CN211464028U - EDI module washs regeneration and detects integration equipment - Google Patents

Abstract

The utility model discloses a EDI module washs regeneration and detects integration equipment, the power distribution box comprises a box body, the positive lateral wall of box has the door through hinge swing joint, the back embedding of box is fixed with the delivery pipe, the inside of box is fixed with three coordinate axis moving mechanism, three coordinate axis moving mechanism's removal end is fixed with the liquid detection mechanism of vertical establishing, and annotates liquid detection mechanism and pass through hose and delivery pipe intercommunication, wherein, establishes ties on the hose and has the solenoid valve. The utility model discloses in, through will annotating liquid detection mechanism and three coordinate axis moving mechanism and combine together, will annotate liquid detection mechanism's faucet and detection probe closely together fixed simultaneously, when examining the water like this, can place the test-tube rack of placing the test tube in the inside of box, through three coordinate axis moving mechanism to corresponding test tube water injection and detect, can realize fine deposit appearance like this, make things convenient for the later stage to carry out the spot check to the inspection water.

Description

EDI module washs regeneration and detects integration equipment

Technical Field

The utility model relates to a check out test set technical field, concretely relates to EDI module washs regeneration and detects integration equipment.

Background

The EDI module is a pure water manufacturing technology combining an ion exchange membrane technology and an ion electromigration technology, utilizes high voltage of electrodes at two ends to move charged ions in water, and is matched with ion exchange resin and a selective resin membrane to accelerate the removal of the ions. In the EDI desalting process, ions are removed through the ion exchange membrane under the action of an electric field. Meanwhile, the water molecules generate hydrogen ions and hydroxyl ions under the action of the electric field, and the ions continuously regenerate the ion exchange resin so as to keep the ion exchange resin in an optimal state.

After EDI modular device operation a period, the inside water course of EDI module probably produces the jam, this is mainly that the EDI module contains more solute in intaking, form salified sediment at dense water chamber, can last high-efficient function in order to guarantee the EDI module, the water that can produce the EDI module usually carries out periodic detection, in order to ensure the normal operating of EDI module, however current EDI module washs regeneration detection integrated equipment and is examining the water, can not carry out the stock sample to the water sample, the testing process is difficult to realize the cleanness to detecting probe.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems that when the existing EDI module cleaning, regeneration and detection integrated equipment detects a water body, a water sample cannot be stored, and the detection process is difficult to realize the cleanness of a detection probe, the EDI module cleaning, regeneration and detection integrated equipment is provided.

The purpose of the utility model can be realized by the following technical scheme:

an EDI module cleaning, regenerating and detecting integrated device comprises a box body, wherein the side wall of the front side of the box body is movably connected with a bin gate through a hinge, a water supply pipe is embedded and fixed in the back side of the box body, a three-coordinate-axis moving mechanism is fixed in the box body, a vertically-arranged liquid injection detecting mechanism is fixed at the moving end of the three-coordinate-axis moving mechanism and is communicated with the water supply pipe through a hose, and an electromagnetic valve is connected in series on the hose;

annotate liquid detection mechanism and include the connecting pipe fixed with three coordinate axis moving mechanism moving end, the lateral wall of connecting pipe is fixed with the connection mouth of being connected with the hose, the bottom faucet outside of connecting pipe cup joints and is fixed with the mount, the bottom of mount is fixed with two detection probe about the bottom faucet axis symmetry embedding of connecting pipe, through the bottom faucet setting with detection probe next-door neighbour connecting pipe, detects the water when being convenient for go out water.

Further, the method comprises the following steps: the embedding of the corner of inner bottom one side of box is fixed with the collecting tank, the lateral wall intercommunication of collecting tank has the sewage pipe of embedding at the box lateral wall, can get rid of the inside ponding of box like this.

Further, the method comprises the following steps: the bottom faucet inside of connecting pipe is fixed with the filter, the inside swing joint of filter has the propeller blade that extends to the bottom faucet lower part of connecting pipe, propeller blade's bottom mounting has the clean brush that leans on with the measuring probe extrusion, can drive propeller blade rotation when rivers process like this for clean brush is remained to measuring probe surface water stain and is cleared up, effectively avoids preceding measuring result to the influence of measuring result afterwards.

Further, the method comprises the following steps: the three-coordinate-axis moving mechanism comprises two slide rails, the two slide rails are correspondingly fixed with the inner walls of the two sides of the box body, the outer walls of the two slide rails are respectively connected with a vertical frame which is vertically arranged with the two slide rails in a sliding manner, the inner part of one slide rail is movably connected with a first lead screw which is connected with the corresponding vertical frame in a screwing manner, and the end part of one side of the first lead screw is connected with a first driving motor which is fixed on the inner wall of the box body in a transmission;

a cross frame is fixed at the top ends of the two vertical frames, a first movable frame capable of moving horizontally is sleeved on the outer wall of the cross frame in a sliding mode, a first lead screw nut block is fixed inside the first movable frame, a second lead screw connected with the first lead screw nut block in a screwing mode is movably connected inside the cross frame, a first driven wheel is fixed at the end of the second lead screw, a second driving motor is fixed inside the cross frame on the same side with the first driven wheel, and a first driving wheel in transmission connection with the first driven wheel through a belt is fixedly clamped on a motor shaft of the second driving motor;

the outer wall sliding connection of first adjustable shelf has the second adjustable shelf of vertical removal, the inside of second adjustable shelf is fixed with second lead screw nut piece, the inside swing joint of second adjustable shelf has the third lead screw of closing the connection soon with second lead screw nut piece, the top of third lead screw is fixed with the second from the driving wheel, the inside next-door neighbour second of second adjustable shelf is fixed with third driving motor from driving wheel position department, third driving motor is fixed with through motor shaft joint and follows the second driving wheel that driving wheel transmission is connected through belt and second.

Further, the method comprises the following steps: the projection of the moving path of the stand on the horizontal plane is perpendicular to the projection of the moving path of the first movable frame on the horizontal plane, so that the three-coordinate-axis moving mechanism can vertically move on the horizontal plane.

Further, the method comprises the following steps: the projection of the moving path of the first movable frame is perpendicular to the projection of the moving path of the second movable frame on the vertical plane, so that the three-coordinate-axis moving mechanism can vertically move on the vertical plane.

Further, the method comprises the following steps: rectangular hole has been seted up on the surface of door, and the inside embedding of rectangular hole is fixed with glass, is convenient for operating personnel to observe.

Further, the method comprises the following steps: four corners in the bottom of box are fixed with the callus on the sole, can avoid the box directly to contact with ground through setting up the callus on the sole.

The utility model has the advantages that:

1. the back of the box body is embedded and fixed with a water supply pipe, a vertically arranged liquid injection detection mechanism is fixed in the box body through a moving end of a three-coordinate-axis moving mechanism, and the liquid injection detection mechanism is communicated with the water supply pipe through a hose, wherein, the hose is connected with an electromagnetic valve in series, a fixing frame is sleeved and fixed outside a bottom water outlet nozzle of a connecting pipe of the liquid injection detection mechanism, two detection probes are symmetrically embedded and fixed at the bottom end of the fixing frame relative to the axis of the bottom water outlet nozzle of the connecting pipe, the liquid injection detection mechanism is combined with the three-coordinate-axis moving mechanism, and simultaneously the water outlet nozzle of the liquid injection detection mechanism is tightly fixed with the detection probes, so when detecting a water body, a test tube rack for placing test tubes can be placed in the box body, the corresponding test tubes are injected with water and detected through the three, the spot inspection of the inspected water body at the later stage is facilitated;

2. the inside filter that is fixed with of bottom faucet of the connecting pipe that will annotate liquid detection mechanism, there is the propeller blade that extends to the bottom faucet lower part of connecting pipe at the inside swing joint of filter, simultaneously there is the clean brush that leans on with the detection probe extrusion in propeller blade's bottom mounting, it is fixed with the collecting tank to detect the embedding of inner bottom one side corner of integrated equipment box, lateral wall intercommunication with the collecting tank has the sewage pipe, annotate liquid detection mechanism like this and detected after the water, the accessible delivery pipe supplies water to the connecting pipe, it is rotatory to flow water drive propeller blade, make rotatory clean brush clean detection probe, can avoid the residual of preceding detection water to produce the influence to later testing result like this, be favorable to improving the authenticity of water inspection.

Drawings

The present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural diagram of an integrated device for cleaning, regenerating and detecting EDI module of the present invention;

fig. 2 is a schematic structural diagram of another view angle of the EDI module cleaning, regenerating and detecting integrated device of the present invention;

FIG. 3 is a schematic diagram of a sectional structure of an integrated device for cleaning, regenerating and detecting EDI module of the present invention;

fig. 4 is a schematic structural diagram of the middle injection liquid detection mechanism of the present invention;

FIG. 5 is a schematic structural diagram of a three-coordinate axis moving mechanism of the present invention;

fig. 6 is a schematic view of the internal transmission structure of the three-coordinate axis moving mechanism of the present invention.

In the figure: 1. a foot pad; 2. a box body; 3. a liquid injection detection mechanism; 31. a connecting nozzle; 32. a filter plate; 33. a propeller blade; 34. a fixed mount; 35. cleaning the brush; 36. detecting the probe; 37. a connecting pipe; 4. a three-coordinate axis moving mechanism; 41. erecting a frame; 42. a cross frame; 43. a first movable frame; 44. a second movable frame; 45. a first drive motor; 46. a slide rail; 47. a first lead screw; 48. a first driven wheel; 49. a second drive motor; 410. a first drive wheel; 411. a second lead screw; 412. a first lead screw nut block; 413. a third drive motor; 414. a second drive wheel; 415. a second driven wheel; 416. a third lead screw; 5. a liquid collecting tank; 6. a bin gate; 7. a water supply pipe; 8. a sewage pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-6, an EDI module cleaning, regenerating and detecting integrated device includes a box body 2, a bin door 6 is movably connected to a front side wall of the box body 2 through a hinge, a water supply pipe 7 is fixedly embedded into a back side of the box body 2, a three-coordinate-axis moving mechanism 4 is fixed inside the box body 2, a vertically-arranged liquid injection detecting mechanism 3 is fixed at a moving end of the three-coordinate-axis moving mechanism 4, the liquid injection detecting mechanism 3 is communicated with the water supply pipe 7 through a hose, and an electromagnetic valve is connected in series to the hose;

annotate liquid detection mechanism 3 and include the fixed connecting pipe 37 of 4 moving ends with three coordinate axis moving mechanism, the lateral wall of connecting pipe 37 is fixed with the connector 31 of being connected with the hose, the bottom faucet outside of connecting pipe 37 cup joints and is fixed with mount 34, the bottom of mount 34 is fixed with two detection probe 36 about the bottom faucet axis symmetry embedding of connecting pipe 37, through the bottom faucet setting of the next-door neighbour connecting pipe 37 with detection probe 36, detect the water when being convenient for go out water.

The embedding of inner bottom one side corner of box 2 is fixed with collecting tank 5, the lateral wall intercommunication of collecting tank 5 has the sewage pipe 8 of embedding at the 2 lateral walls of box, can get rid of 2 inside ponding of box like this, the inside filter 32 that is fixed with of bottom faucet of connecting pipe 37, the inside swing joint of filter 32 has propeller blade 33 that extends to the bottom faucet lower part of connecting pipe 37, propeller blade 33's bottom mounting has the clean brush 35 that leans on with 36 extrudions of detection probe, it is rotatory to drive propeller blade 33 when rivers pass through like this, make clean brush 35 to 36 surperficial water stains of detection probe remain and clear up, effectively avoid the influence of preceding measuring result to measuring result afterwards.

The three-coordinate-axis moving mechanism 4 comprises two slide rails 46, the two slide rails 46 are correspondingly fixed with the inner walls of the two sides of the box body 2, the outer walls of the two slide rails 46 are respectively connected with a vertical frame 41 which is vertically arranged with the two slide rails 46 in a sliding manner, wherein the inner part of one slide rail 46 is movably connected with a first lead screw 47 which is rotatably connected with the corresponding vertical frame 41, and the end part of one side of the first lead screw 47 is in transmission connection with a first driving motor 45 which is fixed on the inner wall of the box;

a transverse frame 42 is fixed at the top ends of the two vertical frames 41, a first movable frame 43 capable of moving horizontally is sleeved on the outer wall of the transverse frame 42 in a sliding manner, a first lead screw nut block 412 is fixed inside the first movable frame 43, a second lead screw 411 connected with the first lead screw nut block 412 in a screwing manner is movably connected inside the transverse frame 42, a first driven wheel 48 is fixed at the end part of the second lead screw 411, a second driving motor 49 is fixed inside the transverse frame 42 on the same side with the first driven wheel 48, and a first driving wheel 410 in transmission connection with the first driven wheel 48 through a belt is fixed on a motor shaft of the second driving motor 49 in a clamping manner;

the outer wall sliding connection of first adjustable shelf 43 has vertical removal's second adjustable shelf 44, the inside of second adjustable shelf 44 is fixed with second lead screw nut piece, the inside swing joint of second adjustable shelf 44 has the third lead screw 416 who closes the connection with the second lead screw nut piece soon, the top of third lead screw 416 is fixed with the second and follows driving wheel 415, the inside of second adjustable shelf 44 is close to the second and is fixed with third driving motor 413 from driving wheel 415 position department, third driving motor 413 is fixed with through the motor shaft joint and follows second driving wheel 414 who follows driving connection of driving wheel 415 through the belt.

The projection of the moving path of the vertical frame 41 on the horizontal plane is perpendicular to the projection of the moving path of the first movable frame 43 on the horizontal plane, so that the three-coordinate axis moving mechanism 4 can vertically move on the horizontal plane, and the projection of the moving path of the first movable frame 43 on the vertical plane is perpendicular to the projection of the moving path of the second movable frame 44 on the vertical plane, so that the three-coordinate axis moving mechanism 4 can vertically move on the vertical plane.

Rectangular hole has been seted up on door 6's surface, and the inside embedding of rectangular hole is fixed with glass, and the operating personnel of being convenient for observes, and four corners in bottom of box 2 are fixed with callus on the sole 1, can avoid box 2 directly to contact with ground through setting up callus on the sole 1.

The detection probes 36 are two probes for TDS measurement, by combining with a TDS detector to measure water hardness in a body of water.

The working principle is as follows: when the device is used, the test tube rack filled with the test tubes is placed in the plane of the box body 2, the water supply pipe 7 is connected with the water outlet pipe of the EDI module to be detected, and the sewage pipe 8 is led into a sewer through a water pipe;

during detection, the electromagnetic valve is opened, so that the water outlet pipe of the EDI module supplies water to the water supply pipe 7, the water body is guided to the connecting pipe 37 through the hose, the water is supplied to the corresponding test tube through the water outlet nozzle of the connecting pipe 37, when the water body in the corresponding test tube reaches the designated height, the detection probe 36 is arranged in the test tube, the water hardness is detected through the detection probe 36, and after the detection is finished, the connecting pipe 37 of the liquid injection detection mechanism 3 is lifted from the corresponding test tube through the three-coordinate-axis moving mechanism 4 and is moved to the position of the liquid collecting tank 5;

when the next measurement is to be carried out, the electromagnetic valve is opened, so that the water outlet pipe of the EDI module supplies water to the water supply pipe 7, the water body is guided to the connecting pipe 37 through the hose and is discharged from the water outlet nozzle of the connecting pipe 37, in the process of discharging the water body, the water body is contacted with the propeller blade 33, so that the cleaning brush 35 at the bottom of the propeller blade 33 is driven to rotate, the cleaning brush 35 is used to wipe off the residual substance on the surface of the detection probe 36 during the previous detection, and after the cleaning, the connecting pipe 37 of the liquid injection detection mechanism 3 is moved to the next test tube to be injected by the three-coordinate axis moving mechanism 4, the electromagnetic valve is opened, so that the water outlet pipe of the EDI module supplies water to the water supply pipe 7, the water body is guided to the connecting pipe 37 through the hose and supplies water to the corresponding test tube through the water outlet nozzle of the connecting pipe 37, when the water in the corresponding test tube reaches the designated height, the detection probe 36 is arranged in the test tube, and the water hardness is detected through the detection probe 36.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only, and various modifications, additions and substitutions as described for the specific embodiments described herein may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the invention as defined in the claims.

Claims (8)

1. The EDI module cleaning, regenerating and detecting integrated equipment is characterized by comprising a box body, wherein the side wall of the front side of the box body is movably connected with a bin gate through a hinge, a water supply pipe is embedded and fixed on the back side of the box body, a three-coordinate-axis moving mechanism is fixed in the box body, a vertically-arranged liquid injection detecting mechanism is fixed at the moving end of the three-coordinate-axis moving mechanism, the liquid injection detecting mechanism is communicated with the water supply pipe through a hose, and an electromagnetic valve is connected on the hose in series;

annotate liquid detection mechanism and include the connecting pipe fixed with three coordinate axis moving mechanism moving ends, the lateral wall of connecting pipe is fixed with the connection mouth of being connected with the hose, the bottom faucet outside of connecting pipe cup joints and is fixed with the mount, the bottom of mount is fixed with two detection probe about the bottom faucet axis symmetry embedding of connecting pipe.

2. The EDI module cleaning, regeneration and detection integrated device as claimed in claim 1, wherein a liquid collecting tank is embedded and fixed at a corner of one side of the inner bottom of the box body, and a sewage pipe embedded in a side wall of the box body is communicated with a side wall of the liquid collecting tank.

3. The EDI module cleaning, regeneration and detection integrated device as claimed in claim 2, wherein a filter plate is fixed inside the bottom nozzle of the connection tube, a propeller blade extending to the lower part of the bottom nozzle of the connection tube is movably connected inside the filter plate, and a cleaning brush pressed against the detection probe is fixed at the bottom end of the propeller blade.

4. The EDI module cleaning, regenerating and detecting integrated device according to claim 1, wherein the three-coordinate axis moving mechanism comprises two slide rails, the two slide rails are correspondingly fixed to inner walls of two sides of the box body, and vertical frames perpendicular to the two slide rails are slidably connected to outer walls of the two slide rails, wherein a first lead screw rotatably connected to the corresponding vertical frame is movably connected to the inside of one slide rail, and a first driving motor fixed to the inner wall of the box body is in transmission connection with an end portion of one side of the first lead screw;

a cross frame is fixed at the top ends of the two vertical frames, a first movable frame capable of moving horizontally is sleeved on the outer wall of the cross frame in a sliding mode, a first lead screw nut block is fixed inside the first movable frame, a second lead screw connected with the first lead screw nut block in a screwing mode is movably connected inside the cross frame, a first driven wheel is fixed at the end of the second lead screw, a second driving motor is fixed inside the cross frame on the same side with the first driven wheel, and a first driving wheel in transmission connection with the first driven wheel through a belt is fixedly clamped on a motor shaft of the second driving motor;

the outer wall sliding connection of first adjustable shelf has the second adjustable shelf of vertical removal, the inside of second adjustable shelf is fixed with second lead screw nut piece, the inside swing joint of second adjustable shelf has the third lead screw of closing the connection soon with second lead screw nut piece, the top of third lead screw is fixed with the second from the driving wheel, the inside next-door neighbour second of second adjustable shelf is fixed with third driving motor from driving wheel position department, third driving motor is fixed with through motor shaft joint and follows the second driving wheel that driving wheel transmission is connected through belt and second.

5. The EDI module cleaning, regeneration and detection integrated device of claim 4, wherein the projection of the moving path of the stand on the horizontal plane is perpendicular to the projection of the moving path of the first movable frame on the horizontal plane.

6. The EDI module cleaning, regeneration and detection integrated device of claim 4, wherein a projection of a moving path of the first movable frame on a vertical plane is perpendicular to a projection of a moving path of the second movable frame on the vertical plane.

7. The EDI module cleaning, regenerating and detecting integrated device according to claim 1, wherein a rectangular hole is formed on the surface of the bin gate, and glass is embedded and fixed in the rectangular hole.

8. The EDI module cleaning, regeneration and detection integrated equipment as claimed in claim 1, wherein foot pads are fixed at four corners of the bottom of the box body.

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