CN116474672B - Scale remover for steering acid system and preparation method thereof - Google Patents

Abstract

The invention discloses a preparation method of a scale remover for a steering acid system, which comprises the following steps: the base is stably placed on the ground of a to-be-cleaned area, sufficient amount of dirt of a variety to be cleaned is added into the storage barrel, the discharging electromagnetic valve is communicated with the external detergent storage device, and double detection can be performed on the prepared liquid, so that on one hand, the prepared liquid can be accurately monitored in real time in the preparation process of the steering acid detergent, the regulation and control convenience in the preparation process of the prepared liquid is greatly improved, the scrapping probability of the prepared liquid caused by untimely regulation and control is greatly reduced, the qualification rate of the extracted detergent is improved in a crossing mode while the phase change is protected and raw materials are saved, the quality of the detergent finally flowing into the market is greatly improved, the reliability of the detergent is greatly improved, and on the other hand, the preparation time of the detergent is accurately controlled, the preparation efficiency and quality of the detergent are greatly improved, and the convenience in detection work is greatly improved.

Description

Scale remover for steering acid system and preparation method thereof

Technical Field

The invention relates to the technical field of scale remover, in particular to a preparation method of a scale remover for a steering acid system.

Background

The steering acid system reacts with the rock matrix, the viscosity of the treatment fluid is increased, thus preventing the acid system from further acting on the stratum, and the residual unreacted VDA is transferred to an untreated low-permeability area, so that the application field of the scale remover is wider along with the development and maturity of the scale remover process, and the scale remover with the steering acid system characteristic is required to clean the dirt according to the market requirement.

However, in the preparation process of the scale remover of the steering acid system in the current market, parameters of scale remover preparation solutions with different depths cannot be detected in time, on one hand, the scale remover preparation work is difficult to adjust in time, the preparation solution is extremely easy to discard, raw materials are wasted, the quality of the preparation solution is low, the qualification rate is extremely low, the scale remover quality parameters in the market are uneven, on the other hand, the scale remover preparation time can be controlled only through experience, on the one hand, defective products are extremely easy to appear due to insufficient processing time, on the other hand, the processing time is extremely long, and the preparation efficiency is low.

Disclosure of Invention

The invention provides a preparation method of a scale remover of a steering acid system, which can effectively solve the problems that in the preparation process of the scale remover of the steering acid system in the market, parameters of scale remover preparation solutions with different depths cannot be detected in time, on one hand, the scale remover preparation work is difficult to adjust in time, the scale remover preparation work is extremely easy to cause scrapping of the preparation solution, raw materials are wasted, the quality of the preparation solution is low, the qualification rate is extremely low, the scale remover quality parameters in the market are uneven, on the other hand, the scale remover preparation time can only be controlled through experience, on the one hand, defective products are extremely easy to appear due to insufficient processing time, and on the other hand, the processing time is extremely long, so that the preparation efficiency is low.

In order to achieve the above purpose, the present invention provides the following technical solutions: the preparation method of the scale remover for the steering acid system comprises the following steps:

s1, stably placing a base on the ground of a region to be worked, adding enough dirt of a variety to be cleaned into a storage barrel, communicating a pollution discharge electromagnetic valve with an external waste liquid storage mechanism, and communicating the pollution discharge electromagnetic valve with an external detergent storage device;

s2, adding a proper amount of dirt of a variety to be treated into the test box, adjusting the resistance value of the adjustable rheostat, changing the rotating speed of the guide fan, enabling the touch switch to be abutted against the touch control piece, adding a scale remover of a standard steering acid system into the test box, and adjusting the resistance value of the adjustable rheostat after a period of one minute to enable the touch switch to be just separated from the touch control piece;

s3, opening a flushing electromagnetic valve and a pollution discharge electromagnetic valve, introducing twenty seconds of clear water into the inspection box, changing the original compression amount of the limiting spring, enabling the bottom end of the hollow bearing seat to be just separated from the touch switch, and sequentially adjusting the heights of all the guide heads to finish correction and adjustment of the quality inspection mechanism;

s4, controlling the number of the current limiting springs which are actually applied with force in each current limiting box, enabling the ratio of the number of the current limiting springs which are actually applied with force in each current limiting box to be equal to the ratio of the contents of each raw material in the detergent, sequentially adding corresponding liquid raw materials or solid raw material solutions into each liquid storage barrel and the liquid adding pipe, and screwing up a sealing cap to block the opening of the liquid adding pipe after the siphon pipe is filled with liquid;

s5, adjusting the height of each flow limiting box to enable the positioning piston to just generate displacement, and completing the adjustment work of the feeding mechanism;

s6, opening a feeding electromagnetic valve, adding raw materials into the preparation tank through a feeding mechanism, performing preparation work of the detergent in the preparation tank, powering on a time relay after performing preparation work for a period of time, performing timing sampling detection on the preparation process of the detergent in the preparation tank through a quality inspection mechanism, automatically controlling a discharging electromagnetic valve to be opened by the quality inspection mechanism after the quality of the detergent in the preparation tank is qualified, completing preparation of the detergent, and then adding raw materials into the preparation tank again through the feeding mechanism, and performing new preparation work.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use;

1. the quality inspection mechanism is arranged, the speed of the prepared liquid can be detected in the preparation process of the scale remover by matching the energy storage pipe, the flushing electromagnetic valve, the pollution discharge electromagnetic valve, the hollow bearing seat, the support plate, the touch switch and the limit spring, the viscosity of the prepared liquid can be detected by matching the rotating rod, the stress rod, the guide fan, the flow blocking piston, the touch switch, the force spring and the touch control piece, and further double detection is realized, on one hand, the prepared liquid can be accurately monitored in real time in the preparation process of the steering acid scale remover, the regulation convenience in the preparation process of the prepared liquid is greatly improved, the rejection probability of the prepared liquid caused by untimely regulation is greatly reduced, the qualification rate of the prepared scale remover is improved in a crossing manner while the raw materials are saved, the quality of the scale remover finally flowing into the market is greatly improved, the reliability of the scale remover is greatly improved, and on the other hand, the preparation time of the scale remover can be accurately controlled, and the preparation efficiency and quality of the scale remover are greatly improved;

through converting seat, the magnetic flux box, power spare, driving piece, adjustable varistor, check valve and blast pipe cooperate, when providing the drive force for the bull stick, change viscosity expression form into the air current pressure size, very big improvement viscosity detection's convenience, effectively improved accuracy and timeliness of viscosity detection work, cooperate through liquid guide support, water conservancy diversion head and appearance liquid pipe, can detect the preparation liquid of different degree of depth, cooperate through synchronous fluted disc, accommodate the lead screw and ring gear, can make the detergent standard of each check point unanimous, very big improvement the homogeneity of preparation liquid, further improved the quality of detergent, through time relay, the discharge solenoid valve, the feeding solenoid valve, the sampling solenoid valve, the inspection box, spacing seat, electric putter and striker plate cooperate, very big improvement the time accuracy and the job stabilization nature of detection work, make the detergent preparation in-process more stable high-efficient, cooperate through storage vat and guide hopper, very big improvement the convenience of detection work.

2. The automatic descaling device is provided with the feeding mechanism, and the feeding mechanism is matched with the feeding mechanism through the flow limiting box, the stress support, the limiting guide ring, the pressure bearing support, the supporting ring, the limiting groove, the yielding through groove, the limiting telescopic rod, the flow limiting spring, the pressure bearing block and the feeding pipe, so that the feeding rate of each raw material can be greatly improved, the duty ratio precision of each raw material feeding amount is greatly improved, each raw material can enter the preparation tank in a fixed proportion more accurately, the preparation quality of the descaling agent is further greatly improved, the utilization rate of the raw materials is improved, the convenience of raw material feeding work is effectively improved, the height adjustment precision and convenience of the flow limiting box are greatly improved, the gravitational potential energy carried during raw material feeding is greatly improved, the machining efficiency of the descaling agent is greatly improved, and the safety in the machining process of the descaling agent is also effectively improved;

through supporting seat, telescopic strut, screw rod, increase screw rod and spacing support cooperate, can provide stable holding power, and very big improvement the convenience of current-limiting box altitude mixture control, cooperate through tooth's socket, bull stick and position-adjusting pinion rack, effectively improved the convenience of the quantity of current-limiting spring of regulation and control application of force, further improved the detergent preparation efficiency, cooperate through the interlock pole, the positioning piston, magnet piece and electromagnet, on the one hand can improve the reliability of current-limiting work, on the other hand can improve the duration stability of current-limiting work, cooperate through spacing box, touch switch, the slide bar, hollow floating plate and touching head, can inject the liquid level in the preparation jar, on the one hand accurate control single scale remover's volume, make scale remover preparation efficiency and quality further improve, on the other hand can accurately control the time node of feeding work, very big improvement the reliability of feeding work, cooperate through stock solution bucket, siphon and current-limiting box, available effect automatic siphon liquid supplementing, the interference to raw materials potential energy is effectively reduced, the ratio precision when each input is greatly improved.

In summary, through quality inspection mechanism, can carry out the dual timing cycle detection of scale removal efficiency and viscosity to the preparation liquid of different degree of depth positions in the turning to sour scale remover preparation process, when improving regulation and control convenience and flexibility in the scale remover preparation process, effectively improved the equilibrium of each position preparation liquid, very big improvement scale remover preparation quality and efficiency, the raw materials waste has been reduced, can be in the raw materials interpolation process through feeding mechanism, each raw materials ratio of accurate control, the effective utilization ratio of raw materials is effectively improved, when making the more stable going on of scale remover preparation work, effectively improved the interpolation convenience and the efficiency of raw materials, very big improvement scale remover preparation efficiency.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a flow chart of the steps of the preparation method of the present invention;

FIG. 2 is a schematic structural view of the production tank of the present invention;

FIG. 3 is a schematic diagram of a quality inspection mechanism according to the present invention;

FIG. 4 is a schematic diagram of a switch seat according to the present invention;

FIG. 5 is a schematic illustration of the structure of the turning lever of the present invention;

FIG. 6 is a schematic view of the feeding mechanism of the present invention;

FIG. 7 is a partial exploded view of the feed mechanism of the present invention;

FIG. 8 is a schematic view of a stop box according to the present invention;

reference numerals in the drawings: 1. a base; 101. preparing a tank;

2. a quality inspection mechanism; 201. a storage barrel; 202. a guide hopper; 203. a test cassette; 204. a limit seat; 205. an electric push rod; 206. a striker plate; 207. flushing the electromagnetic valve; 208. a hollow bearing seat; 209. a support plate; 210. synchronous fluted disc; 211. adjusting a screw rod; 212. a touch switch; 213. a limit spring; 214. a sampling electromagnetic valve; 215. a liquid guide support; 216. a limiting cylinder; 217. a flow guiding head; 218. a sample liquid conduit; 219. a gear ring; 220. an energy storage tube; 221. a blowdown solenoid valve; 222. a conversion seat; 223. a magnetic flux box; 224. a power member; 225. an adjustable rheostat; 226. an air inlet one-way valve; 227. a rotating rod; 228. a stress rod; 229. a driving member; 230. a guide fan; 231. a choke piston; 232. a touch switch; 233. a force spring; 234. a touch control; 235. an exhaust pipe; 236. a time relay; 237. a discharging electromagnetic valve; 238. a charging electromagnetic valve;

3. a feeding mechanism; 301. a support base; 302. a telescopic strut; 303. a thread cylinder; 304. height-adjusting screw rods; 305. a limit support; 306. a liquid storage barrel; 307. a flow-limiting box; 308. a stress support; 309. limiting guide rings; 310. a pressure bearing support; 311. a support ring; 312. a limit groove; 313. a yielding through groove; 314. a limiting telescopic rod; 315. a flow limiting spring; 316. a pressure block; 317. tooth slots; 318. a rotating lever; 319. a positioning toothed plate; 320. a linkage rod; 321. positioning a piston; 322. a magnet piece; 323. an electromagnet; 324. a siphon tube; 325. a feed pipe; 326. a limit box; 327. a touch switch; 328. a slide bar; 329. a hollow floating plate; 330. a touch head.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: as shown in fig. 1, the invention provides a technical scheme, a preparation method of a scale remover for a steering acid system, which comprises the following steps:

s1, stably placing a base 1 on the ground of a region to be worked, adding enough dirt of a variety to be cleaned into a storage barrel 201, communicating a sewage discharge electromagnetic valve 221 with an external waste liquid storage mechanism, and communicating a discharge electromagnetic valve 237 with an external detergent storage device;

s2, adding a proper amount of dirt of a variety to be treated into the test box 203, adjusting the resistance value of the adjustable rheostat 225, changing the rotating speed of the guide fan 230, enabling the touch switch 232 to be abutted against the touch piece 234, adding a standard steering acid system scale remover into the test box 203, and adjusting the resistance value of the adjustable rheostat 225 after a period of one minute to enable the touch switch 232 to be just separated from the touch piece 234;

s3, opening the flushing electromagnetic valve 207 and the blowdown electromagnetic valve 221, introducing twenty seconds of clear water into the inspection box 203, changing the original compression amount of the limiting spring 213, enabling the bottom end of the hollow bearing seat 208 to be just separated from the touch switch 212, and sequentially adjusting the heights of the guide heads 217 to finish correction and adjustment of the quality inspection mechanism 2;

s4, controlling the number of the current limiting springs 315 actually applied in each current limiting box 307, enabling the ratio of the number of the current limiting springs 315 actually applied in each current limiting box 307 to be equal to the ratio of the contents of each raw material in the detergent, sequentially adding corresponding liquid raw materials or solid raw material solutions into each liquid storage barrel 306 and the liquid adding pipe, screwing up a sealing cap after the siphon 324 is filled with liquid, and blocking the opening of the liquid adding pipe;

s5, adjusting the height of each flow limiting box 307 to enable the positioning piston 321 to just generate displacement, and completing the adjustment work of the feeding mechanism 3;

s6, opening a feeding electromagnetic valve 238, adding raw materials into the preparation tank 101 through a feeding mechanism 3, performing preparation work of the detergent in the preparation tank 101, powering on a time relay 236 after performing preparation work for a period of time, performing timing sampling detection on the preparation process of the detergent in the preparation tank 101 through a quality inspection mechanism 2, automatically controlling a discharging electromagnetic valve 237 to be opened by the quality inspection mechanism 2 after the quality of the detergent in the preparation tank 101 is qualified, completing preparation of the detergent, and then adding raw materials into the preparation tank 101 again through the feeding mechanism 3, and performing new preparation work.

As shown in fig. 2-8, a preparation tank 101 is arranged in the middle of the top end of the base 1, and a quality inspection mechanism 2 is arranged outside the preparation tank 101;

the quality inspection mechanism 2 comprises a storage bucket 201, a guide bucket 202, an inspection box 203, a limit seat 204, an electric push rod 205, a baffle 206, a flushing electromagnetic valve 207, a hollow bearing seat 208, a support plate 209, a synchronous fluted disc 210, an adjusting screw 211, a touch switch 212, a limit spring 213, a sampling electromagnetic valve 214, a liquid guide support 215, a limit cylinder 216, a guide head 217, a liquid guide pipe 218, a gear ring 219, an energy storage pipe 220, a blowdown electromagnetic valve 221, a conversion seat 222, a magnetic flux box 223, a power piece 224, an adjustable rheostat 225, an air inlet one-way valve 226, a rotary rod 227, a stress rod 228, a driving piece 229, a guide fan 230, a flow blocking piston 231, a touch switch 232, a force application spring 233, a touch control 234, an exhaust pipe 235, a time relay 236, a discharge electromagnetic valve 237 and a charging electromagnetic valve 238;

a plurality of storage tanks 201 are arranged on the outer side of the preparation tank 101 along the circumferential direction at equal angles, a test box 203 is arranged at the bottom end of each storage tank 201, a limiting seat 204 is arranged in the middle of the bottom end of each test box 203, an electric push rod 205 is arranged on one side of each guide hopper 202, a striker plate 206 is embedded in the middle of the side end surface of each guide hopper 202 in a sliding manner, a flushing electromagnetic valve 207 is arranged on the side end surface of each test box 203, an energy storage pipe 220 is clamped at the end part of each flushing electromagnetic valve 207, and a pollution discharge electromagnetic valve 221 is arranged on the end surface of the other side of each test box 203;

the middle part of the top end of the limiting seat 204 is embedded into a hollow bearing seat 208 in a sliding manner, an adjusting screw rod 211 is rotatably arranged in the middle of the bottom end of the limiting seat 204, a synchronous fluted disc 210 is arranged at the bottom end of the adjusting screw rod 211, a support plate 209 is arranged on the outer side of the adjusting screw rod 211 through threads, a touch switch 212 is arranged on the top end of the adjusting screw rod 211, a limited amount of springs 213 are sleeved on the outer side of the adjusting screw rod 211 at positions between the hollow bearing seat 208 and the support plate 209, and a gear ring 219 is rotatably arranged at the position of the edge part of the top end of the base 1 corresponding to the synchronous fluted disc 210;

the bottom of the side end face of the preparation tank 101 is embedded and provided with a sampling electromagnetic valve 214 corresponding to the position of the inspection box 203, the bottom of the inner wall of the preparation tank 101 is embedded and provided with a liquid guide support 215, the top end of the liquid guide support 215 is provided with a plurality of limiting cylinders 216 in a rotating way at equal angles along the circumferential direction, the inside of each limiting cylinder 216 is provided with a guide head 217 through threads, the middle part of the bottom end of each guide head 217 is provided with a sample liquid guide pipe 218, the inside of each liquid guide support 215 is provided with a plurality of guide cavities, the guide cavities are in one-to-one correspondence with the sample liquid guide pipes 218, the bottoms of the outer curved surfaces of the guide heads 217 are provided with a plurality of liquid inlets at equal angles along the circumferential direction, the outer curved surfaces of the limiting cylinders 216 are symmetrically provided with communication grooves, the lengths of the communication grooves are equal to the height of the inner cavity of the preparation tank 101, the guide heads 217 are connected with the guide cavities through the sample liquid guide pipes 218, the guide cavities are connected with the inspection box 203 through the sampling electromagnetic valve 214, and the inner side end face of the inspection box 203 is embedded and provided with filter plates corresponding to the position of the drain electromagnetic valve 221 so as to detect the prepared liquid with different depths;

the middle part of the side end face of the inspection box 203 is provided with a conversion seat 222, the outer curved surface of the conversion seat 222 is provided with a plurality of magnetic flux boxes 223 along the circumferential direction at equal angles, a power piece 224 is arranged in each magnetic flux box 223, the top end of one magnetic flux box 223 is provided with an adjustable rheostat 225, the position of the outer curved surface of the conversion seat 222, which is positioned at one side of the magnetic flux box 223, is provided with an air inlet one-way valve 226, and the middle part of the side end face of the conversion seat 222 is provided with an exhaust pipe 235;

the middle part of the side end face of the conversion seat 222 is rotatably provided with a rotating rod 227, the end part of the rotating rod 227 is provided with a stress rod 228 corresponding to the position of the inspection box 203, the outer curved surface of the rotating rod 227 is provided with a driving part 229 corresponding to the position of the power part 224, the power part 224 comprises an iron core and windings, all the windings are sequentially connected in series, the winding directions of all the windings are the same, the input end of the windings is electrically connected with the output end of the adjustable rheostat 225, the driving part 229 comprises a hollow supporting block and a magnet block, the middle part of the inclined surface of the hollow supporting block is embedded with the magnet block so as to provide stable driving force, the other end part of the rotating rod 227 is provided with a flow guide fan 230, a flow blocking piston 231 is slidably arranged at the position of one side of the flow guide fan 230 in the conversion seat 222, the middle part of the side end face of the flow blocking piston 231 is provided with a touch switch 232, the flow blocking piston 231 is provided with a force application spring 233 at the side of the side end face, the conversion seat 222 is made of transparent materials, the conversion seat 222 comprises an air inlet part, a power part, an air guide part, a flow limiting part and an air exhaust part, the air inlet one-way valve 226 is positioned at the outer side of the air inlet part, a filter box is arranged at the end part of the air inlet one-way valve 226, the driving part 229 is positioned in the power part, a yielding hole is formed in the position, corresponding to the power part 224, of the inner wall of the power part, the flow guiding fan 230 is positioned in the air guide part, the flow blocking piston 231 is positioned in the flow limiting part, the flow blocking piston 231 is matched with the flow limiting part, the force application spring 233 is positioned in the air exhaust part, the touch control 234 comprises an air permeable plate and a touch rod, the force bar 228 is positioned in the test box 203 so as to improve the convenience of viscosity detection, and the touch control 234 is arranged at the position, corresponding to the force application spring 233, of the inner end face of the conversion seat 222;

a plurality of time relays 236 are uniformly arranged on the side end face of the storage barrel 201 at equal intervals, a discharging electromagnetic valve 237 is arranged in the middle of the side end face of the base 1, three time relays 236 are provided, the model of each time relay 236 is JSS48A-S, and each time relay 236 comprises a total relay, a viscosity detection relay and a speed detection relay;

the input end of the speed detection relay is electrically connected with the output end of the viscosity detection relay, the input ends of the viscosity detection relay and the sampling electromagnetic valve 214 are electrically connected with the output end of the main relay, the input ends of the flushing electromagnetic valve 207 and the pollution discharge electromagnetic valve 221 are electrically connected with the output end of the viscosity detection relay, and the input end of the electric push rod 205 is electrically connected with the output end of the speed detection relay;

a feeding hopper is arranged at the top of the side end surface of the storage barrel 201, an indicator lamp is arranged in the middle of the side end surface of the storage barrel 201, the input ends of the indicator lamp, a discharging electromagnetic valve 237 and a charging electromagnetic valve 238 are electrically connected with the output end of the touch switch 212, the input end of the touch switch 212 is electrically connected with the output end of the touch switch 232, the input ends of the touch switch 232 and a total relay are electrically connected with the output end of an external power supply so as to accurately control the time node of detection work, and a plurality of charging electromagnetic valves 238 are arranged at the edge of the top end of the preparation tank 101 along the circumferential direction at equal angles;

the feeding mechanism 3 is arranged on the outer side of the base 1, and the feeding mechanism 3 comprises a supporting seat 301, a telescopic support rod 302, a threaded cylinder 303, a heightening screw 304, a limiting support 305, a liquid storage barrel 306, a limiting box 307, a stress support 308, a limiting guide ring 309, a pressure-bearing support 310, a supporting ring 311, a limiting groove 312, a yielding through groove 313, a limiting telescopic rod 314, a limiting spring 315, a bearing block 316, a tooth socket 317, a rotating rod 318, a positioning toothed plate 319, a linkage rod 320, a positioning piston 321, a magnet piece 322, an electromagnet 323, a siphon 324, a feeding pipe 325, a limiting box 326, a touch switch 327, a sliding rod 328, a hollow floating plate 329 and a touch head 330;

a plurality of supporting seats 301 are arranged on the outer side of the base 1 along the circumferential direction at equal angles, a plurality of telescopic struts 302 are arranged on the top edge of the supporting seats 301 along the circumferential direction at equal angles, a threaded cylinder 303 is rotatably arranged in the middle of the top end of the supporting seats 301, a height-adjusting screw rod 304 is arranged in the threaded cylinder 303 through threaded embedding, a limit support 305 is arranged on the top end of the threaded cylinder 303, a liquid storage barrel 306 is arranged on the top end of the limit support 305, a current-limiting box 307 is arranged on the top edge of the limit support 305, a siphon 324 is arranged in the middle of the top end of the liquid storage barrel 306 in an embedded manner, a liquid adding pipe is arranged in the middle of the outer curved surface of the siphon 324, a sealing cap is arranged on the outer side of the liquid adding pipe through threads, so that automatic liquid supplementing is carried out by utilizing a siphon effect, the liquid storage barrel 306 is connected with the current-limiting box 307 through the siphon 324, a conveying pipe 325 is arranged at the bottom of the outer curved surface of the current-limiting box 307, and the current-limiting box 307 is connected with a feeding electromagnetic valve 238 through the conveying pipe 325;

a force bearing 308 is slidably arranged in the flow limiting box 307, and a limit guide ring 309 is arranged on the inner wall of the flow limiting box 307 at the top of the force bearing 308. A pressure-bearing support 310 is rotatably arranged in the flow-limiting box 307 at the bottom of the pressure-bearing support 308, a supporting ring 311 is arranged in the flow-limiting box 307 at the bottom of the pressure-bearing support 310, a limit groove 312 is formed in one side of the top edge of the pressure-bearing support 310, and a yielding through groove 313 is formed in the other side of the top edge of the pressure-bearing support 310;

a plurality of limit telescopic rods 314 are arranged at the bottom end edge of the stress support 308 at equal angles along the circumferential direction, a current limiting spring 315 is sleeved outside the limit telescopic rods 314, a bearing block 316 is arranged at the end part of the limit telescopic rods 314, tooth sockets 317 are arranged at the bottom end edge of the bearing support 310, a rotating rod 318 is embedded and rotatably arranged at the position, which is positioned at the bottom of the bearing support 310, of the outer curved surface of the current limiting box 307, a positioning toothed plate 319 is arranged at the end part of the rotating rod 318, a linkage rod 320 is arranged at the middle part of the bottom end of the stress support 308, a positioning piston 321 is arranged at the end part of the linkage rod 320, the current limiting box 307 is made of transparent materials, the current limiting box 307 sequentially comprises a weighing part, a current blocking part and a conducting part from top to bottom, the telescopic length of the limit telescopic rods 314 is X, the length of the current blocking part and the conducting part is Y, the distance between the current blocking part of the limit guide ring 309 is Z, the length of the linkage rod 320 is M, the thickness of the positioning piston 321 is equal to N, the X and Y, the sum of Z and X is smaller than Y, so that quantitative feeding is realized, a magnet piece 322 is embedded and arranged at the middle part of the bottom end of the positioning piston 321, and an electromagnet 323 is embedded and mounted at the middle part of the bottom end of the current limiting box 307;

the middle part of the top end of the preparation tank 101 is provided with a limit box 326 through threaded embedding, the middle part of the top end of the limit box 326 is provided with a touch switch 327, the limit groove 312 and the yielding through groove 313 are all semicircular, the edge part of the top end of the stress support 308 is provided with a plurality of leakage holes along the circumferential direction at equal angles, the positioning toothed plate 319 is matched with the tooth grooves 317, the circumference of the positioning toothed plate 319 is equal to the interval between two adjacent limit telescopic rods 314, the touch switch 327 is a dormant switch of a charging electromagnetic valve 238 and an electromagnet 323 control switch, the input ends of the charging electromagnetic valve 238 and the electromagnet 323 are electrically connected with the output ends of the touch switch 327, the input end of the touch switch 327 is electrically connected with the output end of an external power supply so as to improve the convenient stability of feeding work, the middle part of the bottom end of the limit box 326 is embedded with a sliding rod 328, the bottom end of the sliding rod 328 is provided with a hollow floating plate 329, and the top end of the sliding rod 328 is provided with a contact 330.

The scale remover formula of the steering acid system comprises the following components:

a viscoelastic surfactant, a composite acid solution, water and a fragrance agent;

wherein each content is 5% of viscoelastic surfactant, 10% of composite acid liquid, 82% of water and 3% of fragrance agent.

The working principle and the using flow of the invention are as follows: when the scale remover for the steering acid system is prepared, firstly, the base 1 and the supporting seat 301 are stably placed on the ground of a region to be worked, sufficient amount of scale of a variety to be cleaned is added into the storage barrel 201, then the pollution discharge electromagnetic valve 221 is communicated with an external waste liquid storage mechanism through a pipeline, and the discharge electromagnetic valve 237 is communicated with an external scale remover storage device through a pipeline;

then adding a proper amount of dirt of a to-be-treated variety into the inspection box 203 through the storage barrel 201, enabling the bottom end of the hollow bearing seat 208 to press against the touch switch 212, adjusting the resistance of the adjustable rheostat 225, adjusting the magnetic field generated by the winding, changing the rotating speed of the guide fan 230, enabling the touch switch 232 to abut against the touch piece 234, then adding a standard steering acid system scale remover into the inspection box 203 through the energy storage pipe 220, and after one minute, adjusting the resistance of the adjustable rheostat 225 again to enable the touch switch 232 to be just separated from the touch piece 234;

then connecting the energy storage pipe 220 with an external water conveying pipeline, simultaneously opening a flushing electromagnetic valve 207 and a sewage draining electromagnetic valve 221, introducing twenty seconds of clear water into the inspection box 203, then rotating a gear ring 219 to drive all synchronous fluted discs 210 to synchronously rotate, enabling an adjusting screw 211 to drive a support plate 209 to displace, changing the original compression amount of a limiting spring 213, enabling the bottom end of a hollow bearing seat 208 to be just separated from a touch switch 212, sequentially rotating a limiting cylinder 216, adjusting the height of each guide head 217, enabling each guide head 217 to be at different heights, and completing correction and adjustment of a quality inspection mechanism 2;

then sequentially rotating the rotating rod 318, driving the pressure-bearing support 310 to rotate through the positioning toothed plate 319 and the tooth grooves 317, changing the number of pressure-bearing blocks 316 abutting against the bottom of the limiting groove 312, controlling the number of the limiting springs 315 actually applied in each limiting box 307 to ensure that the ratio of the number of the limiting springs 315 actually applied in each limiting box 307 is equal to the ratio of the contents of each raw material in the detergent, sequentially adding corresponding liquid raw materials or solid raw material solution into each liquid storage barrel 306 and the liquid adding pipe, and screwing the sealing cap after the siphon 324 is filled with liquid, so as to block the opening of the liquid adding pipe;

then the threaded cylinder 303 is rotated to drive the height-adjusting screw 304 to stretch out and draw back, the height of the flow-limiting box 307 is adjusted, so that the positioning piston 321 just can generate displacement, and the adjustment work of the feeding mechanism 3 is completed;

then a charging electromagnetic valve 238 is opened, raw materials are added into the preparation tank 101 through a feeding mechanism 3, the preparation of the detergent is carried out in the preparation tank 101, after a period of preparation is carried out, a time relay 236 is electrified, the timing sampling detection is carried out on the preparation process of the detergent in the preparation tank 101 through a quality inspection mechanism 2, after the quality of the detergent in the preparation tank 101 is qualified, a quality inspection mechanism 2 automatically controls a discharging electromagnetic valve 237 to be opened, the preparation of the detergent is completed, and then the raw materials are added into the preparation tank 101 again through the feeding mechanism 3, so that a new round of preparation is carried out;

in the process of adding raw materials into the preparation tank 101 by the feeding mechanism 3, the raw materials firstly enter the flow-limiting box 307 through the siphon pipe 324, and in the process of adding the raw materials, under the siphon effect, the raw materials continuously flow into the flow-limiting box 307, after entering the flow-limiting box 307, the raw materials squeeze the positioning piston 321, after the gravity of the raw materials can overcome the elasticity of the flow-limiting spring 315 which is applied by the actual force, the positioning piston 321 is pushed to enter the conducting part from the flow-blocking part, and then the raw materials enter the preparation tank 101 through the feeding electromagnetic valve 238 by the feeding pipe 325;

as each raw material enters the preparation tank 101, the liquid level in the preparation tank 101 gradually rises, and finally under the action of buoyancy, the raw material mixed liquid in the preparation tank 101 pushes the hollow floating plate 329 to rise, the hollow floating plate 329 drives the sliding rod 328 to rise, the sliding rod 328 drives the touch head 330 to rise, the touch head 330 is forced to press the touch switch 327, the touch switch 327 controls the charging electromagnetic valve 238 to be closed, the electromagnet 323 is electrified, the electromagnet 323 can give repulsive force to the magnet piece 322, and the positioning piston 321 is pushed to enter the flow blocking part from the conducting part, so that the charging operation is finished;

after the time relay 236 is electrified, the total relay controls the sampling electromagnetic valve 214 to be opened for ten seconds every ten minutes, after the sampling electromagnetic valve 214 is opened, the prepared liquid in the preparation tank 101 enters the sample liquid conduit 218 through the flow guide head 217 and then enters the inspection box 203 through the sample electromagnetic valve 214 through the liquid guide support 215, and the ten minutes and the ten seconds can be adjusted according to actual conditions so as to consider the preparation efficiency and the quality;

after the preparation liquid enters the inspection box 203, the preparation liquid reacts with dirt in the inspection box 203, meanwhile, current flows through the winding, so that the power piece 224 can generate a directional magnetic field, the magnetic field can give a repulsive force to the magnet block in real time, the driving piece 229 can be forced to drive the rotating rod 227 to rotate, if the preparation liquid meets the standard, as the reaction progresses, when the pH value reaches 2.0-4.0, the viscosity of the acid liquid is rapidly increased and high-viscosity gel is formed, the resistance of the stress rod 228 is increased, the rotating speed of the rotating rod 227 can be further reduced, or the rotating rod 227 is stopped to rotate, at the moment, the flow guiding fan 230 lacks enough kinetic energy to drive the air flow to jack the flow blocking piston 231, under the elastic force of the force application spring 233, the flow blocking piston 231 can enter the flow limiting part from the air exhausting part, and the touch switch 232 can be separated from the touch control piece 234;

the viscosity detection relay controls the flushing solenoid valve 207 and the blowdown solenoid valve 221 to be simultaneously opened for twenty seconds after the preparation liquid enters the inspection box 203 for one minute, the time can be adjusted according to the actual situation, one minute is the reaction time of the standard descaling agent, twenty seconds is the clean water flushing time after the reaction of the standard descaling agent, after the flushing solenoid valve 207 and the blowdown solenoid valve 221 are opened, the external water delivery pipeline sends clean water into the energy storage pipe 220, the clean water enters the inspection box 203 through the flushing solenoid valve 207 after being stored by the energy storage pipe 220, and flows into the external waste liquid storage mechanism through the blowdown solenoid valve 221 to clean the interior of the inspection box 203, after filtering by the filter plate, water flow takes away the reacted preparation liquid and the dirt mixed liquid, unreacted dirt can stagnate in the inspection box 203, if the preparation liquid is qualified, the dirt in the inspection box 203 can be cleaned sufficiently, at the moment, the residual dirt gravity at the top of the hollow bearing seat 208 is insufficient to offset the elasticity of the limiting spring 213, and the hollow bearing seat 208 can be separated from the touch switch 212;

after the flushing electromagnetic valve 207 and the blowdown electromagnetic valve 221 are closed for ten seconds, the speed detection relay controls the electric push rod 205 to start, the electric push rod 205 drives the striker plate 206 to move, dirt in the storage barrel 201 enters the inspection box 203, the hollow bearing seat 208 is pressed and sunk, after the hollow bearing seat 208 is abutted with the touch switch 212, the touch switch 212 controls the electric push rod 205 to reset, so that the dirt in the inspection box 203 is replenished, and quality monitoring and detection of the prepared liquid are sequentially and circularly carried out;

in the above process, since the height of the diversion head 217 is different, the quality inspection mechanism 2 can detect the liquid preparation at different depth positions inside the preparation tank 101, if some of the touch switches 212 and 232 are pressed, the corresponding indicator lamps will be turned on, which indicates that the liquid preparation quality at the corresponding depth inside the preparation tank 101 is unqualified, and the liquid preparation inside the preparation tank 101 needs to be further mixed, if all the indicator lamps are turned on, the time is insufficient, and the processing needs to be continued, and when all the touch switches 212 and 232 are not pressed, the liquid preparation quality at all positions inside the preparation tank 101 is qualified, at this time, the touch switches 212 and 232 control the discharge solenoid valve 237 to be opened for discharging, so as to complete the preparation work of the round.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A preparation method of a scale remover for a steering acid system is characterized by comprising the following steps of: the method comprises the following steps:

s1, stably placing a base (1) on the ground of a region to be worked, adding enough dirt of a variety to be cleaned into a storage barrel (201), communicating a pollution discharge electromagnetic valve (221) with an external waste liquid storage mechanism, and communicating a discharge electromagnetic valve (237) with an external detergent storage device;

s2, adding a proper amount of dirt of a variety to be treated into the test box (203), adjusting the resistance value of the adjustable rheostat (225), changing the rotating speed of the guide fan (230), enabling the touch switch (232) to be abutted against the touch control piece (234), adding a standard scale remover of a steering acid system into the test box (203), and after one minute of interval, adjusting the resistance value of the adjustable rheostat (225) to enable the touch switch (232) to be just separated from the touch control piece (234);

s3, opening a flushing electromagnetic valve (207) and a pollution discharge electromagnetic valve (221), introducing twenty seconds of clear water into the inspection box (203), changing the original compression amount of a limiting spring (213), enabling the bottom end of a hollow bearing seat (208) to be just separated from a touch switch (212), and sequentially adjusting the heights of all guide heads (217) to finish correction and adjustment of a quality inspection mechanism (2);

s4, controlling the number of the current limiting springs (315) which are actually applied with force in each current limiting box (307), enabling the ratio of the number of the current limiting springs (315) which are actually applied with force in each current limiting box (307) to be equal to the ratio of the content of each raw material in the descaling agent, sequentially adding corresponding liquid raw materials or solid raw material solutions into each liquid storage barrel (306) and the liquid adding pipe, screwing up a sealing cap after the siphon (324) is filled with liquid, and blocking the opening of the liquid adding pipe;

s5, adjusting the height of each flow limiting box (307) to enable the positioning piston (321) to just generate displacement, and completing the adjustment work of the feeding mechanism (3);

s6, opening a feeding electromagnetic valve (238), adding raw materials into the preparation tank (101) through a feeding mechanism (3), performing preparation work of the detergent in the preparation tank (101), powering on a time relay (236) after performing preparation work for a period of time, performing timing sampling detection on the preparation process of the detergent in the preparation tank (101) through a quality inspection mechanism (2), automatically controlling a discharging electromagnetic valve (237) to be opened by the quality inspection mechanism (2) after the quality of the detergent in the preparation tank (101) is qualified, completing preparation of the detergent, and then adding raw materials into the preparation tank (101) again through the feeding mechanism (3), and performing new preparation work;

a preparation tank (101) is arranged in the middle of the top end of the base (1), and a quality inspection mechanism (2) is arranged outside the preparation tank (101);

the quality inspection mechanism (2) comprises a storage barrel (201);

a plurality of storage tanks (201) are arranged on the outer side of the preparation tank (101) along the circumferential direction at equal angles, a check box (203) is arranged at the bottom end of the storage tank (201), a limit seat (204) is arranged at the middle part of the bottom end of the check box (203), the guide hopper (202) is communicated with the storage tank (201) and the check box (203), an electric push rod (205) is arranged on one side of the guide hopper (202), a baffle plate (206) is embedded in the middle part of the side end face of the guide hopper (202) in a sliding manner, a flushing electromagnetic valve (207) is arranged on the side end face of the check box (203), an energy storage pipe (220) is clamped at the end part of the flushing electromagnetic valve (207), and a sewage electromagnetic valve (221) is arranged on the end face of the other side of the check box (203);

the device is characterized in that a hollow bearing seat (208) is embedded in the middle of the top end of the limiting seat (204) in a sliding manner, an adjusting screw (211) is rotatably arranged in the middle of the bottom end of the limiting seat (204), a synchronous fluted disc (210) is arranged at the bottom end of the adjusting screw (211), a support plate (209) is arranged on the outer side of the adjusting screw (211) through threads, a touch switch (212) is arranged on the top end of the adjusting screw (211), a limited spring (213) is sleeved at the position, between the hollow bearing seat (208) and the support plate (209), of the outer side of the adjusting screw (211), and a gear ring (219) is rotatably arranged at the position, corresponding to the synchronous fluted disc (210), of the edge of the top end of the base (1);

the device is characterized in that a sampling electromagnetic valve (214) is embedded and mounted at the bottom of the side end face of the preparation tank (101) corresponding to the position of the test box (203), a liquid guide support (215) is embedded and mounted at the bottom of the inner wall of the preparation tank (101), a plurality of limiting cylinders (216) are rotatably mounted at the top end of the liquid guide support (215) along the equal angle in the circumferential direction, a flow guide head (217) is mounted inside the limiting cylinders (216) through threads, and a sample liquid guide pipe (218) is mounted at the middle of the bottom end of the flow guide head (217);

the testing device comprises a testing box (203), a conversion seat (222) is arranged in the middle of the side end face of the testing box, a plurality of magnetic flux boxes (223) are arranged on the outer curved surface of the conversion seat (222) along the circumferential direction at equal angles, a power piece (224) is arranged in each magnetic flux box (223), an adjustable rheostat (225) is arranged at the top end of each magnetic flux box (223), an air inlet one-way valve (226) is arranged at the position of one side of each magnetic flux box (223) on the outer curved surface of the conversion seat (222), and an exhaust pipe (235) is arranged in the middle of the side end face of the conversion seat (222);

the rotary rod (227) is rotatably installed in the middle of the side end face of the conversion seat (222), a stress rod (228) is installed at the position of the end part of the rotary rod (227) corresponding to the inspection box (203), a driving piece (229) is installed at the position of the outer curved surface of the rotary rod (227) corresponding to the power piece (224), a guide fan (230) is installed at the other end part of the rotary rod (227), a flow blocking piston (231) is slidably installed at the position of one side of the guide fan (230) in the conversion seat (222), a touch switch (232) is installed in the middle of the side end face of the flow blocking piston (231), a force application spring (233) is installed at the side end face of the flow blocking piston (231), and a touch control piece (234) is installed at the position of the inner side end face of the conversion seat (222) corresponding to the force application spring (233);

a plurality of time relays (236) are uniformly arranged on the side end surface of the storage vat (201) at equal intervals, a discharging electromagnetic valve (237) is arranged in the middle of the side end surface of the base (1), and a plurality of charging electromagnetic valves (238) are arranged at the top end edge of the preparation tank (101) along the circumferential direction at equal angles;

a feeding mechanism (3) is arranged on the outer side of the base (1), and the feeding mechanism (3) comprises a supporting seat (301);

a plurality of supporting seats (301) are arranged on the outer side of the base (1) along the circumferential direction at equal angles, a plurality of telescopic struts (302) are arranged on the top end edge of the supporting seat (301) along the circumferential direction at equal angles, a threaded cylinder (303) is rotatably arranged at the middle part of the top end of the supporting seat (301), a height-adjusting screw (304) is arranged inside the threaded cylinder (303) through threaded embedding, a limit support (305) is arranged on the top end of the threaded cylinder (303), a liquid storage barrel (306) is arranged on the top end of the limit support (305), a current-limiting box (307) is arranged on the top end edge of the limit support (305), a siphon (324) is arranged in the middle part of the top end of the liquid storage barrel (306), the liquid storage barrel (306) is connected with the current-limiting box (307) through the siphon (324), a feeding pipe (325) is arranged at the bottom of the outer curved surface of the current-limiting box (307), and the current-limiting box (307) is connected with a solenoid valve (238) through the feeding pipe (325).

The device is characterized in that a force bearing support (308) is slidably arranged in the flow limiting box (307), a limit guide ring (309) is arranged at the top position of the force bearing support (308) on the inner wall of the flow limiting box (307), a pressure bearing support (310) is rotatably arranged at the bottom position of the force bearing support (308) in the flow limiting box (307), a support ring (311) is arranged at the bottom position of the pressure bearing support (310) on the inner wall of the flow limiting box (307), a limit groove (312) is formed in one side of the top end edge of the pressure bearing support (310), and a yielding through groove (313) is formed in the other side of the top end edge of the pressure bearing support (310);

a plurality of limit telescopic rods (314) are arranged at the bottom end edge of the stress support (308) along the circumferential direction at equal angles, a current limiting spring (315) is sleeved outside the limit telescopic rods (314), a bearing block (316) is arranged at the end part of the limit telescopic rods (314), tooth grooves (317) are formed at the bottom end edge of the bearing support (310), a rotating rod (318) is arranged at the position, at the bottom of the bearing support (310), of an outer curved surface of the current limiting box (307), a positioning toothed plate (319) is arranged at the end part of the rotating rod (318), a linkage rod (320) is arranged at the middle part of the bottom end of the stress support (308), a positioning piston (321) is arranged at the end part of the linkage rod (320), a magnet piece (322) is arranged at the middle part of the bottom end part of the positioning piston (321), and an electromagnet (323) is arranged at the middle part of the bottom of the current limiting box (307) in an embedded mode;

the utility model discloses a touch control device, including preparation jar (101), slide bar (328), hollow floating plate (329) are installed to slide bar (328) bottom, touch head (330) are installed on slide bar (328) top, stop box (326) top middle part embedding is installed through screw thread embedding in preparation jar (101) top middle part, stop box (326) top middle part embedding is installed touch control switch (327), slide bar (328) are installed in slide bar (328) bottom middle part embedding.

2. The method for preparing the scale remover for the steering acid system according to claim 1, wherein the power piece (224) comprises an iron core and windings, all the windings are sequentially connected in series, all the windings are in the same winding direction, the input end of the windings is electrically connected with the output end of the adjustable rheostat (225), the driving piece (229) comprises a hollow supporting block and a magnet block, and the magnet block is embedded in the middle of the inclined surface of the hollow supporting block.

3. The method for preparing the scale remover for the steering acid system according to claim 1, wherein a plurality of flow guide cavities are formed in the liquid guide support (215), the flow guide cavities are in one-to-one correspondence with the sample liquid guide pipes (218), a plurality of liquid inlets are formed in the bottom of the outer curved surface of the flow guide head (217) along the circumferential direction at equal angles, communication grooves are symmetrically formed in the outer curved surface of the limiting cylinder (216), the length of each communication groove is equal to the height of the inner cavity of the preparation tank (101), the flow guide head (217) is connected with the flow guide cavities through the sample liquid guide pipes (218), the flow guide cavities are connected with the inspection box (203) through the sampling electromagnetic valves (214), and the filter plates are embedded and installed at positions of the inner side end faces of the inspection box (203) corresponding to the pollution discharge electromagnetic valves (221).

4. The method for preparing a scale remover for a steering acid system according to claim 1, wherein the total number of the time relays (236) is three, the model number of the time relays (236) is JSS48A-S, and the time relays (236) comprise a total relay, a viscosity detection relay and a rate detection relay;

the speed detection relay input end is electrically connected with the viscosity detection relay output end, the viscosity detection relay and the sampling electromagnetic valve (214) input end are electrically connected with the total relay output end, the flushing electromagnetic valve (207) and the pollution discharge electromagnetic valve (221) input end are electrically connected with the viscosity detection relay output end, and the electric push rod (205) input end is electrically connected with the speed detection relay output end;

hopper is installed at storage vat (201) side terminal surface top, storage vat (201) side terminal surface mid-mounting has the pilot lamp, discharge solenoid valve (237) and charging solenoid valve (238) input all with touch switch (212) output electric connection, touch switch (212) input and touch switch (232) output electric connection, touch switch (232) and total relay input all with external power source output electric connection.

5. The method for preparing the scale remover for the steering acid system according to claim 1, wherein the conversion seat (222) is made of transparent materials, the conversion seat (222) comprises an air inlet part, a power part, an air guiding part, a flow limiting part and an air exhausting part, the air inlet one-way valve (226) is positioned at the outer side of the air inlet part, a filter box is arranged at the end part of the air inlet one-way valve (226), the driving part (229) is positioned in the power part, a yielding hole is formed in the inner wall of the power part corresponding to the position of the power part (224), the air guiding fan (230) is positioned in the air guiding part, the choke piston (231) is positioned in the flow limiting part, the choke piston (231) is matched with the flow limiting part, the force applying spring (233) is positioned in the air exhausting part, the touch control part (234) comprises an air permeable plate and a touch rod, and the stressed rod (228) is positioned in the inspection box (203).

6. The method for preparing the scale remover for the steering acid system, as claimed in claim 1, wherein the top end of the flow limiting box (307) and the bottom end of the liquid storage barrel (306) are at the same height, the siphon (324) is U-shaped, a liquid adding pipe is arranged in the middle of the outer curved surface of the siphon (324), and a sealing cap is arranged on the outer side of the end part of the liquid adding pipe through threads.

7. The method for preparing the scale remover for the steering acid system according to claim 1, wherein the flow limiting box (307) is made of transparent materials, and the flow limiting box (307) comprises a weighing part, a flow blocking part and a conducting part from top to bottom in sequence;

limiting groove (312) and logical groove (313) of stepping down all are semicircle form, a plurality of leak holes have been seted up along circumferencial direction equiangular to atress support (308) top limit portion, position-adjusting pinion rack (319) agree with tooth's socket (317), position-adjusting pinion rack (319) girth equals the interval between two adjacent spacing telescopic links (314), touch switch (327) are reinforced solenoid valve (238) dormancy switch and electro-magnet (323) control switch, reinforced solenoid valve (238) and electro-magnet (323) input all with touch switch (327) output electric connection, touch switch (327) input and external power source output electric connection.