A type of instant heating all-in-one machine

By introducing a replacement mechanism and sliding block structure into the instant heating integrated machine, the problem of requiring professional tools to replace the filter element in the existing technology has been solved, realizing the quick disassembly and installation of the filter element, and improving the convenience of operation and the water circuit sealing.

CN224442345UActive Publication Date: 2026-07-03MEILAN PIAOER (SHANGHAI) FILTRATION EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
MEILAN PIAOER (SHANGHAI) FILTRATION EQUIP CO LTD
Filing Date
2025-08-05
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing instant heating integrated machines require specialized tools to replace the filter element, which increases time and additional costs and affects normal use.

Method used

A rapid heating integrated machine was designed. By setting a replacement mechanism inside the machine body and utilizing the sliding structure of the connecting ring and the locking block, the filter element can be disassembled and installed without tools, simplifying the operation steps.

Benefits of technology

It enables quick disassembly and installation of the filter element, reduces the difficulty of operation, improves replacement efficiency and ease of use, ensures water circuit sealing, and reduces the risk of leakage.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the technical field of water purification equipment and discloses an instant heating integrated machine, including a body. A replacement mechanism is arranged at the upper part of the body. The replacement mechanism includes a fixing block, a connecting ring slidably disposed on the outside of the fixing block, and multiple connecting blocks fixedly disposed inside the connecting ring. Each of the multiple connecting blocks has a slider fixedly disposed on one side. Multiple locking blocks are slidably disposed on one side of the inside of the fixing block, and each of the locking blocks has a through-groove at its front end. A filter element is disposed inside the body near the fixing block, and multiple locking slots are formed on the outside of the filter element near the fixing block. In this utility model, when replacing the filter element, only the connecting ring needs to be pushed to remove the filter element, eliminating the need for professional tools and reducing the difficulty of operation. During installation, the filter element is quickly installed by aligning it with the fixing block and inserting it.
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Description

Technical Field

[0001] This utility model relates to the field of water purification equipment technology, and in particular to an instant heating integrated machine. Background Technology

[0002] With the continuous development of the economy and the continuous improvement of people's living standards, consumers are paying more and more attention to healthy water and drinking water, and the standards for water use are becoming more and more stringent. As a device that can deeply filter and purify water according to different water needs, water purifiers are gaining more and more recognition and favor from consumers. The instant hot water all-in-one machine realizes the simultaneous supply of room temperature purified water and hot water, meeting the diverse needs of consumers.

[0003] Most existing instant heating integrated machines use bolt-locked filter elements. When replacing them, it is often necessary for professionals to come to the site with tools such as wrenches and screwdrivers. This not only increases time costs and additional expenses, but may also affect normal use due to waiting for maintenance personnel.

[0004] Therefore, those skilled in the art have provided an instant heating integrated machine to solve the problems mentioned in the background art. Utility Model Content

[0005] The purpose of this utility model is to overcome the shortcomings of the existing technology and propose an instant heating integrated machine. When replacing the filter element, it can be removed simply by pushing the connecting ring without the need for professional tools, which reduces the difficulty of operation for the operator. When installing, the filter element is simply aligned with the fixing block and inserted to complete the installation of the filter element. The operation is quick and easy.

[0006] To achieve the above objectives, the present invention provides the following technical solution:

[0007] An instant heating integrated machine includes a body, and a replacement mechanism is provided at the upper end of the body. The replacement mechanism includes a fixing block, a connecting ring is slidably arranged on the outside of the fixing block, a plurality of connecting blocks are fixedly arranged inside the connecting ring, a slider is fixedly arranged on one side of each of the plurality of connecting blocks, and a plurality of locking blocks are slidably arranged on one side of the inside of the fixing block.

[0008] Each of the multiple card blocks has a through-slot at its front end. A filter element is provided inside the machine body on the side near the fixed block. Multiple card slots are provided on the outside of the filter element on the side near the fixed block. A spring is fixedly provided on the side of each of the multiple connecting blocks away from the filter element.

[0009] Furthermore, the multiple sliders are externally slidably disposed inside the multiple inclined grooves, and the multiple connecting blocks are externally slidably disposed inside the fixed block on the side away from the filter element.

[0010] Furthermore, the sides of the multiple springs away from the filter element are fixedly arranged inside the fixing block on the side close to the filter element, and the pairs of opposite sides of the multiple card blocks are respectively arranged inside the multiple card slots on opposite sides.

[0011] Furthermore, the fixing block is externally fixed inside the machine body, and a sealing ring is fixedly installed inside the fixing block on the side near the filter element. The side of the filter element near the fixing block is located on the side away from the sealing ring.

[0012] Furthermore, a high-pressure water pump is fixedly installed at the lower end of the machine body, and a safety protection device is fixedly installed on the side of the lower end of the machine body near the high-pressure water pump.

[0013] Furthermore, two controllers are fixedly installed inside the machine body near the high-pressure water pump, and a wastewater solenoid valve is fixedly installed inside the machine body near the controllers.

[0014] Furthermore, a heat tank is provided at the upper part of the machine body, a pressure relief valve is provided on the side of the machine body near the heat tank, and a protective cover is provided at the front end of the machine body.

[0015] This utility model has the following beneficial effects:

[0016] 1. The present invention proposes an instant heating integrated machine. When installing the filter element, the operator aligns one side of the filter element with the fixing block and inserts it, allowing it to slide along the inside of the fixing block. As the filter element enters, its outer wall will press the locking block inside the fixing block, causing the locking block to slide in the opposite direction inside the fixing block. When the filter element is fully pushed to the set position, the contracted spring pushes the locking block to rebound, causing the locking block to move relative to the fixing block, thereby embedding the locking block into the preset slot on the outer surface of the filter element, thus achieving the locking and fixing of the filter element. The entire installation process requires no tools, the steps are simple, and the difficulty of replacing the filter element is reduced.

[0017] 2. The instant heating integrated machine proposed in this utility model allows the operator to push the connecting ring during filter element removal, causing it to slide linearly inside the fixed block. The connecting block then drives the slider to slide inside the inclined groove, causing the locking block to slide in the opposite direction inside the fixed block. The sliding of the locking block disengages it from the slot. Once the locking block is completely out of the slot, the filter element can be pulled out of the fixed block, completing the replacement operation. The operation is simple and quick, improving replacement efficiency and ease of use. Attached Figure Description

[0018] Figure 1 This is an isometric schematic diagram of the entire utility model;

[0019] Figure 2 This is an isometric view of the present invention near a high-pressure water pump;

[0020] Figure 3 This is an isometric view of the present invention near the pressure relief valve;

[0021] Figure 4 This is a partial orthographic isometric view of the present invention near the connecting ring;

[0022] Figure 5 This is an exploded isometric view of the present invention near the filter element;

[0023] Figure 6 This utility model Figure 5 Enlarged diagram of point A in the diagram;

[0024] Figure 7 This is a cross-sectional isometric view of the present invention near the slider.

[0025] Legend:

[0026] 1. Body; 2. Protective cover; 3. Replacement mechanism; 4. Filter element; 5. Controller; 6. High-pressure water pump; 7. Pressure relief valve; 8. Wastewater solenoid valve; 9. Safety protection device; 10. Hot tank; 301. Fixing block; 302. Connecting ring; 303. Connecting block; 304. Locking block; 305. Inclined groove; 306. Spring; 307. Slot; 308. Sealing ring; 309. Sliding block. Detailed Implementation

[0027] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0028] Reference Figures 1-7 One embodiment provided by this utility model:

[0029] A quick-heating integrated machine includes a body 1. A replacement mechanism 3 is provided at the upper end of the body 1. The replacement mechanism 3 includes a fixing block 301. A connecting ring 302 is slidably arranged on the outside of the fixing block 301. Multiple connecting blocks 303 are fixedly arranged inside the connecting ring 302. A slider 309 is fixedly arranged on one side of each of the multiple connecting blocks 303. Multiple locking blocks 304 are slidably arranged on one side of the inside of the fixing block 301.

[0030] Multiple locking blocks 304 have inclined grooves 305 through their front ends. A filter element 4 is provided inside the body 1 on the side near the fixing block 301. Multiple locking grooves 307 are provided on the outside of the filter element 4 on the side near the fixing block 301. A spring 306 is fixedly provided on the side of multiple connecting blocks 303 away from the filter element 4.

[0031] Multiple sliders 309 are externally slidably disposed inside multiple inclined grooves 305. Multiple connecting blocks 303 are externally slidably disposed inside the fixed block 301 on the side away from the filter element 4. Multiple springs 306 are externally fixedly disposed inside the fixed block 301 on the side close to the filter element 4. Multiple locking blocks 304 are disposed in pairs on opposite sides inside multiple locking slots 307. The fixed block 301 is externally fixedly disposed inside the body 1. A sealing ring 308 is fixedly disposed inside the fixed block 301 on the side close to the filter element 4. The side of the filter element 4 close to the fixed block 301 is disposed on the side of the sealing ring 308 away from the fixed block 301.

[0032] Specifically, when filter element 4 needs to be installed, one side of filter element 4 is aligned with the inside of fixing block 301, and then it is pushed into the fixing block 301. This allows filter element 4 to slide towards sealing ring 308 inside the fixing block 301. Since one side of the locking block 304 is inclined, when filter element 4 slides to the appropriate position, the outer wall of one side of filter element 4 will press against the locking block 304, causing the locking block 304 to slide in the opposite direction inside the fixing block 301. When filter element 4 slides to its final position, spring 306 rebounds, pushing the locking block 304 back to its original position, so that the locking block 304 is embedded in the groove 307 on the outer surface of filter element 4, thus completing the stable fixation of filter element 4. At the same time, sealing ring 308 will be positioned between filter element 4 and the fixing block 301. Between the fixed blocks 301, and subjected to the double compression of the two, the sealing ring 308 deforms, thus forming a tight seal to ensure no leakage in the water circuit. When the connecting ring 302 is in the initial position, the spring 306 is always in a compressed state, which will push the locking block 304 to lock the locking groove 307. The spring 306 is made of stainless steel, which gives it good fatigue resistance and can prevent rust from affecting its elasticity. When the connecting block 303 is pushed by the connecting ring 302, the spring 306 will be further compressed. The sealing ring 308 is made of food-grade silicone. When the filter element 4 is installed in place, the end face of the filter element 4 is tightly pressed against the sealing ring 308 and deforms to form a seal, preventing water leakage.

[0033] When it is necessary to disassemble the filter element 4, the operator pushes the connecting ring 302, causing it to slide towards the pressure relief valve 7 outside the fixed block 301. As the connecting ring 302 slides, it drives the connected connecting block 303 to slide synchronously in the guide groove on the inner wall of the fixed block 301. The connecting block 303 will squeeze the spring 306 connected to it, causing the spring 306 to gradually contract. The sliding of the connecting block 303 will also cause the slider 309 to slide in the inclined groove 305, thereby driving multiple locking blocks 304 to slide in opposite directions inside the fixed block 301, so that the locking blocks 304 gradually disengage from the locking groove 307. When the locking blocks 304 are completely disengaged from the locking groove 307, the filter element 4 can be removed from the fixed block 301. The whole operation process is convenient and efficient.

[0034] Filter element 4 is a mature and publicly available technology. Therefore, its specific structure and working principle will not be described in detail here. During installation, the force of the filter element 4 pushing itself in triggers the locking block 304 without any additional operation. During disassembly, the locking block 304 can be quickly separated from the slot 307 by pushing the connecting ring 302. The whole process is tool-free, simplifying the operation steps and lowering the threshold for operators to replace filter element 4. At the same time, it reduces waiting time. After installation, the sealing ring 308 deforms under the dual compression of filter element 4 and fixing block 301, forming a tight-fitting sealing structure, which can more effectively block water leakage, improve the reliability of water circuit sealing, and reduce the risk of equipment failure due to water leakage. When disassembling filter element 4, the actions of each component work together to ensure that the locking block 304 smoothly disengages from the slot 307, avoiding the impact of component jamming on operation, making the entire installation and disassembly process smoother and more stable. The contents not described in detail in this specification are existing technologies known to those skilled in the art.

[0035] Reference Figures 1-3 A high-pressure water pump 6 is fixedly installed at the lower end of the machine body 1. A safety protection device 9 is fixedly installed at the lower end of the machine body 1 near the high-pressure water pump 6. Two controllers 5 are fixedly installed at the end of the machine body 1 near the high-pressure water pump 6. A wastewater solenoid valve 8 is fixedly installed at the side of the machine body 1 near the controllers 5. A heat tank 10 is installed at the upper end of the machine body 1. A pressure relief valve 7 is installed at the side of the machine body 1 near the heat tank 10. A protective cover 2 is installed at the front end of the machine body 1.

[0036] Specifically, during the water purification and heating process, tap water enters the unit 1 and is filtered by the filter element 4. The filtered water is then transported to the subsequent water circuit by the high-pressure water pump 6. The heating tank 10 heats the filtered water to meet the hot water demand. The pressure relief valve 7 automatically releases pressure when the pressure in the heating tank 10 is too high, ensuring safety. The wastewater solenoid valve 8 controls the discharge of wastewater. Two controllers 5 coordinate the operation of each component. The safety protection device 9 includes an overheat protector and a water pressure sensor. When the safety protection device 9 detects that the heating element is operating without water or with insufficient water, it automatically cuts off the heating power to prevent the heating element from overheating and being damaged or even causing a fire. The protective cover 2 can protect the interior of the unit 1. The components are protected. The protective cover 2 is connected to the body 1 by a buckle. The high-pressure water pump 6 provides sufficient power to the water circuit to ensure smooth water purification. The pressure relief valve 7 can prevent the hot tank 10 from being dangerous due to excessive pressure. The safety protection device 9 can respond in time when the equipment fails to ensure the safety of the equipment and users. The wastewater solenoid valve 8 reasonably controls the wastewater discharge and improves the water resource utilization rate. The components are orderly distributed inside the body 1. The protective cover 2 protects the internal components, reduces the interference of external factors on the equipment, and extends the service life of the equipment. The above-mentioned components are all mature and publicly available technologies. Therefore, their specific structures and working principles will not be described in detail in this article.

[0037] Working principle: When filter element 4 needs to be installed, filter element 4 is pushed into the direction of fixing block 301, so that filter element 4 slides towards sealing ring 308 inside fixing block 301. When it slides to the appropriate position, one side of filter element 4 will squeeze the locking block 304, causing the locking block 304 to slide in the opposite direction inside fixing block 301. When filter element 4 slides to the final position, spring 306 rebounds and pushes locking block 304 to reset, so that locking block 304 is embedded in the locking groove 307 on the outer surface of filter element 4, thus fixing filter element 4. At this time, sealing ring 308 will be deformed by the compression of filter element 4 and fixing block 301, thereby ensuring the sealing effect.

[0038] When it is necessary to disassemble the filter element 4, the operator pushes the connecting ring 302, causing the connecting block 303 to slide synchronously on the inner wall of the fixed block 301. The sliding of the connecting block 303 will compress the spring 306 connected to it, causing the spring 306 to gradually contract. The sliding of the connecting ring 302 will drive the connecting block 303 connected to it to slide synchronously inside the fixed block 301. The sliding of the connecting block 303 will cause the slider 309 to slide in the inclined groove 305, thereby causing multiple locking blocks 304 to slide in opposite directions inside the fixed block 301. The sliding of the locking blocks 304 will cause them to gradually disengage from the locking groove 307. When the locking blocks 304 are completely disengaged from the locking groove 307, the filter element 4 can be removed from the fixed block 301.

[0039] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A flash type integrated machine comprising a machine body (1), characterized in that: The upper part of the body (1) is provided with a replacement mechanism (3). The replacement mechanism (3) includes a fixing block (301). A connecting ring (302) is slidably provided on the outside of the fixing block (301). Multiple connecting blocks (303) are fixedly provided inside the connecting ring (302). A slider (309) is fixedly provided on one side of each of the multiple connecting blocks (303). Multiple locking blocks (304) are slidably provided on one side of the inside of the fixing block (301). Each of the multiple card blocks (304) has a through groove (305) at its front end. A filter element (4) is provided inside the body (1) on the side near the fixed block (301). Multiple card slots (307) are provided on the outside of the filter element (4) on the side near the fixed block (301). A spring (306) is fixedly provided on the side of the multiple connecting blocks (303) away from the filter element (4).

2. The instant one-body machine according to claim 1, characterized in that: Multiple sliders (309) are externally slidably disposed inside multiple inclined grooves (305), and multiple connecting blocks (303) are externally slidably disposed inside the fixing block (301) on the side away from the filter element (4).

3. The instant one-body machine according to claim 1, wherein: The multiple springs (306) are fixedly installed on the side away from the filter element (4) inside the fixing block (301) near the filter element (4), and the multiple card blocks (304) are respectively installed on opposite sides inside the multiple card slots (307).

4. The instant integrated machine of claim 1, wherein: The fixing block (301) is fixedly installed inside the body (1) on the outside. A sealing ring (308) is fixedly installed on the side of the fixing block (301) near the filter element (4). The side of the filter element (4) near the fixing block (301) is located on the side of the sealing ring (308) away from the fixing block (301).

5. The instant integrated machine of claim 1, wherein: A high-pressure water pump (6) is fixedly installed at the lower end of the body (1), and a safety protection device (9) is fixedly installed on the side of the lower end of the body (1) near the high-pressure water pump (6).

6. The instant integrated machine of claim 1, wherein: Two controllers (5) are fixedly installed inside the body (1) near the high-pressure water pump (6), and a wastewater solenoid valve (8) is fixedly installed inside the body (1) near the controllers (5).

7. The instant integrated machine of claim 1, wherein: A heat tank (10) is provided at the upper part of the body (1), a pressure relief valve (7) is provided on the side of the body (1) near the heat tank (10), and a protective cover (2) is provided at the front end of the body (1).