CN110629979A - Ceramic tile soaking water absorption equipment for building - Google Patents

Abstract

The invention relates to soaking water absorption equipment, in particular to soaking water absorption equipment for building tiles. The invention aims to provide a soaking and water-absorbing device for building tiles, which can separate tiles and avoid insufficient water absorption of the tiles. A water absorption device for soaking building tiles comprises a bottom plate, a guide rod, a sealing guide sleeve and the like; guide rods are arranged on the left side and the right side of the top of the bottom plate, and sealing guide sleeves are arranged on the guide rods. The ceramic tiles can be separated through the partition plate, so that insufficient water absorption of the ceramic tiles can be avoided; the frame body can be moved leftwards intermittently through the moving mechanism, so that the equipment can be more intelligent; the push plate can not move leftwards through the fixing mechanism, so that workers can conveniently place the ceramic tiles into the frame body; can clear away the bubble on the ceramic tile through bubble clearance mechanism, avoid the bubble to influence the ceramic tile and absorb water.

Description

Ceramic tile soaking water absorption equipment for building

Technical Field

The invention relates to soaking water absorption equipment, in particular to soaking water absorption equipment for building tiles.

Background

The ceramic tile is an acid and alkali resistant ceramic material formed by processing a series of refractory metal oxides and semimetal oxides, is a decorative material, and is required to be soaked for water absorption in order to prevent the ceramic tile from hollowing and falling off due to the fact that the ceramic tile absorbs water in cement when the ceramic tile is used.

At present generally the staff puts into a big cask with the ceramic tile and soaks and absorbs water, so, the contact of ceramic tile and ceramic tile is inseparabler, leads to some ceramic tiles to absorb water inadequately to lead to the ceramic tile hollowing to drop, and then influence construction quality.

Aiming at the technical problem existing at present, a device capable of separating ceramic tiles and avoiding insufficient water absorption of the ceramic tiles is designed.

Disclosure of Invention

In order to overcome the defect that the tiles are not sufficiently absorbed due to the fact that the tiles are tightly contacted with each other, the invention aims to provide the soaking water absorption equipment for the building tiles, which can separate the tiles and avoid the insufficient water absorption of the tiles.

The technical scheme is as follows: the utility model provides a water absorption equipment is soaked to ceramic tile for building, comprising a base plate, the guide arm, sealed guide pin bushing, the water tank, the otter board, the baffle, electric putter, add water mechanism and unloading mechanism, the guide arm is all installed to the bottom plate top left and right sides, be equipped with sealed guide pin bushing on the guide arm, be connected with the water tank on the sealed guide pin bushing of the left and right sides, the guide arm top of the left and right sides is connected with the otter board, the even spaced baffle that is connected with in otter board top, electric putter installs in the middle of the bottom plate top, electric putter and water tank connection, bottom plate top left side is equipped with water mechanism, water mechanism is used for carrying water to the.

As an improvement of the scheme, the system further comprises a control module, a setting key, an adding key, a subtracting key, a confirmation key and an LCD display screen, wherein the setting key, the adding key, the subtracting key, the confirmation key and the LCD display screen are electrically connected with the control module.

As the improvement of above-mentioned scheme, the mechanism of adding water is including the water pump, first water pipe, the drain pipe, the valve, first non-contact level sensor, second non-contact level sensor and inlet tube, the water pump is installed on bottom plate top left side, the water pump top is connected with first water pipe, first water pipe and water tank are connected, water tank left side sub-unit connection has the drain pipe, be equipped with the valve in the drain pipe, water tank left side middle part is equipped with first non-contact level sensor, second non-contact level sensor installs on water tank left side upper portion, water pump left side sub-unit connection has the inlet tube.

As the improvement of above-mentioned scheme, unloading mechanism is including the framework, the support bar, the gyro wheel, the sliding sleeve, the slide bar, the push pedal, spring and handle, water tank top right side is equipped with the framework, the bottom is connected with the support bar in the framework, open in framework bottom left side has the unloading hole, two at least gyro wheels are installed in the left side in the framework, the embedded sliding sleeve that has played the guide effect of installing in framework right side, the sliding sleeve internal sliding formula is equipped with the slide bar, the push pedal is connected at the slide bar left end, the slide bar right-hand member is connected with the handle, around there being the spring on.

As an improvement of the proposal, the device also comprises a moving mechanism which comprises a servo motor, a screw rod, a bearing seat, a nut and a connecting plate, the support, the slider, first travel switch, second travel switch and photoelectric sensor, servo motor is installed in the bottom plate left side, install the screw rod on servo motor's the output shaft, the bearing frame is all installed to the bottom plate top left and right sides, bearing frame and screw rod are connected, be equipped with the nut on the screw rod, open at the bottom plate top has the spout that plays the guide effect, the slidingtype is equipped with the slider in the spout, slider and nut pass through the connecting plate and connect, be connected with the support on the connecting plate, support and framework fixed connection, the right side is equipped with first travel switch in the spout, first travel switch and slider contact, the left side is equipped with second travel switch in the spout, the embedded photoelectric sensor that is equipped with in framework bottom.

As the improvement of the scheme, the improved electric heating cooker further comprises a fixing mechanism, wherein the fixing mechanism comprises a supporting rod, an elastic sheet and an L-shaped plate, the sliding sleeve is rotatably connected with the supporting rod, the elastic sheet is connected between the supporting rod and the frame body, the handle is connected with the L-shaped plate, and the L-shaped plate is in contact with the supporting rod.

As the improvement of above-mentioned scheme, still including bubble clearance mechanism, bubble clearance mechanism is including the supporting shoe, in line shower nozzle, the second water pipe, first solenoid valve, second solenoid valve and blow-off pipe, the framework rear side is connected with in line shower nozzle through the supporting shoe, be connected with the second water pipe on the first water pipe, the second water pipe is connected with in line shower nozzle, be equipped with first solenoid valve in the second water pipe, be equipped with the second solenoid valve in the first water pipe, water tank left side upper portion is connected with the blow-off pipe, blow-off pipe and drain pipe connection.

As an improvement of the above scheme, the water pump control device further comprises a control box and a control panel, the left side of the top of the bottom plate is connected with the control box, the control box is located on the right side of the water pump, the front side of the control box is connected with the control panel, a setting key, an adding key, a subtracting key, a confirmation key and an LCD display screen are arranged on the control panel, the control module is installed in the control box, the control box comprises a switching power supply and a power supply module, the switching power supply can supply power to the equipment, the output end of the switching power supply is electrically connected with the power supply module, the control module is electrically connected with the power supply module, and the power supply module is connected with; the control module is connected with a 24C02 circuit and a DS1302 clock circuit, the 24C02 circuit is used for storing parameters, the set parameters are stored in the 24C02 circuit, relevant parameters are called out during work, the DS1302 clock circuit provides a time reference, timing can be carried out, and the leap year compensation function is achieved; the first non-contact liquid level sensor, the second non-contact liquid level sensor, the first travel switch, the second travel switch and the photoelectric sensor are electrically connected with the control module; the electric push rod, the water pump, the servo motor, the first electromagnetic valve and the second electromagnetic valve are all connected with the control module through a peripheral circuit.

Compared with the prior art, the invention has the following advantages: the ceramic tiles can be separated through the partition plate, so that insufficient water absorption of the ceramic tiles can be avoided; the frame body can be moved leftwards intermittently through the moving mechanism, so that the equipment can be more intelligent; the push plate can not move leftwards through the fixing mechanism, so that workers can conveniently place the ceramic tiles into the frame body; can clear away the bubble on the ceramic tile through bubble clearance mechanism, avoid the bubble to influence the ceramic tile and absorb water.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a schematic diagram of a partial top view structure of the present invention.

Fig. 3 is an enlarged schematic view of part a of the present invention.

Fig. 4 is a partial schematic front view of the present invention.

Fig. 5 is an enlarged schematic view of part B of the present invention.

Fig. 6 is an enlarged schematic view of the part C of the present invention.

Fig. 7 is an enlarged schematic view of the portion D of the present invention.

Fig. 8 is an enlarged schematic view of part E of the present invention.

Fig. 9 is a circuit diagram of the present invention.

Fig. 10 is a schematic circuit diagram of the present invention.

The meaning of the reference symbols in the figures: 1: bottom plate, 21: guide rod, 22: sealing guide sleeve, 23: water tank, 24: mesh plate, 25: separator, 26: electric push rod, 3: control box, 4: control panel, 5: watering mechanism, 51: water pump, 52: first water pipe, 53: drain pipe, 54: valve, 55: first non-contact level sensor, 56: second non-contact level sensor, 57: inlet tube, 6: unloading mechanism, 61: frame, 62: support bar, 63: blanking hole, 65: roller, 66: sliding sleeve, 67: slide bar, 68: push plate, 69: spring, 610: handle, 7: LCD display screen, 8: moving mechanism, 81: servo motor, 82: screw, 83: bearing seat, 84: nut, 85: connection plate, 86: bracket, 87: chute, 88: slider, 89: first travel switch, 810: second stroke switch, 811: photosensor, 9: fixing mechanism, 91: strut, 92: spring plate, 93: l-shaped plate, 10: bubble removal mechanism, 101: support block, 102: inline head, 103: second water pipe, 104: first electromagnetic valve, 105: second solenoid valve, 106: a water discharge pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

First embodiment

A water absorbing device for soaking building tiles is disclosed, referring to figures 1 and 2, and comprises a bottom plate 1, guide rods 21, sealing guide sleeves 22, a water tank 23, a screen plate 24, a partition plate 25, electric push rods 26, a water adding mechanism 5 and a blanking mechanism 6, wherein the guide rods 21 are respectively arranged on the left side and the right side of the top of the bottom plate 1, the bottom plate 1 is connected with the guide rods 21 in a bolt connection mode, the sealing guide sleeves 22 are arranged on the guide rods 21, the water tank 23 is connected with the sealing guide sleeves 22 on the left side and the right side, the top ends of the guide rods 21 on the left side and the right side are connected with the screen plate 24, the partition plates 25 are uniformly connected with the top of the screen plate 24 at intervals, the electric push rods 26 are arranged in the middle of the top of the bottom plate 1, the electric push rods 26 are connected with the rear part of the middle of the, the water adding mechanism 5 is used for conveying water into the water tank 23, the discharging mechanism 6 is arranged on the right side of the top of the water tank 23, and the discharging mechanism 6 is used for placing ceramic tiles into the water tank 23.

Referring to fig. 5, 9 and 10, the system further includes a control module, a set key, an add key, a subtract key, a confirm key and an LCD display 7, wherein the set key, the add key, the subtract key, the confirm key and the LCD display 7 are electrically connected to the control module.

The staff presses the power master switch, power on this equipment, use or when needing to adjust relevant parameter for the first time, the staff sets up the operational parameter of relevant automatically controlled equipment and sensor through the set key, add a key, subtract a key and enter the set interface by the enter of set key, the interface is displayed on LCD display screen 7, then press and add a key and subtract a key and set up relevant parameter or trade, after having set up the parameter, the staff presses the confirm key and confirms and withdraws from setting up the interface, the parameter that has set up passes through control module and saves in the 24C02 circuit, the staff presses the power master switch once more, cut off the power supply with this equipment. When needs soak the ceramic tile, the staff presses the power master switch, with this equipment power-on, then put into unloading mechanism 6 with the ceramic tile, press again and add a key, then press the enter key again, control module control adds water mechanism 5 work, carry water to the water tank 23 in, when being equipped with sufficient water in the water tank 23, control module control adds water mechanism 5 stop work, the staff controls unloading mechanism 6 work again, put into between two baffles 25 with the ceramic tile, make the water in the water tank 23 can soak the ceramic tile, baffle 25 can separate the ceramic tile, thereby can avoid the ceramic tile to absorb water insufficiently. After soaking, the staff controls the water adding mechanism 5 to discharge water in the water tank 23, then long-press the set key for 3 seconds, press the minus one key again, the control module controls the electric push rod 26 to shorten, the electric push rod 26 drives the water tank 23 to move downwards, when the water tank 23 moves downwards to a proper height, the staff loosens the minus one key, the control module controls the electric push rod 26 to stop shortening, the staff can take out soaked ceramic tiles, after all the ceramic tiles are taken out, the staff long-press the set key for 3 seconds, then press the plus one key, the control module controls the electric push rod 26 to extend, the electric push rod 26 drives the water tank 23 to move upwards, when the water tank 23 moves upwards to a proper height, the staff loosens the plus one key, the control module controls the electric push rod 26 to stop extending, then press the power main switch again, and power off is achieved.

Referring to fig. 1 and 5, the watering mechanism 5 includes a water pump 51, a first water pipe 52, and a drain pipe 53, valve 54, first non-contact level sensor 55, second non-contact level sensor 56 and inlet tube 57, water pump 51 is installed on the left side of bottom plate 1 top, bottom plate 1 passes through bolted connection's mode and is connected with water pump 51, the water pump 51 top is connected with first water pipe 52, first water pipe 52 and water tank 23 are connected, water tank 23 left side sub-unit connection has drain pipe 53, be equipped with valve 54 in the drain pipe 53, water tank 23 left side middle part is equipped with first non-contact level sensor 55, water tank 23 is connected with first non-contact level sensor 55 through bolted connection's mode, second non-contact level sensor 56 is installed on water tank 23 left side upper portion, second non-contact level sensor 56 passes through bolted connection's mode and is connected with water tank 23, water pump 51 left side sub-unit connection has.

The staff connects the water source with the water inlet pipe 57, when the device is powered on, the control module controls the first non-contact liquid level sensor 55 and the second non-contact liquid level sensor 56 to work, the staff presses down the add key and then presses down the confirm key, the control module controls the water pump 51 to work, water is sucked into the first water pipe 52 through the water inlet pipe 57 and flows into the water tank 23, when the first non-contact liquid level sensor 55 detects water, the first non-contact liquid level sensor 55 sends out a signal, the control module receives the signal and then controls the water pump 51 to stop working, if a small number of tiles need to be soaked, the staff presses down the add key again and then presses down the confirm key, the control module controls the water pump 51 to work, water is sucked into the first water pipe 52 through the water inlet pipe 57 and flows into the water tank 23 to add water, when the second non-contact liquid level sensor 56 detects water, the second non-contact liquid level sensor 56 sends a signal, and the control module receives the signal and controls the water pump 51 to stop working. When it is necessary to discharge the water in the water tank 23, the worker opens the valve 54, discharges the water in the water tank 23 through the drain pipe 53, and closes the valve 54 after all the water is discharged. When the present apparatus is powered off, the first and second non-contact level sensors 55 and 56 stop operating.

Referring to fig. 2, fig. 3 and fig. 7, the blanking mechanism 6 includes a frame 61, a support bar 62, rollers 65, a sliding sleeve 66, a sliding rod 67, a push plate 68, a spring 69 and a handle 610, the frame 61 is disposed on the right side of the top of the water tank 23, the support bar 62 is connected to the bottom of the frame 61, a blanking hole 63 is formed in the left side of the bottom of the frame 61, two rollers 65 are installed on the left side of the frame 61, the frame 61 is connected with the rollers 65 in a bolt connection manner, the sliding sleeve 66 with a guiding function is installed in the right side of the frame 61 in an embedded manner, the sliding sleeve 66 is slidably provided with the sliding rod 67, the push plate 68 is connected to the left end of the sliding rod 67, the right end of the sliding rod 67 is connected with.

The staff pulls handle 610 to the right, handle 610 drives slide bar 67 and moves to the right, thereby drive push pedal 68 and move to the right, spring 69 is stretched, the staff puts into framework 61 with the ceramic tile again, then loosen handle 610, under the effect of spring 69, handle 610 moves left, push pedal 68 moves left thereupon, push pedal 68 promotes the ceramic tile, the staff can promote framework 61 left, when unloading hole 63 is located between two baffles 25, the staff stops promoting framework 61, at this moment, the ceramic tile in framework 61 falls down through unloading hole 63, when the ceramic tile falls between two baffles 25, less ceramic tile in framework 61, under the effect of spring 69, push pedal 68 promotes the ceramic tile, the staff continues to promote framework 61 left, make the whole ceramic tiles in framework 61 fall into water tank 23. When all the tiles in the frame 61 fall into the water tank 23, the worker moves the frame 61 to the right to move the frame 61 to the initial position.

Second embodiment

On the basis of the first embodiment, referring to fig. 1, 5, 6 and 7, the device further comprises a moving mechanism 8, wherein the moving mechanism 8 comprises a servo motor 81, a screw 82, a bearing seat 83, a nut 84, a connecting plate 85, a bracket 86, a sliding block 88, a first travel switch 89, a second travel switch 810 and a photoelectric sensor 811, the servo motor 81 is installed on the left side of the bottom plate 1, the bottom plate 1 is connected with the servo motor 81 through a bolt, the screw 82 is installed on an output shaft of the servo motor 81, the servo motor 81 is connected with the screw 82 through a coupling, the bearing seats 83 are installed on the left side and the right side of the top of the bottom plate 1, the bearing seats 83 are connected with the screw 82 through interference connection, the nut 84 is arranged on the screw 82, a sliding groove 87 for guiding is formed in the top of the bottom plate 1, a sliding block 88 is arranged in the sliding groove 87, slider 88 and nut 84 pass through connecting plate 85 to be connected, be connected with support 86 on the connecting plate 85, support 86 and framework 61 fixed connection, support 86 is connected with framework 61 through bolted connection's mode, the right side is equipped with first travel switch 89 in the spout 87, first travel switch 89 and slider 88 contact, the left side is equipped with second travel switch 810 in the spout 87, the embedded photoelectric sensor 811 that is equipped with in the left side of framework 61 bottom, photoelectric sensor 811 is located blanking hole 63 left side.

When the device is powered on, the control module controls the photoelectric sensor 811 to work, when tiles need to be put into the water tank 23, a worker presses the confirmation key for 3 seconds, the control module controls the servo motor 81 to rotate clockwise, the servo motor 81 drives the screw 82 to rotate clockwise, so that the nut 84 is driven to move leftward, the connecting plate 85 drives the bracket 86 to move leftward, the frame body 61 is driven to move leftward, the photoelectric sensor 811 moves leftward, the connecting plate 85 also drives the sliding block 88 to move leftward, when the photoelectric sensor 811 detects the partition plate 25, the blanking hole 63 is positioned between the two partition plates 25, the photoelectric sensor 811 sends a signal, the control module receives the signal and controls the servo motor 81 to stop rotating clockwise and continue rotating clockwise after delaying for 4 seconds, at the moment, the tiles in the frame body 61 fall down through the blanking hole 63, and after 4 seconds, the control module controls the servo motor 81 to continue rotating clockwise, the servo motor 81 drives the frame body 61 and the photoelectric sensor 811 to move leftwards continuously, when the photoelectric sensor 811 detects the next partition plate 25, it is described that the blanking hole 63 is located between the two partition plates 25, the photoelectric sensor 811 sends out a signal, the control module receives the signal and then controls the servo motor 81 to stop clockwise rotation and continue clockwise rotation after 4 seconds of delay, and the steps are repeated in this way, so that all tiles in the frame body 61 can fall into the water tank 23, and the frame body 61 can move leftwards in a clearance manner, so that the equipment can be more intelligent. When the sliding block 88 moves leftwards and touches the second travel switch 810, the second travel switch 810 sends a signal, the control module receives the signal and then controls the servo motor 81 to rotate anticlockwise, the servo motor 81 drives the sliding block 88 to move rightwards, when the sliding block 88 moves rightwards and touches the first travel switch 89, the first travel switch 89 sends a signal, and the control module receives the signal and then controls the servo motor 81 to stop rotating anticlockwise.

Referring to fig. 7 and 8, the portable electronic device further includes a fixing mechanism 9, the fixing mechanism 9 includes a supporting rod 91, a spring plate 92 and an L-shaped plate 93, the sliding sleeve 66 is rotatably connected with the supporting rod 91, the spring plate 92 is connected between the supporting rod 91 and the frame body 61, the handle 610 is connected with the L-shaped plate 93, and the L-shaped plate 93 contacts with the supporting rod 91.

The support rod 91 props the L-shaped plate 93 against the handle 610, so that the handle 610 cannot move leftwards, the push plate 68 cannot move leftwards, and therefore workers can place tiles into the frame body 61 conveniently. When the worker puts the tile, the worker pulls the supporting rod 91 upwards, the elastic sheet 92 is pressed, and when the supporting rod 91 swings upwards and is not in contact with the L-shaped plate 93, the handle 610 moves leftwards under the action of the spring 69.

Referring to fig. 3, 4 and 5, the air bubble removing device further comprises an air bubble removing mechanism 10, the air bubble removing mechanism 10 comprises a supporting block 101, a direct discharging nozzle 102, a second water pipe 103, a first electromagnetic valve 104, a second electromagnetic valve 105 and a water discharging pipe 106, the rear side of the frame body 61 is connected with the direct discharging nozzle 102 through the supporting block 101, the second water pipe 103 is connected to the first water pipe 52, the second water pipe 103 is connected with the direct discharging nozzle 102, the first electromagnetic valve 104 is arranged in the second water pipe 103, the second electromagnetic valve 105 is arranged in the first water pipe 52, the water discharging pipe 106 is connected to the upper portion of the left side of the water tank 23, and the water discharging pipe 106 is connected with the water discharging pipe.

When the worker presses the add key and then presses the confirm key, the control module controls the second solenoid valve 105 to open so as not to affect the worker's addition of water. When control module control servo motor 81 clockwise turning, control module control second solenoid valve 105 closes simultaneously, control module control first solenoid valve 104 is opened simultaneously, control module control water pump 51 works, inhale water in first water pipe 52 through inlet tube 57, water is spout from straight row shower nozzle 102 through second water pipe 103, spout in water tank 23, thereby can accelerate the speed that water flows in water tank 23, and then can clear away the bubble on the ceramic tile, avoid the bubble to influence the ceramic tile and inhale water, unnecessary water flows into in the drain pipe 53 through the outlet pipe 106, then discharge from the drain pipe 53. When the slider 88 moves leftwards and touches the second travel switch 810, the second travel switch 810 sends a signal, the control module receives the signal and controls the water pump 51 to stop working, and meanwhile the control module controls the first electromagnetic valve 104 to close.

Referring to fig. 5, 9 and 10, the water pump control device further comprises a control box 3 and a control panel 4, the control box 3 is connected to the left side of the top of the bottom plate 1, the control box 3 is located on the right side of the water pump 51, the control panel 4 is connected to the front side of the control box 3, a set key, a plus key, a minus key, a confirm key and the LCD display 7 are all arranged on the control panel 4, the control module is installed in the control box 3, the control box 3 comprises a switching power supply and a power supply module, the switching power supply can supply power to the device, the output end of the switching power supply is electrically connected with the power supply module, the control module is electrically connected with the power supply module, and the power supply module is connected with a main power; the control module is connected with a 24C02 circuit and a DS1302 clock circuit, the 24C02 circuit is used for storing parameters, the set parameters are stored in the 24C02 circuit, relevant parameters are called out during work, the DS1302 clock circuit provides a time reference, timing can be carried out, and the leap year compensation function is achieved; the first non-contact liquid level sensor 55, the second non-contact liquid level sensor 56, the first travel switch 89, the second travel switch 810 and the photoelectric sensor 811 are electrically connected with the control module; the electric push rod 26, the water pump 51, the servo motor 81, the first electromagnetic valve 104 and the second electromagnetic valve 105 are all connected with the control module through a peripheral circuit.

It should be understood that the above description is for exemplary purposes only and is not meant to limit the present invention. Those skilled in the art will appreciate that variations of the present invention are intended to be included within the scope of the claims herein.

Claims (8)

1. The utility model provides a water absorption equipment is soaked to ceramic tile for building, is including bottom plate (1), guide arm (21), sealed guide pin bushing (22) and water tank (23), and guide arm (21) are all installed to bottom plate (1) top left and right sides, are equipped with sealed guide pin bushing (22) on guide arm (21), are connected with water tank (23), its characterized in that on the sealed guide pin bushing (22) of left and right sides: still including otter board (24), baffle (25), electric putter (26), add water mechanism (5) and unloading mechanism (6), guide arm (21) top of the left and right sides is connected with otter board (24), the even spaced baffle (25) that is connected with in otter board (24) top, electric putter (26) are installed in the middle of bottom plate (1) top, electric putter (26) and water tank (23) are connected, bottom plate (1) top left side is equipped with water mechanism (5), it is used for carrying water to water tank (23) in to add water mechanism (5), water tank (23) top right side is equipped with unloading mechanism (6), unloading mechanism (6) are used for putting into water tank (23) the ceramic tile.

2. The soaking and water absorbing equipment for the building ceramic tiles according to claim 1, which is characterized in that: the device also comprises a control module, a setting key, an adding key, a subtracting key, a confirmation key and an LCD display screen (7), wherein the setting key, the adding key, the subtracting key, the confirmation key and the LCD display screen (7) are electrically connected with the control module.

3. The soaking and water absorbing equipment for the building ceramic tiles as claimed in claim 2, wherein: mechanism (5) adds water is including water pump (51), first water pipe (52), drain pipe (53), valve (54), first non-contact level sensor (55), second non-contact level sensor (56) and inlet tube (57), water pump (51) are installed on bottom plate (1) top left side, water pump (51) top is connected with first water pipe (52), first water pipe (52) and water tank (23) are connected, water tank (23) left side sub-unit connection has drain pipe (53), be equipped with valve (54) in drain pipe (53), water tank (23) left side middle part is equipped with first non-contact level sensor (55), second non-contact level sensor (56) are installed on water tank (23) left side upper portion, water pump (51) left side sub-unit connection has inlet tube (57).

4. The soaking and water absorbing equipment for the building ceramic tiles according to claim 3, wherein: unloading mechanism (6) is including framework (61), support bar (62), gyro wheel (65), sliding sleeve (66), slide bar (67), push pedal (68), spring (69) and handle (610), water tank (23) top right side is equipped with framework (61), the bottom is connected with support bar (62) in framework (61), open on the left of framework (61) bottom has unloading hole (63), at least two gyro wheels (65) are installed to the left side in framework (61), sliding sleeve (66) that play the guide effect is installed to framework (61) right side is embedded, sliding sleeve (66) internal sliding formula is equipped with slide bar (67), push pedal (68) are connected in slide bar (67) left end, slide bar (67) right-hand member is connected with handle (610), around spring (69) on slide bar (67), spring (69) one end is connected with handle (610), the spring (69) other end and sliding sleeve (66).

5. The soaking and water absorbing equipment for the building ceramic tiles according to claim 4, wherein: the device is characterized by further comprising a moving mechanism (8), wherein the moving mechanism (8) comprises a servo motor (81), a screw rod (82), a bearing seat (83), a nut (84), a connecting plate (85), a support (86), a sliding block (88), a first travel switch (89), a second travel switch (810) and a photoelectric sensor (811), the servo motor (81) is installed on the left side of the bottom plate (1), the screw rod (82) is installed on an output shaft of the servo motor (81), the bearing seats (83) are installed on the left side and the right side of the top of the bottom plate (1), the bearing seats (83) are connected with the screw rod (82), the nut (84) is arranged on the screw rod (82), a sliding groove (87) with a guiding function is formed in the top of the bottom plate (1), the sliding block (88) is arranged in the sliding groove (87), the sliding block (88) is connected with the nut, support (86) and framework (61) fixed connection, the right side is equipped with first travel switch (89) in spout (87), and first travel switch (89) and slider (88) contact, and the left side is equipped with second travel switch (810) in spout (87), and framework (61) bottom left side is embedded to be equipped with photoelectric sensor (811), and photoelectric sensor (811) are located blanking hole (63) left side.

6. The soaking and water absorbing equipment for the building ceramic tiles as claimed in claim 5, wherein: still including fixed establishment (9), fixed establishment (9) are connected with branch (91) including branch (91), shell fragment (92) and L shaped plate (93) the last rotation type of sliding sleeve (66), are connected with shell fragment (92) between branch (91) and framework (61), are connected with L shaped plate (93) on handle (610), and L shaped plate (93) and branch (91) contact.

7. The soaking and water absorbing equipment for the building ceramic tiles according to claim 6, wherein: still including bubble clearance mechanism (10), bubble clearance mechanism (10) are including supporting shoe (101), in line shower nozzle (102), second water pipe (103), first solenoid valve (104), second solenoid valve (105) and bleeder (106), framework (61) rear side is connected with in line shower nozzle (102) through supporting shoe (101), be connected with second water pipe (103) on first water pipe (52), second water pipe (103) and in line shower nozzle (102) are connected, be equipped with first solenoid valve (104) in second water pipe (103), be equipped with second solenoid valve (105) in first water pipe (52), water tank (23) left side upper portion is connected with bleeder (106), bleeder (106) and drain (53) are connected.

8. The soaking and water-absorbing equipment for building ceramic tiles according to claim 7, characterized in that: the water pump control device is characterized by further comprising a control box (3) and a control panel (4), the control box (3) is connected to the left side of the top of the bottom plate (1), the control box (3) is located on the right side of the water pump (51), the control panel (4) is connected to the front side of the control box (3), a set key, an add key, a subtract key, a confirm key and the LCD display screen (7) are arranged on the control panel (4), the control module is installed in the control box (3), a switching power supply and a power supply module are included in the control box (3), the switching power supply can supply power to the device, the output end of the switching power supply is electrically connected with the power supply module, the control module is electrically connected with the power supply module, and the power supply module is connected with a; the control module is connected with a 24C02 circuit and a DS1302 clock circuit, the 24C02 circuit is used for storing parameters, the set parameters are stored in the 24C02 circuit, relevant parameters are called out during work, the DS1302 clock circuit provides a time reference, timing can be carried out, and the leap year compensation function is achieved; the first non-contact liquid level sensor (55), the second non-contact liquid level sensor (56), the first travel switch (89), the second travel switch (810) and the photoelectric sensor (811) are electrically connected with the control module; the electric push rod (26), the water pump (51), the servo motor (81), the first electromagnetic valve (104) and the second electromagnetic valve (105) are all connected with the control module through a peripheral circuit.