Multifunctional multi-effect distillation water machine

The multi-functional, multi-effect distillation water machine achieves multi-effect distillation, uniform heating, and efficient heat dissipation, solving the problems of low efficiency, uneven heating, and inconvenient operation of traditional distillation equipment, and improving the quality of distilled water and the stability of the equipment.

CN224377714UActive Publication Date: 2026-06-19HEILONGJIANG GERUN PHARMA

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HEILONGJIANG GERUN PHARMA
Filing Date
2025-07-10
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Traditional distillation water preparation equipment is inefficient and has limited functionality. It suffers from uneven heating, localized overheating, poor heat dissipation, and inconvenient operation, which affect the distillation effect and equipment lifespan.

Method used

This multi-functional, multi-effect water distillation machine includes a stainless steel inner tank, electric heating device, stirring mechanism, annular evaporation tubes, water-cooling pipes, and cooling fan, achieving multi-effect distillation, uniform heating, rapid condensation, and efficient heat dissipation. Combined with a digital display controller and handle design, it improves ease of operation.

Benefits of technology

It improves distillation efficiency and distilled water purity, extends equipment life, ensures the stability of the distillation process, reduces energy waste, and enhances the operability and safety of the equipment.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224377714U_ABST
    Figure CN224377714U_ABST
Patent Text Reader

Abstract

This application discloses a multi-functional, multi-effect distillation water machine, belonging to the technical field of distillation water machines. It includes a casing, inside which a stainless steel inner liner and an electric heating device are fixedly installed. Heating plates are fixedly installed at the bottom of the stainless steel inner liner. A digital display controller is installed on the outside of the casing. Compared to traditional single-effect distillation equipment, it achieves multi-effect distillation, allowing for multiple condensation and re-evaporation of steam during a single heating process, greatly improving distillation efficiency and the purity of the distilled water. Heating is more concentrated and stable, avoiding the localized overheating problems that may occur with ordinary heating devices, ensuring a smooth distillation process. It also features a highly efficient heat dissipation system that can promptly dissipate heat generated inside the equipment, preventing damage due to overheating. This contributes to improved distilled water quality and extended equipment lifespan. The machine is easy to control, move, and add water to, offering numerous conveniences for users.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This application relates to the field of water distillation technology, and more specifically, to a multifunctional and multi-effect water distillation machine. Background Technology

[0002] In many fields, such as laboratories, medical, and pharmaceutical industries, the demand for high-purity distilled water is increasing. Traditional distillation water preparation equipment often suffers from low efficiency, limited functionality, and inconvenient operation. Some distillation equipment can only perform single distillation, resulting in limited purity of the distilled water. Some equipment suffers from uneven heating during the heating process, which can easily lead to local overheating or unstable boiling, affecting the distillation effect and equipment lifespan. Other equipment lacks effective heat dissipation and temperature control mechanisms, resulting in energy waste and potential damage to the equipment due to overheating. In addition, the operation is not convenient enough during water intake and addition, which also causes inconvenience to users. In view of this, we propose a multi-functional and multi-effect distillation water machine. Utility Model Content

[0003] 1. Technical problems to be solved

[0004] The purpose of this application is to provide a multi-functional, multi-effect distillation water machine that solves the technical problems mentioned in the background. Compared with traditional single-effect distillation equipment, this multi-effect distillation water machine achieves multi-effect distillation, enabling multiple condensation and re-evaporation of steam during a single heating process. This greatly improves distillation efficiency and the purity of distilled water. The heating is more concentrated and stable, avoiding the local overheating problems that may occur with ordinary heating devices, ensuring the smooth operation of the distillation process. It also features an efficient heat dissipation system that can dissipate the heat generated inside the equipment in a timely manner, preventing damage due to overheating. This is beneficial for improving the quality of distilled water and extending the service life of the equipment. The machine is easy to control, move, and add water to, and its user-friendly design brings many convenient technical benefits to the user.

[0005] 2. Technical Solution

[0006] This application provides a multi-functional, multi-effect distilled water machine, comprising:

[0007] The casing has a stainless steel inner liner and an electric heating device fixedly installed inside. A heating plate is fixedly installed at the bottom of the stainless steel inner liner. A digital display controller is installed on the outside of the casing and is electrically connected to the electric heating device.

[0008] An end cap is provided with a stainless steel cover at the bottom and a vent column on the stainless steel cover. A water-cooling pipe, an annular evaporator tube, an annular heat dissipation fins, and a heat dissipation fan are fixedly installed inside the end cap. A handle is fixedly provided outside the end cap. A steam inlet pipe is fixedly connected between the annular evaporator tube and the vent column. The annular evaporator tube extends to the handle and is fixedly connected to a distilled water outlet pipe.

[0009] The stirring mechanism includes a built-in motor, which is fixedly installed on the upper part of the electric heating device and has a stirring shaft connected to its output end. The stirring shaft extends movably into the interior of the stainless steel inner liner and is fixedly connected to multiple stirring blades.

[0010] By adopting the above technical solution, this multi-effect distillation water machine has a stainless steel inner liner and an electric heating device installed inside the casing. Heating plates are installed at the bottom of the stainless steel inner liner, while a digital display controller installed outside the casing enables precise control and monitoring of the heating process. The bottom of the end cap is equipped with a stainless steel sealing cap that can be sealed and plugged into the stainless steel inner liner. The end cap is carefully equipped with water-cooling pipes, annular evaporation tubes, annular heat dissipation fins, and a cooling fan. When the electric heating device electrically heats the raw water inside the stainless steel inner liner to generate steam, and the stainless steel inner liner is also equipped with an agitation mechanism consisting of a built-in motor, a stirring shaft, and multiple stirring blades, it can effectively agitate the water during the heating process. This process promotes uniform heating and rapid evaporation of water, thereby improving distillation efficiency and distilled water quality. Steam enters the annular evaporation tube through the vent column. Inside the annular evaporation tube, the steam condenses back into liquid water upon encountering the cooler tube walls. This liquid water is the distilled water, which is discharged through the distilled water outlet pipe. The water-cooled pipe is connected to an external circulating cooling pump and cooling water tank, allowing the circulating cooling water in the water-cooled pipe to cool the annular evaporation tube, further improving the cooling effect of the distilled water and ensuring the quality and yield of distilled water. By installing a cooling fan, the heat generated inside the equipment can be removed in a timely manner, accelerating the heat dissipation effect of the equipment. All components of the entire system work together to achieve a multi-functional and multi-efficiency distilled water preparation process.

[0011] Optionally, a heat insulation plate is fixedly installed inside the housing between the heating plate and the electric heating device, and a power socket is also provided on the outside of the bottom of the housing.

[0012] By adopting the above technical solution, a heat insulation plate with good heat insulation performance is set inside the casing between the heating plate and the electric heating device. This can effectively reduce the transfer of heat to other parts inside the casing, lower the temperature outside the casing, improve energy utilization, and protect the operator from burns.

[0013] Optionally, the end cap is provided with a plurality of air inlet slots evenly distributed along the circumference, and the upper surface of the end cap is provided with a plurality of exhaust slots distributed in a ring array. The handle is equipped with a switch button for electrically controlling the opening and closing of the cooling fan.

[0014] By adopting the above technical solution, the air inlet slots are evenly opened along the circumference of the end cover, which allows the outside air to enter the interior of the end cover evenly, providing sufficient air intake for the cooling fan. The exhaust slots are distributed in a ring array on the upper surface of the end cover, forming a reasonable and efficient airflow path, which can promptly remove the heat generated inside the equipment. The switch button is located on the handle, which allows the operator to easily control the opening and closing of the cooling fan while holding the handle, achieving precise control of the equipment's heat dissipation.

[0015] Optionally, the venting column is provided with multiple steam holes.

[0016] By adopting the above technical solution, multiple steam holes are set on the vent column to ensure that water vapor can smoothly enter the annular evaporation tube from the inside of the stainless steel inner tank, while preventing liquid water from passing through directly, thus ensuring the normal operation of the distillation process. It should be noted that the size and distribution density of the steam holes are carefully designed to meet the steam transmission requirements while avoiding steam leakage and pressure loss.

[0017] Optionally, the water-cooling pipe extends to the outside of the end cap and is provided with an inlet and an outlet. The water-cooling pipe is fixedly connected to two support blocks, which are fixedly located inside the end cap.

[0018] By adopting the above technical solution, the water-cooled pipes are connected to an external cooling water source through the setting of water inlet and outlet, forming a circulating cooling system. This ensures that the cooling water can circulate normally in the water-cooled pipes, carrying away the heat of the annular evaporator tubes and effectively cooling the steam.

[0019] Optionally, the end cap has an arc-shaped groove at its upper end, and a handle is rotatably mounted on the end cap at the arc-shaped groove.

[0020] By adopting the above technical solution, the operator can easily lift the end cap by rotating the handle when it is necessary to move it, and perform operations such as adding water or cleaning. This design increases the operability and convenience of the equipment, making it easier for the operator to perform daily maintenance and use of the equipment.

[0021] 3. Beneficial effects

[0022] One or more technical solutions provided in this application have at least the following technical effects or advantages:

[0023] 1. By setting a stable stirring mechanism, the water is constantly stirred during the heating process, which promotes uniform heating and accelerates the evaporation rate of the water. At the same time, in combination with the annular evaporation tube structure, multi-effect distillation is achieved, which improves the efficiency of distilled water preparation.

[0024] 2. The combination of the built-in electric heating device and the heat insulation plate makes the heating process more stable, avoiding the impact of local overheating on the quality of distilled water that may occur with ordinary heating devices. This ensures the smooth progress of the distillation process, which is conducive to improving the quality of distilled water and extending the service life of the equipment. The water cooling pipe can effectively cool the steam, further improving the purity of the distilled water.

[0025] 3. The handles and carrying handles on the end caps facilitate the handling and movement of the equipment. The end caps are also equipped with cooling fans, which, together with the air inlet and outlet slots, form an efficient heat dissipation system. This system can dissipate the heat generated inside the equipment in a timely manner, preventing the equipment from being damaged due to overheating. Compared with ordinary distillation equipment that relies on simple natural heat dissipation or simple heat dissipation structures, this system is more effective in heat dissipation, ensuring the stability and reliability of the equipment during long-term operation.

[0026] 4. The digital display controller can display parameters such as temperature in real time, making it easy for operators to accurately control the distillation process. The switch button controls the electric start and stop of the cooling fan, making the operation of the equipment simpler and more convenient. It integrates multiple functions such as heating, distillation, cooling and heat dissipation, reducing the footprint of the equipment and lowering the cost of use. Attached Figure Description

[0027] Figure 1 This is a schematic diagram of the overall structure of a multifunctional multi-effect distilled water machine disclosed in a preferred embodiment of this application;

[0028] Figure 2 This is a schematic cross-sectional view of the casing of a multifunctional multi-effect distilled water machine disclosed in a preferred embodiment of this application;

[0029] Figure 3 This is a schematic diagram of the internal structure of the end cap of a multifunctional multi-effect distilled water machine disclosed in a preferred embodiment of this application;

[0030] Figure 4 A preferred embodiment of this application discloses a multi-functional, multi-effect distilled water machine. Figure 3 Enlarged structural diagram at point A in the middle;

[0031] Figure 5 This is a schematic diagram of the bottom view of the end cap structure of a multifunctional multi-effect distilled water machine disclosed in a preferred embodiment of this application;

[0032] The following are the labels in the diagram: 1. Casing; 11. Stainless steel inner liner; 12. Insulation plate; 13. Heating plate; 2. Digital display controller; 3. End cover; 31. Air inlet slot; 32. Handle; 33. Exhaust slot; 34. Grip; 35. Switch button; 36. Stainless steel cover; 37. Ventilation column; 371. Steam hole; 4. Water cooling pipe; 41. Support block; 5. Annular evaporator tube; 51. Distilled water outlet pipe; 52. Steam inlet pipe; 6. Electric heating device; 7. Stirring mechanism; 71. Built-in motor; 72. Stirring shaft; 73. Stirring blades; 8. Annular heat dissipation fins; 9. Cooling fan. Detailed Implementation

[0033] The present application will be further described in detail below with reference to the accompanying drawings.

[0034] Reference Figures 1 to 5 This application provides a multi-functional, multi-effect distilled water machine, comprising:

[0035] The machine housing 1 has a stainless steel inner liner 11 and an electric heating device 6 fixedly installed inside it. A heating plate 13 is fixedly installed at the bottom of the stainless steel inner liner 11 in the machine housing 1. A digital display controller 2 is installed outside the machine housing 1 and is electrically connected to the electric heating device 6.

[0036] End cap 3, with a stainless steel cover 36 fixedly installed at the bottom of end cap 3, and a vent column 37 fixedly installed on the stainless steel cover 36. Water cooling pipe 4, annular evaporator tube 5, annular heat dissipation fins 8 and heat dissipation fan 9 are fixedly installed inside end cap 3. Handle 34 is fixedly installed outside end cap 3. Steam inlet pipe 52 is fixedly connected between annular evaporator tube 5 and vent column 37. Annular evaporator tube 5 extends to handle 34 and is fixedly connected to distilled water outlet pipe 51.

[0037] The stirring mechanism 7 includes a built-in motor 71, which is fixedly installed on the upper part of the electric heating device 6. The output end is connected to a stirring shaft 72, which extends movably into the stainless steel inner liner 11 and is fixedly connected to multiple stirring blades 73. This multi-effect water distillation machine uses a stainless steel inner liner 11 and an electric heating device 6 installed inside the casing 1. Heating plates 13 are installed at the bottom of the stainless steel inner liner 11. A digital display controller 2 is installed outside the casing 1 to achieve precise control and monitoring of the heating process. The bottom of the end cover 3 is sealed to the stainless steel inner liner 11 via a stainless steel cap 36. The end cover 3 is carefully fitted with a water-cooling pipe 4, annular evaporator tubes 5, annular heat dissipation fins 8, and a cooling fan 9. When the electric heating device 6 electrically heats the raw water inside the stainless steel inner liner 11 to form steam, and the stainless steel inner liner 11 is also equipped with... The stirring mechanism 7, consisting of a built-in motor 71, a stirring shaft 72, and multiple stirring blades 73, effectively stirs the water during the heating process, promoting uniform heating and rapid evaporation, thereby improving distillation efficiency and distilled water quality. Steam enters the annular evaporation tube 5 through the vent column 37. Located in the annular evaporation tube 5, the steam condenses again into liquid water when it encounters the cooler tube wall. This liquid water is distilled water, which is discharged through the distilled water outlet pipe 51. The water-cooling pipe 4 is connected to an external circulating cooling pump and a cooling water tank, so that the circulating cooling water in the water-cooling pipe 4 cools the annular evaporation tube 5, further improving the cooling effect of the distilled water and ensuring the quality and output of distilled water. The heat dissipation fan 9 installed can remove the heat generated inside the equipment in time, accelerating the heat dissipation effect of the equipment. All components of the entire system work together to realize a multi-functional and multi-efficiency distilled water preparation process.

[0038] Reference Figure 1 and Figure 2 A heat insulation plate 12 is fixedly installed inside the housing 1 between the heating plate 13 and the electric heating device 6. A power socket is also provided on the outside of the bottom of the housing 1. The heat insulation plate 12 with good heat insulation performance installed inside the housing 1 between the heating plate 13 and the electric heating device 6 can effectively reduce the transfer of heat to other parts inside the housing 1, reduce the temperature outside the housing 1, improve energy utilization, and protect the operator from burns.

[0039] Reference Figure 2 and Figure 3The end cover 3 has multiple air inlet slots 31 evenly distributed around its circumference, and multiple exhaust slots 33 distributed in a ring array on its upper surface. A switch button 35 is installed on the handle 34 for electrically controlling the start and stop of the cooling fan 9. By evenly distributing the air inlet slots 31 around the circumference of the end cover 3, outside air can enter the interior of the end cover 3 evenly, providing sufficient air intake for the cooling fan 9. The exhaust slots 33 are distributed in a ring array on the upper surface of the end cover 3, forming a reasonable and efficient airflow path, which can promptly remove the heat generated inside the equipment. The switch button 35 is located on the handle 34, which allows the operator to easily control the start and stop of the cooling fan 9 while holding the handle 34, achieving precise control of the equipment's heat dissipation.

[0040] Reference Figure 3 and Figure 5 The vent column 37 is provided with multiple steam holes 371. By providing multiple steam holes 371 on the vent column 37, water vapor can be smoothly introduced from the inside of the stainless steel inner liner 11 into the annular evaporation tube 5, while preventing liquid water from passing directly through, thus ensuring the normal operation of the distillation process. It should be noted that the size and distribution density of the steam holes 371 are carefully designed to meet the steam transmission requirements while avoiding steam leakage and pressure loss.

[0041] Reference Figure 3 and Figure 4 The water-cooled pipe 4 extends to the outside of the end cover 3 and is provided with an inlet and an outlet. The water-cooled pipe 4 is fixedly connected to two support blocks 41, which are fixed inside the end cover 3. The water-cooled pipe 4 is connected to an external cooling water source through the inlet and outlet to form a circulating cooling system, ensuring that the cooling water can circulate normally in the water-cooled pipe 4, carrying away the heat of the annular evaporator tube 5 and effectively cooling the steam.

[0042] Reference Figure 1 and Figure 3 An arc-shaped groove is provided on the upper end of the end cover 3, and a handle 32 is rotatably installed on the end cover 3 at the arc-shaped groove. By rotating the handle 32, the operator can easily lift the end cover 3 when it is necessary to move it, and perform operations such as adding water or cleaning. This design increases the operability and convenience of the equipment, making it easier for the operator to perform daily maintenance and use of the equipment.

[0043] Working principle: Open end cap 3, pour the raw water to be distilled into stainless steel inner tank 11 using a container, start electric heating device 6 by operating the control button of digital display controller 2 to heat the water, and auxiliary heating by heating disc 13 to quickly heat the water to boiling. Start built-in motor 71 by operating the control button of digital display controller 2 to drive stirring shaft 72 to rotate, which drives stirring blade 73 to stir the water, so that the water is heated evenly and evaporates faster. The steam generated after water evaporation enters steam inlet pipe 52 through steam hole 371 on vent column 37. Then, the steam enters the annular evaporator tube 5. In the annular evaporator tube 5, the steam will condense into liquid water again when it encounters the cooler tube wall. This liquid water is distilled water, which is discharged through the distilled water outlet pipe 51. The water-cooled pipe 4 is connected to an external circulating cooling pump and a cooling water tank, so that the circulating cooling water in the water-cooled pipe 4 cools the annular evaporator tube 5, further improving the cooling effect of the distilled water and ensuring the quality and output of the distilled water. By installing a heat dissipation fan 9, air circulation is formed through the air inlet slot 31 and the air outlet slot 33, which can carry away the heat generated inside the equipment in time and accelerate the heat dissipation effect of the equipment.

Claims

1. A multi-functional, multi-effect water distillation machine, characterized in that: Include: The casing (1) is equipped with a stainless steel inner liner (11) and an electric heating device (6) inside the casing (1). A heating plate (13) is fixedly installed at the bottom of the stainless steel inner liner (11) in the casing (1). A digital display controller (2) is installed outside the casing (1) and is electrically connected to the electric heating device (6). End cap (3), the bottom of the end cap (3) is fixedly provided with a stainless steel cover (36), the stainless steel cover (36) is fixedly provided with a vent column (37), the end cap (3) is fixedly installed with a water cooling pipe (4), an annular evaporator tube (5), an annular heat dissipation fins (8) and a heat dissipation fan (9), the end cap (3) is fixedly provided with a handle (34), the annular evaporator tube (5) and the vent column (37) are fixedly connected with a steam inlet pipe (52), the annular evaporator tube (5) extends to the handle (34) and is fixedly connected with a distilled water outlet pipe (51); The stirring mechanism (7) includes a built-in motor (71), which is fixedly installed on the upper part of the electric heating device (6) and has a stirring shaft (72) connected to its output end. The stirring shaft (72) extends movably into the interior of the stainless steel inner liner (11) and is fixedly connected to multiple stirring blades (73).

2. The multi-functional, multi-effect distilled water machine according to claim 1, characterized in that: The casing (1) is equipped with a heat insulation plate (12) located between the heating plate (13) and the electric heating device (6) inside, and a power plug is also provided on the outside of the bottom end of the casing (1).

3. The multi-functional, multi-effect distilled water machine according to claim 1, characterized in that: The end cap (3) has multiple air inlet slots (31) evenly distributed around its circumference, and multiple exhaust slots (33) are arranged in a ring array on the upper surface of the end cap (3). The handle (34) is equipped with a switch button (35) for electrically controlling the opening and closing of the cooling fan (9).

4. A multi-functional, multi-effect distilled water machine according to claim 1, characterized in that: The ventilated column (37) is provided with multiple steam holes (371).

5. A multi-functional, multi-effect distilled water machine according to claim 1, characterized in that: The water-cooling pipe (4) extends to the outside of the end cap (3) and is provided with an inlet and an outlet. The water-cooling pipe (4) is fixedly connected to two support blocks (41), which are fixedly located inside the end cap (3).

6. A multi-functional, multi-effect distilled water machine according to claim 1, characterized in that: The end cap (3) has an arc-shaped groove at its upper end, and a handle (32) is rotatably installed on the end cap (3) at the arc-shaped groove.