Multi-terminal intelligent humidifier controlled by multi-variable demand cluster
By integrating the humidification components within the rack, the problem of large footprint of humidification equipment is solved, achieving space saving for the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- EDMAX ENERGY SAVING SYSTEM (SHANGHAI) CO LTD
- Filing Date
- 2026-04-01
- Publication Date
- 2026-06-09
AI Technical Summary
Existing humidification equipment requires a large number of devices and occupies a large area because each humidification terminal is independently equipped with a complete humidification unit, including a water storage tank, high-pressure pump set, control valve and piping system.
Design a multi-terminal, multi-variable demand cluster control intelligent humidifier, integrating humidification components within a frame, including load-bearing components, a PLC control box, drainage components, a water storage tank, a constant pressure pump, a kinetic energy component, and a high-pressure distribution structure. The PLC control box integrates the control terminal, the constant pressure pump delivers water to the water collector, the kinetic energy component pressurizes the water, the high-pressure distribution structure distributes the water to each terminal, and the drainage component collects overflow water, reducing the equipment's footprint.
Integrated design reduces the footprint of the equipment, saves space, and solves the problem of having a large number of devices.
Smart Images

Figure CN122170485A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of industrial humidification technology, and in particular to a multi-terminal, multi-variable demand cluster control intelligent humidifier. Background Technology
[0002] In industrial, agricultural, and commercial environments, humidity is a crucial environmental parameter affecting production quality, equipment operational stability, and personnel comfort. For example, in electronics manufacturing workshops, excessively low humidity can generate static electricity, damaging precision components; in textile workshops, excessively low humidity can lead to fiber breakage and reduced yarn strength. Reasonable humidity control helps improve energy efficiency and air quality. Therefore, humidification equipment has a wide range of applications in these fields.
[0003] Currently, existing humidification equipment consists of a complete humidification unit for each humidification terminal, including a water storage tank, high-pressure pump set, control valve and piping system, resulting in a large number of devices and a large footprint. Summary of the Invention
[0004] The purpose of this invention is to provide a multi-terminal, multi-variable demand cluster control intelligent humidifier, which aims to solve the problem of existing humidification equipment, where each humidification terminal is independently configured with a complete humidification unit, including a water storage tank, high-pressure pump set, control valve and pipeline system, resulting in a large number of devices and a large footprint.
[0005] To achieve the above objectives, the present invention provides a multi-terminal, multi-variable demand cluster control intelligent humidifier, including a frame and humidification components. The humidification assembly includes multiple load-bearing components, a PLC control box, drainage components, a water storage tank, a constant pressure pump, a kinetic energy component, and a high-pressure distribution structure. Multiple load-bearing components are respectively disposed on one side of the frame; the PLC control box is disposed on one side of the frame; the drainage component is disposed on one side of the frame; the water storage tank is fixedly connected to the frame and located on one side of the frame; the constant pressure pump is connected to the water storage tank and located on one side of the water storage tank; the kinetic energy component is disposed on one side of the frame; the high-pressure distribution structure is disposed on one side of the kinetic energy component.
[0006] The load-bearing component includes a load-bearing frame and a load-bearing plate. The load-bearing frame is fixedly connected to the machine frame and is located on one side of the machine frame. The load-bearing plate is fixedly connected to the load-bearing frame and is located on one side of the load-bearing frame.
[0007] The drainage component includes a water receiving tray and a drain head. The water receiving tray is fixedly connected to the frame and located on one side of the frame. The drain head is connected to the water receiving tray and located on one side of the water receiving tray.
[0008] The water storage tank includes a tank body, a tank cover, and two handles. The tank body is fixedly connected to the frame and communicates with the constant pressure pump, and is located on one side of the frame. The tank cover is located on one side of the tank body. The two handles are fixedly connected to the tank cover and are located on one side of the tank cover.
[0009] The kinetic energy component includes a support frame and a plunger pump assembly. The support frame is fixedly connected to the frame and located on one side of the frame. The plunger pump assembly is fixedly connected to the support frame and communicates with the constant pressure pump, and is located on one side of the support frame.
[0010] The high-pressure distribution structure includes a valve block support, a high-pressure valve block, and a high-pressure water storage device. The valve block support is fixedly connected to the frame and located on one side of the frame. The high-pressure valve block is fixedly connected to the valve block support and communicates with the plunger pump assembly, and is located on one side of the valve block support. The high-pressure water storage device is located on one side of the frame.
[0011] The high-pressure water storage component includes a fixed frame and a high-pressure water tank. The fixed frame is fixedly connected to the frame and is located on one side of the frame. The high-pressure water tank is connected to the high-pressure valve block and is located on one side of the fixed frame.
[0012] This invention discloses a multi-terminal, multi-variable demand cluster control intelligent humidifier. The PLC control box integrates various control terminals. During use, treated source water is input into the water storage tank for storage. Subsequently, the constant pressure pump delivers the water to the water collector to form multiple constant pressure water tanks. Then, the kinetic energy component pressurizes the water, and the pressurized water is distributed to each terminal through the high-pressure distribution structure. The high-pressure distribution structure, in conjunction with the step control valve, controls the flow rate. The drainage component collects and discharges overflow or leakage water to prevent spillage. By integrating multiple structures into the frame, the occupied area is reduced, saving space. This solves the problem of existing humidification equipment, where each humidification terminal is independently configured with a complete humidification unit, including a water storage tank, high-pressure pump set, control valve, and piping system, resulting in a large number of devices and a large footprint. Attached Figure Description
[0013] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.
[0014] Figure 1 This is a schematic diagram of the overall structure of the present invention.
[0015] Figure 2 This is a structural schematic diagram of the entire invention from another angle.
[0016] Figure 3This is a front view of the entire invention.
[0017] 101-Frame, 102-Bearing component, 103-PLC control box, 104-Drainage component, 105-Water storage tank, 106-Constant pressure pump, 107-Kinetic component, 108-High pressure distribution structure, 109-Bearing frame, 110-Bearing plate, 111-Water receiving tray, 112-Drain head, 113-Box body, 114-Box cover, 115-Handle, 116-Support frame, 117-Plunger pump set, 118-Valve block bracket, 119-High pressure valve block, 120-High pressure water storage component, 121-Fixing frame, 122-High pressure water tank. Detailed Implementation
[0018] The embodiments of the present invention are described in detail below. Examples of the embodiments are shown in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, but should not be construed as limiting the present invention.
[0019] Please see Figures 1-3 ,in, Figure 1 This is a schematic diagram of the overall structure of the present invention. Figure 2 This is a structural schematic diagram of the entire invention from another angle. Figure 3 This is a front view of the entire invention.
[0020] This invention discloses a multi-terminal, multi-variable demand cluster control intelligent humidifier, comprising a frame 101 and a humidification assembly. The humidification assembly includes multiple load-bearing components 102, a PLC control box 103, a drainage component 104, a water storage tank 105, a constant pressure pump 106, a kinetic energy component 107, and a high-pressure distribution structure 108. The load-bearing components 102 include a load-bearing frame 109 and a load-bearing plate 110. The drainage component 104 includes a water receiving tray 111 and a drain head 112. The water storage tank 105 includes a tank body 113, a tank cover 114, and two... The grip 115, the kinetic component 107 includes a support frame 116 and a plunger pump group 117, the high-pressure distribution structure 108 includes a valve block bracket 118, a high-pressure valve block 119 and a high-pressure water storage component 120, the high-pressure water storage component 120 includes a fixing frame 121 and a high-pressure water tank 122. The above solution solves the problem of existing humidification equipment, which has a large number of devices and a large footprint because each humidification terminal is independently configured with a complete humidification unit, including a water storage tank, a high-pressure pump group, a control valve and a pipeline system.
[0021] In this specific embodiment, the frame 101 is used to integrate the humidification components to reduce the occupied area.
[0022] The load-bearing components 102 are respectively disposed on one side of the frame 101; the PLC control box 103 is disposed on one side of the frame 101; the drainage component 104 is disposed on one side of the frame 101; the water storage tank 105 is fixedly connected to the frame 101 and located on one side of the frame 101; the constant pressure pump 106 is connected to the water storage tank 105 and located on one side of the water storage tank 105; the kinetic energy component 107 is disposed on one side of the frame 101; the high-pressure distribution structure 108 is disposed on one side of the kinetic energy component 107; and the PLC control box 103 is used to integrate various control terminals to input the treated source water into the water storage tank 105 for storage. The water is then transported to the water collector by the constant pressure pump 106 to form multiple constant pressure water tanks. The water is then pressurized by the kinetic energy component 107. The pressurized water is distributed to each terminal by the high pressure distribution structure 108. The high pressure distribution structure 108 works with the step control valve to control the flow rate. The drainage component 104 is used to collect and discharge overflow or leakage water to prevent spillage. By integrating multiple structures into the frame 101, the occupied area is reduced and the space is saved. This solves the problem of existing humidification equipment, where each humidification terminal is independently equipped with a complete humidification unit, including a water storage tank, a high pressure pump set, a control valve, and a pipeline system, resulting in a large number of devices and a large footprint.
[0023] Secondly, the load-bearing frame 109 is fixedly connected to the frame 101 and is located on one side of the frame 101; the load-bearing plate 110 is fixedly connected to the load-bearing frame 109 and is located on one side of the load-bearing frame 109. The load-bearing frame 109 cooperates with the load-bearing plate 110 to support the frame 101 and provide stable support for the frame 101 and the humidification component.
[0024] Furthermore, the water receiving tray 111 is fixedly connected to the frame 101 and is located on one side of the frame 101; the drain head 112 is connected to the water receiving tray 111 and is located on one side of the water receiving tray 111. The water receiving tray 111 collects and discharges overflowing or leaking water to prevent it from overflowing, and then discharges it through the drain head 112.
[0025] In addition, the housing 113 is fixedly connected to the frame 101 and communicates with the constant pressure pump 106, and is located on one side of the frame 101; the housing cover 114 is located on one side of the housing 113; the two handles 115 are fixedly connected to the housing cover 114 respectively, and are located on one side of the housing cover 114 respectively. The housing 113 is used to store the treated source water, and the housing cover 114 facilitates opening the housing 113 to clean the inside of the housing 113.
[0026] Furthermore, the support frame 116 is fixedly connected to the frame 101 and located on one side of the frame 101; the plunger pump assembly 117 is fixedly connected to the support frame 116 and communicates with the constant pressure pump 106, and is located on one side of the support frame 116. The support frame 116 is used to support the installation of the plunger pump assembly 117, and the plunger pump assembly 117 is used to pressurize water.
[0027] However, the valve block bracket 118 is fixedly connected to the frame 101 and located on one side of the frame 101; the high-pressure valve block 119 is fixedly connected to the valve block bracket 118 and communicates with the plunger pump assembly 117, and is located on one side of the valve block bracket 118; the high-pressure water storage component 120 is disposed on one side of the frame 101, the valve block bracket 118 is used to assemble the high-pressure valve block 119, and the high-pressure valve block 119 is used to inject pressurized water into the high-pressure water storage component 120.
[0028] Finally, the fixing frame 121 is fixedly connected to the frame 101 and is located on one side of the frame 101; the high-pressure water tank 122 is connected to the high-pressure valve block 119 and is located on one side of the fixing frame 121. The fixing frame 121 is used to assemble the high-pressure water tank 122. The high-pressure water tank 122 is used to distribute the water to each terminal through the branch high-pressure valve group, and the flow rate is controlled by the step control valve.
[0029] When using this invention, the PLC control box 103 is used to integrate various control terminals. The treated source water is input into the water storage tank 105 for storage. Then, the constant pressure pump 106 transports the water to the water collector to form multiple constant pressure water tanks. The water is then pressurized by the plunger pump group 117, which adopts a "multi-use, one standby" redundant design. The pressurized water is injected into the high pressure water tank 122 through the high pressure valve block 119 for energy storage and pressure stabilization. It is then distributed to each terminal through the branch high pressure valve group, and the flow rate is controlled by the step control valve. The drainage component 104 is used to collect and discharge overflow or leakage water to prevent spillage. By integrating multiple structures into the frame 101, the occupied area is reduced and the space is saved, thereby solving the problem of existing humidification equipment, where each humidification terminal is independently configured with a complete humidification unit, including a water storage tank, a high pressure pump group, control valves, and a pipeline system, resulting in a large number of devices and a large footprint.
[0030] The above-disclosed embodiments are merely one or more preferred embodiments of this application and should not be construed as limiting the scope of this application. Those skilled in the art can understand that all or part of the processes for implementing the above embodiments and equivalent changes made in accordance with the claims of this application still fall within the scope of this application.
Claims
1. A multi-terminal, multi-variable demand cluster control intelligent humidifier, comprising a frame, characterized in that, It also includes a humidification component. The humidification assembly includes multiple load-bearing components, a PLC control box, drainage components, a water storage tank, a constant pressure pump, a kinetic energy component, and a high-pressure distribution structure. Multiple load-bearing components are respectively disposed on one side of the frame; the PLC control box is disposed on one side of the frame; the drainage component is disposed on one side of the frame; the water storage tank is fixedly connected to the frame and located on one side of the frame; the constant pressure pump is connected to the water storage tank and located on one side of the water storage tank; the kinetic energy component is disposed on one side of the frame; the high-pressure distribution structure is disposed on one side of the kinetic energy component.
2. The intelligent humidifier with multi-terminal, multi-variable demand cluster control as described in claim 1, characterized in that, The load-bearing component includes a load-bearing frame and a load-bearing plate. The load-bearing frame is fixedly connected to the machine frame and is located on one side of the machine frame. The load-bearing plate is fixedly connected to the load-bearing frame and is located on one side of the load-bearing frame.
3. The intelligent humidifier with multi-terminal, multi-variable demand cluster control as described in claim 2, characterized in that, The drainage component includes a water receiving tray and a drain head. The water receiving tray is fixedly connected to the frame and is located on one side of the frame. The drain head is connected to the water receiving tray and is located on one side of the water receiving tray.
4. The intelligent humidifier with multi-terminal, multi-variable demand cluster control as described in claim 3, characterized in that, The water storage tank includes a tank body, a tank cover, and two handles. The tank body is fixedly connected to the frame and communicates with the constant pressure pump, and is located on one side of the frame. The tank cover is located on one side of the tank body. The two handles are fixedly connected to the tank cover and are located on one side of the tank cover.
5. A multi-terminal, multi-variable demand cluster control intelligent humidifier as described in claim 4, characterized in that, The kinetic energy component includes a support frame and a plunger pump assembly. The support frame is fixedly connected to the frame and located on one side of the frame. The plunger pump assembly is fixedly connected to the support frame and communicates with the constant pressure pump, and is located on one side of the support frame.
6. The intelligent humidifier with multi-terminal, multi-variable demand cluster control as described in claim 5, characterized in that, The high-pressure distribution structure includes a valve block support, a high-pressure valve block, and a high-pressure water storage device. The valve block support is fixedly connected to the frame and located on one side of the frame. The high-pressure valve block is fixedly connected to the valve block support and communicates with the plunger pump assembly, and is located on one side of the valve block support. The high-pressure water storage device is located on one side of the frame.
7. A multi-terminal, multi-variable demand cluster control intelligent humidifier as described in claim 6, characterized in that, The high-pressure water storage component includes a fixed frame and a high-pressure water tank. The fixed frame is fixedly connected to the frame and is located on one side of the frame. The high-pressure water tank is connected to the high-pressure valve block and is located on one side of the fixed frame.