Disclosure of utility model
In order to solve the problems in the prior art, the utility model provides the strength detection device for detecting the toughened glass, which has the characteristics of being capable of sealing and protecting the device body during testing, avoiding the splashing of broken slag of the toughened glass everywhere and improving the use safety of detection personnel.
In order to achieve the above purpose, the present utility model provides the following technical solutions: the strength detection device for detecting the toughened glass comprises a device body, a fixing piece arranged in the device body, a test piece arranged at the upper position in the device body, and a protection component arranged on the surface of the device body;
The protection component comprises a protection cover sleeved on the surface of the device body and a storage drawer inserted in the device body, the protection cover is in sliding connection with the device body, handles are fixedly connected to the surface of the protection cover, the storage drawer is in sliding connection with the device body, a limit sliding strip is fixedly connected to the surface of the storage drawer, the limit sliding strip is inserted in the device body, and the limit sliding strip is in sliding connection with the device body.
As the strength detection device for detecting the toughened glass, the strength detection device for detecting the toughened glass is preferable, the surface of the device body is symmetrically and fixedly connected with the limiting plug blocks, the inner wall surface of the protective cover is symmetrically provided with the limiting slot matched with the limiting plug blocks, the limiting plug blocks are inserted into the limiting slot, and the limiting plug blocks are in sliding connection with the protective cover.
The strength detection device for detecting the toughened glass preferably further comprises a buffer component arranged on the inner wall surface of the protective cover;
The buffer component comprises a shock absorbing member and a connecting rod, wherein the shock absorbing member is symmetrically and fixedly connected with the inner wall surface of the protective cover, the connecting rod is arranged on the surface of the shock absorbing member, and one end, away from the shock absorbing member, of the connecting rod is fixedly connected with a rubber baffle.
As the strength detection device for detecting the toughened glass, the shock absorbing piece comprises a mounting box symmetrically and fixedly connected to the inner wall surface of the protective cover through bolts, a moving plate inserted into the mounting box, and a damping rod symmetrically and fixedly connected between the mounting box and the moving plate, wherein the moving plate is in sliding connection with the mounting box, the connecting rod is fixedly connected with the moving plate, a first spring is sleeved on the surface of the damping rod, and the first spring is fixedly connected between the mounting box and the moving plate.
As the strength detection device for detecting the toughened glass, the strength detection device is preferable, the inner wall surface of the mounting box is fixedly connected with four U-shaped blocks I in a rectangular array, the inner wall surface of each U-shaped block I is rotationally connected with a rotating rod I through a rotating shaft III, a spring piece is fixedly connected between the rotating rod I and the mounting box, one surface of the moving plate, which is far away from the connecting rod, is fixedly connected with four compression bars in a rectangular array, the inside of a through groove formed in one end of the compression bar, which is far away from the moving plate, is rotationally connected with a roller through the rotating shaft IV, the roller is contacted with the rotating rod I, and the roller is in rolling connection with the rotating rod I.
Compared with the prior art, the utility model has the beneficial effects that: the protective component is added to the device, so that the device body is protected in a sealing way during testing, broken slag of toughened glass is prevented from splashing everywhere, the use safety of detection personnel is improved, and meanwhile, the buffer component is added, so that the impact of the splashed glass slag on the protective cover is relieved, and the service life of the protective cover is prolonged.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
As shown in fig. 1 to 7;
The strength detection device for detecting the toughened glass comprises a device body 1, a fixing piece 2 arranged in the device body 1 and a test piece 3 arranged at the upper position in the device body 1.
In this embodiment: the prior device publication (bulletin) number CN217180350U discloses a strength detection device for processing tempered glass, in which the strength detection device proposed in the document of the present application is disclosed, and the device body 1, the fixing member 2 and the test member 3 in the document of the present application adopt the same means in the prior art, which are not described in detail herein, and the present application is further improved with respect to the prior strength detection device, and the details refer to the following disclosure technology; in order to solve the technical problem in the prior art, as disclosed in the background art, once toughened glass is broken in the detection process, glass fragments can splash everywhere, so that damage to detection personnel is possible, protection cannot be improved to the detection personnel, and the problem is obviously a problem which exists in reality and is difficult to solve in combination with the use, therefore, in order to solve the technical problem, the protection component 4 and the buffer component 5 are added on the file of the application.
It should be noted that: the parts contained in the device body 1, the fixing member 2 and the testing member 3 are disclosed by a publication number CN217180350U, and the working principle and the working flow thereof can refer to the publication number CN217180350U, and are not described in detail herein.
Further, the method comprises the following steps:
In combination with the above: the protection component 4 comprises a protection cover 41 sleeved on the surface of the device body 1 and a storage drawer 45 inserted in the device body 1, the protection cover 41 is in sliding connection with the device body 1, a handle 42 is fixedly connected to the surface of the protection cover 41, the storage drawer 45 is in sliding connection with the device body 1, a limit slide bar 46 is fixedly connected to the surface of the storage drawer 45, the limit slide bar 46 is inserted in the device body 1, and the limit slide bar 46 is in sliding connection with the device body 1.
In this embodiment: when the strength detection device is used for detecting the strength of toughened glass, firstly, the protective cover 41 is taken down from the surface of the device body 1, then the toughened glass to be detected is fixed through the fixing piece 2, then the position of the test piece 3 is adjusted, the protective cover 41 is sleeved on the surface of the device body 1, the strength of the toughened glass can be tested through controlling the test piece 3 (the detailed detection process is disclosed by the publication number CN 217180350U), when the toughened glass to be detected is broken by impact, broken glass residues are splashed everywhere, at the moment, the glass residues can be prevented from splashing outside the device body 1 through the protective cover 41, a certain protection effect is achieved on detection personnel, meanwhile, the splashed glass residues can fall into the collecting drawer 45 to be collected intensively, after the use is finished, the protective cover 41 is taken down, then the collecting drawer 45 can be pulled out from the device body 1 through the limiting slide bar 46, and therefore the collected glass residues can be processed intensively.
It should be noted that: the protective cover 41 is made of transparent toughened glass material, has good light transmittance, can visually observe the breaking condition of toughened glass to be detected, and two limit sliding grooves matched with the limit sliding strips 46 are symmetrically formed in the device body 1, and the limit sliding strips 46 are inserted into the limit sliding grooves.
In an alternative embodiment, the surface of the device body 1 is symmetrically and fixedly connected with a limiting insert 43, the inner wall surface of the protective cover 41 is symmetrically provided with a limiting slot 44 matched with the limiting insert 43, the limiting insert 43 is inserted into the limiting slot 44, and the limiting insert 43 is in sliding connection with the protective cover 41.
In this embodiment: the connection track of the protection cover 41 can be limited through the limiting plug block 43 and the limiting slot 44, so that the protection cover 41 can be smoothly sleeved on the surface of the device body 1.
In an alternative embodiment, the buffer assembly 5 is further provided on the inner wall surface of the protective cover 41;
The buffer assembly 5 comprises a shock absorbing member 51 symmetrically and fixedly connected to the inner wall surface of the protective cover 41 and a connecting rod 53 arranged on the surface of the shock absorbing member 51, and a rubber baffle 52 is fixedly connected to one end, away from the shock absorbing member 51, of the connecting rod 53.
In this embodiment: the splashed glass slag can splash onto the surface of the rubber baffle plate 52, and at the moment, the rubber baffle plate 52 is stressed to squeeze the connecting rod 53, so that the connecting rod 53 squeezes the shock absorbing piece 51, impact force of the glass slag is buffered, and the service life of the protective cover 41 is prolonged.
In an alternative embodiment, the shock absorbing member 51 includes a mounting box 511 symmetrically and fixedly connected to an inner wall surface of the protective cover 41 by bolts, a moving plate 512 inserted into the mounting box 511, and a damping rod 514 symmetrically and fixedly connected between the mounting box 511 and the moving plate 512, the moving plate 512 is slidably connected to the mounting box 511, the connecting rod 53 is fixedly connected to the moving plate 512, a first spring 515 is sleeved on a surface of the damping rod 514, and the first spring 515 is fixedly connected between the mounting box 511 and the moving plate 512.
In this embodiment: the connecting rod 53 first presses the moving plate 512, so that the moving plate 512 moves in the mounting box 511, the moving plate 512 moves to press the damping rod 514 and the first spring 515, and a certain buffering effect can be achieved on the rubber baffle 52 by the cooperation of the damping rod 514 and the first spring 515.
It should be noted that: the movable blocks are symmetrically and fixedly connected to the surface of the movable plate 512 and inserted into the movable grooves formed in the mounting box 511, so that the movement track of the movable plate 512 can be limited, and the movable plate 512 is prevented from moving out of the mounting box 511.
In an alternative embodiment, the inner wall surface of the mounting box 511 is fixedly connected with four rectangular U-shaped blocks 516, the inner wall surface of the U-shaped block 516 is rotatably connected with a first rotating rod 517 through a third rotating shaft, a spring piece 518 is fixedly connected between the first rotating rod 517 and the mounting box 511, one surface of the moving plate 512, which is far away from the connecting rod 53, is fixedly connected with four rectangular compression rods 519, the compression rods 519 are rotatably connected with a roller 5110 through the fourth rotating shaft in a through groove formed in one end, which is far away from the moving plate 512, of the compression rods 519, the roller 5110 is in contact with the first rotating rod 517, and the roller 5110 is in rolling connection with the first rotating rod 517.
In this embodiment: meanwhile, the moving plate 512 moves to drive the pressing rod 519 to move, the pressing rod 519 moves to enable the roller 5110 to roll on the surface of the first rotating rod 517, the roller 5110 can drive the first rotating rod 517 to rotate in the first U-shaped block 516 while rolling, the first rotating rod 517 rotates to press the spring piece 518, and the spring piece 518 is matched with the damping rod 514 to damp the rubber baffle 52.
Working principle: when the strength detection device is used for detecting the strength of the toughened glass, firstly, the protective cover 41 is taken down from the surface of the device body 1, then the toughened glass to be detected is fixed through the fixing piece 2, then the position of the test piece 3 is adjusted, the protective cover 41 is sleeved on the surface of the device body 1 through the matching of the limit insert block 43 and the limit slot 44, then the strength of the toughened glass can be tested through controlling the test piece 3 (the detailed detection process is disclosed by the publication No. CN 217180350U), when the toughened glass to be detected is broken by impact, broken glass slag splashes everywhere, the splashed glass slag can splash onto the surface of the rubber baffle plate 52, at the moment, the rubber baffle plate 52 is stressed to press the connecting rod 53, then the connecting rod 53 presses the moving plate 512, the moving plate 512 moves in the installation box 511, the damping rod 514 and the spring one 515 are pressed, meanwhile, the moving plate 512 moves to drive the pressing rod 519 to move, the pressing rod 519 moves to enable the roller 5110 to roll on the surface of the first rotating rod 517, the roller 5110 can drive the first rotating rod 517 to rotate in the first U-shaped block 516 while rolling, the first rotating rod 517 rotates to squeeze the spring piece 518, the spring piece 518 is matched with the damping rod 514 to play a certain buffering role on the rubber baffle 52, so that the impact force of glass slag is buffered, the service life of the protective cover 41 is prolonged, the glass slag can be prevented from splashing outside the device body 1 through the protective cover 41, a certain protection effect is achieved on detection personnel, and the splashed glass slag can fall into the collecting drawer 45 to be collected intensively, after the use is finished, the protective cover 41 is taken down, and then the collecting drawer 45 can be pulled out from the device body 1 through the limiting sliding bar 46, so that the collected glass slag can be intensively treated.
Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.