CN112729695B

CN112729695B - Door and window physical property detecting system

Info

Publication number: CN112729695B
Application number: CN202011544857.1A
Authority: CN
Inventors: 陈敏锐; 陈志良; 杜亮
Original assignee: Nanchong Jiaheng Construction Engineering Quality Inspection Co ltd
Current assignee: Nanchong Jiaheng Construction Engineering Quality Inspection Co ltd
Priority date: 2020-12-24
Filing date: 2020-12-24
Publication date: 2023-06-16
Anticipated expiration: 2040-12-24
Also published as: CN112729695A

Abstract

The application relates to a door and window physical properties detecting system belongs to door and window detection field, it is including detecting the box, wind-force analogue means and rainwater analogue means all are located the outside of detecting the box, wind-force analogue means communicates to detecting the box through many tuber pipes, rainwater analogue means communicates to detecting the box in through a plurality of shower nozzles, detecting the box includes the support body and is used for the backplate at shutoff support body back, the one side that the backplate was kept away from to the support body slides and is equipped with many spinal branch vaulting poles, be equipped with first slide rail and second slide rail in the detecting box, the second slide rail slides along the direction of height that detects the box and sets up in detecting the box, all slide along self length direction in second slide rail and the first slide rail and be provided with auxiliary assembly, auxiliary assembly includes the last chucking spare that is used for chucking door and window top frame and the lower chucking spare that is used for door and window underframe. The application has the effect of being convenient for reduce intensity of labour in the staff's moving door and window process.

Description

Door and window physical property detecting system

Technical Field

The application relates to the field of door and window detection, in particular to a door and window physical property detection system.

Background

The requirement of the tightness of doors and windows is an important content in energy-saving design. In the production process of doors and windows, quality detection needs to be carried out on the produced doors and windows, and the detection content mainly comprises detection on the performances of the doors and windows in various aspects such as air tightness, water tightness, wind pressure resistance and the like. The door and window physical property detection system plays an important role in the development of the building material industry in China as door and window detection equipment. The door and window physical property detection system mainly detects door and window properties after the production of building material industry is completed, and mainly comprises a detection box body, a wind power simulation device, a rainwater simulation device and a control display system.

The prior Chinese patent with the publication number of CN112097831A discloses a door and window physical property testing machine, and the technical scheme is characterized in that: the door and window detection device comprises a box body, wherein a mounting cavity is formed in the box body, and a detection component for detecting the physical properties of the door and window is arranged in the mounting cavity; a first partition plate and a second partition plate are arranged in the mounting cavity, a fixing assembly is arranged on the box body and positioned on one side of the opening of the mounting cavity, the fixing assembly comprises two groups of first supporting rods and one group of second supporting rods, a first abutting block is arranged on the first supporting rods, and a second abutting block is arranged on the second supporting rods; the first support rod is provided with a first fixing device for fixing the test piece, and the second support rod is provided with a second fixing device for fixing the test piece; the box body is provided with a first driving device for driving the first supporting rod to move along the horizontal direction; the box body is provided with a second driving device for driving the second supporting rod to move along the vertical direction.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: when the door and window are installed, the door and window is firstly placed into the box body from one side of the box body far away from the fixing assembly, then the door and window is moved to a direction close to the fixing assembly, and the door and window is fixed through the fixing assembly; when pushing the door and window, staff's intensity of labour is great and the operation is comparatively inconvenient.

Disclosure of Invention

In order to reduce the labor intensity of workers in the process of moving doors and windows, and simultaneously make the operation process more convenient, the application provides a door and window physical property detection system.

The application provides a door and window physical property detecting system adopts following technical scheme:

the utility model provides a door and window physical properties detecting system, includes detection box, wind-force analogue means and rainwater analogue means all are located the outside of detection box, wind-force analogue means communicates to detecting in the box through many tuber pipes, rainwater analogue means communicates to detecting in the box through a plurality of shower nozzles, the detection box includes the support body and is used for the backplate at shutoff support body back, the one side that the backplate was kept away from to the support body slides and is provided with many spinal branch vaulting poles, every all be provided with fixed subassembly on the bracing piece, the bottom of detecting the box is provided with first slide rail along self length direction, detect the box and be located and be provided with the second slide rail directly over the first slide rail, the second slide rail slides along the direction of height of detecting the box and sets up in detecting the box, all slide along self length direction in second slide rail and be provided with supplementary installation component, supplementary installation component is including the last chucking piece that is used for door and window underframe with the chucking piece.

Through adopting above-mentioned technical scheme, through setting up first slide rail and second slide rail in detecting the box to slide in first slide rail and second slide rail respectively and set up chucking spare and go up chucking spare down, before needing to detect door and window, with the top frame chucking of door and window in last chucking spare, with the underframe chucking of door and window in chucking spare down, then promote the door and window to being close to the direction removal of fixed subassembly, and fix the position of door and window through fixed subassembly. Because lower chucking spare slides and sets up in first slide rail, goes up chucking spare slip and sets up in the second slide rail, when promoting the door and window, lower chucking spare and last chucking spare slide along the length direction of first slide rail and second slide rail respectively, compare in directly sliding door and window along the slide rail, reduced the frictional force that the gliding in-process of door and window received to reduced staff's intensity of labour to door and window promotion in-process, made the promotion process more convenient.

Preferably, the second slide rail is provided with a first slide groove and a second slide groove along the length direction of the second slide rail, the first slide groove is communicated with the second slide groove, the cross section of the first slide groove is trapezoid, the cross section of the second slide groove is rectangular, the outer part of the upper clamping piece is provided with a tension gasket, and the tension gasket can be attached to the side walls of the first slide groove and the second slide groove.

By adopting the technical scheme, in the process of pushing the door and the window, the upper clamping piece slides in the first chute, and the upper clamping piece cannot collide with the first chute and can slide freely because the cross section of the first chute is trapezoid; after the door and window are pushed to the appointed position, the second sliding rail is moved downwards, the upper clamping piece is located in the second sliding groove, the section of the second sliding groove is rectangular, the side face and the top face of the upper clamping piece can be abutted, a certain positioning effect is achieved on the upper clamping piece, and then the positioning effect on the door and window top frame is achieved.

Preferably, the top of detecting the box is provided with the third slide rail along self length direction, the third slide rail is located the second slide rail directly over, be provided with on the third slide rail and be used for driving the gliding drive assembly of second slide rail along the direction of height of detecting the box.

Through adopting above-mentioned technical scheme, through set up drive assembly on the third slide rail, start drive assembly can change the position of second slide rail promptly, and need not the manual position of second slide rail of staff and adjust, made things convenient for the adjustment process to second slide rail position.

Preferably, the driving assembly comprises two driving air cylinders, the two driving air cylinders are respectively and fixedly arranged at two ends of the third sliding rail, and a piston rod of each driving air cylinder vertically extends downwards and is fixedly connected with the second sliding rail.

Through adopting above-mentioned technical scheme, start the actuating cylinder, the piston rod of actuating cylinder drives the second slide rail and reciprocates along vertical direction to make the chucking spare be located first spout at the gliding in-process of door and window, make the chucking spare be located the second spout after door and window slides the assigned position.

Preferably, the upper clamping piece comprises an upper clamping seat, an upper mounting groove is formed in the upper clamping seat, two upper clamping strips are arranged in the upper mounting groove, and the two upper clamping strips are respectively arranged on two sides of the upper mounting groove in a sliding manner along the width direction of the upper clamping seat and fixedly connected with the side wall of the mounting groove through an upper abutting spring.

Through adopting above-mentioned technical scheme, establish the top frame card of door and window between two last chucking strips, two go up chucking strips and move and support tightly on door and window top frame to the direction that is close to each other under the elasticity effect of tight spring in the last tight spring, realize the fixed to door and window position.

Preferably, the lower clamping piece comprises a lower clamping seat, a lower mounting groove is formed in the lower clamping seat, two lower clamping strips are arranged in the lower mounting groove, and the two lower clamping strips are respectively arranged on two sides of the lower mounting groove in a sliding manner along the width direction of the lower clamping seat and fixedly connected with the side wall of the mounting groove through a lower abutting spring.

Through adopting above-mentioned technical scheme, establish door and window's underframe card between two lower chucking strips, two lower chucking strips move and support tightly on door and window underframe to the direction that is close to each other under the elasticity effect of supporting tight spring down, realize the fixed to door and window position.

Preferably, the side that goes up chucking seat and chucking seat down kept away from each other all is provided with rolling assembly, and one of them a set of rolling assembly rolls along the length direction of first slide rail and sets up in first slide rail, and another set of rolling assembly rolls along the length direction of second slide rail and sets up in the second slide rail.

Through adopting above-mentioned technical scheme, through setting up rolling assembly in last chucking seat and the one side that chucking seat kept away from each other down, it is more smooth and easy to make last chucking seat slide in the second slide rail, makes down chucking seat slide more smooth and easy in first slide rail, and the required driving force of exerting when further reducing the staff promotes door and window.

Preferably, the rolling assembly comprises a rolling seat and a roller wheel rotatably arranged on the rolling seat, wherein the upper clamping seat and the lower clamping seat are internally provided with mounting cavities, the rolling seat is slidably arranged in the mounting cavities, and a reset spring is connected between the rolling seat and the bottom wall of the mounting cavity.

By adopting the technical scheme, the rolling seat is in sliding connection in the mounting cavity, in the sliding process of the door and window, the roller on the upper clamping seat extends out of the mounting cavity and is in sliding connection with the second sliding rail, and the roller on the lower clamping seat extends out of the mounting cavity and is in sliding connection with the first sliding rail, so that the sliding process is smoother; after the door and window slides to the appointed position, the driving cylinder drives the in-process that the second slide rail moved downwards, and the gyro wheel of going up the chucking seat and the gyro wheel of chucking seat down all move to the installation cavity along with the rolling seat under the pressure to improve the stability of going up chucking seat and chucking seat down.

Preferably, a telescopic guide rod is arranged between the upper clamping seat and the third sliding rail, and a guide groove for the telescopic guide rod to slide is formed in the top of the second sliding rail along the length direction of the second sliding rail.

Through adopting above-mentioned technical scheme, play certain guide effect to last chucking seat through telescopic guide bar, make last chucking seat be difficult for taking place the skew at the in-process that removes, avoided the door and window to take place the slope to a certain extent to improve overall structure's stability.

Preferably, the telescopic guide rod comprises a telescopic sleeve and a telescopic rod body, and the telescopic rod body is arranged in the telescopic sleeve in a sliding manner along the length direction of the telescopic sleeve.

Through adopting above-mentioned technical scheme, at the in-process that drives the cylinder and drive the second slide rail reciprocates, telescopic rod body can slide along telescopic sleeve's length direction to change telescopic guide rod's whole length, with the change of adaptation second slide rail position.

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

1. according to the door and window pushing device, the upper clamping piece used for clamping the door and window top frame is arranged in the second sliding rail in a sliding manner, the lower clamping piece used for clamping the door and window bottom frame is arranged in the first sliding rail in a sliding manner, when the door and window is pushed, the lower clamping piece and the upper clamping piece slide along the length directions of the first sliding rail and the second sliding rail respectively, compared with the fact that the door and window directly slide along the sliding rails, the friction force applied to the door and window in the sliding process is reduced, and therefore labor intensity of workers in the door and window pushing process is reduced, and the pushing process is more convenient;

2. according to the door and window top frame positioning device, the first sliding groove and the second sliding groove which are communicated are formed in the second sliding rail, the upper clamping piece can freely slide in the first sliding groove in the process of pushing the door and window, after the upper clamping piece slides to the designated position, the second sliding rail is downwards moved, the upper clamping piece is located in the second sliding groove, a certain positioning effect is achieved on the upper clamping piece, and then the door and window top frame positioning effect is achieved;

3. the rolling assembly is arranged on one surface of the upper clamping seat and one surface of the lower clamping seat, which are mutually far away from each other, so that the upper clamping seat slides in the second sliding rail more smoothly, the lower clamping seat slides in the first sliding rail more smoothly, and the pushing force required to be applied when a worker pushes a door or window is further reduced.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the door and window physical property detection system of the present application.

FIG. 2 is a schematic structural view of the wind power simulation device of the present application.

Fig. 3 is a schematic structural view of the rain simulator of the present application.

Fig. 4 is a schematic structural diagram of a first slide rail, a second slide rail and a third slide rail of the present application.

Fig. 5 is a schematic view of a mounting structure of the clamping member in the second slide rail.

Fig. 6 is a schematic view of the structure of the clip of the present application.

Fig. 7 is a schematic view of the structure of the lower clip of the present application.

Reference numerals illustrate: 1. detecting a box body; 11. a frame body; 12. a back plate; 13. a support rod; 14. a fixing assembly; 2. a wind power simulation device; 21. an air duct; 22. a blower; 23. a wind transmission main pipe; 3. a rain water simulation device; 31. a spray head; 32. a water storage tank; 33. a water pump; 34. a water delivery main pipe; 35. a water delivery branch pipe; 4. a first slide rail; 5. a second slide rail; 51. a first chute; 52. a second chute; 53. a guide groove; 6. an auxiliary mounting assembly; 61. an upper clamping piece; 611. a tension pad; 612. an upper clamping seat; 6121. an upper mounting groove; 613. the upper clamping strip; 614. a spring is tightly abutted; 62. a lower clamping member; 621. a lower clamping seat; 6211. a lower mounting groove; 622. a lower fastener strip; 623. a lower abutting spring; 7. a third slide rail; 71. a drive assembly; 711. a driving cylinder; 8. a rolling assembly; 81. a rolling seat; 82. a roller; 83. a return spring; 9. a telescopic guide rod; 91. a telescoping sleeve; 92. a telescopic rod body.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses door and window physical property detecting system, refer to fig. 1, fig. 2, including detecting box 1, wind-force analogue means 2 and rainwater analogue means 3, wind-force analogue means 2 comprises fan 22, air conveying main pipe 23 and tuber pipe 21, and fan 22 installs in the outside of detecting box 1, and the one end of air conveying main pipe 23 is connected with the air outlet of fan 22, and the other end is connected with tuber pipe 21, and air conveying main pipe 23 is with the wind transmission of fan 22 output to tuber pipe 21, and tuber pipe 21 is with wind output to waiting to detect on the door and window, so that simulation wind pressure. Referring to fig. 3, the rain water simulator 3 is composed of a water storage tank 32, a water delivery pump 33, a water delivery main 34, a plurality of water delivery branch pipes 35 and a plurality of spray heads 31, wherein the water storage tank 32 is installed outside the detection box body 1, the water delivery main 34 is communicated with a water outlet of the water storage tank 32, the water delivery pump 33 is installed between the water delivery main 34 and the water storage tank 32, the plurality of water delivery branch pipes 35 are communicated with the water delivery main 34, and the plurality of spray heads 31 are installed on the water delivery branch pipes 35 in a one-to-one correspondence. The water pump 33 delivers the water in the water storage tank 32 to the water delivery main pipe 34, and the water delivery main pipe 34 delivers the water to the plurality of water delivery branch pipes 35 and spouts the water from the spray head 31 to the detection doors and windows so as to simulate rainwater.

Referring to fig. 1 and 4, a detection box 1 comprises a frame 11 and a back plate 12 for plugging the back of the frame 11, wherein a plurality of support rods 13 are slidably arranged on one surface of the frame 11 away from the back plate 12, each support rod 13 is provided with a fixing component 14 for propping up a door or window, the bottom of the detection box 1 is provided with a first sliding rail 4 along the length direction of the detection box 1, a second sliding rail 5 is slidably arranged in the detection box 1 and right above the first sliding rail 4, two ends of the second sliding rail 5 are slidably connected to two side walls of the detection box 1 respectively, the second sliding rail 5 and the first sliding rail 4 are slidably connected with auxiliary mounting components 6 along the length direction of the first sliding rail 4, and the auxiliary mounting components 6 slidably connected in the second sliding rail 5 are upper clamping pieces 61 for clamping top frames of the door or window; the auxiliary installation component 6 which is connected in the first sliding rail 4 in a sliding way is a lower clamping piece 62 used for clamping a bottom frame of a door and a window.

Referring to fig. 5 and 6, the upper clamping member 61 includes an upper clamping seat 612, an upper mounting groove 6121 is formed in the upper clamping seat 612, two upper clamping strips 613 are disposed in the upper mounting groove 6121, and the two upper clamping strips 613 are respectively slidably disposed on two sides of the upper mounting groove 6121 along a width direction of the upper clamping seat 612 and are fixedly connected with a side wall of the mounting groove through an upper abutting spring 614.

Referring to fig. 7, the lower clamping member 62 includes a lower clamping seat 621, a lower mounting groove 6211 is formed in the lower clamping seat 621, two lower clamping strips 622 are disposed in the lower mounting groove 6211, and the two lower clamping strips 622 are slidably disposed on two sides of the lower mounting groove 6211 along a width direction of the lower clamping seat 621, and are fixedly connected to a side wall of the mounting groove through a lower abutting spring 623. The top frame of the door and window is clamped between the two upper clamping strips 613, and the two upper clamping strips 613 move towards the direction of approaching to each other under the action of the elastic force of the upper propping spring 614 and are propped against the top frame of the door and window, so that the position of the door and window is fixed; the bottom frame of the door and window is clamped between the two lower clamping strips 622, and the two lower clamping strips 622 move towards the direction close to each other under the action of the elasticity of the lower abutting springs 623 and abut against the bottom frame of the door and window, so that the position of the door and window is fixed.

Referring to fig. 6 and 7, the rolling assembly 8 is mounted on the side of the upper clamping seat 612 and the lower clamping seat 621 away from each other, the rolling assembly 8 includes a rolling seat 81 and a roller 82 rotatably disposed on the rolling seat 81, the roller 82 on the upper clamping seat 612 is in rolling connection with the first sliding rail 4 along the length direction of the first sliding rail 4, and the roller 82 on the lower clamping seat 621 is in rolling connection with the second sliding rail 5 along the length direction of the second sliding rail 5. The rolling assembly 8 makes the upper clamping seat 612 slide in the second sliding rail 5 more smoothly, and makes the lower clamping seat 621 slide in the first sliding rail 4 more smoothly, so that the pushing force required by a worker to push the door and window is reduced.

Referring to fig. 5, a first sliding groove 51 and a second sliding groove 52 which are communicated are formed in the second sliding rail 5 along the length direction of the second sliding rail, the second sliding groove 52 is located below the first sliding groove 51, the cross section of the first sliding groove 51 is trapezoid, the cross section of the second sliding groove 52 is rectangular, a tension gasket 611 is fixedly connected to the outer portion of the upper clamping piece 61, the tension gasket 611 is a sponge gasket or a silica gel gasket, and the tension gasket 611 has certain tension and can deform, so that the tension gasket can be attached to the side walls of the first sliding groove 51 and the second sliding groove 52. In the process of pushing the door and window, the upper clamping piece 61 slides in the first chute 51, and as the cross section of the first chute 51 is trapezoidal, the upper clamping piece 61 cannot completely collide with the first chute 51 and can slide freely; after the door and window is pushed to the designated position, the second sliding rail 5 is moved downwards, the upper clamping piece 61 is located in the second sliding groove 52, the section of the second sliding groove 52 is rectangular, the side face and the top face of the upper clamping piece 61 can be abutted, at the moment, the tension gasket 611 is in a compressed state, deformation is difficult to continue, and therefore the side wall of the second sliding groove 52 can play a certain positioning role on the upper clamping piece 61, and further the positioning role on the door and window top frame is achieved.

Referring to fig. 1 and 4, a third slide rail 7 is disposed at the top of the detection box 1 along the length direction thereof, the third slide rail 7 is located right above the second slide rail 5, a driving assembly 71 for driving the second slide rail 5 to slide along the height direction of the detection box 1 is disposed on the third slide rail 7, the driving assembly 71 comprises two driving air cylinders 711, the two driving air cylinders 711 are respectively and fixedly disposed at two ends of the third slide rail 7, and a piston rod of the driving air cylinder 711 extends vertically downwards and is fixedly connected with the second slide rail 5. The driving cylinder 711 is started, and the piston rod of the driving cylinder 711 drives the second slide rail 5 to move up and down along the vertical direction, so that the upper clamping piece 61 is positioned in the first slide groove 51 in the sliding process of the door and window, and the upper clamping piece 61 is positioned in the second slide groove 52 after the door and window slides to the designated position, and the position of the second slide rail 5 is not required to be manually adjusted by a worker, so that the adjusting process of the position of the second slide rail 5 is facilitated.

Referring to fig. 6, the upper clamping seat 612 and the lower clamping seat 621 are provided with mounting cavities, the rolling seat 81 is slidably disposed in the mounting cavities, and a return spring 83 is connected between the rolling seat 81 and the bottom wall of the mounting cavity. In the sliding process of the door and window, the roller 82 on the upper clamping seat 612 extends out of the installation cavity and is in sliding connection with the second sliding rail 5, and the roller 82 on the lower clamping seat 621 extends out of the installation cavity and is in sliding connection with the first sliding rail 4, so that the sliding process is smoother; after the door and window slides to the designated position, the driving cylinder 711 drives the second sliding rail 5 to move downwards, and the roller 82 of the upper clamping seat 612 and the roller 82 of the lower clamping seat 621 move into the mounting cavity along with the rolling seat 81 under the action of pressure, so that the stability of the upper clamping seat 612 and the lower clamping seat 621 is improved.

Referring to fig. 4, a telescopic guide rod 9 is disposed between the upper clamping seat 612 and the third sliding rail 7, a guide groove 53 for sliding the telescopic guide rod 9 is provided at the top of the second sliding rail 5 along the length direction of the second sliding rail, and the telescopic guide rod 9 plays a certain guiding role on the upper clamping seat 612 in the sliding process of the guide groove 53, so that the upper clamping seat 612 is not easy to deviate in the moving process. The telescopic guide rod 9 comprises a telescopic sleeve 91 and a telescopic rod body 92, the telescopic rod body 92 is arranged in the telescopic sleeve 91 in a sliding mode along the length direction of the telescopic sleeve 91, and the telescopic rod body 92 can slide along the length direction of the telescopic sleeve 91 in the process that the driving cylinder 711 drives the second sliding rail 5 to move up and down, so that the whole length of the telescopic guide rod 9 is changed to adapt to the change of the position of the second sliding rail 5.

The implementation principle of the door and window physical property detection system in the embodiment of the application is as follows: through set up first slide rail 4 and second slide rail 5 in detecting box 1 to sliding in first slide rail 4 and second slide rail 5 respectively sets up chucking spare 62 and last chucking spare 61, before needing to detect door and window, with the top frame chucking of door and window in last chucking spare 61, with the underframe chucking of door and window in chucking spare 62 down, then promote the door and window to be close to the direction removal of fixed subassembly 14, and fix the position of door and window through fixed subassembly 14. Because the lower clamping piece 62 slides and sets up in first slide rail 4, go up clamping piece 61 slip and set up in second slide rail 5, when promoting the door and window, lower clamping piece 62 and last clamping piece 61 slide along the length direction of first slide rail 4 and second slide rail 5 respectively, compare in directly sliding door and window along the slide rail, reduced the frictional force that the gliding in-process of door and window received to reduced staff's intensity of labour to door and window promotion in-process, made the promotion process more convenient.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. The utility model provides a door and window physical properties detecting system, includes detection box (1), wind power analogue means (2) and rainwater analogue means (3) all are located the outside of detecting box (1), wind power analogue means (2) are through many tuber pipes (21) intercommunication to in detecting box (1), rainwater analogue means (3) are through a plurality of shower nozzles (31) intercommunication to in detecting box (1), detecting box (1) include support body (11) and be used for backplate (12) at shutoff support body (11) back, one side that backplate (12) were kept away from to support body (11) is slided and is provided with many spinal branch vaulting poles (13), every all be provided with fixed subassembly (14) on bracing piece (13), its characterized in that: the bottom of the detection box body (1) is provided with a first sliding rail (4) along the length direction of the detection box body, a second sliding rail (5) is arranged in the detection box body (1) and is positioned right above the first sliding rail (4), the second sliding rail (5) is arranged in the detection box body (1) in a sliding manner along the height direction of the detection box body (1), the second sliding rail (5) and the first sliding rail (4) are internally provided with auxiliary installation components (6) in a sliding manner along the length direction of the second sliding rail and the first sliding rail, and the auxiliary installation components (6) comprise an upper clamping piece (61) for clamping a door and window top frame and a lower clamping piece (62) for clamping a door and window bottom frame; go up chucking spare (61) including last chucking seat (612), go up chucking seat (612) interior and seted up last mounting groove (6121), upward be provided with two in mounting groove (6121) and go up chucking strip (613), two go up chucking strip (613) are respectively along the width direction slip setting of chucking seat (612) in the both sides of mounting groove (6121) to through last tight spring (614) and the lateral wall fixed connection of last mounting groove (6121).

2. The door and window physical property detection system according to claim 1, wherein: first spout (51) and second spout (52) have been seted up along self length direction on second slide rail (5), first spout (51) are linked together with second spout (52), the cross section of first spout (51) is trapezoidal, the cross section of second spout (52) is the rectangle, the outside of going up chucking spare (61) is provided with tension gasket (611), tension gasket (611) can laminate with the lateral wall of first spout (51) and second spout (52) mutually.

3. The door and window physical property detection system according to claim 2, wherein: the top of detection box (1) is provided with third slide rail (7) along self length direction, third slide rail (7) are located directly over second slide rail (5), be provided with on third slide rail (7) and be used for driving second slide rail (5) along the gliding drive assembly (71) of the direction of height of detection box (1).

4. A door and window physical property detection system according to claim 3, wherein: the driving assembly (71) comprises two driving air cylinders (711), the two driving air cylinders (711) are respectively and fixedly arranged at two ends of the third sliding rail (7), and a piston rod of each driving air cylinder (711) vertically extends downwards and is fixedly connected with the second sliding rail (5).

5. The door and window physical property detection system according to claim 1, wherein: the lower clamping piece (62) comprises a lower clamping seat (621), a lower mounting groove (6211) is formed in the lower clamping seat (621), two lower clamping strips (622) are arranged in the lower mounting groove (6211), the two lower clamping strips (622) are respectively arranged on two sides of the lower mounting groove (6211) in a sliding mode along the width direction of the lower clamping seat (621), and the lower clamping strips are fixedly connected with the side wall of the lower mounting groove (6211) through lower abutting springs (623).

6. The door and window physical property detection system according to claim 5, wherein: the one sides that go up chucking seat (612) and chucking seat down (621) keep away from each other all are provided with rolling element (8), and wherein a set of rolling element (8) roll along the length direction of first slide rail (4) and set up in first slide rail (4), and another set of rolling element (8) roll along the length direction of second slide rail (5) and set up in second slide rail (5).

7. The door and window physical property detection system according to claim 6, wherein: the rolling assembly (8) comprises a rolling seat (81) and a roller (82) rotatably arranged on the rolling seat (81), mounting cavities are formed in the upper clamping seat (612) and the lower clamping seat (621), the rolling seat (81) is slidably arranged in the mounting cavity, and a reset spring (83) is connected between the rolling seat (81) and the bottom wall of the mounting cavity.

8. The door and window physical property detection system according to claim 1, wherein: a telescopic guide rod (9) is arranged between the upper clamping seat (612) and the third sliding rail (7), and a guide groove (53) for the telescopic guide rod (9) to slide is formed in the top of the second sliding rail (5) along the length direction of the second sliding rail.

9. The door and window physical property detection system according to claim 8, wherein: the telescopic guide rod (9) comprises a telescopic sleeve (91) and a telescopic rod body (92), and the telescopic rod body (92) is arranged in the telescopic sleeve (91) in a sliding mode along the length direction of the telescopic sleeve (91).