Disclosure of Invention
An object of the utility model is to overcome the aforesaid not enough, provide a base material board resistance to compression detection device, can carry out the resistance to compression detection to base material board product and base material board comparative example simultaneously, conveniently carry out the resistance to compression contrast, improve resistance to compression data accuracy.
The utility model discloses a solve above-mentioned technical problem, the technical scheme who adopts is: the utility model provides a base material board resistance to compression detection device, includes first roller conveyor and second roller conveyor, be equipped with testing platform between first roller conveyor and the second roller conveyor, testing platform is last to be equipped with first pressure measurement and second pressure measurement respectively, and the position that is close to first roller conveyor one side is equipped with first material feeding unit, and the position that is close to second roller conveyor one side is equipped with second material feeding unit, first material feeding unit is used for carrying out the pay-off to the base material board product, second material feeding unit is used for carrying out the pay-off to the base material board comparative example, first pressure measurement is used for detecting the base material board product, second pressure measurement is used for detecting the base material board comparative example.
Preferably, first pressure measurement device is including the first U type groove that the symmetry set up, first U type groove upside and first screw rod screw-thread fit, first screw rod top is equipped with the carousel, first screw rod bottom is connected with first pressure disk through first bearing, and first U type groove top is equipped with first briquetting, first briquetting is connected through the flexible end of first pressure sensor and first pneumatic cylinder, and first pneumatic cylinder is fixed in on the support frame.
Preferably, the second pressure detection device comprises a second U-shaped groove which is symmetrically arranged, the upper side of the second U-shaped groove is in threaded fit with a second screw, a rotary table is arranged at the top of the second screw, the bottom of the second screw is connected with a second pressure plate through a second bearing, a second pressing block is arranged above the second U-shaped groove, the second pressing block is connected with the telescopic end of a second hydraulic cylinder through a second pressure sensor, and the second hydraulic cylinder is fixed on the support frame.
Preferably, first material feeding unit includes first feeding box, and first feeding box bottom center is connected with first telescoping device top, and first passageway has been seted up to first feeding box bottom both sides, and the first passageway of one side wherein is equipped with first push pedal, first push pedal and the flexible end of first telescopic cylinder are connected, first telescoping device bottom and first backup pad fixed connection.
More preferably, the four corners of the bottom of the first feeding box body are further connected with the top of a first limiting cylinder body, the bottom of the first limiting cylinder body is in sliding fit with the top of a first limiting rod, and the bottom of the first limiting rod is fixedly connected with a first supporting plate.
Preferably, the second feeding device comprises a second feeding box body, the center of the bottom of the second feeding box body is connected with the top of a second telescopic device, second channels are formed in two sides of the bottom of the second feeding box body, a second push plate is arranged on the second channel on one side of the second feeding box body, the second push plate is connected with the telescopic end of a second telescopic cylinder, and the bottom of the second telescopic device is fixedly connected with a second supporting plate.
More preferably, the four corner regions of the bottom of the second feeding box body are further connected with the top of a second limiting cylinder body, the bottom of the second limiting cylinder body is in sliding fit with the top of a second limiting rod, and the bottom of the second limiting rod is fixedly connected with a second supporting plate.
Preferably, a collecting box is further arranged below the detection platform.
The utility model has the advantages that: the utility model discloses can carry out the resistance to compression simultaneously to base material board product and base material board comparative example and detect, conveniently carry out the resistance to compression contrast, improve the accuracy of resistance to compression data greatly.
Detailed Description
The invention is described in further detail below with reference to the figures and the embodiments.
As shown in fig. 1 to 7, a device for detecting compression resistance of a substrate plate comprises a first roller conveying device 1 and a second roller conveying device 2, wherein a detection platform 3 is arranged between the first roller conveying device 1 and the second roller conveying device 2, the detection platform 3 is respectively provided with a first pressure detection device 4 and a second pressure detection device 5, a first feeding device 6 is arranged at a position close to one side of the first roller conveying device 1, a second feeding device 7 is arranged at a position close to one side of the second roller conveying device 2, the first feeding device 6 is used for feeding a substrate plate product 8, the second feeding device 7 is used for feeding a substrate plate comparative example 9, the first pressure detection device 4 is used for detecting the substrate plate product 8, and the second pressure detection device 5 is used for detecting the substrate plate comparative example 9.
Preferably, first pressure measurement device 4 is including the first U type groove 4.1 that the symmetry set up, first U type groove 4.1 upside and first screw rod 4.2 screw-thread fit, first screw rod 4.2 top is equipped with carousel 4.3, first screw rod 4.2 bottom is connected with first pressure disk 4.5 through first bearing 4.4, is equipped with first briquetting 4.6 above first U type groove 4.1, first briquetting 4.6 is connected with the flexible end of first pneumatic cylinder 4.8 through first pressure sensor 4.7, and first pneumatic cylinder 4.8 is fixed in on the support frame 10. Firstly, putting a base material plate product 8 into a first U-shaped groove 4.1, and then screwing a rotary disc 4.3 to enable a first screw rod 4.2 to rotate, wherein the first screw rod 4.2 is in threaded fit with the upper side of the first U-shaped groove 4.1, so that the first screw rod 4.2 drives a first pressure plate 4.5 to move downwards, and the base material plate product 8 can be pressed to facilitate the subsequent compression detection process; then when the first hydraulic cylinder 4.8 works, the telescopic rod of the first hydraulic cylinder can push the first pressure sensor 4.7 and the first pressing block 4.6 to move downwards, when the first pressing block 4.6 contacts the substrate plate product 8, the substrate plate product 8 is pressed to deform, and meanwhile, the first pressure sensor 4.7 acquires pressure data and transmits the pressure data to a computer display so that a detector can quantitatively judge the pressure resistance of the detector.
Preferably, second pressure measurement 5 is including the second U type groove 5.1 that the symmetry set up, second U type groove 5.1 upside and second screw rod 5.2 screw-thread fit, second screw rod 5.2 top is equipped with carousel 5.3, second screw rod 5.2 bottom is connected with second pressure disk 5.5 through second bearing 5.4, is equipped with second briquetting 5.6 above second U type groove 5.1, second briquetting 5.6 is connected with the flexible end of second pneumatic cylinder 5.8 through second pressure sensor 5.7, and second pneumatic cylinder 5.8 is fixed in on the support frame 10. Firstly, putting the comparative base plate example 9 into a second U-shaped groove 5.1, and then screwing a rotary disc 5.3 to enable a second screw rod 5.2 to rotate, wherein the second screw rod 5.2 is in threaded fit with the upper side of the second U-shaped groove 5.1, so that the second screw rod 5.2 drives a second pressure plate 5.5 to move downwards, and a base plate product 8 can be pressed to facilitate the subsequent compression detection process; then when the second hydraulic cylinder 5.8 works, the telescopic rod can push the second pressure sensor 5.7 and the second pressing block 5.6 to move downwards, when the second pressing block 5.6 contacts the comparative substrate plate 9, the comparative substrate plate 9 is pressed to deform, and meanwhile, the second pressure sensor 5.7 acquires pressure data and transmits the pressure data to a computer display so that a detector can quantitatively judge the pressure resistance.
Preferably, the first feeding device 6 comprises a first feeding box body 6.1, the center of the bottom of the first feeding box body 6.1 is connected with the top of a first telescopic device 6.2, two sides of the bottom of the first feeding box body 6.1 are provided with first channels 6.3, the first channel 6.3 on one side is provided with a first push plate 6.4, the first push plate 6.4 is connected with the telescopic end of a first telescopic cylinder 6.5, and the bottom of the first telescopic device 6.2 is fixedly connected with a first supporting plate 6.6. As shown in fig. 4, when the first telescopic cylinder 6.5 works, the telescopic rod thereof extends to drive the first push plate 6.4 to move, so that the substrate plate product 8 at the lowest layer can be extruded, the bottom surface of the substrate plate product 8 contacts the first roller conveying device 1 and is conveyed to the area where the detection platform 3 is located, time and labor are saved, when the telescopic rod of the first telescopic cylinder 6.5 contracts, the first push plate 6.4 is driven to return to the left first channel 6.3 again, at this time, the substrate plate product 8 in the first feeding box 6.1 integrally moves downwards, and then the next feeding process can be waited. After the substrate plate products 8 in the first feeding box 6.1 are used up, the first telescopic device 6.2 is started, in this embodiment, the first telescopic device 6.2 can be of a hydraulic telescopic rod structure or an electric push rod structure, the telescopic rod of the first telescopic device 6.2 is contracted to drive the first feeding box 6.1 to move downwards, and then the reloading process of the substrate plate products 8 is conveniently carried out by workers.
More preferably, the four corners of the bottom of the first feeding box body 6.1 are further connected with the top of a first limiting cylinder 6.7, the bottom of the first limiting cylinder 6.7 is in sliding fit with the top of a first limiting rod 6.8, and the bottom of the first limiting rod 6.8 is fixedly connected with a first supporting plate 6.6. The sliding fit between the first limiting cylinder 6.7 and the first limiting rod 6.8 is beneficial to the stability of the up-and-down moving process of the first feeding box body 6.1.
Preferably, the second feeding device 7 comprises a second feeding box body 7.1, the center of the bottom of the second feeding box body 7.1 is connected with the top of a second telescopic device 7.2, two sides of the bottom of the second feeding box body 7.1 are provided with second channels 7.3, the second channel 7.3 on one side is provided with a second push plate 7.4, the second push plate 7.4 is connected with the telescopic end of a second telescopic cylinder 7.5, and the bottom of the second telescopic device 7.2 is fixedly connected with a second support plate 7.6. As shown in fig. 5, when the second telescopic cylinder 7.5 works, the telescopic rod extends to drive the second push plate 7.4 to move, so that the substrate plate product 8 at the lowest layer can be extruded, the bottom surface of the substrate plate product 8 contacts the second roller conveying device 1 and is conveyed to the area where the detection platform 3 is located, time and labor are saved, when the telescopic rod of the second telescopic cylinder 7.5 contracts, the second push plate 7.4 is driven to return to the second channel 7.3 at the right side again, at this time, the substrate plate comparative example 9 in the second feeding box 7.1 integrally moves downwards, and then the next feeding process can be waited. After the substrate plate products 8 in the second feeding box 7.1 are used up, the second telescoping device 7.2 is started, in this embodiment, the second telescoping device 7.2 can be a hydraulic telescopic rod structure or an electric push rod structure, telescopic rods of the second telescoping device 7.2 are contracted to drive the second feeding box 7.1 to move downwards, and then workers can conveniently carry out the reloading process of the substrate plate comparative example 9.
More preferably, the four corner regions at the bottom of the second feeding box body 7.1 are further connected with the top of a second limiting cylinder body 7.7, the bottom of the second limiting cylinder body 7.7 is in sliding fit with the top of a second limiting rod 7.8, and the bottom of the second limiting rod 7.8 is fixedly connected with a second supporting plate 7.6. The sliding fit between the second limiting cylinder 7.7 and the second limiting rod 7.8 is beneficial to the stability of the up-and-down moving process of the second feeding box body 7.1.
Preferably, a collecting box 11 is further arranged below the detection platform 3. The collection box 11 facilitates the placing of the finished substrate sheet product 8 and the substrate sheet comparative example 9 therein.
The working principle of the embodiment is as follows:
firstly, a substrate plate product 8 is fed onto a first roller conveying device 1 through a first feeding device 6, a substrate plate comparative example 9 is fed onto a second roller conveying device 2 through a second feeding device 7, then the first roller conveying device 1 and the second roller conveying device 2 are distributed to feed the substrate plate product 8 and the substrate plate comparative example 9 to the area where a detection platform 3 is located, then a worker puts the substrate plate product 8 and the substrate plate comparative example 9 into a first pressure detection device 4 and a second pressure detection device 5 respectively for detection, and the specific detection process is as follows: when the first hydraulic cylinder 4.8 of the first pressure detection device 4 works, the telescopic rod of the first hydraulic cylinder can push the first pressure sensor 4.7 and the first pressing block 4.6 to move downwards, when the first pressing block 4.6 contacts the substrate plate product 8, the substrate plate product 8 is pressed to deform, and meanwhile, the first pressure sensor 4.7 acquires pressure data and transmits the pressure data to a computer display so that a detection person can read the pressure data quantitatively; when the second hydraulic cylinder 5.8 of the second pressure detection device 5 works, the telescopic rod of the second hydraulic cylinder can push the second pressure sensor 5.7 and the second pressing block 5.6 to move downwards, when the second pressing block 5.6 contacts the comparative substrate plate 9, the comparative substrate plate 9 is pressed to deform, and meanwhile, the second pressure sensor 5.7 acquires pressure data and transmits the pressure data to a computer display so that a detection person can read the pressure data quantitatively; then respectively adjusting the working states of the first hydraulic cylinder 4.8 and the second hydraulic cylinder 5.8 to enable the pressure values detected by the first pressure sensor 4.7 and the second pressure sensor 5.7 to be constant, and then respectively and directly observing the compression deformation conditions of the substrate plate product 8 and the substrate plate comparative example 9, thereby judging whether the substrate plate product 8 is more compression-resistant than the substrate plate comparative example 9.
The above embodiments are merely preferred technical solutions of the present invention, and should not be considered as limitations of the present invention, and the features in the embodiments and the examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention shall be defined by the claims and the technical solutions described in the claims, including the technical features of the equivalent alternatives as the protection scope. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.