CN108626881B - Deionization hot water device - Google Patents

Abstract

The invention discloses a deionized water heating device, which structurally comprises a motor base box, a water outlet pipeline port, a deionized heating device, a water inlet pipeline port, a maintenance door, a pull handle and a hinge, wherein the upper end of the motor base box is welded with the lower end of the deionized heating device and is mutually vertical, the right end of the water outlet pipeline port is welded with the left end of the deionized heating device and is mutually vertical, the left end of the pull handle is welded with the right end of the maintenance door, and the maintenance door is connected with the deionized heating device through the hinge.

Description

Deionization hot water device

Technical Field

The invention belongs to the technical field of water heating devices, and particularly relates to a deionized water heating device.

Background

Deionized water is nearly pure water obtained by removing ionic impurities from water through ion exchange resin, and the water is relatively pure. With the development of society, the living standard of modern people is higher and higher, and the requirement on water quality is also higher and higher, but the current hot water device does not have the function of deionizing water, and in the production process of the coating, the quality of the coating made of heated deionized water is better than that of common water.

Disclosure of Invention

In view of the above deficiencies of the prior art, the present invention provides a deionized water heating apparatus, which removes a large amount of impurities in an ionic form contained in raw water by replacing the impurities in the ionic form in the raw water by an ion exchange method, solves the problem that the water heating apparatus cannot improve water quality, and has the function of deionizing treated water, thereby being more pure.

In order to solve the technical problems, the invention adopts the technical scheme that: a deionized water heating device structurally comprises a motor base box, a water outlet pipeline port, a deionized heating device, a water inlet pipeline port, a maintenance door, a pull handle, a hinge, a controller, a frequency converter, a timing module, a water inlet valve, a water outlet valve, an audible and visual alarm, a touch display screen and a liquid level detection device; motor cabinet bottom case

The upper end of the motor base box is welded with the lower end of the deionization heating device and is vertical to the deionization heating device, the right end of the water outlet pipeline opening is welded with the left end of the deionization heating device and is vertical to the deionization heating device, the left end of the pull handle is welded with the right end of the maintenance door, and the maintenance door is connected with the deionization heating device through a hinge;

the deionization heating device comprises a water inlet control mechanism, an automatic water inlet adjusting mechanism, a deionization mechanism, a heating mechanism, a forced water cut-off mechanism, a forced water drainage mechanism, a main power mechanism, an automatic water drainage adjusting mechanism and a heat insulation layer;

the automatic water inlet adjusting mechanism is arranged at the lower end of the water inlet control mechanism, the deionization mechanism is arranged at the lower end of the automatic water inlet adjusting mechanism, the lower end of the deionization mechanism is provided with a heating mechanism, the forced water cut-off mechanism is arranged at the upper end of the heating mechanism, the forced water drainage mechanism is arranged at the right end of the automatic water drainage adjusting mechanism, the lower end of the heating mechanism is provided with a main power mechanism, and the lower end of the main power mechanism is embedded and installed at the lower end of the heat insulation;

a motor is arranged in the motor base box;

the water inlet pipe water valve is arranged in the water inlet pipeline opening and controls the opening and closing of the water inlet pipeline opening;

the water outlet valve is arranged in the water outlet pipeline port and used for controlling the opening and closing of the water outlet pipeline port;

the controller is respectively connected with the timing module, the water inlet valve, the water outlet valve, the audible and visual alarm, the touch display screen and the liquid level detection device and is connected with the motor through the frequency converter; the controller can control the motor to rotate forward and backward through the frequency converter, and the timing module is utilized to enable the motor to circularly perform forward rotation-stop-reverse rotation-stop work.

Preferably, water inlet control mechanism includes left gate, right gate, first long branch, ejecting spring, spring fixing base, water inlet, second long branch, left gate upper right end is connected with right gate upper left end through the pin, the left gate back of the body laminates with the water inlet front end, first long branch upper left end with be connected with left gate lower extreme left, right gate lower right end is connected with second long branch upper right end through the pin, first long branch lower right end is connected with second long branch lower left end, ejecting spring upper end welds with first long branch lower right end mutually, ejecting spring lower extreme welds and mutually perpendicular with spring fixing base internal surface mutually, second long branch left end is connected with automatic water inlet adjustment mechanism.

Preferably, the automatic water inlet adjusting mechanism comprises an L-type connecting rotating rod, a first distance pull wire, a fixed guide sliding plate, a buoyancy foam plate, a gravity plate, a supporting plate, a first fixed pulley, a triangular fixed pulley, a second distance pull wire, a first short supporting rod, a positioning guide sliding rod and a second short supporting rod, wherein the gravity plate is arranged on the back and positioned at the front end of the fixed guide sliding plate in the same axis and is perpendicular to the front end of the fixed guide sliding plate, the upper surface of the gravity plate is embedded in the lower surface of the buoyancy foam plate and is perpendicular to the front end of the buoyancy foam plate, the lower surface of the gravity plate is attached to the upper surface of the supporting plate, the lower end of the gravity plate is connected with the first fixed pulley through the first distance pull wire, the first fixed pulley is connected with the triangular fixed pulley through the first distance pull wire, the triangular fixed pulley is connected with the right end of the L-type connecting rotating rod through the first distance pull wire, the upper end of the first short supporting rod is connected with the upper end of the second short supporting rod through a pin, the right lower end of the second short supporting rod is embedded in the positioning guide sliding.

Preferably, the device also comprises an ion detection device, wherein the ion detection device is arranged in the water outlet pipeline opening and is used for detecting the ion content of the completely treated water in real time and transmitting the detection value to the controller in real time;

the deionization mechanism comprises a deionization tank, a drain hole, a shear clamp, a three-jaw buckle, a disassembly nail, a preheating column, an ion exchange bag and a conical fixing seat, wherein the deionization tank and the drain hole are of an integrated structure, the upper end of the conical fixing seat and the lower end of the preheating column are of an integrated structure, the ion exchange bag is embedded and installed on the outer surface of the preheating column, the lower end of the conical fixing seat is embedded and installed on the inner surface of the lower end of the deionization tank, the lower end of the disassembly nail is in threaded connection with the upper end of the three-jaw buckle, the upper end of the shear clamp is connected with the disassembly nail through a pin, the lower end of the shear clamp is connected with the three-jaw buckle through a.

Preferably, the device also comprises a temperature sensor which is arranged in the water outlet pipeline opening and used for detecting the temperature value of the completely treated water in real time and transmitting the detected value to the controller in real time

The heating mechanism comprises a connecting plate, a heating column frame, a heating column connecting seat, a heating column, a shaft lever, a locking rotating frame, a rotating shaft and a first bevel gear, wherein the lower end of the shaft lever penetrates through the upper end of the connecting plate and is vertical to the connecting plate, the lower end of the shaft lever is connected with the upper end of the heating column frame through the locking rotating frame, the upper end of the rotating shaft is welded with the lower end of the locking rotating frame and is vertical to the locking rotating frame, the lower end of the rotating shaft is embedded and installed at the upper end of the first bevel gear and is positioned in the same axis, the heating column is connected with the heating column frame through the heating column connecting seat, the upper end of the shaft lever is embedded and installed at the lower.

Preferably, force water-break mechanism and include that the third distance is acted as go-between, second fixed pulley, third fixed pulley, limiting plate, first reset spring, water-break pull rod left end runs through in first reset spring right-hand member and is in same axle center, first reset spring left end and limiting plate right-hand member laminating and mutually perpendicular, the limiting plate right-hand member welds and mutually perpendicular with water-break pull rod left end, the limiting plate is acted as go-between through the third distance and is connected with the third fixed pulley, the third fixed pulley is acted as go-between through the third distance and is connected with the second fixed pulley.

Preferably, the forced water draining mechanism comprises a second limiting plate, a second reset spring, a water draining pull rod, a fourth distance pull wire, a fourth fixed pulley, a cam, a swinging gravity rod, a triangular fixed block, a torsion spring wheel, a belt pulley, a third long support rod, a fourth long support rod, a spur gear, a transmission belt and a fifth distance pull wire, wherein the left lower end of the third long support rod is connected with the right lower end of the spur gear through a pin, the left lower end of the fourth long support rod is connected with the left upper end of the spur gear through a pin, the right upper end of the third long support rod is connected with the left end of the belt pulley through a pin, the right upper end of the fourth long support rod is connected with the right end of the belt pulley through a pin, the belt pulley is connected with the torsion spring wheel through the transmission belt, the torsion spring wheel is connected with the left end of the cam through the fifth distance pull wire, the outer surface of the right lower end of the cam is, the upper left end of the swinging gravity rod is connected with a fourth fixed pulley through a fourth fixed distance pull wire, the fourth fixed pulley is connected with a second limiting plate through the fourth fixed distance pull wire, the left end of the drainage pull rod is welded with the right end of the second limiting plate and is perpendicular to the right end of the second limiting plate, the left end of the drainage pull rod penetrates through the right end of a second reset spring and is perpendicular to the right end of the second reset spring, and the left end of the spur gear is connected with an automatic water drainage adjusting mechanism.

Preferably, the main power mechanism comprises a fixed support rod, a rotating drum, a second bevel gear, a second transmission belt, a cam cylinder, a connecting rotating rod, a central connection, a second spur gear, a third spur gear, a motor shaft rod and a support frame, wherein the left end of the fixed support rod is embedded in the right end of the rotating drum and is positioned at the same axis, the left end of the rotating drum is embedded in the right end of the second bevel gear and is positioned at the same axis, the cam cylinder is connected with the rotating drum through the second transmission belt, the left end of the cam cylinder is connected with the right end of the second spur gear through the connecting rotating rod, the left end of the central connection is embedded in the right end of the second spur gear and is perpendicular to each other, the right end of the central connection is embedded in the left end of the cam cylinder and is perpendicular to each other, the lower end of the second spur gear is meshed with, the upper end of the motor shaft rod is embedded and installed at the lower end of the third spur gear and is vertical to the third spur gear, and the upper end of the second bevel gear is meshed with the lower end of the first bevel gear.

Preferably, the automatic water draining adjusting mechanism comprises a sliding groove, a triangular gravity buoyancy block, a suspension wire, a water draining gate and a limiting groove, wherein the back of the triangular gravity buoyancy block is embedded in the lower end of the sliding groove, a pin of the triangular gravity buoyancy block is connected with the upper end of the water draining gate through the suspension wire, the lower end of the water draining gate is embedded in the limiting groove, the right end of the water draining gate is meshed with the left end of a spur gear, and the inner surface of the maintenance door is welded with the right end of a connecting plate.

Preferably, still include electric leakage detection device, electric leakage detection device installs at the insulating layer inner wall, and whether discerns the device whether electric leakage through detecting the water in the heating device that removes electricity, and convey the testing result to the controller in real time.

The invention has the beneficial effects that: the invention can not only heat the raw water, but also eliminate a great deal of impurities in the form of ions in the raw water, so that the treated water is deionized and is purer.

Drawings

The contents of the drawings and the reference numerals in the drawings are briefly described as follows:

FIG. 1 is a schematic exterior view of a deionized water heater according to the present invention;

FIG. 2 is a side view of an external appearance of a deionized water heating apparatus according to the present invention;

FIG. 3 is a schematic view of the internal structure of a deionization heating apparatus of a deionization hot water apparatus according to the present invention;

FIG. 4 is a schematic diagram of the detailed internal structure of a deionization heating apparatus of a deionization hot water apparatus according to the present invention;

FIG. 5 is a schematic diagram of the detailed internal structure of a deionization heating apparatus of a deionization hot water apparatus according to the present invention;

FIG. 6 is a schematic diagram of the detailed structure of the deionized water heating device in the moving state of the deionized water heating device according to the present invention;

fig. 7 is a block diagram of a control system of a deionized water heater according to the present invention.

The device is marked as a motor base box-1, a water outlet pipeline port-2, a deionization heating device-3, a water inlet pipeline port-4, a 5-hinge, a maintenance door-6, a handle-7, a water inlet control mechanism-31, an automatic water inlet adjusting mechanism-32, a deionization mechanism-33, a heating mechanism-34, a forced water cut-off mechanism-35, a forced water drain mechanism-36, a main power mechanism-37, an automatic water drain adjusting mechanism-38, a heat insulation layer-39, a left gate-311, a right gate-312, a first long support rod-313, an ejection spring-314, a spring fixing seat-315, a water inlet-316, a second long support rod-317, a L type connecting rotating rod-321, a first distance pull wire-322, a fixed guide sliding plate-323, a buoyancy foam plate-324, a gravity plate-325, a supporting plate 327-326, a first fixed pulley-328, a triangle fixed pulley-328, a second pull wire-distance-3210, a positioning guide sliding rod-3211, a second short pull wire-150, a positioning guide sliding rod-324, a second long pull wire-150, a gravity plate-150, a third distance pulley-150, a vertical pulley-triangle-150, a vertical bar-triangle.

Detailed Description

The following embodiments are provided to describe the embodiments of the present invention, and to further describe the detailed description of the embodiments of the present invention, such as the shapes, configurations, mutual positions and connection relationships of the components, the functions and operation principles of the components, the manufacturing processes and operation methods, etc., so as to help those skilled in the art to more fully, accurately and deeply understand the inventive concept and technical solutions of the present invention.

The ion-removing water heating device according to the present invention comprises a vertical water inlet/outlet channel box 1, a vertical water inlet/outlet channel port 2, a deionizing water heating device 3, a water inlet/outlet channel port 4, a hinge 5, a maintenance door 6, a handle 7, a vertical water inlet/outlet channel door 37, a vertical water inlet/outlet channel door 320, a vertical water inlet/outlet channel door 37, a vertical water inlet/outlet channel door 320, a vertical water inlet/outlet channel door 37, a vertical water inlet/outlet channel door 320, a vertical water inlet/inlet channel door 37, a vertical water channel door 35, a vertical water-inlet channel door-door mechanism, a vertical door-door mechanism, a vertical door-door mechanism, a vertical door-door mechanism, a vertical door-door mechanism, a vertical door-door mechanism, a vertical door-door mechanism, a vertical door-door mechanism, a vertical door-door mechanism, a vertical door-door mechanism, a vertical door-door mechanism, a vertical door-door mechanism, a vertical door-door mechanism, a vertical door-door mechanism, a vertical door mechanism, a vertical door mechanism.

The hinge 5, also called a hinge, is formally called a hinge, and usually forms a two-fold type, and is a component for connecting two parts of an object and enabling the two parts to move, the common hinge is used for cabinet doors, windows, doors and the like, and the rotating shaft 347 is a shaft which is used for connecting main parts of products and is used for bearing bending moment and torque in rotating work.

The invention also comprises a controller, a timing module, a water inlet valve, a water outlet valve, a frequency converter, an audible and visual alarm, a touch display screen, an ion detection device, a temperature sensor, a liquid level detection device and an electric leakage detection device; the controller is respectively connected with the frequency converter, the timing module, the water inlet water valve, the water outlet water valve, the timing module, the audible and visual alarm, the touch display screen, the ion detection device, the temperature sensor, the liquid level detection device and the electric leakage detection device, and is connected with the motor through the frequency converter.

The frequency converter is used for regulating the speed of the motor and controlling the forward and reverse rotation of the motor; because the motor circularly rotates forwards and backwards to stir water, the deionization of the water can be carried out more quickly than the water can be stirred by rotating in a single direction, the invention utilizes the timing function of the timing module, and controls the frequency converter through the controller so as to control the motor to circularly carry out the working state of 'forward rotation-stop-reverse rotation-stop'; the ion detection device and the temperature sensor are respectively arranged in the water outlet pipeline opening; the water inlet pipe water valve is arranged in the water inlet pipeline opening and controls the opening and closing of the water inlet pipeline opening; the water outlet valve is arranged in the water outlet pipeline port and used for controlling the opening and closing of the water outlet pipeline port; the liquid level detection device is arranged on the inner wall of the heat insulation layer 39; the electric leakage detection device is arranged on the inner wall of the heat insulation layer 39, and is used for distinguishing whether the device leaks electricity or not by detecting whether water in the deionization heating device is electrified or not and transmitting a detection result to the controller in real time; the audible and visual alarm is characterized in that: when the liquid level value is higher than the set value or the device leaks electricity, the controller controls the audible and visual alarm to give audible and visual alarm.

When the water heater is used, a user controls the controller to open the water inlet valve and the water outlet valve through the touch display screen, and starts the motor in the motor base box 1, so that the motor shaft 3710 embedded at the lower end in the main power mechanism 37 installed at the upper end of the motor converts electric energy through the motor, and generates autorotation through mechanical energy of the motor, and drives the third spur gear 379 embedded at the upper end of the motor shaft 3710 to move in the same direction along with the motor, the left end of the third spur gear 379 transmits motion through the second spur gear 378 meshed with the left end of the third spur gear 379, when the second spur gear 348 in the heating mechanism 34 is meshed with the second bevel gear 373 in the main power mechanism 37, the second spur gear 348 rotates around the rotating shaft 347, and drives the shaft 347 to rotate in the same direction, and the shaft 345 connects the deionization pool 331 in the deionization mechanism 33 and the heating column holder 342 up and down, so that. The controller controls the motor to circularly carry out the work of 'forward rotation-stop-reverse rotation-stop' through the frequency converter and the timing module, and other parts indirectly driven by the motor also circularly work along with the motor. When raw water enters the deionization tank 331 in the deionization mechanism 33 through the raw water inlet 316 in the water inlet control mechanism 31 in the deionization heating device 3 through the water inlet pipe port 4, the ion exchange resin in the ion exchange pack 337 is fully contacted with the raw water through the rotation of the drain hole 332, and is replaced with constant competitive ions in the raw water while being contacted, so as to absorb the constant competitive ions, the replaced liquid flows into the lower end through the drain hole 332, the primary treated water of the heating column 344 is fully contacted by the rotation of the heating column bracket 342 when accumulated water is accumulated at the heating column 344 in the heating mechanism 34, the primary treated water is heated while being contacted, when the fully treated water is stored to a rated pressure value, the triangular gravity buoyancy block 382 in the automatic drainage regulating mechanism 38 rises along the sliding groove 381, and further pulls the suspension line 383 fixed at the lower end of the triangular gravity buoyancy block 382, the drain gate 384 connected to the suspension wire 383 is moved upward, and the completely treated water is discharged through the outlet pipe port 2 to be depressurized.

If accumulated water cannot be discharged when the automatic water drainage adjusting mechanism 38 fails, the liquid level detection device detects that the liquid level is higher than a set value, the controller respectively controls the touch display screen to display failure information, and controls the audible and visual alarm to give audible and visual alarms; meanwhile, the buoyancy foam plate 324 rises upwards along with the stored liquid, the ejection spring 314 in the water inlet control mechanism 31 is compressed downwards by pulling the first distance pull wire 322, the ejection spring 313 and the second long support rod 317 are pulled to move downwards simultaneously, and the left gate 311 and the right gate 312 rotate towards the middle line half surface around the upper end pin until the raw water inlet 316 is completely closed, so that the raw water is prevented from entering.

After receiving the alarm information, the user closes the water inlet valve through the touch display screen, then manually drains water through the drainage pull rod 363 in the forced water draining mechanism 36, controls the water cut-off pull rod 356 in the forced water cut-off mechanism 35 to manually cut off water, and resets the manual control rod after finishing the internal repair to enable the device to normally operate.

In the process of heating raw water, a user firstly sets the heating water temperature through a touch display screen, a temperature sensor detects the temperature value of the completely treated water in real time and transmits the detected value to a controller in real time, and the controller displays the current water temperature value of the completely treated water through controlling the touch display screen; when the value detected by the temperature sensor is lower than a set value, the controller increases the heating temperature of the heating device; when the value detected by the temperature sensor is higher than a set value, the controller decreases the heating temperature of the heating device.

In the process of deionizing raw water, an ion detection device detects the ion content of the completely treated water in real time and transmits the detection value to a controller in real time, and the controller displays the ion content value by controlling a touch display screen; when the ion content detected by the ion detection device is higher than a set range, the controller increases the rotating speed of the motor through the frequency converter to accelerate the deionization treatment of water; when the ion content detected by the ion detection device is lower than a set range, the controller reduces the rotating speed of the motor through the frequency converter, so that energy consumption is saved.

In the working process of the device, the electric leakage detection device of the device detects whether the device leaks electricity or not in real time, if the electric leakage fault is detected, the electric leakage detection device transmits an electric leakage signal to the controller, and the controller controls the touch display screen to display fault information and controls the audible and visual alarm to give an audible and visual alarm to prompt a user.

The invention solves the problem that the water quality is poor because the water is not usually deionized by a deionized heating device when the water is heated in the prior art, and the invention adopts the mutual combination of the components.

The invention has been described in an illustrative manner, and it is to be understood that the invention is not limited to the precise form disclosed, and that various insubstantial modifications of the inventive concepts and solutions, or their direct application to other applications without such modifications, are intended to be covered by the scope of the invention. The protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (9)

1. A deionization hot water device is characterized in that: the structure of the device comprises a motor base box (1), a water outlet pipeline port (2), a deionization heating device (3), a water inlet pipeline port (4), a maintenance door (6), a pull handle (7), a hinge (8), a controller, a frequency converter, a timing module, a water inlet valve, a water outlet valve, an audible and visual alarm, a touch display screen and a liquid level detection device; the method is characterized in that: the upper end of the motor base box (1) is welded with the lower end of the deionization heating device (3) and is vertical to the deionization heating device, the right end of the water outlet pipeline port (2) is welded with the left end of the deionization heating device (3) and is vertical to the deionization heating device, the left end of the handle (7) is welded with the right end of the maintenance door (6), and the maintenance door (6) is connected with the deionization heating device (3) through a hinge (8);

the deionization heating device (3) comprises a water inlet control mechanism (31), an automatic water inlet adjusting mechanism (32), a deionization mechanism (33), a heating mechanism (34), a forced water cut-off mechanism (35), a forced water drainage mechanism (36), a main power mechanism (37), an automatic water drainage adjusting mechanism (38) and a heat insulation layer (39);

the automatic water inlet adjusting mechanism (32) is arranged at the lower end of the water inlet control mechanism (31), the deionization mechanism (33) is arranged at the lower end of the automatic water inlet adjusting mechanism (32), the lower end of the deionization mechanism (33) is provided with a heating mechanism (34), the forced water cut-off mechanism (35) is arranged at the upper end of the heating mechanism (34), the forced water drainage mechanism (36) is arranged at the right end of the automatic water drainage adjusting mechanism (38), the lower end of the heating mechanism (34) is provided with a main power mechanism (37), and the lower end of the main power mechanism (37) is embedded and installed at the lower end of the heat insulation layer (39);

a motor is arranged in the motor base box (1);

the water inlet pipe water valve is arranged in the water inlet pipeline opening and controls the opening and closing of the water inlet pipeline opening;

the water outlet valve is arranged in the water outlet pipeline port and used for controlling the opening and closing of the water outlet pipeline port;

the controller is respectively connected with the timing module, the water inlet valve, the water outlet valve, the audible and visual alarm, the touch display screen and the liquid level detection device and is connected with the motor through the frequency converter; the controller can control the motor to rotate forward and backward through the frequency converter, and the timing module is utilized to enable the motor to circularly perform forward rotation-stop-reverse rotation-stop work;

the water inlet control mechanism (31) comprises a left gate (311), a right gate (312), a first long supporting rod (313), an ejection spring (314), a spring fixing seat (315), a water inlet (316) and a second long supporting rod (317), wherein the right upper end of the left gate (311) is connected with the left upper end of the right gate (312) through a pin, the back of the left gate (311) is attached to the front end of the water inlet (316), the left upper end of the first long supporting rod (313) is connected with the left lower end of the left gate (311), the right lower end of the right gate (312) is connected with the right upper end of the second long supporting rod (317) through a pin, the right lower end of the first long supporting rod (313) is connected with the left lower end of the second long supporting rod (317), the upper end of the ejection spring (314) is welded with the right lower end of the first long supporting rod (313), the lower end of the ejection spring (314) is welded with the inner surface of the spring fixing seat, the left lower end of the second long supporting rod (317) is connected with an automatic water inlet adjusting mechanism (32);

the automatic water inlet adjusting mechanism (32) comprises a second distance pull wire (329) and a first short supporting rod (3210), and the upper end of the first short supporting rod (3210) is connected with the lower end of the second long supporting rod (317) through the second distance pull wire (329).

2. The deionized water hot water device according to claim 1, characterized in that the automatic water inlet adjusting mechanism (32) comprises a L type connecting rotary rod (321), a first distance pull wire (322), a fixed guide sliding plate (323), a buoyancy foam plate (324), a gravity plate (325), a support plate (326), a first fixed pulley (327), a triangular fixed pulley (328), a second distance pull wire (329), a first short supporting rod (3210), a positioning guide sliding rod (3211) and a second short supporting rod (3212), the back of the gravity plate (325) is at the front end of the fixed guide sliding plate (323) and perpendicular to each other, the upper surface of the gravity plate (325) is embedded in the lower surface of the buoyancy foam plate (324) and perpendicular to each other, the lower surface of the gravity plate (325) is attached to the upper surface of the support plate (326), the lower end of the gravity plate (325) is connected to the first fixed pulley (327) through the first distance pull wire (327), the first fixed pulley (327) is connected to the triangular fixed pulley (328) through the first distance pull wire (322), the lower end of the positioning guide sliding rod (3212) is connected to the upper end of the second short supporting rod (3210), and the lower end of the positioning guide sliding rod (3212) is connected to the upper end of the first short supporting rod (3210).

3. The deionized water heating apparatus according to claim 1, wherein: the ion detection device is arranged at the outlet of the water outlet pipeline and is used for detecting the ion content of the completely treated water in real time and transmitting the detection value to the controller in real time;

the deionization mechanism (33) comprises a deionization pool (331), a water drain hole (332), a shear clamp (333), a three-jaw buckle (334), a disassembly nail (335), a preheating column (336), an ion exchange bag (337) and a conical fixed seat (338), the deionization tank (331) and the drain hole (332) are integrated, the upper end of the conical fixed seat (338) and the lower end of the preheating column (336) are integrated, the ion exchange bag (337) is embedded and installed on the outer surface of the preheating column (336), the lower end of the conical fixed seat (338) is embedded and arranged on the inner surface of the lower end of the deionization tank (331), the lower end of the disassembly nail (335) is in threaded connection with the upper end of the three-jaw buckle (334), the upper end of the shear clamp (333) is connected with the disassembly nail (335) through a pin, the lower end of the shear clamp (333) is connected with a three-jaw buckle (334) through a pin, the lower end of the deionization pool (331) is connected with the upper end of the heating mechanism (34).

4. The deionized water heating apparatus according to claim 1, wherein: the temperature sensor is arranged in the water outlet pipeline opening and is used for detecting the temperature value of the completely treated water in real time and transmitting the detected value to the controller in real time;

the heating mechanism (34) comprises a connecting plate (341), a heating column frame (342), a heating column connecting seat (343), a heating column (344), a shaft rod (345), a locking rotating frame (346), a rotating shaft (347) and a first bevel gear (348), wherein the lower end of the shaft rod (345) penetrates through the upper end of the connecting plate (341) and is perpendicular to each other, the lower end of the shaft rod (345) is connected with the upper end of the heating column frame (342) through the locking rotating frame (346), the upper end of the rotating shaft (347) is welded with the lower end of the locking rotating frame (346) and is perpendicular to each other, the lower end of the rotating shaft (347) is embedded and installed at the upper end of the first bevel gear (348) and is positioned at the same axis center, the heating column (344) is connected with the heating column frame (342) through the heating column connecting seat (343), the upper end of the shaft rod (345), the right end of the first bevel gear (348) is connected with the upper end of the main power mechanism (37).

5. The deionized water heating apparatus according to claim 1, wherein: the forced water cut-off mechanism (35) comprises a third fixed distance pull wire (351), a second fixed pulley (352), a third fixed pulley (353), a limiting plate (354), a first return spring (355) and a water cut-off pull rod (356), the left end of the water cut-off pull rod (356) penetrates through the right end of the first return spring (355) and is located in the same axis, the left end of the first return spring (355) is attached to the right end of the limiting plate (354) and perpendicular to each other, the right end of the limiting plate (354) is welded to the left end of the water cut-off pull rod (356) and perpendicular to each other, the limiting plate (354) is connected with the third fixed pulley (353) through the third fixed distance pull wire (351), and the third fixed pulley (353) is connected with the second fixed pulley (352) through the third fixed distance pull wire (351).

6. The deionized water heating apparatus according to claim 1, wherein: the forced water draining mechanism (36) comprises a second limiting plate (361), a second reset spring (362), a water draining pull rod (363), a fourth distance pull wire (364), a fourth fixed pulley (365), a cam (366), a swinging gravity rod (367), a triangular fixed block (368), a torsion spring wheel (369), a belt pulley (3610), a third long support rod (3611), a fourth long support rod (3612), a spur gear (3613), a transmission belt (3614) and a fifth distance pull wire (3615), wherein the left lower end of the third long support rod (3611) is connected with the right lower end of the spur gear (3613) through a pin, the left lower end of the fourth long support rod (3612) is connected with the left upper end of the spur gear (3613) through a pin, the right upper end of the third long support rod (3611) is connected with the left end of the belt pulley (3610) through a pin, the right upper end of the fourth long support rod (3612) is connected with the right end of the belt pulley (, the belt pulley (3610) is connected with a torsion spring wheel (369) through a transmission belt (3614), the torsion spring wheel (369) is connected with the left end of the cam (366) through a fifth distance pull wire (3614), the outer surface of the right lower end of the cam (366) is attached to the upper end of the swinging gravity rod (367), the right lower end of the swinging gravity rod (367) is connected with a triangular fixed block (368) through a pin, the left upper end of the swinging gravity rod (367) is connected with a fourth fixed pulley (365) through a fourth distance pull wire (364), the fourth fixed pulley (365) is connected with the second limit plate (361) through a fourth distance pull wire (364), the left end of the drainage pull rod (363) is welded with the right end of the second limit plate (361) and is vertical to the right end, the left end of the drainage pull rod (363) penetrates through the right end of the second return spring (362) and is vertical to each other, the left end of the spur gear (3613) is connected with an automatic water drainage adjusting mechanism (38).

7. The deionized water heating apparatus according to claim 1, wherein: the main power mechanism (37) comprises a fixed support rod (371), a rotary drum (372), a second bevel gear (373), a second transmission belt (374), a cam cylinder (375), an engagement rotary rod (376), a center connection (377), a second spur gear (378), a third spur gear (379), a motor shaft rod (3710) and a support frame (3711), wherein the left end of the fixed support rod (371) is embedded and installed at the right end of the rotary drum (372) and is positioned at the same axis, the left end of the rotary drum (372) is embedded and installed at the right end of the second bevel gear (373) and is positioned at the same axis, the cam cylinder (375) is connected with the rotary drum (372) through the second transmission belt (374), the left end of the cam cylinder (375) is connected with the right end of the second spur gear (378) through the engagement rotary rod (376), the left end of the center connection (377) is embedded and installed at the right, the right end of the central connection (377) is embedded and installed at the left end of the cam cylinder (375) and is vertical to each other, the lower end of the second spur gear (378) is meshed and vertical to each other with the left end of the motor shaft (3710), the upper right end of the support frame (3711) is embedded and installed at the left end of the second spur gear (378), the upper end of the motor shaft (3710) is embedded and installed at the lower end of the third spur gear (379) and is vertical to each other, and the upper end of the second bevel gear (373) is meshed and vertical to the lower end of the first bevel gear (348).

8. The deionized water heating apparatus according to claim 1, wherein: the automatic water draining adjusting mechanism (38) comprises a sliding groove (381), a triangular gravity buoyancy block (382), a suspension wire (383), a water draining gate (384) and a limiting groove (385), wherein the back of the triangular gravity buoyancy block (382) is embedded in the lower end of the sliding groove (381), a pin of the triangular gravity buoyancy block (382) is connected with the upper end of the water draining gate (384) through the suspension wire (383), the lower end of the water draining gate (384) is embedded in the limiting groove (385), the right end of the water draining gate (384) is meshed with the left end of a spur gear (3613), and the inner surface of the maintenance door (6) is welded with the right end of the connecting plate (341).

9. The deionized water heating apparatus according to claim 1, wherein: still include electric leakage detection device, electric leakage detection device installs at insulating layer (39) inner wall, and whether the water through detecting in the heating device that deionizes is electrified, differentiates the heating device that deionizes whether electric leakage to give the controller with the testing result real-time transmission.

Images