CN115586184B - Multi-type flow distribution detection device for water quality of water supply - Google Patents

Abstract

The invention relates to a water quality detection device, in particular to a multi-type flow-dividing detection device for water supply quality. The invention aims to provide a multi-type flow-dividing detection device for water quality of supplied water, which can detect water in various modes, can obtain a plurality of data about water samples without repeated operation during detection, and is more convenient to operate. The invention provides a multi-type flow-dividing detection device for water quality of water supply, which comprises a lower shell, an upper shell, a lock catch structure, a drainage component and a pollution detection mechanism, wherein the upper part of one side of the lower shell is hinged with the upper shell, and the lock catch structure is arranged between the upper shell and the lower shell. The device can respectively add water into the three detection cups, detect the turbidity of the water by observing the transparent cup body, detect the metal content of the water by the metal content detection mechanism and detect the pollution coefficient of the water by the pollution detection mechanism, so that the device can simultaneously and respectively detect the three data of the water.

Description

Multi-type flow distribution detection device for water quality of water supply

Technical Field

The invention relates to a water quality detection device, in particular to a multi-type flow-dividing detection device for water supply quality.

Background

With the rapid development of modern industrialization, many rivers are polluted to different degrees, so that the water quality needs to be detected to determine the pollution degree and the heavy metal content of a water source.

Through retrieval, a patent with an authorized patent publication number of CN214503587U discloses a separable water quality detection device, and particularly relates to the technical field of water quality detection, and the separable water quality detection device comprises a device box, wherein a flow distribution detection mechanism is arranged in the device box; reposition of redundant personnel detection mechanism includes the bin, the bin bottom is provided with the connecting pipe, connecting pipe one end intercommunication has the pump machine, the pump machine output is connected with the input tube, input tube one end is connected with first control valve, first control valve one end is connected with the downpipe, downpipe bottom intercommunication has the reposition of redundant personnel frame.

The aforesaid patent is earlier with the water sample reposition of redundant personnel, and the reposition of redundant personnel back utilizes same kind of equipment to detect the same data of water again, and the detection mean value is being worked out at last, utilizes above-mentioned mode to detect, can detect out one of them data of water sample only, is difficult to obtain other data, if need carry out the detection of other types, still need utilize other equipment to detect, and the operation is comparatively loaded down with trivial details.

Disclosure of Invention

In view of this, the invention provides a multi-type flow-dividing detection device for water quality, which can detect water in multiple ways, and can obtain multiple data about a water sample without repeated operation during detection, so that the operation is more convenient.

The utility model provides a multi-type reposition of redundant personnel detection device of water supply quality of water, including lower casing, go up the casing, the hasp structure, detect the cup, the reposition of redundant personnel frame, the inlet channel, the feed liquor valve, metal content detection mechanism, drainage component and pollution detection mechanism, lower casing one side upper portion articulates and is connected with the casing, it is provided with the handle of being convenient for to grab and hold to go up the casing top, it is provided with the hasp structure to go up between casing and the lower casing, the hasp structure is used for fixing lower casing and last casing, the internal interval of inferior valve is connected with three detection cup, one of them detection cup is transparent setting, be connected with the reposition of redundant personnel frame on the lower casing, the reposition of redundant personnel frame is provided with three liquid outlet end, three detection cup is aimed at respectively to three liquid outlet end, reposition of redundant personnel frame top intercommunication has the inlet channel, be provided with the feed liquor valve on the inlet channel, one of redundant personnel is provided with metal content detection mechanism, be equipped with the drainage component that is used for will detecting the water drainage in the cup on the lower casing, be equipped with on the reposition of redundant personnel frame and be used for placing the pollution detection mechanism that the test paper carries out the detection of pollution degree detection.

In addition, it is especially preferred that the hasp structure is including buckle and locking piece, goes up the casing lower part and is provided with the locking piece, and the last rotation type of casing is connected with the buckle down, goes up casing and casing down when closed, and the buckle is rotatory to be detained on the locking piece for it is fixed with casing down to go up the casing.

In addition, it is especially preferred that metal content detection mechanism is including the guide rail, placing frame and water quality test pen, and one of them non-transparent detection cup top both sides all are connected with the guide rail, and the frame is placed to slidingtype connection between the guide rail of both sides, places and is provided with water quality test pen in the frame.

In addition, it is especially preferred that the drainage subassembly is including pulling the frame, n shape pole, pothook and drainage lid, slidingly be connected with the pulling frame on the lower casing, the mouth of falling into the water all opens at three detection bottom of cup portion, lower casing bottom also evenly spaced apart has three mouth of falling into the water, the mouth of falling into the water on the lower casing overlaps with the mouth of falling into the water that detects the bottom of cup portion each other, the interior rotary type of the mouth of falling into the water of detection cup is connected with the drainage lid that is used for blocking the mouth of falling into the water, be provided with n shape pole on the drainage lid, the interval is provided with three pothook on the pulling frame, three pothook stretches into respectively in the three n shape pole, the pulling frame can be rotatory through pothook pulling n shape pole when removing, for drive the drainage lid is rotatory and no longer block the mouth of falling into the water.

In addition, it is particularly preferred that the pollution detection mechanism includes a blanking frame body, a pressing plate, a first elastic member and a color comparison card, the blanking frame body is connected to the distribution frame, the blanking frame body is located above another non-transparent detection cup, the blanking frame body is used for storing the detection test paper, an opening is formed in the bottom of one side of the blanking frame body and used for allowing the detection test paper to fall down, the position, away from the opening, of the blanking frame body is connected to the pressing plate in a sliding mode, the first elastic member is connected between the pressing plate and the blanking frame body and can apply pressure to the pressing plate, so that the pressing plate presses the detection test paper, and the color comparison card is arranged on the distribution frame.

In addition, it is particularly preferable that the test paper feeding device further comprises a clamping mechanism, the clamping mechanism comprises a sliding rod, a fixed clamp, a movable clamp, a second elastic part and a wedge block, the sliding rod is connected to a position of the blanking frame body close to the opening of the blanking frame body in a sliding manner, the fixed clamp is connected to the lower portion of the sliding rod, the movable clamp is connected to the fixed clamp in a sliding manner, the second elastic part is connected between the movable clamp and the fixed clamp and can apply pressure to the movable clamp, so that the movable clamp and the fixed clamp can clamp the test paper, an inclined plane is arranged at the bottom of the blanking frame body, a bulge is arranged on the movable clamp, when the movable clamp moves upwards, the bulge of the movable clamp can be in contact with the inclined plane of the blanking frame body and is extruded by the inclined plane of the blanking frame body to move towards a direction away from the fixed clamp, so as to enlarge a gap between the movable clamp and the fixed clamp and allow the test paper to fall, a wedge block is connected to the bottom of the detection cup below the blanking frame body, and when the movable clamp moves downwards, the bulge of the movable clamp can be in contact with the wedge block and is extruded by the wedge block to move towards a direction away from the fixed clamp, so as to loosen the test paper.

In addition, especially preferred is, still including transmission assembly, transmission assembly has seted up the spout including transmission rack, drive gear and transmission rack on the slide bar, and the slide bar has transmission rack through spout sliding connection, and transmission rack and unloading framework sliding connection rotate on the unloading framework and are connected with drive gear, are connected with transmission rack on the clamp plate, and transmission rack all mesh with drive gear.

In addition, it is especially preferred that the device further comprises a control assembly, the control assembly comprises a control frame and a third elastic piece, the control frame is connected between the guide rails on the two sides in a sliding mode, the control frame is respectively connected with the placing frame and the sliding rod, the third elastic piece is connected between the control frame and the guide rails, and the placing frame and the sliding rod can be driven to move together by moving the control frame.

In addition, especially preferred, still include turbidity auxiliary detection mechanism, turbidity auxiliary detection mechanism includes link, mixer and searchlight, is connected with the link on the handling frame, and the link is located transparent detection cup top, installs mixer and searchlight on the link, and the mixer is used for stirring the water in the detection cup.

The invention has the beneficial effects that: 1. according to the invention, water can be respectively added into the three detection cups, the turbidity of the water is detected by observing the transparent cup body, the metal content of the water is detected by the metal content detection mechanism, and the pollution coefficient of the water is detected by the pollution detection mechanism, so that the device can simultaneously and respectively detect three data of the water, a plurality of detection devices are not required to be respectively used for detection, and the operation is more convenient.

2. The test paper clamping device can clamp the test paper into water through the clamping mechanism so as to prevent the position of the test paper from deviating when the test paper falls down.

3. According to the invention, water can be stirred by the stirrer, and meanwhile, the searchlight irradiates the water, so that the turbidity of the water can be more conveniently judged during manual observation, and the detection of the turbidity is assisted.

4. When the outdoor detection is needed, the whole device can be lifted and carried only by lifting the lifting handle on the shell, so that the outdoor detection device is more convenient to operate.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the present invention with the upper housing hidden.

Fig. 3 is a partial perspective view of the present invention.

Fig. 4 is a schematic perspective view of the lower housing of the present invention.

Fig. 5 is a schematic perspective view of the metal content detecting mechanism according to the present invention.

Fig. 6 is a partial perspective view of the drainage assembly of the present invention.

FIG. 7 is a schematic view of the connection between the drain assembly and other components of the present invention.

FIG. 8 is a schematic perspective view of the drain cover, the n-bar and the inspection cup of the present invention.

Fig. 9 is a schematic perspective view of the contamination detection mechanism according to the present invention.

Fig. 10 is a cross-sectional view of a contamination detection mechanism of the present invention.

FIG. 11 is a schematic view showing the connection between the contamination detecting mechanism and the gripping mechanism according to the present invention.

Fig. 12 is a partial perspective view of the gripping mechanism of the present invention.

Fig. 13 is a schematic perspective view of a wedge block and a detection cup according to the present invention.

Fig. 14 is a schematic perspective view of the transmission assembly of the present invention after operation.

Fig. 15 is a perspective view of the transmission assembly of the present invention before operation.

Fig. 16 is a schematic view of the connection relationship between the operating assembly and other components of the present invention.

FIG. 17 is a schematic view of the connection between the turbidity detecting assistant mechanism and other parts.

FIG. 18 is a schematic perspective view of a turbidity detection assisting mechanism according to the present invention.

Number designation in the figure: 1: lower case, 2: upper case, 3: latch structure, 31: locking piece, 32: buckle, 4: detection cup, 5: shunt rack, 61: liquid inlet pipe, 62: liquid inlet valve, 7: metal content detection mechanism, 71: guide rail, 72: placement frame, 73: water quality test pen, 8: drainage assembly, 81: pulling frame, 811: hook, 82: drainage cover, 821: n-shaped rod, 9: contamination detection mechanism, 91: blanking frame body, 92: a pressing plate, 93: first elastic member, 94: color chart, 10: gripping mechanism, 101: slide lever, 102: fixing clamp, 103: movable clamp, 104: second elastic member, 105: wedge block, 11: transmission assembly, 111: drive carrier, 112: transmission gear, 113: drive rack, 12: handling assembly, 121: console, 122: third elastic member, 13: turbidity auxiliary detection mechanism, 131: connecting frame, 132: mixer, 133: a searchlight.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Example 1

A multi-type flow-dividing detection device for water quality of water supply is disclosed, as shown in fig. 1-4, and comprises a lower shell 1, an upper shell 2, a lock catch structure 3, a detection cup 4, a flow-dividing frame 5, a liquid inlet pipeline 61, a liquid inlet valve 62, a metal content detection mechanism 7, a drainage component 8 and a pollution detection mechanism 9, wherein the upper portion of the rear side of the lower shell 1 is hinged to the upper shell 2, a handle convenient to hold is arranged at the top of the upper shell 2, the lock catch structure 3 is arranged between the upper shell 2 and the lower shell 1, the lock catch structure 3 is used for fixing the lower shell 1 and the upper shell 2, three detection cups 4 are uniformly connected in the lower shell 1 at intervals from left to right, the detection cup 4 at the left side is in a transparent manner, the flow-dividing frame 5 is connected to the lower shell 1, the flow-dividing frame 5 is provided with three liquid outlet ends, the three liquid outlet ends are respectively aligned to the three detection cups 4, the liquid inlet pipeline 61 is communicated with the top of the liquid inlet pipeline 61, the liquid inlet valve 62 is arranged on the detection cup 61, the detection cup 4 at the middle part is provided with the metal content detection mechanism 7, the detection cup 1, the drainage component 8 for discharging water in the detection cup 4 is arranged on the lower shell 1, and a test paper for detecting mechanism 9 for detecting the pollution detection mechanism for detecting the pollution degree is arranged on the flow-dividing frame 5.

As shown in fig. 1, the locking structure 3 includes a buckle 32 and a locking block 31, the locking block 31 is disposed on the lower portion of the front side of the upper casing 2, the buckle 32 is rotatably connected to the upper portion of the front side of the lower casing 1, and when the upper casing 2 and the lower casing 1 are closed, the buckle 32 can be rotatably locked on the locking block 31 to fix the upper casing 2 and the lower casing 1.

As shown in fig. 5, the metal content detecting mechanism 7 includes a guide rail 71, a placing frame 72 and a water quality testing pen 73, wherein both sides of the top of the detecting cup 4 at the middle part are connected with the guide rail 71, the placing frame 72 is connected between the guide rails 71 at both sides in a sliding manner, and the water quality testing pen 73 is arranged in the placing frame 72.

As shown in fig. 6-8, the drainage assembly 8 includes a pulling frame 81, n-shaped rods 821, hooks 811 and a drainage cover 82, the pulling frame 81 is slidably connected to the lower housing 1, drain openings are formed in the bottoms of the three detection cups 4, three drain openings are uniformly spaced at the bottom of the lower housing 1, the drain openings in the lower housing 1 and the drain openings in the bottoms of the detection cups 4 are overlapped, the drainage cover 82 for blocking the drain openings is rotatably connected to the drain openings of the detection cups 4, the n-shaped rods 821 are arranged at the bottom of the drainage cover 82, the three hooks 811 are spaced at the front side of the pulling frame 81, the three hooks 811 respectively extend into the three n-shaped rods 821, and the pulling frame 81 can pull the n-shaped rods 821 to rotate through the hooks 811 when moving so as to drive the drainage cover 82 to rotate without blocking the drain openings.

As shown in fig. 9 and 10, the contamination detecting mechanism 9 includes a blanking frame 91, a pressing plate 92, a first elastic member 93 and a colorimetric card 94, the blanking frame 91 is connected to the right side of the shunt frame 5, the blanking frame 91 is located above the right detection cup 4, the blanking frame 91 is used for storing detection test paper, an opening is formed in the bottom of the left side of the blanking frame 91 and used for allowing the detection test paper to fall down, the pressing plate 92 is slidably connected to the right side of the blanking frame 91, the first elastic member 93 is connected between the pressing plate 92 and the blanking frame 91, the first elastic member 93 can apply pressure to the pressing plate 92 so that the pressing plate 92 presses the detection test paper, and the colorimetric card 94 is arranged on the front side of the shunt frame 5.

When water quality needs to be subjected to shunt detection, the device can be used, initially, the pressing plate 92 can be pulled to move rightwards, the first elastic piece 93 is compressed, then the detection test paper is stacked between the pressing plate 92 and the blanking frame body 91, the pressing plate 92 is loosened, the pressing plate 92 can press the detection test paper under the action of the first elastic piece 93, the detection test paper on the leftmost side is pressed and is difficult to fall from the opening of the blanking frame body 91, then water can be added into the detection cup 4 through the liquid inlet valve 62, the liquid inlet pipeline 61 and the shunt frame 5, then the water quality test pen 73 can be pressed downwards, the test end of the water quality test pen 73 extends into the middle detection cup 4, so that the test end of the water quality test pen 73 is in contact with the water, the metal content in a water sample in the detection cup 4 is detected, the water quality test pen 73 can pull the pressing plate 92 to move rightwards for a distance when detecting, so that the pressing plate 92 does not press the test paper any more, the leftmost test paper slides into the right-side test cup 4 through the opening, the test paper changes color after being stained with water, then the test paper can be taken out, the pollution degree in the test cup 4 can be judged by comparing the test paper with the colorimetric card 94, meanwhile, the water sample in the transparent test cup 4 can be observed by naked eyes, so that the turbidity degree of water can be judged, thus, the metal content and the pollution degree in the test cup 4 can be detected by the water quality test pen 73 and the test paper, the turbidity degree of water can be judged by naked eyes, the detection of a plurality of pollution data of the water sample can be realized, a plurality of devices are not needed to be used for respective detection, the operation is simpler, after the detection is finished, the pulling frame 81 can be operated to drive the clamping hook 811 to move backwards, the clamping hook 811 can move backwards and can pull the drainage cover 82 to rotate through the n-shaped rod 821, so that the drainage cover 82 does not block the water falling port any more, and the water in the three detection cups 4 is drained through the water falling port; in the in-process of in-service use, if need carry this device, only need make 2 lids of last casing under on casing 1, operate buckle 32 again and block locking piece 31, can be fixed with last casing 2 and casing 1 down, can carry last casing 2 through the handle of casing 2 department on hand afterwards, it is more convenient when the transport.

Example 2

In addition to embodiment 1, as shown in fig. 2, 11, 12 and 13, the test strip testing device further includes a clamping mechanism 10, the clamping mechanism 10 includes a sliding rod 101, a fixed clamp 102, a movable clamp 103, a second elastic member 104 and a wedge 105, the sliding rod 101 is slidably connected to a left side of the blanking frame 91, the fixed clamp 102 is connected to a lower portion of the sliding rod 101, the movable clamp 103 is slidably connected to a right side of the fixed clamp 102, the second elastic member 104 is connected between the movable clamp 103 and the fixed clamp 102, the second elastic member 104 can apply pressure to the movable clamp 103 to clamp the test strip by the movable clamp 103 and the fixed clamp 102, an inclined surface is disposed at a bottom of the blanking frame 91, a protrusion is disposed on the movable clamp 103, the protrusion contacts with the inclined surface of the blanking frame 91 when the movable clamp 103 moves upward and is pressed by the blanking frame 91 to move away from the fixed clamp 102 to expand a gap between the movable clamp 103 and the fixed clamp 102 for the test strip to fall, the wedge 105 is connected to a right side of the testing cup 4, and the wedge 105 contacts with the movable clamp 105 when the movable clamp moves downward, so as to release the test strip.

When the test paper in the blanking frame 91 needs to be taken out, the sliding rod 101 can be pulled to drive the movable clamp 103 and the fixed clamp 102 to move upwards, the upper protrusion of the movable clamp 103 moves rightwards under the extrusion of the blanking frame 91 when moving upwards, the second elastic piece 104 deforms, then the movable clamp 103 and the fixed clamp 102 move upwards continuously and can move upwards to the upper side of the leftmost test paper, at the moment, the pressing plate 92 is pulled to move rightwards, the leftmost test paper can fall between the movable clamp 103 and the fixed clamp 102, at the moment, the sliding rod 101 can be pulled to drive the movable clamp 103 and the fixed clamp 102 to move downwards, the movable clamp 103 does not move downwards under the extrusion of the blanking frame 91 after moving downwards, at the moment, the movable clamp 103 returns to be matched with the fixed clamp 102 under the action of the second elastic piece 104 to clamp the test paper, then the sliding rod 101 moves downwards to drive the test paper to move downwards to enter the test cup 4, and when the movable clamp 103 moves to be in contact with the wedge 105, the test paper can be pushed downwards to move downwards again, and the test paper can be prevented from falling to the position of the test cup 4, and the test paper can not fall off again.

As shown in fig. 2, fig. 14 and fig. 15, the automatic blanking device further includes a transmission assembly 11, the transmission assembly 11 includes a transmission rack 111, a transmission gear 112 and a transmission rack 113, a sliding slot is formed on the sliding rod 101, the sliding rod 101 is slidably connected to the transmission rack 111 through the sliding slot, the transmission rack 111 is slidably connected to the blanking frame 91, the transmission gear 112 is rotatably connected to the blanking frame 91, the transmission rack 113 is connected to the pressing plate 92, and both the transmission rack 113 and the transmission rack 111 are engaged with the transmission gear 112.

Initially, the position relationship of the sliding rod 101, the transmission rack 111, the transmission gear 112, the transmission rack 113 and other components is as shown in fig. 15, at this time, the transmission rack 111 is located at the lowest part of the sliding slot, when the sliding rod 101 is pulled to move upwards, the sliding rod 101 can push the transmission rack 111 to move upwards, the transmission rack 111 moves upwards and can drive the transmission rack 113 to move rightwards through the transmission gear 112, so as to drive the pressing plate 92 to move rightwards, so that the pressing plate 92 does not need to be pulled to move rightwards manually, the operation is more convenient, when the position relationship among the sliding rod 101, the transmission rack 111, the transmission rack 112 and the transmission rack 113 is as shown in fig. 14, the transmission rack 111 also moves upwards to the limit, the detection test paper also slides down, and then the sliding rod 101 can be operated to move downwards, and at this time, the transmission rack 111 can slide along the sliding slot on the sliding rod 101, and the transmission rack 111 cannot move downwards along with the transmission rack 111.

As shown in fig. 2 and 16, the device further includes a manipulating assembly 12, the manipulating assembly 12 includes a manipulating frame 121 and a third elastic member 122, the manipulating frame 121 is slidably connected between upper portions of the guide rails 71 on both sides, the manipulating frame 121 is respectively connected with the placing frame 72 and the sliding rod 101, the third elastic member 122 is connected between the manipulating frame 121 and the guide rails 71, and the placing frame 72 and the sliding rod 101 can be driven to move together by operating the manipulating frame 121 to move.

When the sliding rod 101 and the water quality testing pen 73 need to be controlled to move, the control frame 121 can be pulled to drive the sliding rod 101 and the water quality testing pen 73 to move, so that the sliding rod 101 and the water quality testing pen 73 can synchronously operate, the detection test paper and the water quality testing pen 73 can synchronously detect water quality, and the operation is more convenient.

As shown in fig. 2, 17 and 18, the turbidity auxiliary detection device 13 further comprises a turbidity auxiliary detection mechanism 13, the turbidity auxiliary detection mechanism 13 comprises a connecting frame 131, a stirrer 132 and a searchlight 133, the connecting frame 131 is connected to the left side of the operating frame 121, the connecting frame 131 is located above the left detection cup 4, the stirrer 132 and the searchlight 133 are mounted on the connecting frame 131, and the stirrer 132 is used for stirring water in the detection cup 4.

Handling frame 121 when the lapse, can drive link 131, mixer 132 and searchlight 133 lapse, mixer 132 is located transparent detection cup 4 after the lapse, searchlight 133 is located transparent detection cup 4 front side after the lapse, searchlight 133 can be opened afterwards, shine the water in the transparent detection cup 4, start mixer 132 simultaneously and come to stir the water in transparent detection cup 4, water stirs the impurity in it then can float from the bottom of the water after it, there is the searchlight 133 supplementary irradiation simultaneously, thereby can be more audio-visual the muddy degree of judgement transparent detection cup 4 water.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (6)

1. The utility model provides a multi-type reposition of redundant personnel detection device of water supply quality of water which characterized in that: the device comprises a lower shell (1), an upper shell (2), a lock catch structure (3), detection cups (4), a diversion frame (5), liquid inlet pipelines (61), a liquid inlet valve (62), a metal content detection mechanism (7), a drainage assembly (8) and a pollution detection mechanism (9), wherein the upper part of one side of the lower shell (1) is hinged with the upper shell (2), the top of the upper shell (2) is provided with a handle convenient to hold, the lock catch structure (3) is arranged between the upper shell (2) and the lower shell (1), the lock catch structure (3) is used for fixing the lower shell (1) and the upper shell (2), the lower shell (1) is internally provided with three detection cups (4) at intervals, one detection cup (4) is transparent, the lower shell (1) is connected with the diversion frame (5), the diversion frame (5) is provided with three liquid outlet ends, the three liquid outlet ends are respectively aligned with the three detection cups (4), the top of the diversion frame (5) is communicated with the liquid inlet pipelines (61), the liquid inlet pipeline (61) is provided with the liquid inlet valve (62), one non-transparent detection cup (7), the track detection mechanism (7) and the guide detection cup (71), the transparent detection mechanism (71) are arranged on two sides of the water quality detection pen (71) A placing frame (72) is connected between the guide rails (71) at the two sides in a sliding way, and a water quality testing pen (73) is arranged in the placing frame (72); a drainage component (8) for discharging water in the detection cup (4) is arranged on the lower shell (1), and a pollution detection mechanism (9) for placing test paper for detecting the pollution degree is arranged on the diversion frame (5); the pollution detection mechanism (9) comprises a blanking frame body (91), a pressing plate (92), a first elastic piece (93) and a color card (94), the blanking frame body (91) is connected onto the shunting frame (5), the blanking frame body (91) is positioned above the other non-transparent detection cup (4), the blanking frame body (91) is used for storing detection test paper, an opening is formed in the bottom of one side of the blanking frame body (91) and used for allowing the detection test paper to fall down, the position, far away from the opening, of the blanking frame body (91) is connected with the pressing plate (92) in a sliding mode, the first elastic piece (93) is connected between the pressing plate (92) and the blanking frame body (91), pressure can be applied to the pressing plate (92) through the first elastic piece (93), the detection test paper can be pressed through the pressing plate (92), and the color card (94) is arranged on the shunting frame (5); the test paper clamping device is characterized by further comprising a clamping mechanism (10), the clamping mechanism (10) comprises a sliding rod (101), a fixed clamp (102), a movable clamp (103), a second elastic piece (104) and a wedge block (105), the sliding rod (101) is connected to the position, close to an opening, of the blanking frame body (91) in a sliding mode, the fixed clamp (102) is connected to the lower portion of the sliding rod (101), the movable clamp (103) is connected to the fixed clamp (102) in a sliding mode, the second elastic piece (104) is connected between the movable clamp (103) and the fixed clamp (102), the second elastic piece (104) can apply pressure to the movable clamp (103), so that the movable clamp (103) and the fixed clamp (102) can clamp test paper, an inclined plane is arranged at the bottom of the blanking frame body (91), a bulge is arranged on the movable clamp (103), when the movable clamp (103) moves upwards, the bulge on the upper portion of the movable clamp can be in contact with the inclined plane of the blanking frame body (91) and can be extruded by the inclined plane of the blanking frame body (91), and move towards the direction away from the fixed clamp (102), so as to enlarge a gap between the movable clamp (103) and the fixed clamp (102), so that the movable clamp (105) and the lower portion (105) can move downwards, when the movable clamp (105) is located below the movable clamp (105) and is connected with the wedge block (103), the wedge block (105), and the movable clamp (103), the wedge block (105), when the movable clamp (103) moves downwards, the movable clamp (105) and the movable clamp (105) can move towards the movable clamp (103) and the movable clamp (105) and the movable clamp (103) and the movable clamp (105) can move downwards, and the lower portion (103) can move towards the movable clamp (105) To release the test strip.

2. The multi-type flow-dividing detection device for the quality of supplied water according to claim 1, characterized in that: hasp structure (3) are including buckle (32) and locking piece (31), go up casing (2) lower part and are provided with locking piece (31), and the rotation type is connected with buckle (32) on casing (1) down, goes up casing (2) and casing (1) down when closed, and buckle (32) are rotatory can be detained on locking piece (31) for it is fixed with casing (2) down.

3. The multi-split flow detection device for water quality of water supply according to claim 1, characterized in that: the drainage assembly (8) comprises a pulling frame (81), n-shaped rods (821), clamping hooks (811) and a drainage cover (82), the pulling frame (81) is connected to the lower shell (1) in a sliding mode, water falling ports are formed in the bottoms of the three detection cups (4), three water falling ports are formed in the bottom of the lower shell (1) at even intervals, the water falling ports in the lower shell (1) and the water falling ports in the bottoms of the detection cups (4) are overlapped, the drainage cover (82) used for blocking the water falling ports is connected to the water falling ports in a rotating mode in the water falling ports of the detection cups (4), the n-shaped rods (821) are arranged on the drainage cover (82), the three clamping hooks (811) are arranged on the pulling frame (81) at intervals, the three clamping hooks (811) respectively extend into the three n-shaped rods (821), and the pulling frame (81) can pull the n-shaped rods (821) to rotate when moving so as to drive the drainage cover (82) to rotate and not block the water falling ports.

4. The multi-type flow-dividing detection device for the quality of supplied water according to claim 1, characterized in that: still including transmission assembly (11), transmission assembly (11) are including transmission rack (111), drive gear (112) and transmission rack (113), the spout has been seted up on slide bar (101), slide bar (101) have transmission rack (111) through spout sliding connection, transmission rack (111) and unloading framework (91) sliding connection, the rotation type is connected with drive gear (112) on unloading framework (91), be connected with transmission rack (113) on clamp plate (92), transmission rack (113) and transmission rack (111) all mesh with drive gear (112).

5. The multi-split flow detection device for water quality of water supply according to claim 1, characterized in that: the multifunctional trolley is characterized by further comprising an operation assembly (12), the operation assembly (12) comprises an operation frame (121) and a third elastic piece (122), the operation frame (121) is connected between the guide rails (71) on the two sides in a sliding mode, the operation frame (121) is connected with the placing frame (72) and the sliding rod (101) respectively, the third elastic piece (122) is connected between the operation frame (121) and the guide rails (71), and the placing frame (72) and the sliding rod (101) can be driven to move together by operating the operation frame (121).

6. The multi-split flow detection device for water quality of water supply according to claim 2, characterized in that: still including turbidity auxiliary detection mechanism (13), turbidity auxiliary detection mechanism (13) are connected with link (131) on control frame (121) including link (131), mixer (132) and searchlight (133), and link (131) are located transparent detection cup (4) top that sets up, installs mixer (132) and searchlight (133) on link (131), and mixer (132) are used for stirring the water that detects in cup (4).

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