CN218916971U - Ceramic tile glue testing and sample preparation auxiliary device - Google Patents

Abstract

The utility model provides a tile glue test sample preparation auxiliary device, which comprises a shell, wherein a baffle is arranged in the shell and divides the shell into a sample preparation area below and a pressure piece control area above; the partition board is provided with a plurality of through holes, and ceramic tile clamping pieces are arranged in the through holes; a plurality of pressure pieces positioned right above the through holes are arranged in the pressure piece control area, and a control assembly connected with the pressure pieces is also arranged in the pressure piece control area; the control assembly controls the pressure piece to vertically move downwards to penetrate through the through hole and enable the ceramic tile located on the ceramic tile clamping piece to fall, the ceramic tile falls and reaches the surface of the mortar cement board covered with the ceramic tile glue in the sample preparation area, the pressure piece applies pressure to the ceramic tile, and the control assembly controls the pressure piece to leave the surface of the ceramic tile after sample preparation is completed. The tile glue testing and sample preparing auxiliary device ensures the consistency of the synchronous placement and the pressing time of the tiles, and is accurate in sample preparation and high in sample preparation efficiency.

Description

Ceramic tile glue testing and sample preparation auxiliary device

Technical Field

The utility model belongs to the technical field of tile glue testing, and particularly relates to a tile glue testing and sample preparing auxiliary device.

Background

For the tile adhesive test, the tile adhesive has relatively complex characteristics, after the tile adhesive is paved on a mortar cement board according to a certain angle, tiles required by corresponding tests are placed at certain intervals, the tiles are compacted by weights with fixed weight, the tiles are taken down after 30 seconds, and then an experiment maintenance period is carried out, so that the test can be carried out. The existing tile glue sample preparation method has more interference factors, the experimental result of the comparison test is greatly influenced, no corresponding equipment is used for carrying out the experiment at present, and the manual operation and calculation are mainly relied on; the time interval is reserved for testing the ceramic tile, and the interval duration is inconsistent, so that experimental errors of a comparison experiment are caused; meanwhile, the control on time is not strict, for example, the weight compaction process requires 30s for each test block, but the weight compaction duration is difficult to achieve consistency due to continuous experiments, and the compaction time is different; sample preparation time is long, and waste of human resources is caused.

CN216160326U discloses a tensile bonding strength testing device for ceramic tile adhesive, which comprises a base, a strength testing unit, a supporting column and square long strip blocks; the upper end of the base is fixedly connected with the lower end of the supporting column, and the upper end of the supporting column is provided with a square long strip block; the strength testing unit comprises a motor support, a motor, a screw rod, a connecting block, a sliding block, a T-shaped sliding block, a pin shaft, a spring and an adhesive stress mechanism, wherein the motor support is arranged at the upper end of the base, the motor support is fixedly connected with the lower end of the motor, the upper end of the motor is output with one end of the screw rod in a vertical mode, the middle of the supporting column is connected with two sides of the sliding block in a sliding mode, T-shaped grooves are formed in one sides of opposite faces of the sliding block and the square long strip block respectively, and the T-shaped sliding block is connected with the T-shaped sliding block in a sliding mode.

CN209296547U discloses a tile adhesive bonding force testing device, which comprises a base and a tension plate, wherein the tension plate is provided with a pull ring for hanging weights and a plurality of threaded through holes; two sides of the base are provided with water spraying devices, wherein the water spraying devices are two water guns which are arranged on the rotating shaft and rotate around the rotating shaft; the other two sides of the base are provided with hot air devices, wherein the hot air devices are hot air fans which are arranged on the rotating shaft and rotate around the rotating shaft; the top end of the base is provided with a step hollow groove, and a cement bottom plate is arranged on the step hollow groove; the bottom surface of the cement bottom plate is connected with a ceramic tile with a thread groove through ceramic tile glue, and the thread groove corresponds to the thread through hole; the tension plate is connected with the ceramic tile through bolts.

CN212904459U discloses a tile gluing property testing arrangement, including the structure main part, the structure main part is equipped with the square base that the top welding has the frame, be equipped with a plurality of columniform first fixed blocks in the frame, and fix to through a plurality of dead levers the frame top, first fixed block bottom is fixed to be covered with and is brushed the layer, and passes through it is connected with the second fixed block to scribble the layer absorption, this second fixed block bottom is connected with the cylindrical telescopic shaft that stretches out and draws from top to bottom through the spring traction, the telescopic shaft bottom is fixed on the base, the telescopic shaft is fixed with the annular controller rather than control connection all around.

In summary, the currently disclosed tile glue test sample preparation method has certain defects, and has the problems of experimental errors caused by inconsistent time intervals of the placement time of the tested tiles, differences in compaction time caused by the fact that weight compaction duration cannot be unified, and low efficiency caused by long time consumption. Therefore, development and design of a novel tile adhesive test sample preparation auxiliary device are important.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide the tile glue test sample preparation auxiliary device, which controls the consistency of the placement time of the tile and the pressing time of the pressure piece on the tile, reduces relevant influencing factors, ensures that the sample preparation is more accurate and ensures the accuracy of follow-up experimental data; the tile glue test sample preparation auxiliary device also has the advantage of high sample preparation efficiency.

To achieve the purpose, the utility model adopts the following technical scheme:

in a first aspect, the utility model provides a tile glue test sample preparation auxiliary device, which comprises a shell, wherein a baffle is arranged in the shell and divides the shell into a sample preparation area below and a pressure piece control area above;

the partition board is provided with a plurality of through holes, and ceramic tile clamping pieces are arranged in the through holes; a plurality of pressure pieces positioned right above the through holes are arranged in the pressure piece control area, and a control assembly connected with the pressure pieces is also arranged in the pressure piece control area;

the control assembly controls the pressure piece to vertically move downwards to penetrate through the through hole and enable the ceramic tile located on the ceramic tile clamping piece to fall, the ceramic tile falls and reaches the surface of the mortar cement board covered with the ceramic tile glue in the sample preparation area, the pressure piece applies pressure to the ceramic tile, and the control assembly controls the pressure piece to leave the surface of the ceramic tile after sample preparation is completed.

The auxiliary device for testing and preparing the ceramic tile glue ensures synchronous placement of ceramic tiles and pressure pieces of all samples during preparing the samples, and avoids experimental errors caused by time intervals.

The utility model adopts the control component to control the descent of the pressure piece, and the pressure piece slowly moves downwards, so that the impact force generated by the too fast descent of the pressure piece can not cause excessive compaction; the control assembly is also used for controlling the rising of the pressure piece, and after the pressure piece applies the compaction time required by the experiment to the ceramic tile, the pressure piece rises, the sample preparation is completed, and the time unification of the compaction process is ensured.

According to the utility model, the plurality of pressure pieces are arranged right above the plurality of through holes, so that the preparation of a plurality of groups of samples can be realized at the same time, a large number of required samples can be prepared in a shorter time, and the sample preparation efficiency is ensured.

As a preferable technical scheme of the utility model, the control assembly comprises a telescopic piece fixedly arranged on the inner side wall of the shell and an upper cover plate movably arranged on the top of the shell;

the upper cover plate is respectively connected with the telescopic piece and the pressure piece.

According to the utility model, the lifting of the pressure parts connected with the upper cover plate is controlled by controlling the lifting and the falling of the upper cover plate, so that the simultaneous lifting and the falling of a plurality of pressure parts are ensured.

As a preferable technical scheme of the utility model, the control assembly further comprises a power assembly electrically connected with the telescopic piece, and the power assembly is used for controlling the telescopic piece to stretch.

As a preferable technical scheme of the utility model, the telescopic piece comprises an insulating spring which is vertically arranged;

the two ends of the insulating spring are respectively connected with a first electromagnet and a second electromagnet, the first electromagnet is fixedly arranged on the side wall of the shell close to one end of the partition board, the second electromagnet is movably arranged on the side wall of the shell far away from one end of the partition board, and the second electromagnet is fixedly connected with the upper cover plate;

the first electromagnet and the second electromagnet are electrically connected with the power supply assembly;

after the power supply assembly is electrified, the second electromagnet compresses the insulating spring and moves towards the first electromagnet to drive the upper cover plate to vertically move downwards, and the pressure piece connected with the upper cover plate vertically moves downwards; after the power supply assembly is powered off, the second electromagnet moves in a direction away from the first electromagnet under the action of the insulating spring and then drives the upper cover plate to vertically move upwards, and the pressure piece connected with the upper cover plate vertically moves upwards.

After the power supply assembly is electrified, the first electromagnet and the second electromagnet generate mutual attraction magnetism, the attraction force caused by the mutual attraction magnetism is far greater than the elastic force of the insulating spring, and therefore the resultant force is vertically downward, and the second electromagnet compresses the insulating spring and moves towards the first electromagnet.

As a preferred technical scheme of the utility model, the power supply assembly comprises a power supply and a switch, wherein the power supply is electrically connected with the switch, and the switch is electrically connected with the telescopic piece.

As a preferable technical scheme of the utility model, the control assembly further comprises a current detector, wherein the current detector is respectively and electrically connected with the telescopic piece and the switch;

the current monitor is used for monitoring the current state of the telescopic piece and feeding back to the switch.

After the power supply assembly is electrified, the first electromagnet and the second electromagnet are separated by the insulating spring, the current of the telescopic piece is disconnected, and when the second electromagnet moves vertically downwards, the second electromagnet contacts with the first electromagnet, and the current of the telescopic piece is communicated.

After the first electromagnet is contacted with the second electromagnet, the current in the telescopic piece is communicated, the current monitor detects the current in the telescopic piece and feeds back to the switch, the switch is powered off immediately after the compaction time is up, the second electromagnet rebounds under the action of the insulating spring after the switch is powered off, the pressure piece rises along with the lifting, and the sample preparation is completed, so that the consistency of the compaction time in the sample preparation is ensured.

As a preferred embodiment of the present utility model, the current monitor includes a compaction indicator;

and the compaction indicator lights are lightened after the current in the telescopic piece forms a passage.

The compaction indicator lamp is used for displaying the current state in the telescopic piece, the compaction indicator lamp is turned on after the current in the telescopic piece is communicated to indicate that the pressure piece is exerting pressure on the ceramic tile, and the compaction indicator lamp is turned off after the current in the telescopic piece is disconnected to indicate that the pressure piece is exerting pressure on the ceramic tile to finish, so that sample preparation is completed.

As an optimal technical scheme of the utility model, the upper cover plate is connected with the pressure piece through the connecting wire, the pressure piece is a weight, a hook is arranged on the connecting wire, and the weight is connected with the connecting wire through the hook.

The connecting line is a bendable line, and is in a natural bending state when the weight presses the ceramic tile.

As a preferable technical scheme of the utility model, the ceramic tile clamping piece comprises a rubber ring.

As a preferable technical scheme of the utility model, scale marks are marked on the inner wall of the shell of the sample preparation area.

The scale marks are used for indicating the placement positions of the tiles.

In a second aspect, the application method of the tile glue test sample preparation auxiliary device provided by the utility model comprises the following steps:

placing ceramic tiles according to scale marks marked on the inner wall of the shell of the sample preparation area, and turning on a switch to electrify a power supply assembly; after the power supply assembly is electrified, the first electromagnet and the second electromagnet generate attractive magnetism, and the attractive force brought by the attractive magnetism is far greater than the elastic force of the insulating spring, so that the resultant force is vertically downward; the second electromagnet compresses the insulating spring and moves towards the first electromagnet, and when moving, the second electromagnet drives the upper cover plate to vertically move downwards and vertically moves downwards with a weight connected with the upper cover plate through a connecting wire; after the weight descends, pressing the weight onto a ceramic tile clamped by a rubber ring arranged in a through hole of the partition board, enabling the ceramic tile to fall down, enabling the ceramic tile to reach the surface of a mortar cement board covered with ceramic tile glue in a sample preparation area after falling down, enabling the weight to continuously vertically move downwards to pass through the through hole on the partition board, and pressing the weight onto the ceramic tile to apply pressure to the ceramic tile; when the weight starts to apply pressure to the ceramic tile, the first electromagnet is contacted with the second electromagnet, the current between the first electromagnet and the second electromagnet is communicated, the current monitor detects the current between the first electromagnet and the second electromagnet and feeds back to the switch, the switch is set to be immediately powered off after reaching the compaction time, and meanwhile, the compaction indicator lights are lightened; when the pressing time is reached, the switch is powered off, the first electromagnet and the second electromagnet are not magnetic, the second electromagnet moves in the direction away from the first electromagnet under the action of the insulating spring and then drives the upper cover plate to vertically move upwards, the weight connected with the upper cover plate vertically moves upwards, the current between the first electromagnet and the second electromagnet is disconnected, the compaction indicator lamp is closed, and the sample preparation is completed.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The tile glue test sample preparation auxiliary device ensures synchronous placement of tiles and pressure pieces of all samples during sample preparation, and avoids experimental errors caused by time intervals;

(2) The utility model adopts the control component to control the descent of the pressure piece, and the pressure piece slowly moves downwards, so that the impact force generated by the too fast descent of the pressure piece can not cause excessive compaction; the control component is also used for controlling the rising of the pressure piece, and after the pressure piece applies compaction time required by the experiment to the ceramic tile, the pressure piece rises, the sample preparation is completed, and the time unification of the compaction process is ensured;

(3) According to the utility model, the plurality of pressure pieces are arranged right above the plurality of through holes, so that the preparation of a plurality of groups of samples can be realized at the same time, a large number of required samples can be prepared in a shorter time, and the sample preparation efficiency is ensured.

Drawings

Fig. 1 is a schematic vertical sectional structure of a tile glue test sample preparation auxiliary device according to an embodiment of the present utility model.

Fig. 2 is a schematic structural diagram of a tile glue test sample preparation auxiliary device according to an embodiment of the present utility model.

Fig. 3 is a schematic structural view of a telescopic member before a tile glue test sample preparation auxiliary device according to an embodiment of the present utility model works.

Fig. 4 is a schematic structural view of the telescopic member when the pressure member moves vertically downward according to an embodiment of the present utility model.

Fig. 5 is a schematic structural view of the telescopic member when the pressure member moves vertically upward according to an embodiment of the present utility model.

Wherein, 1-shell; 2-a separator; 3-through holes; 4-a ceramic tile clamping piece; 5-weight; 6-ceramic tile; 7-ceramic tile glue; 8-a mortar cement board; 9-an upper cover plate; 10-insulating springs; 11-a second electromagnet; 12-a first electromagnet; 13-a power supply; 14-a switch; 15-compaction indicator lights; 16-connecting lines; 17-hooking; 18-graduation marks.

Detailed Description

It is to be understood that in the description of the present utility model, the terms "upper", "lower", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

It should be noted that, in the description of the present utility model, unless explicitly specified and limited otherwise, the terms "disposed," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

In a specific embodiment, as shown in fig. 1, the utility model provides a tile glue test sample preparation auxiliary device, which comprises a shell 1, wherein a partition plate 2 is arranged in the shell 1, and the partition plate 2 divides the shell 1 into a sample preparation area below and a pressure piece control area above;

a plurality of through holes 3 are formed in the partition board 2, and ceramic tile clamping pieces 4 are arranged in the through holes 3; a plurality of pressure pieces positioned right above the through holes 3 are arranged in the pressure piece control area, and a control assembly connected with the pressure pieces is also arranged in the pressure piece control area;

the control assembly controls the pressure piece to vertically move downwards to penetrate through the through hole 3 and enable the ceramic tile 6 on the ceramic tile clamping piece 4 to fall, the ceramic tile 6 falls and reaches the surface of the mortar cement plate 8 covered with the ceramic tile adhesive 7 in the sample preparation area, the pressure piece applies pressure to the ceramic tile 6, and the control assembly controls the pressure piece to leave the surface of the ceramic tile 6 after sample preparation is completed.

The auxiliary device for testing and preparing the ceramic tile glue ensures synchronous placement of the ceramic tiles 6 and the pressure pieces of all samples during preparing the samples, and avoids experimental errors caused by time intervals.

The utility model adopts the control component to control the descent of the pressure piece, and the pressure piece slowly moves downwards, so that the impact force generated by the too fast descent of the pressure piece can not cause excessive compaction; the control assembly is also used for controlling the rising of the pressure piece, and after the pressure piece applies the compaction time required by the experiment to the ceramic tile 6, the pressure piece rises, the sample preparation is completed, and the time unification of the compaction process is ensured.

According to the utility model, the plurality of pressure pieces are arranged right above the plurality of through holes 3, so that the preparation of a plurality of groups of samples can be realized at the same time, a large number of required samples can be prepared in a short time, and the sample preparation efficiency is ensured.

Further, the control assembly comprises a telescopic piece fixedly arranged on the inner side wall of the shell 1 and an upper cover plate 9 movably arranged on the top of the shell 1;

the upper cover plate 9 is respectively connected with the telescopic piece and the pressure piece.

The lifting of the pressure parts connected with the upper cover plate 9 is controlled by controlling the lifting and the lowering of the upper cover plate 9, so that the simultaneous lifting and the lowering of a plurality of pressure parts are ensured.

Further, the control assembly further comprises a power assembly electrically connected with the telescopic piece, and the power assembly is used for controlling the telescopic piece to stretch.

Further, as shown in fig. 3, the telescopic member includes an insulating spring 10 vertically disposed;

the two ends of the insulating spring 10 are respectively connected with a first electromagnet 12 and a second electromagnet 11, the first electromagnet 12 is fixedly arranged on the side wall of the shell 1 close to one end of the partition board 2, the second electromagnet 11 is movably arranged on the side wall of the shell 1 far away from one end of the partition board 2, and the second electromagnet 11 is fixedly connected with the upper cover plate 9;

the first electromagnet 12 and the second electromagnet 11 are electrically connected with the power supply assembly;

after the power supply assembly is electrified, as shown in fig. 4, the second electromagnet 11 compresses the insulating spring 10 and drives the upper cover plate 9 to vertically move downwards after moving towards the first electromagnet 12, and a pressure piece connected with the upper cover plate 9 vertically moves downwards; after the power supply assembly is powered off, as shown in fig. 5, the second electromagnet 11 moves away from the first electromagnet 12 under the action of the insulating spring 10 and then drives the upper cover plate 9 to vertically move upwards, and the pressure piece connected with the upper cover plate 9 vertically moves upwards.

After the power supply assembly is electrified, the first electromagnet 12 and the second electromagnet 11 generate mutual attraction magnetism, and the attraction force caused by the mutual attraction magnetism is far greater than the elastic force of the insulating spring 10, so that the resultant force is vertically downward, and the second electromagnet 11 compresses the insulating spring 10 and moves towards the first electromagnet 12.

Further, the power supply assembly includes a power supply 13 and a switch 14, the power supply 13 is electrically connected to the switch 14, and the switch 14 is electrically connected to the telescopic member.

Further, the control assembly further comprises a current detector electrically connected with the telescopic member and the switch 14, respectively;

the current monitor is used to monitor the current state of the telescoping member and feed it back to the switch 14.

After the power supply assembly is electrified, the first electromagnet 12 and the second electromagnet 11 are separated by the insulating spring 10, the current of the telescopic piece is disconnected, and when the second electromagnet 11 moves vertically downwards, the second electromagnet contacts with the first electromagnet 12, and the current of the telescopic piece is communicated.

After the first electromagnet 12 is contacted with the second electromagnet 11, the current in the telescopic member is communicated, the current monitor detects the current in the telescopic member and feeds back to the switch 14, the switch 14 is powered off immediately after the compaction time is reached, the second electromagnet 11 rebounds under the action of the insulating spring 10 after the switch 14 is powered off, the pressure member rises along with the rebound, and the sample preparation is completed, so that the consistency of the compaction time in the sample preparation is ensured.

Further, the current monitor includes a compaction indicator 15;

the compaction indicator 15 lights up after the current in the telescoping member has been routed.

The compaction indicator lamp 15 is used for displaying the current state in the telescopic member, the compaction indicator lamp 15 is turned on after the current in the telescopic member is communicated to indicate that the pressure member is applying pressure to the ceramic tile 6, and the compaction indicator lamp 15 is turned off after the current in the telescopic member is disconnected to indicate that the pressure member is applying pressure to the ceramic tile 6 to finish, so that the sample preparation is completed.

Further, the upper cover plate 9 is connected with a pressure piece through a connecting wire 16, the pressure piece is a weight 5, a hook 17 is arranged on the connecting wire 16, and the weight 5 is connected with the connecting wire 16 through the hook 17.

The connecting line 16 is a bendable line, and the connecting line 16 is in a natural bending state when the weight 5 presses the ceramic tile 6.

Further, the tile clamp 4 comprises a rubber ring.

Further, as shown in fig. 2, graduation marks 18 are marked on the inner wall of the housing 1 of the sample preparation area.

The graduation marks 18 are used for indicating the placement position of the ceramic tile 6.

In another embodiment, the application method of the tile glue test sample preparation auxiliary device provided by the utility model comprises the following steps:

placing the ceramic tile 6 according to scale marks 18 marked on the inner wall of the shell 1 of the sample preparation area, and turning on a switch 14 to electrify a power supply assembly; after the power supply assembly is electrified, the first electromagnet 12 and the second electromagnet 11 generate attractive magnetism, and the attractive force caused by the attractive magnetism is far greater than the elastic force of the insulating spring 10, so that the resultant force is vertically downward; the second electromagnet 11 compresses the insulating spring 10 and moves towards the first electromagnet 12, and when the second electromagnet 11 moves, the upper cover plate 9 is driven to vertically move downwards, and the second electromagnet moves downwards along with the weight 5 connected with the upper cover plate 9 through the connecting wire 16; after the weight 5 descends, pressing the weight onto the ceramic tile 6 clamped by the rubber ring arranged in the through hole 3 of the partition plate 2, enabling the ceramic tile 6 to fall down, enabling the ceramic tile 6 to reach the surface of the mortar cement plate 8 covered with the ceramic tile adhesive 7 in the sample preparation area after falling down, enabling the weight 5 to continuously move vertically downwards to pass through the through hole 3 in the partition plate 2, and pressing the ceramic tile 6 to apply pressure to the ceramic tile 6; when the weight 5 starts to apply pressure to the ceramic tile 6, the first electromagnet 12 is in contact with the second electromagnet 11, the current between the first electromagnet 12 and the second electromagnet 11 is communicated, the current monitor detects the current between the first electromagnet 12 and the second electromagnet 11 and feeds back to the switch 14, the switch 14 is set to be immediately powered off after reaching the compaction time, and meanwhile the compaction indicator lamp 15 is lightened; when the pressing duration is reached, the switch 14 is powered off, the first electromagnet 12 and the second electromagnet 11 are not magnetic, the second electromagnet 11 moves in a direction away from the first electromagnet 12 under the action of the insulating spring 10 and then drives the upper cover plate 9 to vertically move upwards, the weight 5 connected with the upper cover plate 9 vertically moves upwards, the current between the first electromagnet 12 and the second electromagnet 11 is disconnected, the compaction indicator lamp 15 is closed, and the sample preparation is completed.

The applicant declares that the above is only a specific embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and it should be apparent to those skilled in the art that any changes or substitutions that are easily conceivable within the technical scope of the present utility model disclosed by the present utility model fall within the scope of the present utility model and the disclosure.

Claims (10)

1. The tile glue test sample preparation auxiliary device is characterized by comprising a shell, wherein a partition plate is arranged in the shell and divides the shell into a sample preparation area below and a pressure piece control area above;

the partition board is provided with a plurality of through holes, and ceramic tile clamping pieces are arranged in the through holes; the pressure piece control area is internally provided with a plurality of pressure pieces positioned right above the through holes, and the pressure piece control area is internally provided with a control assembly connected with the pressure pieces.

2. The tile glue test sample preparation auxiliary device according to claim 1, wherein the control assembly comprises a telescopic piece fixedly arranged on the inner side wall of the shell and an upper cover plate movably arranged on the top of the shell;

the upper cover plate is respectively connected with the telescopic piece and the pressure piece.

3. The tile glue test sample preparation auxiliary device according to claim 2, wherein the control assembly further comprises a power assembly electrically connected to the telescoping member, the power assembly being configured to control telescoping of the telescoping member.

4. A tile glue test sample preparation aid according to claim 3, wherein the telescoping member comprises a vertically disposed insulating spring;

the two ends of the insulating spring are respectively connected with a first electromagnet and a second electromagnet, the first electromagnet is fixedly arranged on the side wall of the shell close to one end of the partition board, the second electromagnet is movably arranged on the side wall of the shell far away from one end of the partition board, and the second electromagnet is fixedly connected with the upper cover plate;

the first electromagnet and the second electromagnet are electrically connected with the power supply assembly;

after the power supply assembly is electrified, the second electromagnet compresses the insulating spring and moves towards the first electromagnet to drive the upper cover plate to vertically move downwards, and the pressure piece connected with the upper cover plate vertically moves downwards; after the power supply assembly is powered off, the second electromagnet moves in a direction away from the first electromagnet under the action of the insulating spring and then drives the upper cover plate to vertically move upwards, and the pressure piece connected with the upper cover plate vertically moves upwards.

5. A tile glue test sample preparation aid according to claim 3, wherein the power supply assembly comprises a power supply and a switch, the power supply is electrically connected with the switch, and the switch is electrically connected with the telescopic member.

6. The tile glue test sample preparation auxiliary device according to claim 5, wherein the control assembly further comprises a current monitor, wherein the current monitor is electrically connected with the telescopic member and the switch respectively;

the current monitor is used for monitoring the current state of the telescopic piece and feeding back to the switch.

7. The tile glue test sample preparation aid of claim 6, wherein the current monitor comprises a compaction indicator light;

and the compaction indicator lights are lightened after the current in the telescopic piece forms a passage.

8. The tile glue test sample preparation auxiliary device according to claim 2, wherein the upper cover plate is connected with the pressure piece through a connecting wire, the pressure piece is a weight, a hook is arranged on the connecting wire, and the weight is connected with the connecting wire through the hook.

9. The tile glue test sample preparation aid of claim 1, wherein the tile clip comprises a rubber ring.

10. The tile glue test sample preparation aid according to claim 1, wherein graduation marks are marked on the inner wall of the housing of the sample preparation area.

Images