JP3210026U - Intake mechanism of sulfide purifier - Google Patents

Abstract

A turbocharger intake mechanism for a sulfide purifier for environmental protection is provided. SOLUTION: A sulfide purifying device is a smart vulcanization in which a waste gas recovery and purification mechanism, a gas storage tank 1, a pressure tank 2, a clean natural gas boiler 3 and a smart vulcanization control system are sequentially connected to form a circuit. The control system includes a vulcanizing press connected to a clean natural gas boiler, and an external control device having a touch panel 9 fixed thereon. The waste gas recovery and purification mechanism includes a tank body 10 fixed on the ground, a liquid supply port 11 located on the tank body and connected to the vulcanizing press, an intake port 12, and a turbo provided at the opening of the intake port. At least a charge intake mechanism is provided. The turbocharged intake mechanism includes a turbine cabinet 20 that is connected to the intake port and placed on the side, a turbine drive device 21 that is located in the turbine cabinet and has a drive shaft facing upward, and a turbine 22 that is solidly coupled to the drive shaft of the turbine drive device. Consists of. [Selection] Figure 1

Description

  The present invention relates to a machine / environmental conservation facility, and more particularly to an intake mechanism of a sulfide purification device.

  Most factories generate a great deal of sulfide during product production, and there are now a lot of environmental protection devices, but these environmental protection devices are self-inspected to see if they meet the emission standards. There is no device to perform, and it is easy to cause secondary pollution to the environment.

  In order to solve the above problems, an object of the present invention is to provide an intake mechanism for a sulfide purification device.

  To achieve the above object, the present invention includes a waste gas recovery and purification mechanism, a gas storage tank, a pressure tank, a clean natural gas boiler, and a smart equivalent vulcanization control system. A pressure tank, a clean natural gas boiler and a smart vulcanization control system are sequentially connected to form a circuit, and the smart vulcanization control system connects to a clean natural gas boiler, and a vulcanization press An external control device fixed on the machine; the external control device is fitted on a concave groove formed on the outer surface of the vulcanizing press and on an inner surface facing the concave groove. A bearing that is attached, a rotating shaft whose both ends are located in the bearing, a rectangular connecting member that is fixed to the center of the rotating shaft at one end, and an external touch panel that is attached to the rectangular connecting member. The waste gas recovery and purification mechanism includes a tank body fixed on the ground, a liquid supply port located on the side surface of the upper end of the tank body and connected to the vulcanizing press, and a position on the side surface of the tank body bottom end. And an inlet port connected to the vulcanizing press, an exhaust port positioned at the top end of the tank body and connected to the gas storage tank, a liquid outlet port positioned at the tank body bottom end, and a first flow meter positioned above the liquid outlet port A turbocharge air intake mechanism provided at the opening of the intake port, a multipurpose exchange mechanism provided at the opening of the liquid outlet, and a liquid tray mechanism provided at the upper end of the tank body; The exchange mechanism consists of a male thread located on the outer surface of the outlet, a three-way pipe with a female thread located on the inner surface of one end, and a permeation grade provided on each curved portion of the tubular body located in the three-way pipe Movable baffle plates located at the openings at the other ends of the three-way pipe The turbocharger intake mechanism is located in the turbine cabinet (20) and the turbine cabinet (20) placed sideways and connected to the intake port (12). The turbine drive device (21) has a drive shaft facing upward, and the turbine (22) solidified with the drive shaft of the turbine drive device (21).

  The rectangular connecting member may be connected to a vulcanizing press through a data line.

  The movable baffle plate mechanism is fixed to a rotary motor located at the opening of the tube and having a horizontal rotation end, a baffle cover whose peripheral edge is fixed to the rotation end of the rotation motor, and an opening of the tube. The second flow meter may be used.

  The liquid receiving tray mechanism is fixed on a circular liquid receiving plate whose peripheral side surface is fixed in the tank body, a plurality of circular holes formed uniformly in the circular liquid receiving plate, and a lower surface of the circular liquid receiving plate. It is good also as a machine separation board mechanism provided and each corresponding to a circular hole.

  The mechanical separation plate mechanism includes a pair of micro linear motors fixed on the lower surface of the circular liquid receiving plate and having the expansion / contraction side facing downward, and one end fixed to the two micro linear motor expansion / contraction sides and parallel to each other. The two standing levers, three separation plates fixed on the two standing levers and sequentially arranged from the top to the bottom, and separation holes opened on the separation plates may be used.

  The diameters of the three separation plates may be decreased sequentially from top to bottom.

  The exhaust port may be connected to a gas storage tank through a low pressure pipe.

  The gas storage tank may be connected to a clean natural gas boiler through a pressure pipe in the pressure tank.

  According to the present invention, it has practical and profound significance in terms of energy saving, reduction of carbon dioxide emissions, environmental conservation, etc., and at the same time, it realizes circulation use, and there is no pressure on the return pipe, affecting normal production. Differentiate from similar manufacturers, increase efficiency, and have no wastewater or foaming phenomena in the workplace.

Schematic diagram showing the structure of the sulfide purification device according to the present invention Top view of the sulfide purification device according to the present invention Left side view of the sulfide purification device according to the present invention Left side view of the vulcanizing press of the sulfide purification device according to the present invention Partial enlarged view of the sulfide purification device according to the present invention Enlarged view of the three-way pipe part of the sulfide purification device according to the present invention Enlarged view of the mechanical separation plate mechanism part of the sulfide purification device according to the present invention Enlarged view of the external touch panel of the sulfide purification device according to the present invention

  Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. As shown in FIG. 1 to FIG. 8, the sulfide purifier includes a waste gas recovery and purification mechanism, a gas storage tank 1, a pressure tank 2, a clean natural gas boiler 3, and a smart equivalent vulcanization control system, The waste gas recovery and purification mechanism, gas storage tank 1, pressure tank 2, clean natural gas boiler 3 and smart vulcanization control system are sequentially connected to form a circuit, and the smart vulcanization control system is clean natural gas. It comprises a vulcanizing press 4 connected to the boiler 3 and an external control device fixed on the vulcanizing press 4; the external control device is provided on the outer surface of the vulcanizing press 4. An established groove 5, a bearing 6 fitted on the inner surface facing the groove 5, a rotating shaft 7 having both ends positioned in the bearing 6, and one end fixed to the center of the rotating shaft 7. A rectangular connecting member 8 to be connected, and a rectangular contact The waste gas recovery and purification mechanism is composed of a tank body 10 fixed on the ground, and a vulcanizing press machine located on the side surface of the upper end of the tank body 10. 4, a liquid supply port 11 connected to the tank body 10, an intake port 12 positioned on the side surface of the bottom end of the tank body 10 and connected to the vulcanizing press 4, and an exhaust port positioned at the top end of the tank body 10 and connected to the gas storage tank 1. 13, a liquid outlet 14 located at the bottom end of the tank body 10, a first flow meter 15 located on the liquid outlet 14, a turbocharge intake mechanism provided at the opening of the air inlet 12, and a liquid outlet 14, a multipurpose exchange mechanism provided at the opening of the tank 14, and a liquid tray mechanism provided at the upper end of the tank body 10; the multipurpose exchange mechanism is a male located on the outer surface of the liquid outlet 14. Screw 16 and female screw 17 located on the inner surface of one end It consists of a three-way pipe 18, an osmotic membrane 19 of a different osmotic grade provided at each curved part of the tubular body located in the three-way pipe 18, and a movable baffle plate mechanism located at the openings at the other ends of the three-way pipe 18. The turbocharged intake mechanism includes a turbine cabinet 20 that is connected to the intake port 12 and placed sideways; a turbine drive device 21 that is located in the turbine cabinet 20 and has a drive shaft facing upward; and a drive shaft of the turbine drive device 21; The movable baffle plate mechanism includes a rotary motor 23 positioned at the opening of the tubular body and having a rotating end that is horizontal, and a baffle having a peripheral edge fixed to the rotating end of the rotating motor 23. A cover 24 and a second flow meter 25 fixed at the opening of the tube; the liquid receiving tray mechanism includes a circular liquid receiving plate 26 whose peripheral side surface is fixed within the tank body 10; Round liquid A plurality of circular holes 27 provided uniformly in the receiving plate 26; and a mechanical separating plate mechanism fixed on the lower surface of the circular liquid receiving plate 26 and corresponding to each of the circular holes 27; Is a set of micro linear motors 28 fixed on the lower surface of the circular liquid receiving plate 26 and extending toward the lower side, and one end of the micro linear motor 28 is fixed to the expansion and contraction sides and parallel to each other. Two standing levers 29, three separation plates 30 fixed on the two standing levers 29 and sequentially arranged from the top to the bottom, and separation holes 31 opened on each separation plate 30 The diameter of the three separation plates 30 decreases sequentially from top to bottom; the exhaust port 13 is connected to the gas storage tank 1 through a low-pressure pipe 32; the gas storage tank 1 is located in the pressure tank 2; Clean natural gas boiler through pressure tube 33 And connection; the rectangular connecting member 8 is connected to the vulcanizing press machine 4 through the data line.

  As a feature of this embodiment, a waste gas recovery and purification mechanism, a gas storage tank, a pressure tank, a clean natural gas boiler, and a smart vulcanization control system are sequentially connected to form a circuit, and the smart vulcanization control system Consisting of a vulcanizing press connected to a clean natural gas boiler and an external control device fixed on the vulcanizing press; the external control device was established on the outer surface of the vulcanizing press A concave groove, a bearing fitted on the inner surface facing the concave groove, a rotary shaft whose ends are respectively located in the bearing, a rectangular connecting member whose one end is fixed to the center of the rotary shaft, and a rectangular connection A tank body in which a waste gas recovery and purification mechanism is fixed on the ground, and a liquid supply port connected to the vulcanizing press machine and located on a side surface of the upper end of the tank body. , Side surface of the tank body bottom end And an exhaust port located at the top end of the tank body and connected to the gas storage tank, a liquid outlet located at the bottom end of the tank body, and a first flow rate located above the liquid outlet A meter, a turbo charge intake mechanism provided at the opening of the intake port, a multipurpose exchange mechanism provided at the opening of the liquid outlet, and a liquid tray mechanism provided at the upper end of the tank body; A permeation grade provided on each curved portion of the external thread where the application changing mechanism is located on the outer surface of the outlet, the three-way pipe with the female thread located on the inner surface of one end, and the three-way pipe And a movable baffle plate mechanism located at the openings at the other ends of the three-way pipe. Realistic and profound significance in terms of energy saving, reduction of carbon dioxide emissions, environmental conservation, etc., and at the same time realizes the circulation use, there is no pressure on the return water pipe and does not affect normal production, the same type of production Differentiate from contractors and improve efficiency, and there is no phenomenon such as waste water and foaming in the workplace.

  In this embodiment, the waste gas generated during the production process reaches the vulcanizing press through the pipeline, and the vulcanizing press completes the smart process of adhesive tape vulcanization through an external control device. Is controlled by an external touch panel that is connected to a rectangular connecting member that is solidified to the center of the rotary shaft through a data line, and vulcanization control parameters and calculation software data are input into the external touch panel. Includes thermal performance parameters of adhesives, adhesive adhesive vulcanization characteristics parameters, conveyor specifications / model numbers, vulcanization process parameters, and vulcanization shifts to control the sulfide purification of inspections by receiving and analyzing data The waste gas that has been processed by the vulcanizing press enters the turbine cabinet through the intake port and is driven by the variable speed turbine drive unit. The turbine is rotated to produce the effect of pressurized exhaust, and the pressurized gas enters the waste gas recovery and purification mechanism. After the waste water enters the tank body, it drops onto the liquid tray, and the machine passes through the circular hole on the liquid tray. At the same time, the gas required to separate the liquid enters the tank body from the air inlet on the bottom end surface, and after the pressure of the gas is increased through the turbocharger, the gas reacts more with the waste water, thereby making the separation operation more thorough. The gas generated after the reaction and the residual gas from the reaction are exhausted from the exhaust port above the tank body; in the mechanical separation plate mechanism, the separation operation is performed simultaneously using multiple mechanisms to improve work efficiency and separation and purification. The wastewater that has been discharged is discharged from the liquid outlet at the bottom of the tank body, and at the same time, the flow rate is calculated by the first flow meter above the liquid outlet; In the street By providing osmosis membranes with different osmotic densities, waste water can be secondarily separated, and osmosis membranes that match according to the required type can be provided to separate the required materials; the second provided at both ends of the pipeline The flow meter can measure the flow rate of liquid in the pipe, and is provided with a movable baffle mechanism at the openings at the other ends of the three-way pipe. When necessary, the rotary motor operates normally, and the rotation of the rotary end The baffle plate prevents the opening from interfering with the waste gas recovery and purification mechanism, and waste water and waste gas are connected to the gas storage tank by a low-pressure pipe, water is sucked by a high-temperature pump, and gas is sucked to the pressure pipe by a gas suction pump. Then, it is sent to a clean natural gas boiler, heated and pressurized again via a clean natural gas boiler to generate new high-temperature and high-pressure steam, realizing circulation use, and there is no pressure in the reflux water line, and normal production Has no effect.

  The above-described embodiments are for clarifying the technical contents of the present invention, and the present invention can be appropriately modified with the aid of conventionally known techniques without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 1 Gas storage tank 2 Pressure tank 3 Clean natural gas boiler 4 Vulcanizing press 5 Groove 6 Bearing 7 Rotating shaft 8 Rectangular connection member 9 External touch panel 10 Tank body 11 Supply port 12 Inlet port 13 Exhaust port 14 Outlet Port 15 First flow meter 16 Male screw 17 Female screw 18 Three-way pipe 19 Osmosis membrane 20 Turbine cabinet 21 Turbine driving device 22 Turbine 23 Rotating motor 24 Baffle cover 25 Second flow meter 26 Circular liquid receiving plate 27 Circular hole 28 Micro linear motor 29 Standing lever 30 Separation plate 31 Separation hole 32 Low pressure pipe 33 Pressure pipe

Claims (2)

A waste gas recovery and purification mechanism, a gas storage tank (1), a pressure tank (2), a clean natural gas boiler (3), and a smart equivalent vulcanization control system, the waste gas recovery and purification mechanism, the gas storage tank ( 1) the pressure tank (2), the clean natural gas boiler (3) and the smart vulcanization control system are sequentially connected to form a circuit, and the smart vulcanization control system is connected to the clean natural gas boiler. A vulcanizing press (4) connected to (3), and an external control device fixed on the vulcanizing press (4); the external control device is the vulcanizing press A groove (5) established on the outer surface of the machine (4), a bearing (6) fitted on the inner surface facing the groove (5), and both ends of the bearing (6). A rotating shaft (7) located inside and one end A rectangular connecting member (8) solidified to the center of the rolling shaft (7), and an external touch panel (9) to be attached to the rectangular connecting member (8); A tank body (10) fixed on the ground, a liquid supply port (11) located on the side surface of the upper end of the tank body (10) and connected to the vulcanizing press (4), and the tank body ( 10) An inlet (12) located on the side surface of the bottom end and connected to the vulcanizing press (4), and an exhaust located at the top end of the tank body (10) and connected to the gas storage tank (1) An outlet (13), a liquid outlet (14) located at the bottom end of the tank body (10), a first flow meter (15) located on the liquid outlet (14), and the inlet (12) A turbocharged intake mechanism provided at the opening of the outlet and an opening of the liquid outlet (14) It consists of a use exchange mechanism and a liquid tray mechanism provided at the upper end in the tank body (10); the multi-use exchange mechanism is a male screw (16) located on the outer surface of the liquid outlet (14) ), A three-way pipe (18) with an internal thread (17) located on the inner surface of one end, and osmotic membranes of different osmotic grades provided in the respective curved portions of the tubular body located in the three-way pipe (18) 19) and a movable baffle plate mechanism located at the openings at the other ends of the three-way pipe (18),
The turbocharge intake mechanism includes a turbine cabinet (20) that is connected to the intake port (12) and is placed on the side, a turbine drive device (21) that is located in the turbine cabinet (20) and has a drive shaft facing upward, An intake mechanism for a sulfide purifying apparatus, comprising: a turbine (22) consolidated with a drive shaft of the turbine drive apparatus (21). The intake mechanism for a sulfide purification device according to claim 1, wherein the rectangular connecting member (8) is connected to the vulcanizing press (4) through a data line.

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