CN213580937U

CN213580937U - Multifunctional detection device for construction production wastewater of hydraulic and hydroelectric engineering

Info

Publication number: CN213580937U
Application number: CN202022922863.8U
Authority: CN
Inventors: 张硕文
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-08
Filing date: 2020-12-08
Publication date: 2021-06-29
Anticipated expiration: 2030-12-08

Abstract

The utility model discloses a multi-functional detection device of hydraulic and hydroelectric engineering construction waste water relates to waste water detection equipment technical field, include retort, detection mechanism, prevent stifled blowdown mechanism, the top of retort is provided with feed inlet, motor, the feed inlet is located the one end of motor, the inside of retort is provided with the reaction storehouse, the output of motor runs through to reaction storehouse internal connection has the axis of rotation. The utility model discloses a set up motor, axis of rotation, connecting rod, scraper, blow off pipe, blowoff hole, annular spacing spout, rotation handle, valve block, universal driving shaft, vertical spacing spout, slider and puddler can effectively avoid the blowdown in-process to take place blocking phenomenon, rotate through the scraper and can stir waste water and scrape the wall to reaction storehouse inner wall, make impurity can get into the blowoff hole along with waste water together, effectively avoid impurity to remain inside the reaction storehouse.

Description

Multifunctional detection device for construction production wastewater of hydraulic and hydroelectric engineering

Technical Field

The utility model relates to a waste water detection equipment technical field specifically is a multi-functional detection device of hydraulic and hydroelectric engineering construction waste water.

Background

The wastewater detection comprises production wastewater detection and production sewage detection, and can be divided into papermaking wastewater, textile wastewater, tanning wastewater, pesticide wastewater, metallurgical wastewater, oil refining wastewater and the like according to products and processing objects of industrial enterprises.

The waste water detects the in-process and can need add the reactant in the waste water sometimes to and separate some materials in the waste water, so that better detecting can produce fixed impurity at the in-process that waste water carries out material separation, leads to the blow off pipe to take place blocking phenomenon easily at the in-process solid impurity to waste water blowdown, thereby influences the work efficiency that waste water detected.

Therefore, the multifunctional detection device for the production wastewater in the hydraulic and hydroelectric engineering construction is invented.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problem of easy blockage in the waste water discharge process, a multifunctional detection device for the production waste water in the water conservancy and hydropower engineering construction is provided.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a multi-functional detection device of hydraulic and hydroelectric engineering construction waste water, includes retort, detection mechanism, prevents stifled blowdown mechanism, the top of retort is provided with feed inlet, motor, the feed inlet is located the one end of motor, the inside of retort is provided with the reaction storehouse, the output of motor runs through to reaction storehouse internal connection has the axis of rotation, the outer wall of axis of rotation is close to bottom position department and is provided with the connecting rod, the one end that the axis of rotation was kept away from to the connecting rod is provided with the scraper, prevent stifled blowdown mechanism and be located the top central point of retort and put, detection mechanism is located inside the reaction storehouse and is connected with the inner wall top in reaction.

Preferably, detection mechanism includes dead lever, telescopic link, floating block, detector, compression piece, expanding spring and compression pole, the top of dead lever and the fixed connection in top of reaction storehouse run through to the top outer wall of retort, the inside of dead lever is provided with flexible groove, compression piece, expanding spring are located flexible inslot portion, expanding spring is located the top of compression piece, the telescopic link is located the bottom of dead lever, the top of telescopic link runs through to flexible inslot portion and is connected with the bottom of compression piece, the compression pole is located the dead lever top and runs through to flexible inslot portion and be connected with the top of compression piece, the inner wall of compression pole outer wall and expanding spring cup joints each other, the detector is located the bottom of telescopic link, the floating block is located the top of detector and cup joints each other with the outer wall of telescopic link.

Preferably, prevent stifled sewage discharging mechanism includes the blow off pipe, rotates handle, valve block, universal driving shaft, slider and puddler, the blow off pipe is located the bottom of retort and runs through to the inside inner wall bottom with the reaction bin of retort and be connected, the inside blowoff hole that is provided with of blow off pipe, blowoff hole inner wall side is provided with the spacing spout of annular, valve block, universal driving shaft are located inside the blowoff hole, the valve block is located the spacing spout below of annular and is located the below of universal driving shaft, it is connected with the valve block to rotate handle outer wall one side that is located the blow off pipe and run through to the blowoff hole inside, outer wall one side of universal driving shaft is provided with vertical spacing spout, the outer wall of slider cup joints with the inner wall of vertical spacing spout each other, the puddler is located outer wall one side of universal driving shaft and runs through to vertical spacing.

Preferably, the one end outer wall that the connecting rod was kept away from to the scraper is laminated with the inner wall side in reaction storehouse mutually, the length of scraper and the inner wall height phase-match in reaction storehouse, detection mechanism is located the intermediate position of axis of rotation and scraper, the bottom of detector is located the top of connecting rod.

Preferably, the blow-off pipe is positioned under the rotating shaft, and the top end of the linkage shaft penetrates into the reaction bin and is connected with the bottom end of the rotating shaft.

Preferably, the height difference exists in the height of annular spacing spout both sides, the one end that the slider was kept away from to the puddler cup joints each other with the inner wall of annular spacing spout.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a set up the motor, the axis of rotation, the connecting rod, the scraper, the blow off pipe, the blowdown hole, annular spacing spout, the rotation handle, the valve block, the universal driving shaft, vertical spacing spout, slider and puddler can effectively avoid taking place the blocking phenomenon in the blowdown process, can drive the axis of rotation through the motor, the universal driving shaft rotates, the axis of rotation can drive the scraper through the connecting rod and rotate, the universal driving shaft can drive the puddler and rotate, the scraper rotates and can stir waste water and scrape the wall to the reaction chamber inner wall, make impurity can get into the blowdown hole along with waste water together, effectively avoid impurity to remain in the reaction chamber inside, can go on the upper run along the inner wall orbit of annular spacing spout when the puddler rotates, can stir the blowdown hole inside through the up-and-down circular motion of puddler, avoid impurity to block up the blowdown hole;

2. the utility model discloses a set up the dead lever, flexible groove, the telescopic link, the floating block, the detector, the compression piece, expanding spring and compression pole can detect the waste water of different degree of depth positions, can make the detector along with waste water liquid level height automatically regulated height through mutually supporting of floating block and expanding spring, promote the compression piece through the compression pole and can make the detector move down, but the height of the quick adjustment detector of mutually supporting through above a plurality of parts, then can detect the waste water of different positions, can effectively improve the reliability of waste water detection data.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a cross-sectional exploded view of the detection mechanism of the present invention;

FIG. 3 is a sectional view of the anti-blocking sewage draining mechanism of the utility model;

fig. 4 is a sectional exploded view of the anti-blocking sewage draining mechanism of the present invention.

In the figure: 1. a reaction tank; 101. a reaction bin; 2. a feed inlet; 3. a motor; 4. a rotating shaft; 5. a connecting rod; 6. a scraper; 7. a detection mechanism; 701. fixing the rod; 7011. a telescopic groove; 702. a telescopic rod; 703. floating blocks; 704. a detector; 705. compressing the block; 706. a tension spring; 707. a compression rod; 8. an anti-blocking pollution discharge mechanism; 801. a blow-off pipe; 8011. a sewage draining hole; 8012. an annular limiting chute; 802. rotating the handle; 803. a valve plate; 804. a linkage shaft; 8041. a vertical limiting chute; 805. a slider; 806. a stirring rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in 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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "connected" and "disposed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. The following describes an embodiment of the present invention according to its overall structure.

The motors (YVF 2) mentioned in the utility model can be obtained by market or private ordering.

Please refer to fig. 1-4, a multi-functional detection device of hydraulic and hydroelectric engineering construction waste water, including retort 1, detection mechanism 7, prevent stifled blowdown mechanism 8, the top of retort 1 is provided with feed inlet 2, motor 3, feed inlet 2 is located the one end of motor 3, the inside of retort 1 is provided with reaction chamber 101, the output of motor 3 runs through to reaction chamber 101 internal connection has axis of rotation 4, the outer wall of axis of rotation 4 is close to bottom position department and is provided with connecting rod 5, the one end that axis of rotation 4 was kept away from to connecting rod 5 is provided with scraper 6, prevent stifled blowdown mechanism 8 and be located the top central point of retort 1 and put, detection mechanism 7 is located inside reaction chamber 101 and is connected with the inner wall top of reaction chamber 101.

Please refer to fig. 2, the detecting mechanism 7 includes a fixing rod 701, a telescopic rod 702, a floating block 703, a detector 704, a compression block 705, a telescopic spring 706 and a compression rod 707, the top end of the fixing rod 701 is fixedly connected with the top end of the reaction chamber 101 and penetrates through the outer wall of the top end of the reaction tank 1, a telescopic slot 7011 is disposed inside the fixing rod 701, the compression block 705 and the telescopic spring 706 are disposed inside the telescopic slot 7011, the telescopic spring 706 is disposed above the compression block 705, the telescopic rod 702 is disposed at the bottom end of the fixing rod 701, the top end of the telescopic rod 702 penetrates through the telescopic slot 7011 and is connected with the bottom end of the compression block 705, the compression rod 707 is disposed at the top end of the fixing rod 701 and penetrates through the telescopic slot 7011 and is connected with the top end of the compression block 705, the outer wall of the compression rod 707 is sleeved with the inner wall of the telescopic spring 706, the detector 704 is disposed at the bottom end of the telescopic rod 702, the floating block 703 And the height of the detector 704 can be automatically adjusted according to the liquid level height of the wastewater, the height of the detector 704 can be adjusted by matching with the compression rod 707, the wastewater at different depth positions can be detected, and the accuracy of detection data can be effectively improved.

Referring to fig. 3-4, the anti-blocking and pollution discharging mechanism 8 includes a pollution discharging pipe 801, a rotating handle 802, a valve plate 803, a linkage shaft 804, a sliding block 805 and a stirring rod 806, the pollution discharging pipe 801 is located at the bottom end of the reaction tank 1 and penetrates into the reaction tank 1 to be connected with the bottom end of the inner wall of the reaction bin 101, a pollution discharging hole 8011 is arranged in the pollution discharging pipe 801, an annular limiting chute 8012 is arranged on the side surface of the inner wall of the pollution discharging hole 8011, the valve plate 803 and the linkage shaft 804 are located in the pollution discharging hole 8011, the valve plate 803 is located below the annular limiting chute 8012 and is located below the linkage shaft 804, the rotating handle 802 is located on one side of the outer wall of the pollution discharging pipe 801 and penetrates into the pollution discharging hole 8011 to be connected with the valve plate 803, a vertical limiting chute 8041 is arranged on one side of the outer wall of the linkage shaft 804, the outer wall of the sliding block 805 is sleeved with the inner wall of the vertical, the blocking phenomenon in the process of discharging the waste water can be effectively avoided through the anti-blocking pollution discharge mechanism 8.

Please refer to fig. 1, an outer wall of one end of the scraper 6 away from the connecting rod 5 is attached to a side surface of an inner wall of the reaction chamber 101, the length of the scraper 6 is matched with the height of the inner wall of the reaction chamber 101, the detecting mechanism 7 is located between the rotating shaft 4 and the scraper 6, the bottom end of the detector 704 is located above the connecting rod 5, the scraper 6 can scrape the inner wall of the reaction chamber 101 when rotating, so as to prevent impurities from adhering to the inner wall of the reaction chamber 101, and the detecting operation of the detector 704 does not affect the rotating operation of the scraper 6.

Please refer to fig. 1, the sewage pipe 801 is located right below the rotation shaft 4, the top end of the linkage shaft 804 penetrates into the reaction chamber 101 and is connected with the bottom end of the rotation shaft 4, and the rotation shaft 4 can drive the linkage shaft 804 to rotate.

Referring to fig. 3-4, the height difference exists between the two sides of the annular limiting sliding groove 8012, and the end of the stirring rod 806 away from the slider 805 is sleeved with the inner wall of the annular limiting sliding groove 8012, so that the stirring rod 806 can move up and down along the track of the inner wall of the annular limiting sliding groove 8012 when rotating.

The working principle is as follows: when the multifunctional detection device for the wastewater generated in the water conservancy and hydropower engineering construction is used, wastewater to be detected can be poured into the reaction bin 101 through the feeding hole 2, the telescopic rod 702 and the detector 704 can be driven to move upwards under the action of the buoyancy of the floating block 703 in the process that the wastewater enters the reaction bin 101, the wastewater can be detected through the detector 704 after being completely poured, the compression block 705, the telescopic rod 702 and the detector 704 can be pushed to move downwards by pressing the compression rod 707, the wastewater at different depth positions can be detected, an effective data average value can be obtained through data detected for multiple times, the reliability of detected data can be effectively improved, in addition, when the wastewater needs to be subjected to secondary separation, a reactant can be added through the feeding hole 2, the motor 3 can be started to operate, and the motor 3 can drive the scraper 6 to rotate through the rotating shaft 4 and the connecting rod, the scraper 6 rotates to stir the wastewater to fully fuse with the reactant for accelerating the reaction, the scraper 6 can scrape the inner wall of the reaction bin 101 to prevent impurities generated by the reaction from adhering to the inner wall of the reaction bin 101, the motor 3 stops moving after the wastewater and the reactant fully react to ensure that reaction impurities in the solution in the reaction bin 101 are deposited at the bottom of the reaction bin 101 after the solution in the reaction bin 101 is static for a period of time, the height of the detector 704 can be adjusted again for sectional detection, the wastewater after secondary separation can be detected, the valve plate 803 can be driven to rotate by rotating the handle 802 after the wastewater detection is finished to ensure that the sewage discharge hole 8011 is communicated, the wastewater is discharged through the sewage discharge hole 8011, the motor 3 is started to operate at the same time, the motor 3 can stir the solution in the reaction bin 101 to fuse the precipitated impurities with the wastewater, and the scraper 6 can scrape the inner wall of the reaction bin 101 again, impurity and waste water are discharged together, meanwhile, the rotating shaft 4 can drive the linkage shaft 804 to rotate, the linkage shaft 804 can drive the stirring rod 806 to rotate along the track of the inner wall of the annular limiting chute 8012 through the sliding block 805, the stirring rod 806 can drive the chute to move up and down along the track of the inner wall of the vertical limiting chute 8041 while doing circular motion, the inside of the blow-off hole 8011 can be stirred through the up-and-down circular motion of the stirring rod 806, and the blocking phenomenon inside the blow-off hole 8011 can be avoided.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a multi-functional detection device of hydraulic and hydroelectric engineering construction waste water, includes retort (1), detection mechanism (7), prevents stifled blowdown mechanism (8), its characterized in that: the top of retort (1) is provided with feed inlet (2), motor (3), feed inlet (2) are located the one end of motor (3), the inside of retort (1) is provided with reaction storehouse (101), the output of motor (3) runs through to reaction storehouse (101) internal connection has axis of rotation (4), the outer wall of axis of rotation (4) is close to bottom position department and is provided with connecting rod (5), the one end that axis of rotation (4) were kept away from in connecting rod (5) is provided with scraper (6), prevent that stifled sewage discharging mechanism (8) are located the top central point of retort (1) and put, detection mechanism (7) are located inside reaction storehouse (101) and are connected with the inner wall top of reaction storehouse (101).

2. The multifunctional detection device for the production wastewater in the hydraulic and hydroelectric engineering construction according to claim 1, characterized in that: the detection mechanism (7) comprises a fixed rod (701), an expansion rod (702), a floating block (703), a detector (704), a compression block (705), an expansion spring (706) and a compression rod (707), the top end of the fixed rod (701) is fixedly connected with the top end of the reaction bin (101) and penetrates through the outer wall of the top end of the reaction tank (1), an expansion groove (7011) is formed in the fixed rod (701), the compression block (705) and the expansion spring (706) are located in the expansion groove (7011), the expansion spring (706) is located above the compression block (705), the expansion rod (702) is located at the bottom end of the fixed rod (701), the top end of the expansion rod (702) penetrates through the expansion groove (7011) and is connected with the bottom end of the compression block (705), the compression rod (707) is located at the top end of the fixed rod (701) and penetrates through the expansion groove (7011) and is connected with the top end of the compression block (705), the outer wall of the compression rod (707) is sleeved with the inner wall of the telescopic spring (706), the detector (704) is positioned at the bottom end of the telescopic rod (702), and the floating block (703) is positioned above the detector (704) and sleeved with the outer wall of the telescopic rod (702).

3. The multifunctional detection device for the production wastewater in the hydraulic and hydroelectric engineering construction according to claim 1, characterized in that: the anti-blocking pollution discharge mechanism (8) comprises a pollution discharge pipe (801), a rotating handle (802), a valve plate (803), a linkage shaft (804), a sliding block (805) and a stirring rod (806), wherein the pollution discharge pipe (801) is positioned at the bottom end of the reaction tank (1) and penetrates through the reaction tank (1) to be connected with the bottom end of the inner wall of the reaction bin (101), a pollution discharge hole (8011) is formed in the pollution discharge pipe (801), an annular limiting sliding groove (8012) is formed in the side surface of the inner wall of the pollution discharge hole (8011), the valve plate (803) and the linkage shaft (804) are positioned in the pollution discharge hole (8011), the valve plate (803) is positioned below the annular limiting sliding groove (8012) and positioned below the linkage shaft (804), the rotating handle (802) is positioned on one side of the outer wall of the pollution discharge pipe (801) and penetrates through the inside of the pollution discharge hole (8011) to be connected with the valve plate (803), a vertical limiting sliding groove (8041, the outer wall of the sliding block (805) is sleeved with the inner wall of the vertical limiting sliding groove (8041), and the stirring rod (806) is located on one side of the outer wall of the linkage shaft (804) and penetrates through the vertical limiting sliding groove (8041) to be connected with the sliding block (805).

4. The multifunctional detection device for the production wastewater in the hydraulic and hydroelectric engineering construction according to claim 2, characterized in that: the one end outer wall that connecting rod (5) were kept away from in scraper (6) is laminated mutually with the inner wall side of reaction storehouse (101), the length of scraper (6) and the inner wall height phase-match in reaction storehouse (101), detection mechanism (7) are located the intermediate position of axis of rotation (4) and scraper (6), the bottom of detector (704) is located the top of connecting rod (5).

5. The multifunctional detection device for the production wastewater in the hydraulic and hydroelectric engineering construction according to claim 3, characterized in that: the sewage discharge pipe (801) is located under the rotating shaft (4), and the top end of the linkage shaft (804) penetrates through the inside of the reaction bin (101) and is connected with the bottom end of the rotating shaft (4).

6. The multifunctional detection device for the production wastewater in the hydraulic and hydroelectric engineering construction according to claim 3, characterized in that: the height difference exists in the height of the two sides of the annular limiting sliding groove (8012), and one end, far away from the sliding block (805), of the stirring rod (806) is sleeved with the inner wall of the annular limiting sliding groove (8012).