CN216417731U - Adsorption control system of adsorption bowl - Google Patents

Abstract

The application discloses an adsorption control system of adsorption bowls, which comprises an air storage tank (1) arranged on a casing (4), a main gas path with one end connected with an adsorption port of the air storage tank (1), a plurality of branch gas paths connected with the other end of the main gas path, and a plurality of adsorption bowls (6) respectively connected with the other ends of the branch gas paths, wherein the plurality of branch gas paths are connected in parallel, each branch gas path is provided with a solenoid valve for controlling the on-off state of the branch gas path, and each adsorption bowl (6) is provided with an adsorption start-stop button (5) for controlling the adsorption of the adsorption bowl; the device also comprises a control panel (7) which is connected with the adsorption start-stop button (5), the adsorption bowl electrode and the electromagnetic valve. The adsorption gas paths of the adsorption bowls of the adsorption control system of the adsorption bowls are mutually independent, the convenience and the flexibility of the operation and the use of the adsorption bowls are facilitated during treatment, and the air pressure instability factor of the whole adsorption system is greatly reduced.

Description

Adsorption control system of adsorption bowl

Technical Field

The application relates to the technical field of adsorption control, in particular to an adsorption control system of an adsorption bowl.

Background

At present, in the products with adsorption type electrodes on the market, all the adsorption bowls are a common total negative pressure adsorption gas path, please refer to fig. 1, where fig. 1 is a structural diagram of a typical adsorption bowl negative pressure system in the prior art.

Such an air path structure causes the following problems: if the condition of air leakage occurs in any link (including all the adsorption bowls, the air pipe pipelines and the air pipe connectors) in the whole adsorption air path, the air pressure of the whole adsorption air path is directly influenced greatly. The gas path structure can bring about great increase of unstable factors of the gas pressure of the whole adsorption system, and simultaneously, a great number of potential fault points are introduced.

To sum up, how to effectively solve the problem that the air leakage occurs in any link of the whole adsorption air path directly causes great influence on the air pressure of the whole adsorption air path, and the like, is a problem that needs to be solved urgently by a person skilled in the art at present.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an adsorb adsorption control system of bowl, this adsorb each adsorption gas circuit that adsorbs bowl of adsorption control system of bowl is mutually independent each other, and convenience and flexibility that each adsorbs bowl independent operation used when being convenient for treat have significantly reduced the atmospheric pressure unstable factor that whole adsorption system exists again.

In order to solve the technical problem, the application provides the following technical scheme:

an adsorption control system of adsorption bowls comprises an air storage tank arranged on a shell, a main gas path with one end connected with an adsorption port of the air storage tank, a plurality of branch gas paths connected with the other end of the main gas path, and a plurality of adsorption bowls connected with the other ends of the branch gas paths respectively, wherein the plurality of branch gas paths are connected in parallel, each branch gas path is provided with a solenoid valve for controlling the on-off state of the branch gas path, and each adsorption bowl is provided with an adsorption start-stop button for controlling the adsorption of the adsorption bowl; the device also comprises a control panel which is connected with the adsorption start-stop button, the adsorption bowl electrode and the electromagnetic valve.

Preferably, the shell is provided with a first gas-electricity mixed aviation plug, the adsorption bowl is provided with a second gas-electricity mixed aviation plug, the first gas-electricity mixed aviation plug is connected with the control panel through an electric wire, the second gas-electricity mixed aviation plug is connected with the adsorption bowl electrode and the adsorption start-stop button through electric wires, the first gas-electricity mixed aviation plug and the second gas-electricity mixed aviation plug are connected through an output line of a gas-electricity mixed cable, and the branch gas circuit is a gas circuit channel of the gas-electricity mixed aviation plug.

Preferably, the electromagnetic valves are multiple valves corresponding to the number of the branch gas paths, a main gas path of the multiple valves is connected with the main gas path, and the plurality of gas distribution paths are respectively connected with the plurality of branch gas paths.

Preferably, each branch air passage of the solenoid valve multi-connected valve is provided with an air release port.

Preferably, the adsorption start-stop button is arranged at the bottom of the adsorption bowl.

Preferably, the shell of the adsorption bowl is a silica gel shell.

The application provides an adsorb adsorption control system of bowl, including gas holder, main road gas circuit, branch road gas circuit, adsorb bowl, solenoid valve and control panel, the gas holder sets up on the casing, and the gas holder is connected with the negative pressure pump, is provided with the relief valve on the connecting pipe, holds negative pressure gas in the gas holder. The air storage tank is connected with the negative pressure detection component, and the negative pressure detection component is used for detecting the pressure of negative pressure gas in the air storage tank so as to realize closed-loop control of the negative pressure value of the adsorption system.

One end of the main gas circuit is connected with the adsorption port of the gas storage tank, and the other end of the main gas circuit is provided with a plurality of outlets. Many branch road gas circuits are connected with a plurality of exports of trunk circuit gas circuit one-to-one, and an absorption bowl is connected to the other end of every branch road gas circuit, and parallel connection between the multichannel branch road gas circuit, also be exactly parallel connection between a plurality of absorption bowls. Each branch gas circuit is provided with an electromagnetic valve which is used for controlling the on-off of the branch gas circuit. Every adsorbs the bowl and has adsorbs start-stop button, adsorbs start-stop button and is used for controlling and adsorbs the bowl and adsorb the action. The control panel is all connected with absorption start-stop button, absorption bowl electrode and solenoid valve.

When the operation uses and adsorbs the bowl to treat, at first will adsorb bowl mouth pressure and attach on skin, then touch and press the absorption on adsorbing the bowl and open and stop the button, it sends the intercommunication trigger signal to the control panel to adsorb to open and stop the button, the control panel receives behind the intercommunication trigger signal, control this absorption and open the branch road gas circuit solenoid valve that stops the button place and adsorb the bowl and open, the branch road gas circuit switch-on of adsorbing the bowl, can be connected to the trunk line gas circuit with this absorption bowl gas circuit, also be exactly with total negative pressure gas circuit headtotail, it can adsorb on patient's skin to adsorb the bowl.

After the treatment, touch once more and press the absorption of adsorbing the bowl and open and stop the button, it stops the button and sends and close trigger signal to the control panel to adsorb to open, the control panel is received and is closed trigger signal after, control this absorption opens and stops the branch road gas circuit solenoid valve that adsorbs the bowl at the button place and close, the branch road gas circuit of adsorbing the bowl is closed, the branch road gas circuit and the disconnection of trunk circuit gas circuit that the adsorption bowl is connected, namely with total negative pressure gas circuit system disconnection, adsorb the pressure release mouth intercommunication of bowl branch road gas circuit and solenoid valve simultaneously, it is lost heart to adsorb the bowl, so that the adsorption bowl is easily taken off from patient's skin by the operator.

Use the technical scheme that this application embodiment provided, solenoid valve control break-make is passed through to every branch road to realize that each adsorbs bowl adsorbs the independent control of gas circuit, the absorption gas circuit of each adsorption bowl is mutually independent each other, when absorption bowl on certain branch road, branch road gas circuit, branch road air pipe joint appear leaking gas, do not influence the atmospheric pressure on other branch roads and trunk road, the operation of each adsorption bowl is used conveniently more and nimble during the treatment, the atmospheric pressure unstable factor that whole adsorption system exists has significantly reduced again.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a block diagram of a typical suction bowl negative pressure system of the prior art;

fig. 2 is a schematic structural diagram of an adsorption control system of an adsorption bowl according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of the adsorption bowl in fig. 2.

The drawings are numbered as follows:

the gas holder 1, the solenoid valve ally oneself with the valve 2 more, first pneumoelectric is loaded in mixture and is unloaded aviation plug 3, casing 4, adsorb and open and stop button 5, adsorb bowl 6, control panel 7, second pneumoelectric is loaded in mixture aviation plug 8, adsorbs bowl electrode 9, conductive copper ring 10, gland nut 11.

Detailed Description

The core of this application is that an adsorption control system who adsorbs bowl is provided, and the adsorption gas circuit that each adsorbs the bowl of this adsorption control system that adsorbs bowl is mutually independent each other, and convenience and flexibility that each adsorbed the operation of bowl when being convenient for treat used have significantly reduced the atmospheric pressure unstable factor that whole adsorption system exists again.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 2 to 3, fig. 2 is a schematic structural diagram of an adsorption control system of an adsorption bowl according to an embodiment of the present disclosure; fig. 3 is a schematic structural diagram of the adsorption bowl in fig. 2.

In a specific embodiment, the adsorption control system of the adsorption bowls provided by the application comprises an air storage tank 1 arranged on a casing 4, a main gas path with one end connected with an adsorption port of the air storage tank 1, a plurality of branch gas paths connected with the other end of the main gas path, and a plurality of adsorption bowls 6 respectively connected with the other ends of the branch gas paths, wherein the plurality of branch gas paths are connected in parallel, each branch gas path is provided with an electromagnetic valve for controlling the on-off state of the branch gas path, and each adsorption bowl 6 is provided with an adsorption start-stop button 5 for controlling the adsorption of the adsorption bowl; the device also comprises a control panel 7 which is connected with the adsorption start-stop button 5, the adsorption bowl electrode 9 and the electromagnetic valve.

In the structure, the adsorption control system of the adsorption bowl comprises a gas storage tank 1, a main gas circuit, a branch gas circuit, the adsorption bowl 6, a solenoid valve and a control panel 7, wherein the gas storage tank 1 is arranged on the machine shell 4, the gas storage tank 1 is connected with a negative pressure pump, a pressure release valve is arranged on the connecting pipeline, and negative pressure gas is contained in the gas storage tank 1. The gas storage tank 1 is connected with a negative pressure detection component, and the negative pressure detection component is used for detecting the pressure of negative pressure gas in the gas storage tank 1.

One end of the main gas circuit is connected with the adsorption port of the gas storage tank 1, and the other end of the main gas circuit is provided with a plurality of outlets. Many branch road gas circuits are connected with a plurality of exports of trunk circuit gas circuit one-to-one, and an absorption bowl 6 is connected to the other end of every branch road gas circuit, and parallel connection between the multichannel branch road gas circuit, that is to say parallel connection between a plurality of absorption bowls 6.

Each branch gas circuit is provided with an electromagnetic valve which is used for controlling the on-off of the branch gas circuit. Every adsorbs bowl 6 to have adsorbs start-stop button 5, adsorbs start-stop button 5 and is used for controlling and adsorbs 6 absorption actions of bowl. The control panel 7 is connected with the adsorption start-stop button 5, the adsorption bowl electrode 9 and the electromagnetic valve.

When the operation is used and is adsorbed bowl 6 and treat, at first will adsorb 6 bowl mouths of a river pressure and attach on skin, then touch and press the absorption on the absorption bowl 6 and open and stop button 5, it starts trigger signal to send control panel 7 to adsorb to open and stop button 5, control panel 7 receives behind the intercommunication trigger signal, control this branch road gas circuit solenoid valve that adsorbs the branch road gas circuit of opening and stopping button 5 place absorption bowl 6 and open, the branch road gas circuit switch-on of absorption bowl 6, can be with this 6 gas circuit connection of absorption bowl to trunk circuit gas circuit, also be exactly with total negative pressure gas circuit system connection, it can adsorb on patient's skin to adsorb bowl 6.

After the treatment, touch once more and press the absorption of adsorbing bowl 6 and open and stop button 5, it stops button 5 and sends and closes trigger signal to control panel 7 to adsorb to open, control panel 7 receives and closes after the trigger signal, control this absorption opens and stops the branch road gas circuit solenoid valve that 5 places adsorbed bowl 6 and close, the branch road gas circuit of adsorbing bowl 6 is closed, the branch road gas circuit that adsorbs bowl 6 is connected and trunk circuit gas circuit disconnection, namely with total negative pressure gas circuit system disconnection, adsorb bowl branch road gas circuit and the pressure release mouth intercommunication of solenoid valve simultaneously, it is lost heart to adsorb bowl 6, so that adsorb bowl 6 by the operator from the light take off on patient's skin.

Use the technical scheme that this application embodiment provided, solenoid valve control break-make is passed through to every branch road, realize that each adsorbs 6 absorption gas circuits independent control of bowl, each adsorbs the absorption gas circuit of bowl 6 mutually independent each other, adsorb bowl 6 on certain branch road, the branch road gas circuit, when branch road air pipe connects the appearance gas leakage, do not influence the atmospheric pressure on other branch roads and trunk road, each adsorbs bowl 6 is adsorbed in the operation during treatment and use more convenient and nimble, the atmospheric pressure unstable factor that whole adsorption system exists has significantly reduced again.

On the basis of the above-mentioned embodiment, the casing 4 is provided with the first gas-electricity mixed aviation plug 3, the adsorption bowl 6 is provided with the second gas-electricity mixed aviation plug 8, the first gas-electricity mixed aviation plug 3 is connected with the control panel 7 through an electric wire, the second gas-electricity mixed aviation plug 8 is connected with the adsorption bowl electrode 9 through an electric wire, the adsorption start-stop button 5 is connected through an electric wire, the first gas-electricity mixed aviation plug 3 is connected with the second gas-electricity mixed aviation plug 8 through an output line of a gas-electricity mixed cable, and the branch gas circuit is a gas circuit channel of the gas-electricity mixed aviation plug.

The gas-electricity mixed aviation plug and the gas-electricity mixed cable comprise a gas circuit and an electric wire, the adsorption bowl 6 is connected with the gas circuit and the electric wire simultaneously through the gas-electricity mixed aviation plug and the gas-electricity mixed cable, the integration of gas circuit and circuit transmission is realized, the connection is convenient, the structure is compact, the occupied space is small, and the appearance is attractive.

In another more reliable embodiment, on the basis of any one of the above embodiments, the solenoid valves are the solenoid valve multi-connected valves 2, and the number of the integrated solenoid valves in the solenoid valve multi-connected valves 2 corresponds to the number of the branch air passages.

The total gas circuit mouth and the trunk gas circuit of the multi-connected solenoid valve 2 are connected, and a plurality of gas distribution mouths correspond to and are connected with a plurality of branch gas circuits respectively, so that the connection of the trunk gas circuit and the branch gas circuits is facilitated, and the branch gas circuits are also controlled conveniently.

Further optimize above-mentioned technical scheme, every branch gas circuit of the many online valve of solenoid valve 2 all has the mouth that loses heart, and the mouth that loses heart communicates with the atmosphere.

When stopping adsorbing, the branch road gas circuit and the trunk circuit gas circuit disconnection of adsorbing bowl 6, branch road gas circuit and the mouth intercommunication that loses heart of solenoid valve simultaneously, the branch road gas circuit of adsorbing bowl 6 just communicates with the atmosphere, and the negative pressure that persists in adsorbing bowl 6 is unloaded, and the branch road gas circuit negative pressure of adsorbing bowl 6 returns to zero, adsorbs bowl 6 does not have the adsorption affinity, and adsorbing bowl 6 has taken off from the patient on one's body very easily.

In another more reliable embodiment, on the basis of any one of the above embodiments, when the operator treats the patient, the adsorption start-stop button 5 is arranged at the bottom of the adsorption bowl 6, the adsorption start-stop button 5 is located at the hand of the operator, and the adsorption start-stop button 5 does not need to be touched remotely, so that the operation is more convenient, and the time is saved. It should be noted that the adsorption start-stop button 5 is arranged in the adsorption bowl electrode 9 at the bottom of the adsorption bowl 6, the adsorption start-stop button 5 is provided with the conductive copper ring 10, the adsorption start-stop button is fastened by the compression nut 11, the adsorption bowl electrode 9 and the adsorption start-stop button 5 are connected with the second gas-electricity hybrid aviation plug 8, and the adsorption start-stop button is simple in structure and convenient to connect.

On the basis of each above-mentioned specific embodiment, the shell of adsorbing bowl 6 is the silica gel shell, has elasticity, and the adsorptivity is better, is difficult for leaking gas, and the patient uses comparatively safe and reliable.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The adsorption control system of the adsorption bowl provided by the application is described in detail above. The principles and embodiments of the present application are explained herein using specific examples, which are provided only to help understand the method and the core idea of the present application. It should be noted that, for those skilled in the art, it is possible to make several improvements and modifications to the present application without departing from the principle of the present application, and such improvements and modifications also fall within the scope of the claims of the present application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. An adsorption control system of adsorption bowls is characterized by comprising an air storage tank (1) arranged on a machine shell (4), a main gas path with one end connected with an adsorption port of the air storage tank (1), a plurality of branch gas paths connected with the other end of the main gas path, and a plurality of adsorption bowls (6) respectively connected with the other ends of the branch gas paths, wherein the plurality of branch gas paths are connected in parallel, each branch gas path is provided with a solenoid valve for controlling the on-off state of the branch gas path, and each adsorption bowl (6) is provided with an adsorption start-stop button (5) for controlling the adsorption of the adsorption bowl; the device also comprises a control panel (7) which is connected with the adsorption start-stop button (5), the adsorption bowl electrode and the electromagnetic valve.

2. The adsorption control system of an adsorption bowl according to claim 1, wherein the casing (4) is provided with a first aero-electric hybrid aviation plug (3), the adsorption bowl (6) is provided with a second aero-electric hybrid aviation plug (8), the first aero-electric hybrid aviation plug (3) is connected with the control panel (7) through an electric wire, the second aero-electric hybrid aviation plug (8) is connected with the adsorption bowl electrode and the adsorption start-stop button (5) through electric wires, the first aero-electric hybrid aviation plug (3) is connected with the second aero-electric hybrid aviation plug (8) through an output line of an aero-electric hybrid cable, and the branch gas circuit is a gas circuit channel of the aero-electric hybrid cable.

3. The adsorption control system of an adsorption bowl according to claim 1, wherein the electromagnetic valves are multiple electromagnetic valves (2) corresponding to the number of branch gas paths, a main gas path of the multiple electromagnetic valves (2) is connected to a main gas path, and a plurality of gas distribution paths are respectively connected to a plurality of branch gas paths.

4. The adsorption control system of an adsorption bowl according to claim 3, wherein each gas distribution channel of the solenoid valve multi-connected valve (2) is provided with a gas release port.

5. An adsorption control system of an adsorption bowl according to any one of claims 1 to 4, characterized in that the adsorption start-stop button (5) is arranged at the bottom of the adsorption bowl (6).

6. Adsorption control system of adsorption bowl according to claim 5 characterized in that the shell of adsorption bowl (6) is a silica gel shell.

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