the second hinge rod 53 far from the second transmission block 52 is movably hinged to the second fastening plate 141, the second fastening plate 141 is provided with a second hinge groove 1411 for placing the end of the second hinge rod 53, a fourth rotating rod (not shown in the figure) parallel to the third rotating rod is fixed between two opposite sides of the second hinge groove 1411 of the second fastening plate 141, and the end of the second hinge rod 53 far from the first transmission block 41 swings around the fourth rotating rod.

Referring to fig. 6 and 8, the second elastic member includes a second spring 54 located in the sliding slot 21, and the second spring 54 may be provided in one or more than one, in this embodiment, the second spring 54 may be provided in more than one, so as to increase the driving force for the pushing block 51. The second spring 54 has one end connected to the side wall of the pushing block 51 and the other end connected to the bottom wall of the slide groove 21. The third elastic member includes a third spring 55 located in the second transmission groove 17, the elastic force of the third spring 55 is smaller than that of the second spring 54, the third spring 55 may be provided in one or more, and in this embodiment, the third spring 55 is provided in more, which can stably urge the second transmission block 52 to return. One end of the third spring 55 is connected to the side wall of the second transmission block 52, and the other end is connected to the bottom wall of the second transmission groove 17.

During the process that the door panel 2 enters the door opening 11, the inclined surface of the pushing block 51 is extruded and gradually enters the sliding groove 21, meanwhile, the second spring 54 is in a compressed state until the notch of the sliding slot 21 is aligned with the second transmission slot 17, the second spring 54 begins to rebound and drives the pushing block 51 to enter the second transmission slot 17, drives the second transmission block 52 to gradually get away from the door panel 2 and enables the third spring 55 to be in a compressed state, and drives the second hinge rod 53 to rotate and the two ends to move, thereby driving the second buckle plate 141 to slide out of the second movable groove 14, so that the closing of the door panel 2 and the sliding out of the second buckle plate 141 are synchronously performed, which is beneficial to further improving the heat preservation effect of the laboratory, and the second spring 54 can buffer the closing of the door panel 2, so that the collision strength between the electromagnet 31 and the doorframe 1 is reduced, and the service life of the temperature control door for the rubber support laboratory is prolonged. In the process that door plant 2 rotates out door opening 11, the inclined plane that promotes piece 51 receives the extrusion and gets into in the spout 21 gradually, third spring 55 kick-backs gradually simultaneously, and drive second transmission piece 52 and second hinge bar 53 and reset, and then order about in second buckle 141 slips back second activity groove 14, make second buckle 141 return in second activity groove 14 and door plant 2 rotate and open almost coincident emergence, the heat of being convenient for distributes out the laboratory fast, can accelerate the temperature in the laboratory and fall to normal temperature, further promote rubber support's detection precision.

The embodiment of the application provides a rubber support laboratory is with implementation principle of accuse temperature door does: when the indoor temperature is lower than the set maximum temperature, the electromagnet 31 is in an electrified state and has magnetism, the door plate 2 is driven to rotate and enter the door opening 11 through attraction between the electromagnet 31 and the door frame 1, the temperature control door for the rubber support laboratory is in a stably closed state, the loss of the temperature of the laboratory is further reduced, and a tester does not need to manually close the temperature control door for the rubber support laboratory; when a person enters a test room in the test process, the door plate 2 is pushed indoors, and a tester in the room does not need to open the temperature control door for the rubber support test room; when the indoor temperature reaches the set highest temperature, the controller 33 controls the electromagnet 31 to be powered off, the electromagnet 31 loses magnetism, the door plate 2 and the door frame 1 can be easily separated, and a tester does not need to open or close the bolt for many times, so that the effect of reducing the distraction times of the tester is realized, the heat preservation or heat dissipation of a test room can be intelligently assisted, the detection accuracy of the rubber support can be improved, and the labor intensity of the tester can be reduced;

and the door panel 2 is closed synchronously with the sliding out of the first buckle plate 131 through the first transmission block 41, the first hinge rod 42 and the first spring 43, the door panel 2 is closed synchronously with the sliding out of the second buckle plate 141 through the pushing block 51, the second transmission block 52, the second hinge rod 53, the second spring 54 and the third spring 55, so that the door panel 2 is closed synchronously with the sliding out of the second buckle plate 141, the heat preservation effect of the test room is favorably promoted, the first spring 43 and the second spring 54 can also buffer the closing of the door panel 2, the electromagnet 31 is powered off, the first buckle plate 131 returns to the first movable groove 13, the door panel 2 rotates to be opened almost simultaneously, the second buckle plate 141 returns to the second movable groove 14, the door panel 2 rotates to be opened almost simultaneously, and the heat is conveniently and rapidly dissipated out of the test room.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a rubber support is accuse temperature door for laboratory which characterized in that: including door frame (1) and articulate through hinge (12) in door plant (2) of door frame (1), door frame (1) is offered and is used for placing door opening (11) of door plant (2), the lateral wall of door plant (2) is fixed with electro-magnet (31), electro-magnet (31) salient in door plant (2), just electro-magnet (31) salient in the part of door plant (2) with door frame (1) magnetism looks inhale and butt adaptation, the lateral wall of door plant (2) is fixed with temperature-sensing ware (32) and is used for controlling under the high temperature condition controller (33) of electro-magnet (31) outage, just controller (33) with temperature-sensing ware (32) and electro-magnet (31) electricity is all connected.

2. The temperature-controlled door for rubber support laboratories according to claim 1, wherein: first activity groove (13) have all been seted up in door frame (1) in two inner walls of door opening (11) mutual disposition, door frame (1) in first activity groove (13) internal slipping is provided with first buckle (131), first buckle (131) are used for sheltering from door frame (1) with gap between door plant (2) top or the bottom, door frame (1) are provided with and are used for ordering about actuating mechanism (4) that first buckle (131) slided.

3. The temperature-controlled door for rubber support laboratories according to claim 2, wherein: actuating mechanism (4) including slide in first transmission block (41) in door frame (1), articulate in first articulated pole (42) on first transmission block (41) and be used for driving part first transmission block (41) slides out the first elastic component of door frame (1), door frame (1) is close to first driving groove (15) have been seted up to the lateral wall of electro-magnet (31), the length direction of first driving groove (15) is on a parallel with the thickness direction of door frame (1), and perpendicular to the direction of sliding of first buckle (131), the tip of first transmission block (41) with electro-magnet (31) butt adaptation, first articulated pole (42) are kept away from the tip of first transmission block (41) articulate in on first buckle (131).

4. The temperature-controlled door for rubber support laboratories according to claim 3, wherein: first guide way (16) have been seted up along thickness direction in door frame (1), just first guide way (16) are along the closed setting in length direction's both ends, first transmission block (41) be fixed with first guide block (411) of first guide way (16) adaptation that slides.

5. The temperature-controlled door for rubber support laboratories according to claim 3, wherein: the first elastic piece comprises a first spring (43) located in the first transmission groove (15), one end of the first spring (43) is connected to the side wall of the first transmission block (41), and the other end of the first spring is connected to the bottom wall of the first transmission groove (15).

6. The temperature-controlled door for rubber support laboratories according to claim 2, wherein: door frame (1) in door opening (11) two other mutual disposition's inner wall has all seted up second activity groove (14), just door frame (1) in second activity groove (14) internal slipping is provided with second buckle (141), the direction of sliding perpendicular to of second buckle (141) the direction of sliding of first buckle (131), second buckle (141) are used for the lock door frame (1) with door plant (2) are kept away from or are close to gap between the lateral wall of hinge (12), door frame (1) with be provided with between door plant (2) and order about drive mechanism (5) that second buckle (141) slided.

7. The temperature-controlled door for rubber support laboratories according to claim 6, wherein: drive mechanism (5) including slide set up in promotion piece (51) in door plant (2), slide in second transmission piece (52) in door frame (1), activity articulate in second hinge lever (53) on second transmission piece (52), be used for driving part promotion piece (51) slide out the second elastic component of door plant (2) and be used for driving third elastic component that second transmission piece (52) reset, door plant (2) are kept away from and are close to the lateral wall of hinge (12) all seted up with spout (21) that promotion piece (51) slided the adaptation, the tip of promotion piece (51) with second transmission piece (52) butt adaptation, the tip of promotion piece (51) is seted up two and is convenient for drive promotion piece (51) get into the inclined plane of spout (21), door frame (1) in door opening (11) keep away from and be close to the inner wall of hinge (12) seted up with second transmission The block (52) is slidably matched with the second transmission groove (17), the extending direction of the second transmission groove (17) is parallel to the extending direction of the second movable groove (14), and the end part of the second hinge rod (53) far away from the second transmission block (52) is movably hinged to the second buckling plate (141).

8. The temperature-controlled door for rubber support laboratories according to claim 7, wherein: the second elastic piece comprises a second spring (54) positioned in the sliding groove (21), one end of the second spring (54) is connected to the side wall of the pushing block (51), and the other end of the second spring is connected to the bottom wall of the sliding groove (21).

9. The temperature-controlled door for rubber support laboratories according to claim 8, wherein: the third elastic piece comprises a third spring (55) positioned in the second transmission groove (17), one end of the third spring (55) is connected to the side wall of the second transmission block (52), and the other end of the third spring is connected to the bottom wall of the second transmission groove (17).

10. The temperature-controlled door for rubber support laboratories according to claim 7, wherein: door plant (2) in spacing groove (22) have been seted up to the lateral wall of spout (21), the length direction of spacing groove (22) is on a parallel with the extending direction of spout (21), the both ends closure setting along length direction is followed in spacing groove (22), promote piece (51) be fixed with spacing groove (22) the stopper (511) of the adaptation that slides.