CN221199302U - Ceramic tile bending resistance test device - Google Patents

Abstract

The utility model relates to a ceramic tile bending resistance test device, which belongs to the technical field of ceramic tile test equipment and comprises a chassis, lifting columns, lifting beams, pressure sensors, wear-resistant and anti-slip compression rollers and wear-resistant and anti-slip carrier rollers, wherein each wear-resistant and anti-slip carrier roller is connected with a supporting plate, nuts are fixed in the middle of the bottom of the supporting plate, the front nut and the rear nut are symmetrical with respect to the wear-resistant and anti-slip carrier rollers, the nuts are connected with screw rods, threads with opposite rotation directions are arranged on the two sides of the screw rods, sliding sleeves are fixed on the two sides of the bottom of the supporting plate, sliding rods are arranged in the sliding sleeves, supporting plates are fixed at the front end and the rear end of each sliding rod, supporting arm rods are fixed at the bottom of each supporting plate, and the screw rods are rotatably arranged on the supporting plates. According to the utility model, the screw rod and the nuts are arranged at the bottom of the wear-resistant anti-slip carrier roller, and the front wear-resistant anti-slip carrier roller and the rear wear-resistant anti-slip carrier roller are synchronously adjusted to approach and separate from the wear-resistant anti-slip carrier roller through one screw rod, so that the adjustment is convenient and quick, the adjustment is more accurate, the adjustment time is saved, and the test efficiency is improved.

Description

Ceramic tile bending resistance test device

Technical Field

The utility model relates to a tile bending resistance test device, and belongs to the technical field of tile test equipment.

Background

Ceramic tiles are materials formed by compressing and mixing clay, quartz sand and the like at high temperature, and are widely applied to building or decorative materials. The ceramic tile bending resistance is very important performance detection after ceramic tiles are produced, the conventional bending resistance test equipment comprises a lifting cross beam and a pressure test device, the pressure test device comprises a press roller and a pressure sensor, two parallel support rollers are arranged below the press roller, the two support rollers are connected with an adjusting mechanism for adjusting the distance, but the conventional adjusting mechanism is used for adjusting the position of the guide rollers in the guide grooves by arranging respective guide rollers and guide grooves on the two support rollers, so that the distance is adjusted, the support rollers on two sides are required to be adjusted respectively for ensuring that the two support rollers are symmetrical about the press roller, the adjustment time is increased, and the test efficiency is reduced.

Disclosure of utility model

The utility model provides a tile bending resistance test device, which solves the problems that the conventional device needs to adjust carrier rollers on two sides respectively, is troublesome, increases the adjustment time and reduces the test efficiency.

The utility model relates to a ceramic tile bending resistance test device which comprises a chassis, wherein lifting columns are arranged on two sides of the top of the chassis, the lifting columns are connected with lifting beams, a pressure sensor is fixed at the middle bottom of each lifting beam, the bottom of each pressure sensor is connected with a wear-resistant and anti-slip compression roller, two wear-resistant and anti-slip carrier rollers are symmetrically arranged below each wear-resistant and anti-slip compression roller along the front-back direction, each wear-resistant and anti-slip carrier roller is connected with a supporting plate, nuts are fixed in the middle of the bottom of each supporting plate, the front-back nuts are symmetrical with the wear-resistant and anti-slip carrier rollers, a screw rod is connected with the nuts, threads with opposite rotation directions are arranged on two sides of the screw rod, sliding sleeves are fixed on two sides of the bottom of the supporting plate, sliding sleeves are internally provided with sliding rods, supporting plates are fixed at the front ends and the rear ends of the sliding rods, supporting arm rods are fixedly provided with supporting arm rods, the screw rods are rotatably arranged on the supporting plates, steel rules are fixedly arranged on the outer sides of the supporting arm rods, and measuring marks are fixedly arranged in the middle of the sliding sleeves.

As one preference, the bottom of the pressure sensor is fixed with a connecting plate of an inverted U shape, a first fixing bolt is arranged on the connecting plate, a mounting pressing block is arranged above the wear-resistant anti-slip pressing roller, the wear-resistant anti-slip pressing roller is detachably mounted on the mounting pressing block, a first fixing jack matched with the first fixing bolt is arranged on the upper middle portion of the mounting pressing block, and the wear-resistant anti-slip pressing roller can rotate around the first fixing bolt in a micro amount to adjust, so that the top surface of the ceramic tile can be better attached.

As a preference, the below of wear-resisting anti-skidding bearing roller is equipped with the installation riding block, wear-resisting anti-skidding bearing roller detachable installs on the installation riding block, be equipped with two fixed bolt two in the backup pad, be equipped with on the installation riding block with fixed bolt two complex fixed jack two, wear-resisting anti-skidding bearing roller, the installation riding block, wear-resisting anti-skidding compression roller and installation briquetting all are equipped with the multiunit, wear-resisting anti-skidding bearing roller of each group, the installation riding block, wear-resisting anti-skidding compression roller and installation briquetting length are all inequality, can change suitable wear-resisting anti-skidding bearing roller according to the size of ceramic tile, the installation riding block, wear-resisting anti-skidding compression roller and installation briquetting, adapt to the ceramic tile of multiple size to change swiftly convenient.

As a preference, the mounting bracket and the two ends of the mounting pressing block are both fixed with a mounting plate, the pressing half sleeve is arranged below the mounting plate, the pressing half sleeve is arranged beside the mounting plate, the pressing half sleeve is fixedly arranged on the pressing half sleeve and the pressing half sleeve, the two sides of the mounting plate and the pressing half sleeve are fixedly connected with a connecting flange, the connecting flange is connected through a connecting bolt, when the contact surface of the wear-resistant anti-slip compression roller and the wear-resistant anti-slip carrier roller is seriously worn, the connecting bolt can be unscrewed, then the wear-resistant anti-slip compression roller and the wear-resistant anti-slip carrier roller are rotated, the contact positions of the wear-resistant anti-slip compression roller and the wear-resistant anti-slip carrier roller are changed, the service time of the wear-resistant anti-slip compression roller and the wear-resistant anti-slip carrier roller can be prolonged, and the wear-resistant anti-slip carrier roller is convenient and fast to change.

Preferably, a hand wheel is fixed at one end of the screw rod.

The utility model has the following beneficial effects:

Through being equipped with lead screw and nut in wear-resisting anti-skidding bearing roller bottom, two wear-resisting anti-skidding bearing rollers are close to and keep away from to wear-resisting anti-skidding compression roller in step around adjusting simultaneously through a lead screw, adjust convenient and fast to it is more accurate to adjust, practices thrift adjustment time, improves test efficiency.

Drawings

FIG. 1 is a schematic diagram of a front view of the present utility model;

FIG. 2 is a schematic right-side view of a cantilever lever;

FIG. 3 is an enlarged top view of FIG. 1 at A;

In the figure: 1. lifting upright post, 2, lifting beam, 3, pressure sensor, 4, connecting plate, 5, wear-resisting anti-slip compression roller, 6, wear-resisting anti-slip idler, 7, chassis, 8, slide bar, 9, support arm pole, 10, hand wheel, 11, lead screw, 12, support plate, 13, support plate, 14, fixing bolt two, 15, installation support block, 16, mounting plate, 17, installation briquetting, 18, fixing bolt one, 19, connection flanging, 20, half compression sleeve, 21, connecting bolt, 22, half anti-slip sleeve, 23, sliding sleeve, 24, measuring standard, 25, steel rule.

Detailed Description

The utility model is further illustrated below with reference to examples.

In the embodiment 1, as shown in fig. 1 to 3, the utility model is a tile bending resistance test device, which comprises a chassis 7, lifting columns 1 are arranged on two sides of the top of the chassis 7, the lifting columns 1 are connected with lifting beams 2, a pressure sensor 3 is fixed at the middle bottom of each lifting beam 2, a support plate 12 is fixed at the front and rear ends of each pressure sensor 3, two wear-resistant anti-slip carrier rollers 6 are symmetrically arranged below each wear-resistant anti-slip carrier roller 5 along the front and rear direction, each wear-resistant anti-slip carrier roller 6 is connected with a support plate 13, nuts are fixed in the middle of the bottom of each support plate 13, the front and rear nuts are symmetrical about the wear-resistant anti-slip carrier rollers 6, the nuts are connected with screw rods 11, screw rods 11 are provided with threads with opposite rotation directions, the front and rear nuts are respectively arranged on the threads with opposite rotation directions, sliding sleeves 23 are fixed on two sides of the bottom of each support plate 13, sliding sleeves 8 are provided with sliding rods 8, support plates 12 are fixed at the front and rear ends of each sliding sleeves 8, support rods 9 are fixed at the bottom of the support plates 12, support arms 9 are fixed on the chassis 7, the screw rods 11 are rotatably arranged on the support plates 12, steel scales 25 are fixed at the outer sides of the support arms 9, and the middle of the sliding sleeves 23 are fixed with measuring sliding sleeves 24. The lifting column 1 may use a hydraulic lifting column.

Before working, the screw rod 11 is rotated firstly, the screw rod 11 rotates to drive the nuts on the front side and the rear side to synchronously approach and separate from the wear-resistant anti-slip compression roller 5, so that the wear-resistant anti-slip carrier rollers 6 on the front side and the rear side are driven to synchronously approach and separate from the wear-resistant anti-slip compression roller 5, the distance between the two wear-resistant anti-slip carrier rollers 6 is adjusted, and the two wear-resistant anti-slip carrier rollers 6 are symmetrical about the vertical plane where the central shaft of the wear-resistant anti-slip compression roller 5 is located at the moment. During the use, lift stand 1 carries lifting beam 2 to rise, thereby make wear-resisting anti-skidding compression roller 5 vertical rising, then put the ceramic tile of waiting to test on two wear-resisting anti-skidding bearing rollers 6, after putting, lift stand 1 carries lifting beam 2 decline, wear-resisting anti-skidding compression roller 5 descends and pressurizes the middle part of ceramic tile, carry out the anti-bending test of ceramic tile, pressure sensor 3 can survey the pressure of wear-resisting anti-skidding compression roller 5 to the ceramic tile, when the ceramic tile damages, the maximum pressure value that pressure sensor 3 surveyed compares the ceramic tile regulation and is able to bear or endure bending pressure, judge whether the ceramic tile is qualified.

In embodiment 2, on the basis of embodiment 1, the bottom of the pressure sensor 3 is fixed with an inverted U-shaped connecting plate 4, a first fixing bolt 18 is arranged on the connecting plate 4, a mounting pressing block 17 is arranged above the wear-resistant anti-slip pressing roll 5, the wear-resistant anti-slip pressing roll 5 is detachably mounted on the mounting pressing block 17, and a first fixing jack matched with the first fixing bolt 18 is arranged at the upper middle part of the mounting pressing block 17.

The below of wear-resisting anti-skidding bearing roller 6 is equipped with installation riding block 15, and wear-resisting anti-skidding bearing roller 6 detachable installs on installation riding block 15, is equipped with two fixed bolt two 14 on the backup pad 13, is equipped with on the installation riding block 15 with fixed bolt two 14 complex fixed jack two, wear-resisting anti-skidding bearing roller 6, installation riding block 15, wear-resisting anti-skidding compression roller 5 and installation briquetting 17 all are equipped with the multiunit, and wear-resisting anti-skidding bearing roller 6, installation riding block 15, wear-resisting anti-skidding compression roller 5 and the installation briquetting 17 length of each group all are unequal.

Before working, according to the size of the tested ceramic tile, a proper wear-resistant and anti-slip carrier roller 6, a proper mounting support block 15, a proper wear-resistant and anti-slip compression roller 5 and a proper mounting press block 17 can be selected, then a first fixing bolt 18 is pulled out, a proper wear-resistant and anti-slip compression roller 5 and a proper mounting press block 17 are replaced, a second fixing bolt 14 is pulled out, and a proper wear-resistant and anti-slip carrier roller 6 and a proper mounting support block 15 are replaced.

The mounting plate 16 is fixed at both ends of the mounting support block 15 and the mounting pressing block 17, the pressing half sleeve 20 is arranged below the mounting plate 16, the pressing half groove is arranged beside the mounting plate 16, the anti-skid half sleeve 22 is fixed on the pressing half groove and the pressing half sleeve 20, the anti-skid half sleeve 22 is provided with anti-skid ribs on the inner wall, the connecting flanges 19 are fixed at both sides of the mounting plate 16 and the pressing half sleeve 20, and the connecting flanges 19 are connected through the connecting bolts 21. After the contact surface of the wear-resistant anti-slip carrier roller 6 and the wear-resistant anti-slip compression roller 5 is excessively worn, the connecting bolt 21 can be unscrewed, then the wear-resistant anti-slip carrier roller 6 and the wear-resistant anti-slip compression roller 5 are rotated, the contact position is replaced, and then the connecting bolt 21 is screwed down to be compressed and fixed. When the whole abrasion of the abrasion-resistant anti-slip carrier roller 6 and the abrasion-resistant anti-slip compression roller 5 is serious, the connecting bolts 21 are detached again, the compression half sleeve 20 is removed, and the abrasion-resistant anti-slip carrier roller 6 and the abrasion-resistant anti-slip compression roller 5 are replaced with new ones.

A hand wheel 10 is fixed at one end of the screw rod 11.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

In the description of the present utility model, the terms "inner", "outer", "longitudinal", "transverse", "upper", "lower", "top", "bottom", etc. refer to the orientation or positional relationship based on that shown in the drawings, only for convenience in describing the present utility model, and do not require that the present utility model must be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Claims (5)

1. The utility model provides a ceramic tile bending test device, includes chassis (7), chassis (7) top both sides are equipped with lift stand (1), and lift stand (1) are connected with lifting cross beam (2), and the middle bottom of lifting cross beam (2) is fixed with pressure sensor (3), and the bottom of pressure sensor (3) is connected with wear-resisting anti-skidding compression roller (5), its characterized in that: the below of wear-resisting anti-skidding compression roller (5) is equipped with two wear-resisting anti-skidding bearing roller (6) along fore-and-aft direction symmetry, every wear-resisting anti-skidding bearing roller (6) are connected with backup pad (13), be fixed with the nut in the middle of the bottom of backup pad (13), two nuts around wear-resisting anti-skidding bearing roller (6) symmetry, the nut is connected with lead screw (11), the both sides of lead screw (11) are equipped with the screw thread that revolves opposite direction, the bottom both sides of backup pad (13) are fixed with sliding sleeve (23), be equipped with slide bar (8) in sliding sleeve (23), the front and back end of slide bar (8) is fixed with extension board (12), the bottom of extension board (12) is fixed with support arm pole (9), support arm pole (9) are fixed on chassis (7), lead screw (11) rotate and install on extension board (12), the outside of support arm pole (9) is fixed with steel chi (25), the centre of sliding sleeve (23) is fixed with measurement mark (24).

2. The tile bending resistance test device according to claim 1, wherein: the bottom of pressure sensor (3) is fixed with connecting plate (4) of falling U type, is equipped with fixed bolt one (18) on connecting plate (4), and the top of wear-resisting anti-skidding compression roller (5) is equipped with installation briquetting (17), and wear-resisting anti-skidding compression roller (5) detachable installs on installation briquetting (17), and the middle upper portion of installation briquetting (17) is equipped with and fixes bolt one (18) complex fixed jack one.

3. The tile bending resistance test device according to claim 2, wherein: the below of wear-resisting anti-skidding bearing roller (6) is equipped with installation riding block (15), and wear-resisting anti-skidding bearing roller (6) detachable installs on installation riding block (15), is equipped with two fixed bolt two (14) on backup pad (13), is equipped with on installation riding block (15) with fixed bolt two (14) complex fixed jack two, wear-resisting anti-skidding bearing roller (6), installation riding block (15), wear-resisting anti-skidding compression roller (5) and installation briquetting (17) all are equipped with the multiunit, wear-resisting anti-skidding bearing roller (6), installation riding block (15), wear-resisting anti-skidding compression roller (5) and installation briquetting (17) length all inequality of each group.

4. A tile bending test device according to claim 3, wherein: mounting bracket (15) and the both ends of installation briquetting (17) all are fixed with mounting panel (16), and the below of mounting panel (16) is equipped with compresses tightly half cover (20), and the other half groove that compresses tightly that is equipped with of mounting panel (16) compresses tightly all is fixed with anti-skidding half cover (22) on half groove and the half cover (20) that compresses tightly, and the both sides of mounting panel (16) and half cover (20) that compress tightly all are fixed with connect turn-ups (19), and connect turn-ups (19) are connected through connecting bolt (21).

5. The tile bending resistance test device according to claim 1, wherein: one end of the screw rod (11) is fixed with a hand wheel (10).