CN109084574B - Ceramic tile drying device utilizing lever principle - Google Patents

Abstract

The invention discloses a ceramic tile drying device using lever principle, comprising: the water inlet, and with the honeycomb duct that the water inlet is connected, the honeycomb duct will enter into the water conservancy diversion of water inlet is to U type basin, U type basin is connected the stiff end of manometer pipe is connected to one side below of honeycomb duct, the free end of manometer pipe is hollow out construction, the device still is equipped with the lever, and the lever both sides are equipped with pressure tray and intercommunication tray respectively, the pressure tray passes through the manometer pipe free end stretches into the manometer pipe, the peripheral shape of pressure tray with the manometer pipe interior contour shape coincide to can reciprocate along with pressure, be equipped with the electric conductor on the intercommunication tray, the device still is equipped with the wire, the wire is equipped with the breach the hot plate of setting in the ceramic tile below is connected to the wire. According to the water entering the water inlet from the surface of the ceramic tile, the lever can be triggered to connect the circuit of the heating plate, and the automatic drying function is realized.

Description

Ceramic tile drying device utilizing lever principle

Technical Field

The invention relates to the field of building materials, in particular to a ceramic tile drying device utilizing a lever principle.

Background

Most of modern home decoration adopts the ceramic tile to carry out the fitment of family's ground, often is moist easily in some regions such as kitchen bathroom ground, because ceramic tile self frictional force is little, including water slips easily, has caused the potential safety hazard to having old man and child in the family. At present utilize the mop just to clear up through the manual work usually, in the more and more fast life of modern rhythm, how liberation both hands, the technique of clearing up ceramic tile surface water through intelligent device still needs a urgent need to be solved.

Disclosure of Invention

The invention overcomes the defects of the prior art and provides a ceramic tile drying device utilizing the lever principle.

In order to achieve the purpose, the invention adopts the technical scheme that: a tile drying apparatus using a lever principle, comprising: the water inlet, and with the honeycomb duct that the water inlet is connected, the honeycomb duct will enter into the water conservancy diversion of water inlet is to U type basin, U type basin is connected the stiff end of manometer pipe is connected to one side below of honeycomb duct, the free end of manometer pipe is hollow out construction, the device still is equipped with the lever, and the lever both sides are equipped with pressure tray and intercommunication tray respectively, the pressure tray passes through the manometer pipe free end stretches into the manometer pipe, the peripheral shape of pressure tray with the manometer pipe interior contour shape coincide to can reciprocate along with pressure, be equipped with the electric conductor on the intercommunication tray, the device still is equipped with the wire, the wire is equipped with the breach, breach axial shape with the electric conductor radial shape coincide, the hot plate of setting in the ceramic tile below is connected to the wire.

In a preferred embodiment of the present invention, when the pressure tray has no pressure, the communication tray is located below the wire gap; when water pressure acts on the pressure tray, the pressure tray descends, the communication tray ascends, when the water pressure reaches the preset pressure value of the device, the electric conductor stretches into the notch of the lead to communicate the lead, and the heating plate starts to work.

In a preferred embodiment of the invention, the pressure tube has a circular or elliptical cross-section.

In a preferred embodiment of the invention, the pressure tray and the communication tray are both made of insulating materials.

In a preferred embodiment of the invention, the pressure tray and the communication tray are made of wood materials or rubber materials.

In a preferred embodiment of the present invention, the wire is further connected to a heating wire located above the pressure tray and fixedly connected to the pressure tray to form a heating wire loop, and the heating wire loop is connected in parallel to the loop formed by the heating plate.

In a preferred embodiment of the present invention, the water inlet is disposed on the surface of the tile and includes at least a plurality of water inlet openings.

In a preferred embodiment of the present invention, the power source is a dc power source or an ac power source.

In a preferred embodiment of the present invention, one side of the U-shaped water tank, which is not connected to the flow guide pipe, is connected to a fixed end of the water outlet pipe, and a free end of the water outlet pipe is lower than the fixed end of the water pipe.

In a preferred embodiment of the present invention, the electrical conductor is copper or copper-based alloy.

The invention solves the defects in the background technology, and has the following beneficial effects:

(1) preset pressure is set in advance before the device uses, and preset pressure is pressure when having water in the U type basin, reaches when water pressure when the device presets the pressure value, or can push down the pressure tray when being greater than this pressure value to make the UNICOM tray of opposite side rise, the electric conductor stretches into the wire this moment in the breach, with the wire intercommunication, the hot plate that is located the ceramic tile below begins to work and carries out the automation to the ceramic tile and heats, realizes the stoving of ceramic tile.

(2) When the hot plate is switched on, the heating wire loop connected with the hot plate in parallel works simultaneously, the heating wire is fixed on the pressure tray, the heating wire moves along with the movement of the pressure tray, therefore, the heating wire is driven to work when the pressure tray is provided with water pressure, the heating wire works simultaneously, when the continuous supplement without external water pressure is carried out, the water on the pressure tray is heated and evaporated by the heating wire, the rising of the pressure tray can be realized, the communicated tray on the other side is descended, the intelligent power supply is switched off, the automatic drying of the ceramic tile is realized, and the automatic power supply is switched off.

(3) The invention adopts the principle of the lever, the levers on the two sides ascend and descend along with the pressure, one side is connected with water, when water pressure exists, the tray on the side can be compressed to enable the communicating tray on the other side to ascend, the communicating tray is provided with the electric conductor, the radial shape of the electric conductor is consistent with the shape of the arranged notch of the conducting wire, the communicating tray ascends to enable the electric conductor to be inserted into the notch to electrify the notch, and the intelligent drying operation is realized.

(4) The U-shaped water tank is arranged, the water level heights on two sides are consistent due to the principle of the communicating vessel, the water outlet pipe is connected to the other side of the U-shaped water tank, the water outlet pipe is arranged below the U-shaped water tank, the free end of the water outlet pipe is lower than the fixed end, water can be effectively discharged when the water is in the water tank, when water is not supplied, only water below the fixed end is remained in the U-shaped water tank, and the water is heated and evaporated through the electric heating wire on the pressure tray.

Drawings

The invention is further explained below with reference to the figures and examples;

FIG. 1 is a schematic view of the installation location of a preferred embodiment of the present invention;

FIG. 2 is a schematic perspective view of a preferred embodiment of the present invention;

in the figure: 1. a water inlet; 2. ceramic tiles; 3. a flow guide pipe; 4. a U-shaped water tank; 5. a water outlet pipe; 6. an electric heating wire; 7. an electrical conductor; 8. a pressure tray; 9. a power source; 10. heating plates; 11. a lever; 12. the tray is communicated.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings and examples, which are simplified schematic drawings and illustrate only the basic structure of the invention in a schematic manner, and thus show only the constituents relevant to the invention.

As shown in fig. 1 and 2, a tile 2 drying apparatus using the principle of a lever 11 includes: water inlet 1, and honeycomb duct 3 of being connected with water inlet 1, honeycomb duct 3 water conservancy diversion to U type basin that will enter into water inlet 1, the stiff end of pressure pipe is connected to one side below that honeycomb duct 3 was connected to U type basin, the free end of pressure pipe is hollow out construction, the device still is equipped with lever 11, lever 11 both sides are equipped with pressure tray 8 and intercommunication tray 12 respectively, pressure tray 8 stretches into the pressure pipe through the pressure pipe free end, the periphery shape and the pressure pipe inner peripheral shape of pressure tray 8 coincide, and can reciprocate along with pressure, be equipped with electric conductor 7 on the intercommunication tray 12, the device still is equipped with the wire that communicates power 9, the wire is equipped with the breach, breach axial shape coincide with electric conductor 7 radial shape, the hot plate 10 of setting in ceramic tile 2 below is connected to the wire.

When the water inlet device is used, the water inlet 1 is arranged on the surface of the ceramic tile 2 and is provided with a plurality of water inlet open holes, when water exists on the surface of the ceramic tile 2, the water flows to the U-shaped water tank along the flow guide pipe 3 through the open holes, the water level heights of two sides are consistent due to the principle of the communicating vessel, the other side of the U-shaped water tank is connected with the water outlet pipe 5, the water outlet pipe 5 is arranged below the U-shaped water tank, and the free end of the water outlet pipe 5 is lower than the fixed end, so that the water can be effectively discharged when the water exists in the water tank, and when no water is replenished, only the water below the fixed.

The pressure pipe is connected to one side below that honeycomb duct 3 was connected to U type basin, consequently, as long as there is water in the U type basin, can the intercommunication have water in the pressure pipe, and set up preset pressure this moment, preset pressure and be the pressure when having water in U type basin 4, when water pressure reaches the device preset pressure value, or can push down pressure tray 8 when being greater than this pressure value, and make the UNICOM tray of opposite side rise, conductor 7 stretches into in the breach of wire this moment, with the wire intercommunication, the hot plate 10 that is located ceramic tile 2 below begins work and carries out the automation to ceramic tile 2 and heat, realize ceramic tile 2's stoving. When no external water pressure exists, the electric conductor 7 is positioned below the lead, the device is not electrified, and the device does not start to work.

When switching on hot plate 10, the parallelly connected heating wire 6 return circuit of it carries out work simultaneously, heating wire 6 is fixed on pressure tray 8, move along with the motion of pressure tray 8, consequently, drive the electric plate work when having water pressure on pressure tray 8, heating wire 6 simultaneous working, when there is not external water pressure's continuation supplementarily, heating wire 6 heats the water on the pressure tray 8 and evaporates, can realize the rise of pressure tray 8, make the intercommunication tray 12 of opposite side descend, intelligent turn-off power 9, realize automatic drying ceramic tile 2, and automatic turn-off power 9 works. Because two trays are insulating material, specifically wooden material or rubber material. Meanwhile, the section of the pressure pipe is circular or oval, and the pressure tray 8 can be conveniently moved up and down by adopting the shapes of circumference and similar circumference. The device can be connected with a household alternating current power supply 9, and can also facilitate different user requirements by embedding the direct current power supply 9.

The invention adopts the principle of the lever 11, the levers 11 on two sides rise and fall along with the pressure, one side is connected with water, when water pressure exists, the tray on the side is compressed to enable the communicating tray 12 on the other side to rise, the communicating tray 12 is provided with the electric conductor 7, the radial shape of the electric conductor 7 is consistent with the shape of a set wire gap, the communicating tray 12 rises to enable the electric conductor 7 to be inserted into the gap, the electric conductor 7 is made of metal copper or copper-based alloy, the electric conductor has good electric conductivity and can be electrified, and the intelligent drying operation is realized.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The utility model provides an utilize ceramic tile drying device of lever principle which characterized in that includes: the water inlet, and with the honeycomb duct that the water inlet is connected, the honeycomb duct will enter into the water conservancy diversion of water inlet is to U type basin, U type basin is connected the stiff end of manometer pipe is connected to one side below of honeycomb duct, the free end of manometer pipe is hollow out construction, the device still is equipped with the lever, and the lever both sides are equipped with pressure tray and intercommunication tray respectively, the pressure tray passes through the manometer pipe free end stretches into the manometer pipe, the peripheral shape of pressure tray with the manometer pipe interior contour shape coincide to can reciprocate along with pressure, be equipped with the electric conductor on the intercommunication tray, the device still is equipped with the wire of intercommunication power, the wire is equipped with the breach, breach axial shape with the electric conductor radial shape coincide, the hot plate of setting in the ceramic tile below is connected to the wire.

2. The tile drying apparatus using the lever principle according to claim 1, wherein: when the pressure tray has no pressure, the communicating tray is positioned below the lead notch; when water pressure acts on the pressure tray, the pressure tray descends, the communication tray ascends, when the water pressure reaches the preset pressure value of the device, the electric conductor stretches into the notch of the lead to communicate the lead, and the heating plate starts to work.

3. The tile drying apparatus using the lever principle according to claim 1, wherein: the cross section of the pressure pipe is circular or elliptical.

4. The tile drying apparatus using the lever principle according to claim 1, wherein: the pressure tray and the communicating tray are made of insulating materials.

5. The tile drying apparatus using the lever principle according to claim 4, wherein: the pressure tray and the communicating tray are made of wood materials or rubber materials.

6. The tile drying apparatus using the lever principle according to claim 1, wherein: the wire is also connected with an electric heating wire which is positioned above the pressure tray and is fixedly connected with the pressure tray to form an electric heating wire loop, and the electric heating wire loop is connected with a loop formed by the heating plate in parallel.

7. The tile drying apparatus using the lever principle according to claim 1, wherein: the water inlet is arranged on the surface of the ceramic tile and at least comprises a plurality of water inlet open holes.

8. The tile drying apparatus using the lever principle according to claim 1, wherein: the power supply is a direct current power supply or an alternating current power supply.

9. The tile drying apparatus using the lever principle according to claim 1, wherein: the U-shaped water tank is not connected with one side of the flow guide pipe and is connected with the fixed end of the water outlet pipe, and the free end of the water outlet pipe is lower than the fixed end of the water pipe.

10. The tile drying apparatus using the lever principle according to claim 1, wherein: the electric conductor is metal copper or copper-based alloy.

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