CN219059143U - Medical energy-saving oxyhydrogen electrolyzing machine - Google Patents

Abstract

The utility model relates to the technical field of medical supplies, in particular to an energy-saving oxyhydrogen machine for medical treatment, which comprises an electrolysis assembly and an output assembly, wherein the electrolysis assembly is communicated with the output assembly, the output assembly comprises an air receiving pipe, an air bag, an intermittent turntable, an intermittent connecting rod, an intermittent pressing plate, an output pipe and an intermittent bottom plate, the air receiving pipe and the output pipe are uniformly distributed at two ends of the air bag at intervals, the intermittent turntable is rotationally connected with the outer wall of the electrolysis assembly, two ends of the intermittent connecting rod are respectively hinged with the intermittent pressing plate and the intermittent turntable, the bottom of the intermittent pressing plate is hinged with the intermittent bottom plate, the intermittent air bag is arranged in the middle of the intermittent bottom plate and the intermittent pressing plate, and the intermittent pressing plate is abutted against the top of the air bag.

Description

Medical energy-saving oxyhydrogen electrolyzing machine

Technical Field

The utility model relates to the technical field of medical supplies, in particular to an energy-saving oxyhydrogen electrolysis machine for medical use.

Background

Chinese patent publication No. CN215481309U discloses an oxyhydrogen machine comprising: the machine body is internally provided with a containing cavity, and the upper end of the machine body is fixedly connected with an organic cover; the mounting mechanism comprises a plurality of mounting bars and a baffle plate connected with the bottom ends of the mounting bars; the electrode plates can be vertically clamped into gaps between the mounting strips, and the bottom ends of the electrode plates are propped against the baffle plates; the baffle is provided with a clamping groove for embedding the upper end of the mounting strip, and the baffle is fixedly provided with a connecting column which can prop against the lower end of the cover. Through setting up the installation strip on the organism inner wall interval to can follow the upper end with the electrode plate card go into in the clearance between the installation strip, with the lateral displacement of restriction electrode plate, the bottom and the baffle of electrode plate offset, with restriction electrode plate decurrent displacement, through setting up the baffle and setting up the draw-in groove that can supply installation strip upper end card to go into on the baffle, thereby enable baffle bottom surface and electrode plate upper end offset, the rethread sets up the spliced pole that can offset with the bonnet lower extreme on the baffle, thereby fix the electrode plate.

The existing oxyhydrogen machine is mainly of a continuous pumping structure, the utilization rate of patients is low, the generated gas is more wasted, and the use effect is poor.

Disclosure of Invention

The utility model aims to provide an energy-saving oxyhydrogen machine for medical treatment, and aims to solve the problems that most oxyhydrogen machines in the prior art have continuous pumping structures, the utilization rate of patients is low, the generated gas is more wasted and the use effect is poor.

The utility model is realized in such a way that the medical energy-saving oxyhydrogen electrolyzing machine comprises an electrolyzing component and an outputting component, wherein the electrolyzing component is communicated with the outputting component, the outputting component comprises an air receiving pipe, an air bag, an intermittent turntable, an intermittent connecting rod, an intermittent pressing plate, an output pipe and an intermittent bottom plate, the air receiving pipe and the output pipe are uniformly distributed at two ends of the air bag at intervals, the intermittent turntable is rotationally connected with the outer wall of the electrolyzing component, two ends of the intermittent connecting rod are respectively hinged with the intermittent pressing plate and the intermittent turntable, the bottom of the intermittent pressing plate is hinged with the intermittent bottom plate, the air bag is arranged in the middle of the intermittent bottom plate and the intermittent pressing plate, and the intermittent pressing plate is abutted against the top of the air bag.

The electrolytic assembly comprises a shell, a water diversion plate, an electrolytic partition plate, a positive plate, a negative plate, an oxygen pipe and a hydrogen pipe, wherein the water diversion plate is arranged in the middle of the shell, the top of the water diversion plate is a water storage bin, the bottom of the water diversion plate is an electrolytic bin, the electrolytic partition plate is arranged at the bottom of the water diversion plate, the positive plate and the negative plate are symmetrically arranged at two sides of the water diversion plate, the oxygen pipe is arranged at the top of the positive plate, and the hydrogen pipe is arranged at the top of the negative plate.

The electrolysis assembly further comprises a return pipe, a water outlet pipe and a return pump, wherein two ends of the return pipe are respectively communicated with the top of the water storage bin and the bottom of the electrolysis bin, two ends of the water outlet pipe are respectively communicated with the bottom of the water storage bin and the top of the electrolysis bin, and the return pump is arranged at one end of the return pipe, which is close to the bottom of the motor bin.

The electrolysis assembly further comprises a water inlet and a filter plate, wherein the water inlet is arranged at the top of the shell, and the filter plate is arranged at the top of the water storage bin.

The device also comprises a gas storage bin and a transfer assembly, wherein the gas storage bin is arranged at the bottom of the output assembly, and the gas storage bin and the transfer assembly are communicated with the electrolysis assembly and the output assembly.

The transfer assembly comprises a transfer connecting pipe, a pressure gauge, a pressure knob and a transfer outlet pipe, wherein the transfer connecting pipe is connected with the gas storage bin and the pressure gauge, one end of the pressure gauge is connected with the pressure knob, and the transfer outlet pipe is connected with the pressure knob and the gas receiving pipe.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, the electrolysis assembly is arranged for carrying out electrolysis operation, the output assembly is used for intermittently pumping out the gas, the intermittent turntable drives the intermittent connecting rod to rotate, the intermittent pressing plate swings up and down along with the intermittent connecting rod, the air bag is extruded, the gas is sent out in an accelerating way, and the utilization rate of the gas is improved. The electrolysis device electrolyzes water through the positive plate and the negative plate to generate hydrogen and oxygen, and the hydrogen and the oxygen are respectively sent out from the hydrogen pipe and the oxygen pipe, so that the electrolysis efficiency of the device is improved. The filter filters the rivers that get into, reduces impurity entering and blocks up the water pipe, influences electrolysis efficiency to circulate rivers through outlet pipe and backwash pump, improve electrolysis efficiency. By rotating the pressure knob, the pressure of the output gas is changed, and the controllability of the gas is improved.

Drawings

FIG. 1 is a schematic view of a medical energy-saving oxyhydrogen-electrolyzing machine (view angle I);

FIG. 2 is a schematic diagram of the energy-saving oxyhydrogen machine for medical use (view II);

FIG. 3 is a schematic view of the structure of an electrolysis assembly in the medical energy-saving oxyhydrogen electrolysis machine according to the present utility model;

reference numerals:

an electrolysis assembly 1; a water inlet 101; a filter plate 102; a housing 103; a water diversion plate 104; an electrolytic separator 105; positive plate 106; a negative plate 107; a return pipe 108; a water outlet pipe 109; a return pump 110; an oxygen pipe 111; a hydrogen pipe 112;

a gas storage bin 2;

a transfer assembly 3; a transfer connecting pipe 301; a pressure gauge 302; a pressure knob 303; a transfer outlet pipe 304;

an output assembly 4; an air receiving tube 401; a balloon 402; an intermittent turntable 403; intermittent linkage 405; intermittent platen 406; an output pipe 407; intermittent floor 408.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The implementation of the present utility model will be described in detail below with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present utility model, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present utility model and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

As shown in fig. 1-3, the utility model provides an energy-saving oxyhydrogen machine for medical treatment, which comprises an electrolysis component 1 and an output component 4, wherein the electrolysis component 1 is communicated with the output component 4, the output component 4 comprises an air receiving pipe 401, an air bag 402, an intermittent turntable 403, an intermittent connecting rod 405, an intermittent pressing plate 406, an output pipe 407 and an intermittent bottom plate 408, the air receiving pipe 401 and the output pipe 407 are uniformly distributed at two ends of the air bag 402 at intervals, the intermittent turntable 403 is rotationally connected with the outer wall of the electrolysis component 1, two ends of the intermittent connecting rod 405 are respectively hinged with the intermittent pressing plate 406 and the intermittent turntable 403, the bottom of the intermittent pressing plate 406 is hinged with the intermittent bottom plate 408, the air bag 402 is arranged in the middle of the intermittent bottom plate 408 and the intermittent pressing plate 406, and the intermittent pressing plate 406 is abutted against the top of the air bag 402.

According to the utility model, the electrolysis assembly 1 is arranged to perform electrolysis operation, the output assembly 4 is used for intermittently pumping out gas, the intermittent turntable 403 drives the intermittent connecting rod 405 to rotate, the intermittent pressing plate 406 swings up and down along with the intermittent connecting rod 405, the air bag 402 is extruded, the gas is sent out in an accelerating way, and the utilization rate of the gas is improved.

The electrolysis assembly 1 comprises a shell 103, a water diversion plate 104, an electrolysis partition 105, a positive plate 106, a negative plate 107, an oxygen pipe 111 and a hydrogen pipe 112, wherein the water diversion plate 104 is arranged in the middle of the shell 103, a water storage bin is arranged at the top of the water diversion plate 104, an electrolysis bin is arranged at the bottom of the water diversion plate 104, the electrolysis partition 105 is arranged at the bottom of the water diversion plate 104, the positive plate 106 and the negative plate 107 are symmetrically arranged at two sides of the water diversion plate 104, the oxygen pipe 111 is arranged at the top of the positive plate 106, and the hydrogen pipe 112 is arranged at the top of the negative plate 107.

The electrolysis device electrolyzes water through the positive plate 106 and the negative plate 107 to generate hydrogen and oxygen, which are respectively sent out from the hydrogen pipe 112 and the oxygen pipe 111, thereby improving the electrolysis efficiency of the device.

The electrolysis assembly 1 further comprises a return pipe 108, a water outlet pipe 109 and a return pump 110, wherein two ends of the return pipe 108 are respectively communicated with the top of the water storage bin and the bottom of the electrolysis bin, two ends of the water outlet pipe 109 are respectively communicated with the bottom of the water storage bin and the top of the electrolysis bin, and the return pump 110 is arranged at one end of the return pipe 108, which is close to the bottom of the motor bin.

The electrolytic assembly 1 further comprises a water inlet 101 and a filter plate 102, the water inlet 101 being arranged at the top of the housing 103, the filter plate 102 being arranged at the top of the water storage bin.

The filter plate 102 filters the incoming water flow, reduces the entry of impurities into the blocked water pipe, affects the electrolysis efficiency, and circulates the water flow through the water outlet pipe 109 and the reflux pump 110, thereby improving the electrolysis efficiency.

The device also comprises a gas storage bin 2 and a transfer assembly 3, wherein the gas storage bin 2 is arranged at the bottom of the output assembly 4, and the gas storage bin 2 and the transfer assembly 3 are communicated with the electrolysis assembly 1 and the output assembly 4.

The transfer assembly 3 comprises a transfer connecting pipe 301, a pressure gauge 302, a pressure knob 303 and a transfer outlet pipe 304, wherein the transfer connecting pipe 301 is connected with the gas storage bin 2 and the pressure gauge 302, one end of the pressure gauge 302 is connected with the pressure knob 303, and the transfer outlet pipe 304 is connected with the pressure knob 303 and the gas receiving pipe 401.

By rotating the pressure knob 303, the pressure of the output gas is changed, improving the controllability of the gas.

Referring to the drawings, there is shown a preferred embodiment of the present utility model.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (6)

1. The medical energy-saving oxyhydrogen machine comprises an electrolysis assembly and an output assembly, wherein the electrolysis assembly is communicated with the output assembly, the output assembly comprises an air receiving pipe, an air bag, an intermittent turntable, an intermittent connecting rod, an intermittent pressing plate, an output pipe and an intermittent bottom plate, the air receiving pipe and the output pipe are uniformly distributed at two ends of the air bag at intervals, the intermittent turntable is rotationally connected with the outer wall of the electrolysis assembly, two ends of the intermittent connecting rod are respectively hinged with the intermittent pressing plate and the intermittent turntable, the bottom of the intermittent pressing plate is hinged with the intermittent bottom plate, the air bag is arranged in the middle of the intermittent bottom plate and the intermittent pressing plate, and the intermittent pressing plate is propped against the top of the air bag.

2. The medical energy-saving oxyhydrogen machine according to claim 1, wherein the electrolysis assembly comprises a shell, a water diversion plate, an electrolysis partition plate, a positive plate, a negative plate, an oxygen pipe and a hydrogen pipe, the water diversion plate is arranged in the middle of the shell, the top of the water diversion plate is a water storage bin, the bottom of the water diversion plate is an electrolysis bin, the electrolysis partition plate is arranged at the bottom of the water diversion plate, the positive plate and the negative plate are symmetrically arranged at two sides of the water diversion plate, the oxygen pipe is arranged at the top of the positive plate, and the hydrogen pipe is arranged at the top of the negative plate.

3. The energy-saving medical oxyhydrogen electrolysis machine according to claim 2, wherein the electrolysis assembly further comprises a return pipe, a water outlet pipe and a return pump, two ends of the return pipe are respectively communicated with the top of the water storage bin and the bottom of the electrolysis bin, two ends of the water outlet pipe are respectively communicated with the bottom of the water storage bin and the top of the electrolysis bin, and the return pump is arranged at one end of the return pipe close to the bottom of the motor bin.

4. The energy efficient oxyhydrogen machine for medical use according to claim 3, wherein the electrolysis assembly further comprises a water inlet and a filter plate, the water inlet is disposed at the top of the housing, and the filter plate is disposed at the top of the water storage bin.

5. The energy-saving oxyhydrogen machine for medical use according to claim 4, further comprising a gas storage bin and a transfer assembly, wherein the gas storage bin is disposed at the bottom of the output assembly, and the gas storage bin and the transfer assembly are communicated with the electrolysis assembly and the output assembly.

6. The energy-saving oxyhydrogen machine for medical use according to claim 5, wherein the transfer assembly includes a transfer connecting tube, a pressure gauge, a pressure knob and a transfer outlet tube, the transfer connecting tube is connected with the gas storage bin and the pressure gauge, one end of the pressure gauge is connected with the pressure knob, and the transfer outlet tube is connected with the pressure knob and the gas receiving tube.

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