CN208476911U - Water quality use for laboratory water monitoring device - Google Patents

Abstract

The utility model proposes a kind of water quality use for laboratory water monitoring devices, belong to water quality inspection technique field, can be monitored to the water quality of different depth in water body.The water monitoring device includes cabinet, and the vessel for containing water body to be monitored are equipped in the cabinet, for placing the placement plate of the vessel, and the placement plate lifters for driving the placement plate to go up and down along the vertical direction；The placement plate lifters are fixedly connected on the bottom of the cabinet, and the placement plate is fixedly connected on the top of the placement plate lifters；Monitor and the monitor lifting assembly for driving the monitor to go up and down along the vertical direction are additionally provided in the cabinet；The monitor is connected to the cabinet wall by the monitor lifting assembly, and the monitor is located at the surface of the placement plate, and the monitor bottom has the probe that can be inserted into the vessel.

Description

Water quality use for laboratory water monitoring device

Technical field

The utility model belongs to water quality inspection technique field more particularly to a kind of water quality use for laboratory water monitoring device.

Background technique

Water quality monitoring is type, the concentration and variation tendency of each pollutant of pollutant in monitoring and measurement water body, into And the process of evaluating water quality situation.Water quality monitoring range is very extensive, including contaminated and contaminated natural water and each The industrial water drainage etc. of kind various kinds, main monitoring project can be divided into two major classes: one kind is to reflect the overall target of water quality condition, such as temperature Degree, coloration, turbidity, pH value, conductivity, suspended matter, dissolved oxygen, COD and biochemical oxygen demand (BOD) etc.；It is another kind of to be Noxious material, such as phenol, cyanogen, arsenic, lead, chromium, cadmium, mercury and organic agricultural chemicals.

Currently, the vessel for holding water body are usually put by the common water monitoring device in water quality laboratory in monitoring In water monitoring device body, water body is monitored using monitor.However, existing water quality use for laboratory water quality monitoring dress Set, monitor generallys use the mode of fixed installation, can not move, thus can not water quality to different depth in water body into Row monitoring, brings inconvenience to the monitoring of water quality.

Thus, how the water quality of different depth in water body is monitored, is a current technical problem urgently to be solved.

Utility model content

The utility model for the above technical issues, proposes a kind of water quality use for laboratory water monitoring device, can be right The water quality of different depth is monitored in water body.

In order to achieve the above object, the technical solution adopted in the utility model are as follows:

Water quality use for laboratory water monitoring device, including cabinet, the cabinet is interior to be equipped with for containing water body to be monitored Vessel, for placing the placement plate of the vessel, and the placement plate liter for driving the placement plate to go up and down along the vertical direction Part drops；The placement plate lifters are fixedly connected on the bottom of the cabinet, and the placement plate is fixedly connected on the placement plate The top of lifters；Monitor and the monitor for driving the monitor to go up and down along the vertical direction are additionally provided in the cabinet Lifting assembly；The monitor is connected to the cabinet wall by the monitor lifting assembly, and the monitor is located at institute The surface of placement plate is stated, the monitor bottom has the probe that can be inserted into the vessel.

Preferably, the monitor lifting assembly includes being vertically arranged to the intracorporal screw rod of the case, outside the screw rod It is arranged with the thread bush to match with the screw flight week, the thread bush is fixedly connected on the monitor；The monitoring Instrument lifting assembly further includes being installed on the intracorporal motor of the case, and the output end of the motor is solid by shaft coupling and the screw rod Fixed connection is to drive the screw rod to rotate；The monitor lifting assembly, which further comprises, is connected to the monitor and cabinet Link block between side wall, one end of the link block are fixedly connected on the monitor, the other end sliding of the link block It is connected to the side wall of the cabinet, and can be slided along the vertical direction relative to the wall box.

Preferably, the wall box is fixedly connected with rack gear, the rack gear extends along the vertical direction, the link block One end close to the wall box is connected with gear, and the wheel and rack is meshed.

Preferably, the length of the rack gear is longer than between the probe bottom end of the monitor and the placement plate top surface Vertical distance.

Preferably, the link block is connected with connecting rod close to one end of the gear, it is equipped in the connecting rod Gear shaft, the gear are installed on the periphery of the gear shaft, and can the gear shaft be axis rotation.

Preferably, being additionally provided with stop collar on the gear shaft, the stop collar is fixedly connected on the outer of the gear shaft Week, and the fitting on one side away from the connecting rod with the gear.

Preferably, being equipped with stabiliser bar in the cabinet along the vertical direction, the link block is equipped with along the vertical direction can Across the through hole of the stabiliser bar, the hole wall clearance fit of the periphery of the stabiliser bar and the through hole.

Preferably, the blocker ring for preventing the vessel from sliding from the placement plate is also equipped in the cabinet, The blocker ring is fixedly connected on the bottom of box, and is sheathed on outside the vessel.

Preferably, controller is also equipped on the cabinet, the controller and the placement plate lifters, monitor Lifting assembly and monitor are electrically connected, to control the lifting, the lifting of monitor and the monitoring of monitor of the placement plate Process；The controller is PLC controller.

Preferably, the placement plate lifters are telescopic cylinder.

Compared with prior art, advantages and beneficial effects of the utility model lie in that

1, water quality use for laboratory water monitoring device provided by the utility model, monitor are set to the placement for placing vessel The surface of plate can drive placement plate to go up and down along the vertical direction, can be driven by monitor lifting assembly by placement plate lifters Dynamic monitor is gone up and down along the vertical direction, can make to realize at the different depth of probe insertion water body of monitor bottom in water body The monitoring of different depth water quality；

2, water quality use for laboratory water monitoring device provided by the utility model, structure is simple, and it is convenient to operate, and is conducive to Improve water quality monitoring efficiency.

Detailed description of the invention

Fig. 1 is the schematic diagram of internal structure of water quality use for laboratory water monitoring device provided by the embodiment of the utility model；

Fig. 2 is the partial enlargement diagram in Fig. 1 at A；

Fig. 3 is the cross-sectional view in Fig. 1 along line B-B；

Fig. 4 is the external structure schematic diagram of water quality use for laboratory water monitoring device provided by the embodiment of the utility model；

In above each figure: 1, cabinet；2, vessel；3, blocker ring；4, placement plate；5, placement plate lifters；6, monitor； 61, it pops one's head in；7, screw rod；8, link block；9, stabiliser bar；10, shaft coupling；11, motor；12, gear；13, rack gear；14, connecting rod； 15, gear shaft；16, stop collar；17, thread bush；18, controller；19, chamber door；20, handle.

Specific embodiment

In the following, the utility model is specifically described by illustrative embodiment.It should be appreciated, however, that not having In the case where being further discussed below, element, structure and features in an embodiment can also be advantageously incorporated into other implementations In mode.

In the description of the present invention, it should be noted that term "inner", "outside", "top", "bottom", "front", "rear" etc. The orientation or positional relationship of instruction is to be merely for convenience of description the utility model and letter based on attached positional relationship shown in FIG. 1 Change description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific orientation construct and Operation, therefore should not be understood as limiting the present invention.

As shown in Figure 1-Figure 3, the utility model relates to a kind of water quality use for laboratory water monitoring device, including cabinet 1, casees The vessel 2 for containing water body to be monitored are equipped in body 1, for placing the placement plate 4 of vessel 2, and for driving placement plate 4 The placement plate lifters 5 gone up and down along the vertical direction；Placement plate lifters 5 are fixedly connected on the bottom of cabinet 1, and placement plate 4 is fixed It is connected to the top of placement plate lifters 5；Monitor 6 is additionally provided in cabinet 1 and for driving monitor 6 to go up and down along the vertical direction Monitor lifting assembly；Monitor 6 is connected to 1 inner wall of cabinet by monitor lifting assembly, and monitor 6 is located at placement plate 4 Surface, 6 bottom of monitor have can be inserted into vessel 2 in probe 61, with by probe 61 pairs of vessel 2 in water body water quality It is monitored.

In use, first passing through placement plate lifters 5 falls placement plate 4, then the vessel 2 for being loaded with water body to be monitored are placed In in placement plate 4, can be avoided the probe 61 for encountering monitor 6 when placing vessel 2 in this way；After vessel 2 are put well, pass through placement Plate lifters 5 drive placement plate 4 to go up and down the adjusting, it can be achieved that 2 placing height of vessel along the vertical direction, and then pass through monitor Lifting assembly driving monitor 6 is gone up and down along the vertical direction, and the probe 61 of 6 bottom of monitor can be made to be inserted into the different depth of water body Place realizes the monitoring to different depth water quality in water body.

In one embodiment, as shown in Figure 1, placement plate lifters 5 are telescopic cylinder, with stretching by cylinder Contracting driving placement plate 4 is gone up and down.It is put it is understood that those skilled in the art can also be used as using other suitable lifters Plate lifters 5 are set, as long as placement plate 4 can be driven to go up and down.

In one embodiment, as shown in figures 1 and 3, monitor lifting assembly includes being vertically arranged in cabinet 1 Screw rod 7,7 periphery of screw rod are arranged with the thread bush 17 to match with 7 screw thread of screw rod, and thread bush 17 is fixedly connected on monitor 6 The back side；Monitor lifting assembly further includes the motor 11 being installed in cabinet 1, and the output end of motor 11 passes through shaft coupling 10 and spiral shell Bar 7 is fixedly connected, to drive screw rod 7 to rotate；Monitor lifting assembly further comprises is connected to monitor 6 in the horizontal direction Link block 8 between 1 side wall of cabinet, one end of link block 8 are fixedly connected on the side of monitor 6, the other end of link block 8 It is slidably connected to the side wall of cabinet 1, and can be along the vertical direction relative to 1 side walls of cabinet, to prevent monitor 6 and thread bush 17 rotate with screw rod 7, go up and down thread bush 17 along screw rod 7 when screw rod 7 is rotated, and realize the lift adjustment of monitor 6.Using upper The monitor lifting assembly for stating structure is conducive to the lifting of stablizing for driving monitor 6, while its structure is simple, operation is convenient, has Conducive to raising monitoring efficiency.It should be noted that in the present embodiment, the top of screw rod 7 is flexibly connected with the roof of cabinet 1, Such as: mounting hole is set in the roof of cabinet 1, the top of screw rod 7 is inserted into mounting hole, and can be rotated in mounting hole, this Connection type can either standing screw 7 top, and the rotation of screw rod 7 will not be interfered.In addition it is also necessary to explanation, this reality The link block 8 used in example is applied as two pieces, is connected to the side of left and right two of monitor 6, two pieces of link blocks 8 are relative to spiral shell The setting of 7 mirror symmetry of bar.It is understood that those skilled in the art can also use the monitor lifting group of other structures Part is gone up and down along the vertical direction as long as driving monitor 6 can be played.

Specifically, as shown in Fig. 2, the concrete mode that link block 8 is connect with 1 side walls of cabinet are as follows: 1 side wall of cabinet is fixed It is connected with rack gear 13, rack gear 13 extends along the vertical direction, and link block 8 is connected with gear 12, gear close to one end of 1 side wall of cabinet 12 are meshed with rack gear 13, by gear 12 along 13 scrolling realization of rack gear link block 8 along the vertical direction relative to 1 side wall of cabinet Sliding.It should be noted that the length of rack gear 13 is longer than erecting between 4 top surface of 61 bottom end of probe and placement plate of monitor 6 Straight distance, to guarantee that the probe 61 of monitor 6 is inserted into the different depth of water body in vessel 2.It should be noted tooth Item 13 is embeddable in the groove of 1 side wall of cabinet setting.It is understood that those skilled in the art can also be using others Link block 8 is slidably connected to 1 side wall of cabinet, such as the slip connection mode that sliding block is matched with sliding slot by slip connection mode, As long as link block 8 can be made to be slidably connected to 1 side wall of cabinet, and can be along the vertical direction relative to 1 side walls of cabinet.

In addition it is also necessary to explanation, as shown in Fig. 2, the specific connection type of gear 12 and link block 8 are as follows: link block 8 It is connected with connecting rod 14 close to one end of gear 12, sprocket drive spindle 15 is installed in connecting rod 14, gear 12 is installed on gear shaft 15 Periphery, and can with gear shaft 15 be axis rotation.As a preference, as shown in Figures 2 and 3, limit is additionally provided on gear shaft 15 Position ring 16, stop collar 16 are fixedly connected on the periphery of gear shaft 15, and the fitting on one side away from connecting rod 14 with gear 12, lead to The stop collar 16 for crossing setting can effectively prevent gear 12 to be detached from from gear shaft 15, guarantee the normal operation of gear 12.

Further, in order to guarantee stability of the monitor 6 in lifting, as shown in figures 1 and 3, along vertical in cabinet 1 Direction is equipped with stabiliser bar 9, and link block 8 is equipped with the through hole that may pass through stabiliser bar 9 along the vertical direction, the periphery of stabiliser bar 9 with The hole wall clearance fit of through hole.When monitor 6 drives link block 8 to go up and down, stabiliser bar 9 plays guiding role, can guarantee Stability of the monitor 6 in lifting.It should be noted that the stabiliser bar 9 used in the present embodiment is two, two stabiliser bars 9 are arranged relative to 7 mirror symmetry of screw rod.In addition it is also necessary to explanation, stabiliser bar 9 and the specific connection type of cabinet 1 are, The top of stabiliser bar 9 is fixedly connected on the top of cabinet 1, and bottom end is fixedly connected on the bottom of cabinet 1, wherein is fixedly connected Mode can for welding, be threadedly coupled or other reasonable connection types.

In order to avoid vessel 2 slide from placement plate 4 in monitoring process, it is used for as shown in Figure 1, being also equipped in cabinet 1 The blocker ring 3 for preventing vessel 2 from sliding from placement plate 4, blocker ring 3 is fixedly connected on 1 bottom of cabinet, and is sheathed on outside vessel 2.Make To be a kind of preferred, as shown in figure 3, placement plate 4 can be passed through out of blocker ring 3, to avoid the lifting for interfering placement plate 4.In this reality It applies in example, placement plate 4 is circle, and the internal diameter of blocker ring 3 is greater than the diameter of placement plate 4, specifically, 3 internal diameter of blocker ring is than placing The big 1-5mm of 4 diameter of plate.

1 external structure of cabinet of above-mentioned water quality use for laboratory water monitoring device on cabinet 1 as shown in figure 4, be also equipped with Controller 18, controller 18 and placement plate lifters 5, monitor lifting assembly and monitor 6 are electrically connected, to control placement plate The monitoring process of 4 lifting, the lifting of monitor 6 and monitor 6.As a preference, controller 18 is PLC controller 18。

As shown in figure 4, cabinet 1 is equipped with openable chamber door 19, in order to which vessel 2 to be placed in the placement inside cabinet 1 On plate 4.It should be noted that chamber door 19 is equipped with handle 20 for the ease of the opening of chamber door 19.

In addition it is also necessary to explanation, the electric elements occurred in this article are electrically connected with 220V alternating current, and can with it is outer The main controller on boundary is electrically connected, and main controller can play the conventionally known equipment of control action for computer etc..

Water quality use for laboratory water monitoring device provided by the utility model, monitor 6 are set to the placement for placing vessel 2 The surface of plate 4 can drive placement plate 4 to go up and down along the vertical direction by placement plate lifters 5, can by monitor lifting assembly Driving monitor 6 is gone up and down along the vertical direction, the probe 61 of 6 bottom of monitor can be made to be inserted at the different depth of water body, realization pair The monitoring of different depth water quality in water body.Meanwhile water quality use for laboratory water monitoring device provided by the utility model, structure Simply, it is convenient to operate, and is conducive to improve water quality monitoring efficiency.

Claims (10)

1. water quality use for laboratory water monitoring device, including cabinet (1), it is characterised in that: be equipped in the cabinet (1) for containing The vessel (2) for filling water body to be monitored, for placing the placement plate (4) of the vessel (2), and for driving the placement plate (4) the placement plate lifters (5) gone up and down along the vertical direction；The placement plate lifters (5) are fixedly connected on the cabinet (1) Bottom, the placement plate (4) are fixedly connected on the top of the placement plate lifters (5)；

Monitor (6) and the monitor for driving the monitor (6) to go up and down along the vertical direction are additionally provided in the cabinet (1) Lifting assembly；The monitor (6) is connected to the cabinet (1) inner wall, the monitor by the monitor lifting assembly (6) it is located at the surface of the placement plate (4), monitor (6) bottom has the probe that can be inserted into the vessel (2) (61).

2. water quality use for laboratory water monitoring device according to claim 1, it is characterised in that: the monitor lifting group Part includes the screw rod (7) being vertically arranged in the cabinet (1), and screw rod (7) periphery is arranged with and the screw rod (7) screw thread The thread bush (17) to match, the thread bush (17) are fixedly connected on the monitor (6)；The monitor lifting assembly is also Including the motor (11) being installed in the cabinet (1), the output end of the motor (11) passes through shaft coupling (10) and the spiral shell Bar (7) is fixedly connected to drive the screw rod (7) to rotate；The monitor lifting assembly further includes being connected to the monitor (6) one end of the link block (8) between cabinet (1) side wall, the link block (8) is fixedly connected on the monitor (6), institute The other end for stating link block (8) is slidably connected to the side wall of the cabinet (1), and can be along the vertical direction relative to the cabinet (1) side walls.

3. water quality use for laboratory water monitoring device according to claim 2, it is characterised in that: cabinet (1) side wall It is fixedly connected with rack gear (13), the rack gear (13) extends along the vertical direction, and the link block (8) is close to the cabinet (1) side One end of wall is connected with gear (12), and the gear (12) is meshed with rack gear (13).

4. water quality use for laboratory water monitoring device according to claim 3, it is characterised in that: the length of the rack gear (13) Degree is longer than the vertical distance between probe (61) bottom end of the monitor (6) and the placement plate (4) top surface.

5. water quality use for laboratory water monitoring device according to claim 3, it is characterised in that: the link block (8) is leaned on One end of the nearly gear (12) is connected with connecting rod (14), installs sprocket drive spindle (15) on the connecting rod (14), the tooth Wheel (12) is installed on the peripheries of the gear shaft (15), and can the gear shaft (15) be that axis rotates.

6. water quality use for laboratory water monitoring device according to claim 5, it is characterised in that: on the gear shaft (15) Be additionally provided with stop collar (16), the stop collar (16) is fixedly connected on the periphery of the gear shaft (15), and with the gear (12) fitting on one side away from the connecting rod (14).

7. water quality use for laboratory water monitoring device according to claim 2, it is characterised in that: the interior edge of the cabinet (1) Vertical direction is equipped with stabiliser bar (9), and the link block (8) is equipped with along the vertical direction may pass through running through for the stabiliser bar (9) Hole, the periphery of the stabiliser bar (9) and the hole wall clearance fit of the through hole.

8. water quality use for laboratory water monitoring device according to claim 1, it is characterised in that: in the cabinet (1) also Blocker ring (3) for preventing the vessel (2) from sliding from the placement plate (4) is installed, the blocker ring (3) is fixedly connected In the cabinet (1) bottom, and it is sheathed on the vessel (2) outside.

9. water quality use for laboratory water monitoring device according to claim 1, it is characterised in that: on the cabinet (1) also It is equipped with controller (18), the controller (18) and the placement plate lifters (5), monitor lifting assembly and monitor (6) it is electrically connected, to control the lifting, the lifting of monitor (6) and the monitoring process of monitor (6) of the placement plate (4)； The controller (18) is PLC controller (18).

10. water quality use for laboratory water monitoring device according to claim 1, it is characterised in that: the placement plate lifting Part (5) is telescopic cylinder.