CN213090736U - Quality detection device is used in floor brick production - Google Patents

Abstract

The utility model discloses a quality detection device is used in floor tile production, including base, detection case and square frame, the detection case is located directly over the base, and detection case and base are the cuboid, four corners at base top all are equipped with the supporting mechanism who is used for supporting the detection case, and base top and detection bottom of the case portion one side are equipped with the detection mechanism who is used for detecting floor tile weight, the bar groove has all been seted up to detection case symmetry side, the horizontal limit passes two bar grooves under the square frame, and horizontal limit sliding connection is inside the detection case under the square frame, the inside first moving mechanism that is used for removing the square frame that is equipped with of detection case, and the horizontal limit is located the top of detection case on the square frame, horizontal limit bottom of the square frame sliding connection has the dynamometer, and the dynamometer bottom is equipped with the accredited testing organization that is used for testing floor tile roughness. The utility model discloses can detect the roughness of ground plate brick, improve the production quality of ground plate brick.

Description

Quality detection device is used in floor brick production

Technical Field

The utility model relates to a floor tile detects technical field, especially relates to a quality detection device is used in floor tile production.

Background

Floor tiles are a floor finishing material, also called floor tiles. Is prepared by firing clay. The specifications are various. Firm, pressure-resistant, wear-resistant and moisture-proof. Some of them are glazed and have a decorative effect. The floor tile is mainly used for the ground and the floor of public buildings and civil buildings, and the floor tile needs to be detected during production.

The existing floor tile detection device can not detect the flatness of the floor tiles, and in addition, the current weight detection of the floor tiles is carried out through an electronic scale, so that the operation is troublesome and is not intuitive enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a quality detection device for floor tile production.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a quality detection device for floor tile production comprises a base, a detection box and a square frame, wherein the detection box is positioned right above the base, the detection box and the base are cuboids, four corners of the top of the base are respectively provided with a supporting mechanism for supporting the detection box, one side of the top of the base and one side of the bottom of the detection box are respectively provided with a detection mechanism for detecting the weight of floor tiles, one symmetrical side of the detection box is respectively provided with a strip-shaped groove, the lower transverse edge of the square frame passes through the two strip-shaped grooves and is connected inside the detection box in a sliding manner, the inside of the detection box is provided with a first moving mechanism for moving the square frame, the upper transverse edge of the square frame is positioned above the detection box, the upper transverse edge of the square frame is connected with a force measuring device in a sliding manner, the bottom of the force measuring device is provided with a testing mechanism for testing the flatness of floor tiles, the inside of the upper transverse edge of the square, and the top of the detection box is connected with a brush plate in a sliding manner, two ends of the brush plate are respectively welded on one side of two vertical edges of the square frame, and the top of the upper transverse edge of the square frame is provided with an indicator lamp.

Preferably, the supporting mechanism comprises a sleeve, the bottom of the sleeve is welded to the top of the base, a loop bar is slidably connected to the top of the sleeve, the bottom of the loop bar penetrates through the top of the sleeve and is slidably connected to the inside of the sleeve, a first spring is welded to the top of the sleeve, the surface of the loop bar penetrates through the first spring and is slidably connected to the inside of the first spring, and the top of the loop bar is welded to the bottom of the detection box.

Preferably, detection mechanism includes L template and fixed plate, and the L template erects the limit and keeps away from the tip on horizontal limit and weld in the detection case bottom, the fixed plate bottom welds in the base top, and the horizontal limit of L template sets up towards the fixed plate, the one end welding that the horizontal limit of L template was kept away from on vertical limit has the copper, and the fixed plate is close to one side welding of L template and has the copper sheet, copper sheet and copper sliding connection, and copper sheet, copper and the equal electricity of pilot lamp are connected.

Preferably, first moving mechanism includes electronic slip table, and electronic slip table installs bottom and the square frame setting of perpendicular to in the detection case, the output of electronic slip table welds in horizontal limit bottom center department under the square frame.

Preferably, accredited testing organization includes sliding sleeve and depression bar, and the fixed block has all been welded to a ergograph bottom symmetry side, the equal sliding connection of ergograph bottom and two fixed blocks is inside the sliding sleeve, and depression bar top sliding connection is inside the sliding sleeve, the welding of depression bar top and ergograph dynamometry end has same second spring.

Preferably, the second moving mechanism comprises a linear guide rail, the linear guide rail is arranged inside the upper transverse edge of the square frame and is parallel to the upper transverse edge of the square frame, and the output end of the linear guide rail penetrates through the bottom of the upper transverse edge of the square frame and is welded to the top of the dynamometer.

Preferably, the second moving mechanism comprises a sliding block and an electric telescopic rod, the sliding block is connected to the upper side of the square frame in a sliding mode, the electric telescopic rod is installed inside the upper side of the square frame, the end portion of an output shaft of the electric telescopic rod is welded to one side of the sliding block, and the bottom of the sliding block penetrates through the bottom of the upper side of the square frame and is welded to the top of the dynamometer.

The utility model has the advantages that:

1. the utility model discloses, place the floor tile in detection roof portion, move about through linear guide drive ergograph, the ergograph drives the sliding sleeve and moves about, the sliding sleeve drives the depression bar and moves about, and then drive square frame back-and-forth movement through electronic slip table, square frame drives the depression bar back-and-forth movement, thereby can make the depression bar all-round movement on the floor tile, when the depression bar contacts the floor tile, this is that the second spring is compressed and can produce elasticity, the dynamometry end of second spring and ergograph is connected, show a numerical value on the ergograph, observe whether the numerical value of ergograph changes, if change does not change, indicate that floor tile surface is level, if change, indicate floor tile unevenness, and then can detect floor tile's roughness, floor tile's production quality has been improved, in addition before detecting, need to make square frame drive brush board and move and clean detection roof portion, the dust is prevented from being positioned at the bottom of the floor tile to influence the detection result.

2. The utility model discloses, through the setting of copper and copper sheet, when the floor tile was placed on the detection case, because detection case weight gain makes the detection case can down move, the pilot lamp lights when copper sheet and copper contact, it is qualified to show the weight of floor tile, if the pilot lamp does not light then show that floor tile weight is unqualified, and only need observe the pilot lamp whether light can, this detection mode is simple and directly perceived, and then has improved accuracy and efficiency to the detection of floor tile.

3. The utility model discloses, place ground plate brick in detecting roof portion, it removes to drive the slider through electric telescopic handle, the slider drives and removes about the ergograph, the ergograph drives and removes about the sliding sleeve, the sliding sleeve drives the depression bar and removes, rethread electric sliding table drives square frame back-and-forth movement, square frame drives the depression bar back-and-forth movement, thereby can make the depression bar all around movement on ground plate brick, when depression bar contact ground plate brick, this is that the spring is compressed can produce elasticity, the dynamometry end of spring and ergograph is connected, make to show a numerical value on the ergograph, it changes whether to observe the numerical value of ergograph, if do not change then show ground plate brick surfacing, if change then show ground plate brick unevenness, and then can detect ground plate brick's roughness, the production quality of ground plate brick has been improved.

Drawings

Fig. 1 is a schematic structural view of a quality detection device for floor tile production according to embodiment 1 of the present invention;

fig. 2 is a cross-sectional view of a sliding sleeve of a quality detection device for floor tile production according to the embodiment of the present invention 1;

fig. 3 is a cross-sectional view of a detection box of the quality detection device for floor tile production according to the embodiment of the present invention;

fig. 4 is a cross-sectional view of a square frame of a quality detecting device for floor tile production according to embodiment 1 of the present invention;

fig. 5 is a cross-sectional view of a quality detection device for floor tile production according to the utility model discloses embodiment 2.

In the figure: the device comprises a base 1, a sleeve 2, a loop bar 3, a first spring 4, a detection box 5, a square frame 6, a brush plate 7, a force measuring device 8, a sliding sleeve 9, a pressure bar 10, a strip-shaped groove 11, a template 12L, a copper plate 13, a fixing plate 14, a copper sheet 15, a fixing block 16, a second spring 17, an electric sliding table 18, a linear guide rail 19, a sliding block 20 and an electric telescopic rod 21.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Example 1

Referring to fig. 1-4, a quality detection device for floor tile production, comprising a base 1, a detection box 5 and a square frame 6, wherein the detection box 5 is positioned right above the base 1, the detection box 5 and the base 1 are both cuboids, four corners of the top of the base 1 are all provided with a supporting mechanism for supporting the detection box 5, one side of the top of the base 1 and the bottom of the detection box 5 is provided with a detection mechanism for detecting the weight of a floor tile, the symmetrical side surfaces of the detection box 5 are both provided with strip-shaped grooves 11, the lower transverse edge of the square frame 6 passes through the two strip-shaped grooves 11, the lower transverse edge of the square frame 6 is connected inside the detection box 5 in a sliding manner, the detection box 5 is internally provided with a first moving mechanism for moving the square frame 6, the upper transverse edge of the square frame 6 is positioned above the detection box 5, the upper transverse edge of the square frame 6 is connected with a force measuring device 8 in a sliding manner, and, the inside second moving mechanism that is used for removing ergograph 8 that is equipped with of square frame 6 entablature, and 5 top sliding connection of detection case have brush board 7, and brush board 7 both ends weld respectively in one side on 6 two perpendicular limits of square frame, and the pilot lamp is installed at square frame 6 entablature top.

In the utility model, the supporting mechanism comprises a sleeve 2, the bottom of the sleeve 2 is welded on the top of a base 1, the top of the sleeve 2 is connected with a loop bar 3 in a sliding way, the bottom of the loop bar 3 passes through the top of the sleeve 2 and is connected inside the sleeve 2 in a sliding way, the top of the sleeve 2 is welded with a first spring 4, the surface of the loop bar 3 passes through the first spring 4 and is connected inside the first spring 4 in a sliding way, the top of the loop bar 3 is welded on the bottom of a detection box 5, the detection mechanism comprises an L-shaped plate 12 and a fixed plate 14, the end part of the L-shaped plate 12 far away from the transverse edge is welded on the bottom of the detection box 5, the bottom of the fixed plate 14 is welded on the top of the base 1, the transverse edge of the L-shaped plate 12 is arranged towards the fixed plate 14, a copper plate 13 is welded on one end of the transverse edge of the L, first moving mechanism includes electronic slip table 18, and electronic slip table 18 installs bottom and the square frame of perpendicular to 6 settings in detection case 5, the output of electronic slip table 18 welds in square frame 6 lower horizontal limit bottom center department, accredited testing organization includes sliding sleeve 9 and depression bar 10, and the equal welding of a symmetrical side in dynamometer 8 bottom has fixed block 16, the equal sliding connection of dynamometer 8 bottom and two fixed block 16 is inside sliding sleeve 9, and depression bar 10 top sliding connection is inside sliding sleeve 9, depression bar 10 top and the welding of dynamometer 8 dynamometry end have same second spring 17, second moving mechanism includes linear guide 19, and linear guide 19 installs inside and be on a parallel with square frame 6 horizontal limit setting in square frame 6 horizontal limit, linear guide 19's output passes square frame 6 upper horizontal limit bottom and welds in dynamometer 8 tops.

The working principle of the embodiment is as follows: when the floor tile detection device is in actual use, floor tiles are placed at the top of a detection box 5, a force measuring device 8 is driven to move left and right through a linear guide rail 19, the force measuring device 8 drives a sliding sleeve 9 to move left and right, the sliding sleeve 9 drives a pressure rod 10 to move left and right, then a square frame 6 is driven to move front and back through an electric sliding table 18, the square frame 6 drives the pressure rod 10 to move front and back, so that the pressure rod 10 can move all around on the floor tiles, when the pressure rod 10 contacts the floor tiles, a second spring 17 is compressed to generate elastic force, the second spring 17 is connected with a force measuring end of the force measuring device 8, a numerical value is displayed on the force measuring device 8, whether the numerical value of the force measuring device 8 is changed or not is observed, if the numerical value is not changed, the surface of the floor tiles is flat, if the numerical value is changed, the flatness of, need make square frame 6 drive brush board 7 and remove and clean 5 tops of detection case, the bottom of avoiding the dust to be located the floor tile produces the influence to the testing result, setting through copper 13 and copper sheet 15, when the floor tile is placed on detection case 5, because detection case 5 weight gain makes detection case 5 can down move, the pilot lamp lights when copper sheet 15 and copper 46 contact, it is qualified to show the weight of floor tile, if the pilot lamp does not light then show floor tile weight is unqualified, and only need observe the pilot lamp whether light can, this detection mode is simple and directly perceived, and then improved accuracy and the efficiency to the detection of floor tile.

Example 2

Referring to fig. 5, the embodiment is different from embodiment 1 only in that the second moving mechanism includes a sliding block 20 and an electric telescopic rod 21, the sliding block 20 is slidably connected inside the upper lateral side of the square frame 6, the electric telescopic rod 21 is installed inside the upper lateral side of the square frame 6, the end of the output shaft of the electric telescopic rod 21 is welded to one side of the sliding block 20, and the bottom of the sliding block 20 passes through the bottom of the upper lateral side of the square frame 6 and is welded to the top of the dynamometer 8.

The working principle of the embodiment is as follows: when in actual use, the floor tiles are placed at the top of the detection box 5, the electric telescopic rod 21 drives the sliding block 20 to move, the sliding block 20 drives the force measuring device 8 to move left and right, the force measuring device 8 drives the sliding sleeve 9 to move left and right, the sliding sleeve 9 drives the pressure rod 10 to move left and right, the square frame 6 is driven by the electric sliding table 18 to move back and forth, the square frame 6 drives the pressure rod 10 to move back and forth, so that the pressing rod 10 can move on the floor tile in all directions, when the pressing rod 10 contacts the floor tile, this is because the second spring 17, which is compressed, generates a spring force, the second spring 17 is connected to the force measuring end of the force measuring device 8, a numerical value is displayed on the force measuring device 8, whether the numerical value of the force measuring device 8 changes or not is observed, if the numerical value does not change, the surface of the floor tile is flat, and if the numerical value changes, the unevenness of the floor tile is indicated, so that the flatness of the floor tile can be detected, and the production quality of the floor tile is improved.

Having shown and described the basic principles and essential features of the invention and advantages thereof, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof, and it is therefore intended that the embodiments be considered as exemplary and not limiting in any way, since the scope of the invention is defined by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein and are therefore not to be embraced therein by any reference numerals in the claims.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. A quality detection device for floor tile production comprises a base (1), a detection box (5) and a square frame (6), and is characterized in that the detection box (5) is positioned right above the base (1), the detection box (5) and the base (1) are both cuboids, four corners of the top of the base (1) are respectively provided with a supporting mechanism for supporting the detection box (5), one side of the top of the base (1) and the bottom of the detection box (5) is provided with a detection mechanism for detecting the weight of floor tiles, the symmetrical side surfaces of the detection box (5) are respectively provided with a strip-shaped groove (11), the lower transverse edge of the square frame (6) passes through the two strip-shaped grooves (11), the lower transverse edge of the square frame (6) is connected inside the detection box (5) in a sliding manner, a first moving mechanism for moving the square frame (6) is arranged inside the detection box (5), and the upper transverse edge of the square frame (6) is positioned above the detection box (5), the floor board sliding connection has ergograph (8) on square frame (6), and ergograph (8) bottom is equipped with the accredited testing organization who is used for testing floor tile roughness, square frame (6) are gone up the inside second moving mechanism that is used for removing ergograph (8) that is equipped with of horizontal limit, and detection case (5) top sliding connection has brush board (7), brush board (7) both ends weld respectively in one side of two vertical limits of square frame (6), and the pilot lamp is installed at horizontal limit top on square frame (6).

2. The quality detection device for floor tile production according to claim 1, wherein the support mechanism comprises a sleeve (2), the bottom of the sleeve (2) is welded to the top of the base (1), a loop bar (3) is slidably connected to the top of the sleeve (2), the bottom of the loop bar (3) penetrates through the top of the sleeve (2) and is slidably connected to the inside of the sleeve (2), a first spring (4) is welded to the top of the sleeve (2), the surface of the loop bar (3) penetrates through the first spring (4) and is slidably connected to the inside of the first spring (4), and the top of the loop bar (3) is welded to the bottom of the detection box (5).

3. The quality detection device for floor tile production according to claim 2, wherein the detection mechanism comprises an L-shaped plate (12) and a fixing plate (14), the end part of the vertical side of the L-shaped plate (12) far away from the transverse side is welded at the bottom of the detection box (5), the bottom of the fixing plate (14) is welded at the top of the base (1), the transverse side of the L-shaped plate (12) is arranged towards the fixing plate (14), a copper plate (13) is welded at one end of the transverse side of the L-shaped plate (12) far away from the vertical side, a copper plate (15) is welded at one side of the fixing plate (14) close to the L-shaped plate (12), the copper plate (15) and the copper plate (13) are connected in a sliding mode, and the copper plate (15), the copper plate (13.

4. The quality detection device for floor tile production according to claim 3, wherein the first moving mechanism comprises an electric sliding table (18), the electric sliding table (18) is installed at the bottom in the detection box (5) and is arranged perpendicular to the square frame (6), and the output end of the electric sliding table (18) is welded at the bottom center of the lower transverse edge of the square frame (6).

5. The quality detection device for floor tile production according to claim 4, wherein the testing mechanism comprises a sliding sleeve (9) and a pressure lever (10), and a fixed block (16) is welded on a symmetrical side of the bottom of the force measuring device (8), the bottom of the force measuring device (8) and two fixed blocks (16) are slidably connected inside the sliding sleeve (9), the top of the pressure lever (10) is slidably connected inside the sliding sleeve (9), and the same second spring (17) is welded on the top of the pressure lever (10) and the force measuring end of the force measuring device (8).

6. The quality detecting device for floor tile production according to claim 5, wherein the second moving mechanism comprises a linear guide rail (19), the linear guide rail (19) is installed inside the upper transverse edge of the square frame (6) and is arranged in parallel with the upper transverse edge of the square frame (6), and the output end of the linear guide rail (19) penetrates through the bottom of the upper transverse edge of the square frame (6) and is welded on the top of the dynamometer (8).

7. The quality detecting device for floor tile production according to claim 5, wherein the second moving mechanism comprises a sliding block (20) and an electric telescopic rod (21), the sliding block (20) is slidably connected to the inside of the upper transverse side of the square frame (6), the electric telescopic rod (21) is installed inside the upper transverse side of the square frame (6), the end part of the output shaft of the electric telescopic rod (21) is welded to one side of the sliding block (20), and the bottom of the sliding block (20) penetrates through the bottom of the upper transverse side of the square frame (6) and is welded to the top of the dynamometer (8).

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