CN217329436U - Movable low-error water balance test analysis equipment - Google Patents

Abstract

The utility model discloses a portable low error water balance test analytical equipment, its technical scheme is: including the flowmeter, the equal fixedly connected with connecting pipe in flowmeter both sides, the inside latch mechanism that is equipped with of two connecting pipes, latch mechanism includes first pivot, first pivot inlays to be established in one of them connecting pipe bottom, flowmeter bottom outside cover is equipped with the transmission box, transmission box and two connecting pipe bottom fixed connection, first pivot extends to inside the transmission box, transmission box one side inlays and is equipped with the second pivot, the cavity has all been seted up to two connecting pipe bottoms, inside first pivot and second pivot top extended to two cavities respectively, transmission box inside inlays and is equipped with first gear and second gear, first gear and second gear are fixed the cover respectively and are established in the first pivot and the second pivot outside, the beneficial effects of the utility model are that: the utility model provides the high efficiency to the flowmeter installation, this device has reduced the complicated operating procedure of staff simultaneously.

Description

Movable low-error water balance test analysis equipment

Technical Field

The utility model relates to a water balance test technical field, concretely relates to portable low error water balance test analytical equipment.

Background

The water balance test is an effective method for scientific management of water consumption units, is also a basis for further making water-saving work in cities, and has the significance that the water balance test can comprehensively know the pipe network condition of the water consumption units and the current water consumption situation of each part, a water balance diagram is drawn, the water balance relation and the reasonable water consumption degree are found out according to the measured water consumption data, corresponding measures are taken, the water consumption potential is excavated, the water consumption management is enhanced, and the purpose of improving the reasonable water consumption level, namely common equipment for the water balance test comprises a water meter, a flowmeter and the like.

Current water balance test equipment generally uses the flowmeter to carry out the measurement and analysis to water unit flow, current flowmeter generally installs between two pipelines, thereby the convenience is measured water flow, but current flowmeter and pipe connection department generally are through threaded connection, consequently need the manual work to twist the flowmeter respectively with two pipelines and move and be connected, before rotatory again, need fix a position flowmeter one end, make flowmeter and pipeline align, just can make things convenient for the staff rotatory, this kind of mounting means is comparatively troublesome, also reduce the efficiency of flowmeter installation simultaneously, in addition, there is impurity in the current water inside, probably cause the damage to flowmeter inside for a long time.

Disclosure of Invention

Therefore, the utility model provides a portable low-error water balance test analytical equipment establishes two pipeline outsides with the connecting pipe cover at flowmeter both ends through the user for two locating plates are fixed a position the pipeline, make the pipeline align with the screwed pipe, twist after the location is accomplished and move the knob and rotate, the knob rotates and drives two screwed pipes and inlays to be established inside two pipelines, thereby install the flowmeter, it is comparatively troublesome in order to solve current flowmeter mounting means, also reduce the problem of the efficiency of flowmeter installation simultaneously.

In order to achieve the above object, the present invention provides the following technical solutions: a mobile low-error water balance test analysis device comprises a flowmeter, wherein connecting pipes are fixedly connected to two sides of the flowmeter, and clamping mechanisms are arranged inside the two connecting pipes;

the clamping mechanism comprises a first rotating shaft, the first rotating shaft is embedded at the bottom of one of the connecting pipes, a transmission box is sleeved on the outer side of the bottom of the flowmeter and fixedly connected with the bottom ends of the two connecting pipes, the first rotating shaft extends into the transmission box, a second rotating shaft is embedded on one side of the transmission box, cavities are formed in the bottom ends of the two connecting pipes, the top ends of the first rotating shaft and the second rotating shaft respectively extend into the two cavities, a first gear and a second gear are embedded in the transmission box and fixedly sleeved on the outer sides of the first rotating shaft and the second rotating shaft respectively, a first gear ring is embedded in the transmission box and meshed with the first gear and the second gear, a first bevel gear is embedded in the two cavities and fixedly connected with the top ends of the first rotating shaft and the second rotating shaft respectively, two all be equipped with second bevel gear in the first bevel gear outside, two the equal fixedly connected with square pole in the second bevel gear outside, two movable groove has all been seted up to the connecting pipe bottom, two square pole extends to two movable inslot portions respectively, two the square pole outside all overlaps and is equipped with the sleeve, two the annular has all been seted up inside the connecting pipe, two the annular is located two movable groove outsides respectively, two the sleeve outer end extends to inside two annulars respectively two the equal fixedly connected with third gear in sleeve outer end, two the connecting pipe is inside all to inlay and be equipped with fixed pipe, two the equal fixed cover in fixed pipe outside is equipped with the second ring gear, two the second ring gear inlays respectively and establishes inside two annulars, fixed intraduct is equipped with filter component.

Preferably, the filtering component comprises a filtering pipe, the filtering pipe is embedded in the fixed pipe, two purifying boxes are embedded in the filtering pipe, an impeller is arranged between the two purifying boxes, a rotating rod is fixedly embedded in the impeller, and the rotating rod is connected with the filtering pipe.

Preferably, the inner sides of the two fixed pipes are fixedly connected with connecting rings, the outer sides of the two connecting rings are provided with sliding grooves, the sliding blocks and the supporting plates are embedded in the sliding grooves, the bottom ends of the sliding blocks are fixedly connected with supporting plates, the supporting plates are embedded in the two movable grooves respectively, and the supporting plates are sleeved outside the sleeve respectively.

Preferably, the two locating plates are embedded in the connecting pipes, the pipelines are embedded in the two locating plates, the other side of the fixed pipe is fixedly connected with a threaded pipe, threads are arranged on the outer side of the threaded pipe, and the threaded pipe is in threaded connection with the pipelines.

Preferably, two equal fixedly connected with stopper in locating plate top and bottom, two the spacing groove has all been seted up inside the connecting pipe, two the stopper inlays respectively to be established in two spacing inslots, four the equal fixed gag lever post that inlays of limiting groove is equipped with, four the gag lever post inlays respectively to be established in four stoppers insidely.

Preferably, four springs are embedded in the limiting grooves, the springs are sleeved outside the four limiting rods respectively, and the springs are located on the inner sides of the four limiting blocks respectively.

Preferably, the four purification boxes are filled with activated carbon.

Preferably, a knob is fixedly connected to the bottom end of the first rotating shaft.

Preferably, first pivot and second pivot all pass through antifriction bearing swing joint with the transmission box junction, first pivot and second pivot pass through antifriction bearing swing joint with two connecting pipes respectively, two square pole passes through sealing washer bearing swing joint with two connecting pipes respectively.

Preferably, the inner sides of the two connecting rings are fixedly connected with sealing gaskets.

The utility model has the advantages that:

1. the utility model discloses a user establishes the connecting pipe cover at flowmeter both ends in two pipeline outsides for two locating plates are fixed a position the pipeline, make pipeline and screwed pipe align, twist the knob rotation after the location is accomplished, and the knob rotates and drives two screwed pipe inlays and establishes inside two pipelines, thereby installs the flowmeter, it is comparatively troublesome to solve current flowmeter mounting means, also reduces the problem of the efficiency of flowmeter installation simultaneously, the utility model provides the high efficiency of flowmeter installation, this device has reduced staff's complicated operating procedure simultaneously, brings very big convenience for the staff;

2. in addition, when the staff need dismantle the flowmeter, the user is reverse to be twisted and is moved the knob for two screwed pipes break away from inside two pipelines, break away from the completion back, because two locating plates have buffer function, consequently can dismantle it through two-way pulling flowmeter and take off, thereby make the staff dismantle more high-efficiently, also improved the efficiency to the water balance detection simultaneously, filtering component purifies the water consumption in this device simultaneously, prevents that impurity from causing the damage to the flowmeter for a long time.

Drawings

Fig. 1 is a schematic view of the overall structure provided by the present invention;

fig. 2 is a front view cross-sectional view provided by the present invention;

fig. 3 is an enlarged view of a point a in fig. 2 according to the present invention;

fig. 4 is an enlarged view of the point B in fig. 2 according to the present invention;

fig. 5 is an enlarged view of the point C in fig. 2 according to the present invention;

fig. 6 is a schematic view of a three-dimensional structure of a fixed pipe provided by the present invention;

in the figure: the device comprises a flowmeter 1, a connecting pipe 2, a first rotating shaft 3, a transmission box 4, a second rotating shaft 5, a cavity 6, a first gear 7, a second gear 8, a first gear ring 9, a first bevel gear 10, a second bevel gear 11, a square rod 12, a movable groove 13, a sleeve 14, a ring groove 15, a third gear 16, a fixed pipe 17, a second gear ring 18, a filter pipe 19, a purification box 20, an impeller 21, a rotating rod 22, a connecting ring 23, a sliding groove 24, a sliding block 25, a supporting plate 26, a positioning plate 27, a pipeline 28, a threaded pipe 29, a limiting block 30, a limiting groove 31, a limiting rod 32, a spring 33, a knob 34 and a sealing gasket 35.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Referring to the attached drawings 1-6, the utility model provides a mobile low-error water balance test analysis device, which comprises a flowmeter 1, wherein connecting pipes 2 are fixedly connected to both sides of the flowmeter 1, and a clamping mechanism is arranged inside the two connecting pipes 2;

the clamping mechanism comprises a first rotating shaft 3, the first rotating shaft 3 is embedded at the bottom of one connecting pipe 2, a transmission box 4 is sleeved outside the bottom of the flowmeter 1, the transmission box 4 is fixedly connected with the bottom ends of the two connecting pipes 2, the first rotating shaft 3 extends into the transmission box 4, a second rotating shaft 5 is embedded at one side of the transmission box 4, cavities 6 are respectively formed at the bottom ends of the two connecting pipes 2, the top ends of the first rotating shaft 3 and the second rotating shaft 5 respectively extend into the two cavities 6, a first gear 7 and a second gear 8 are embedded inside the transmission box 4, the first gear 7 and the second gear 8 are respectively fixedly sleeved outside the first rotating shaft 3 and the second rotating shaft 5, a first gear ring 9 is embedded inside the transmission box 4, the first gear ring 9 is meshed with the first gear 7 and the second gear 8, a first bevel gear 10 is embedded inside the two cavities 6, the two first bevel gears 10 are respectively and fixedly connected with the top ends of the first rotating shaft 3 and the second rotating shaft 5, the outer sides of the two first bevel gears 10 are respectively provided with a second bevel gear 11, the outer sides of the two second bevel gears 11 are respectively fixedly connected with square rods 12, the bottoms of the two connecting pipes 2 are respectively provided with a movable groove 13, the two square rods 12 respectively extend into the two movable grooves 13, the outer sides of the two square rods 12 are respectively sleeved with sleeves 14, annular grooves 15 are respectively formed in the two connecting pipes 2, the two annular grooves 15 are respectively positioned outside the two movable grooves 13, the outer ends of the two sleeves 14 respectively extend into the two annular grooves 15, the outer ends of the two sleeves 14 are respectively fixedly connected with third gears 16, fixed pipes 17 are respectively embedded in the two connecting pipes 2, the outer sides of the two fixed pipes 17 are respectively fixedly sleeved with second annular rings 18, the two second annular rings 18 are respectively embedded in the two annular grooves 15, and filtering components are arranged in the fixed pipes 17;

the filtering component comprises a filtering pipe 19, the filtering pipe 19 is embedded inside a fixed pipe 17, two purifying boxes 20 are embedded inside the filtering pipe 19, an impeller 21 is arranged between the two purifying boxes 20, a rotating rod 22 is fixedly embedded inside the impeller 21, the rotating rod 22 is connected with the filtering pipe 19, connecting rings 23 are fixedly connected to the inner sides of the two fixed pipes 17, sliding grooves 24 are formed in the outer sides of the two connecting rings 23, sliding blocks 25 are embedded inside the two sliding grooves 24, supporting plates 26 are fixedly connected to the bottom ends of the two sliding blocks 25, the two supporting plates 26 are respectively embedded inside the two movable grooves 13, the two supporting plates 26 are respectively sleeved on the outer sides of the sleeve 14, positioning plates 27 are embedded inside the two connecting pipes 2, a pipeline 28 is embedded inside the two positioning plates 27, a threaded pipe 29 is fixedly connected to the other side of the fixed pipe 17, threads are arranged on the outer side of the threaded pipe 29, and the threaded pipe 29 is connected with the pipeline 28 through threads, the top and the bottom of the two positioning plates 27 are fixedly connected with limit blocks 30, limit grooves 31 are formed in the two connecting pipes 2, the two limit blocks 30 are embedded in the two limit grooves 31 respectively, limit rods 32 are fixedly embedded in the four limit grooves 31 respectively, the four limit rods 32 are embedded in the four limit blocks 30 respectively, springs 33 are embedded in the four limit grooves 31 respectively, the four springs 33 are sleeved outside the four limit rods 32 respectively, the four springs 33 are located inside the four limit blocks 30 respectively, activated carbon is filled in the four purification boxes 20, and a knob 34 is fixedly connected to the bottom end of the first rotating shaft 3;

in this embodiment, the utility model is provided with two positioning plates 27 for positioning the pipe 28 by the user covering the connecting pipes 2 at the two ends of the flowmeter 1 on the outer sides of the two pipes 28, so that the pipe 28 is aligned with the threaded pipe 29, at this time, the threaded pipe 29 is engaged with the pipe 28, after the positioning is completed, the knob 34 is turned to rotate, the first shaft 3 and the first gear 7 are rotated by the rotation of the knob, the first gear 7 is rotated to drive the first gear ring 9 to rotate, the first gear ring 9 is rotated to drive the second gear 8 and the second shaft 5 to rotate, the first shaft 3 and the second shaft 5 are rotated to drive the two first bevel gears 10 to rotate, the two first bevel gears 10 are rotated to drive the two second bevel gears 11 and the square rod 12 to rotate, the square rod 12 is rotated to drive the two sleeves 14 and the third gear 16 to rotate, the third gear 16 is rotated to drive the two second gear rings 18 and the fixed pipe 17 to rotate, the fixed pipe 17 rotates to drive the threaded pipe 29 to rotate inside the pipeline 28, so that the threaded pipe 29 is embedded inside the pipeline 28, meanwhile, a filtering component inside the fixed pipe 17 filters impurities in water, when water flows through the impeller 21, the impeller 21 is driven to rotate, the impeller 21 rotates to enable the water entering the filtering pipe 19 to rotate, the water is enabled to be in uniform contact with activated carbon, the filtering effect is enabled to be higher, and therefore the flowmeter 1 is protected;

wherein, in order to realize the purpose of connection, this device adopts the following technical scheme to realize: the joints of the first rotating shaft 3 and the second rotating shaft 5 and the transmission box 4 are movably connected through rolling bearings, the first rotating shaft 3 and the second rotating shaft 5 are respectively movably connected with the two connecting pipes 2 through the rolling bearings, the two square rods 12 are respectively movably connected with the two connecting pipes 2 through sealing ring bearings, the rolling bearings enable the joints to be smoother, and the sealing ring bearings enable the joints not to leak when rotating;

wherein, in order to realize the purpose of sealing, this device adopts following technical scheme to realize: the inner sides of the two connecting rings 23 are fixedly connected with sealing gaskets 35, and the sealing gaskets 35 prevent water from flowing out.

The utility model discloses a use as follows: the utility model has the advantages that a user can sleeve the connecting pipes 2 at the two ends of the flowmeter 1 outside the two pipelines 28, so that the two positioning plates 27 can position the pipelines 28, the pipelines 28 are aligned with the screwed pipe 29, at the moment, the screwed pipe 29 is meshed with the pipelines 28, the knob 34 is screwed to rotate after the positioning is finished, the knob 34 rotates to drive the first rotating shaft 3 and the first gear 7 to rotate, the first gear 7 rotates to drive the first gear ring 9 to rotate, the first gear ring 9 rotates to drive the second gear 8 and the second rotating shaft 5 to rotate, the first rotating shaft 3 and the second rotating shaft 5 rotate to drive the two first bevel gears 10 to rotate, the two first bevel gears 10 rotate to drive the two second bevel gears 11 and the square rod 12 to rotate, the square rod 12 rotates to drive the two sleeves 14 and the third gear 16 to rotate, the third gear 16 rotates to drive the two second gear rings 18 and the fixed pipe 17 to rotate, the fixed pipe 17 rotates to drive the screwed pipe 29 to rotate inside the pipelines 28, thereby make screwed pipe 29 inlay and establish inside pipeline 28, the inside filter assembly of fixed pipe 17 filters the impurity of aquatic simultaneously, rivers are when impeller 21, it rotates to drive impeller 21, impeller 21 rotates and makes the inside water that gets into filter tube 19 rotate, make water and active carbon even contact, make the filter effect higher, thereby protect flowmeter 1, the same reason, when the staff need dismantle flowmeter 1, user reverse twist knob 34, make inside two screwed pipes 29 break away from two pipelines 28, break away from the completion after, because two locating plates 27 have buffer function, consequently can dismantle it through two-way pulling flowmeter 1 and take off.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solutions described above. Therefore, any simple modifications or equivalent replacements made according to the technical solution of the present invention belong to the scope of the claimed invention as far as possible.

Claims (10)

1. A mobile low-error water balance test analysis device, comprising a flowmeter (1), characterized in that: the two sides of the flowmeter (1) are fixedly connected with connecting pipes (2), and clamping mechanisms are arranged in the two connecting pipes (2);

the clamping mechanism comprises a first rotating shaft (3), the first rotating shaft (3) is embedded in the bottom of one of the connecting pipes (2), the transmission box (4) is sleeved on the outer side of the bottom of the flowmeter (1), the transmission box (4) is fixedly connected with the bottom ends of the two connecting pipes (2), the first rotating shaft (3) extends into the transmission box (4), a second rotating shaft (5) is embedded in one side of the transmission box (4), cavities (6) are formed in the bottom ends of the two connecting pipes (2), the top ends of the first rotating shaft (3) and the second rotating shaft (5) extend into the two cavities (6) respectively, a first gear (7) and a second gear (8) are embedded in the transmission box (4), the first gear (7) and the second gear (8) are fixedly sleeved on the outer sides of the first rotating shaft (3) and the second rotating shaft (5) respectively, a first gear ring (9) is embedded in the transmission box (4), the first gear ring (9) is meshed with the first gear (7) and the second gear (8) and is connected with the first gear (7) and the second gear (8), the first bevel gears (10) are embedded in the two cavities (6), the two first bevel gears (10) are respectively and fixedly connected to the top ends of the first rotating shaft (3) and the second rotating shaft (5), the second bevel gears (11) are respectively arranged on the outer sides of the two first bevel gears (10), square rods (12) are respectively and fixedly connected to the outer sides of the two second bevel gears (11), movable grooves (13) are respectively formed in the bottoms of the two connecting pipes (2), the two square rods (12) respectively extend into the two movable grooves (13), sleeves (14) are respectively sleeved on the outer sides of the two square rods (12), annular grooves (15) are respectively formed in the inner parts of the two connecting pipes (2), and the two annular grooves (15) are respectively located on the outer sides of the two movable grooves (13), two sleeve (14) outer end extends to inside two annular (15) respectively, two the equal fixedly connected with third gear (16) in sleeve (14) outer end, two connecting pipe (2) are inside all to inlay and to be equipped with fixed pipe (17), two fixed pipe (17) outside is all fixed the cover and is equipped with second ring gear (18), two second ring gear (18) inlay respectively and establish inside two annular (15), fixed pipe (17) inside is equipped with filtering component.

2. The mobile low-error water balance test analysis device of claim 1, wherein: the filter assembly comprises a filter pipe (19), the filter pipe (19) is embedded in a fixed pipe (17), two purification boxes (20) are embedded in the filter pipe (19), an impeller (21) is arranged between the purification boxes (20), a rotating rod (22) is embedded in the impeller (21) in a fixed mode, and the rotating rod (22) is connected with the filter pipe (19).

3. The mobile low-error water balance test analysis device of claim 1, wherein: two fixed pipe (17) inboard equal fixedly connected with go-between (23), two spout (24), two have been seted up in the go-between (23) outside spout (24) inside all inlays and is equipped with slider (25), two the equal fixedly connected with backup pad (26) in slider (25) bottom, two backup pad (26) are inlayed respectively and are established inside two activity grooves (13), two backup pad (26) are established respectively and are established in the sleeve (14) outside.

4. The mobile low-error water balance test analysis device of claim 1, wherein: two inside locating plate (27), two of all inlaying of connecting pipe (2) the inside pipeline (28) that all inlays of locating plate (27), fixed pipe (17) opposite side fixedly connected with screwed pipe (29), the screwed pipe (29) outside is equipped with the screw thread, screwed pipe (29) pass through threaded connection with pipeline (28).

5. The mobile low-error water balance test analysis device of claim 4, wherein: two equal fixedly connected with stopper (30) in locating plate (27) top and bottom, two spacing groove (31) have all been seted up, two inside of connecting pipe (2) stopper (30) inlay respectively and establish inside two spacing grooves (31), four inside equal fixed the inlaying of spacing groove (31) is equipped with gag lever post (32), four gag lever post (32) inlay respectively and establish inside four stopper (30).

6. The mobile low-error water balance test analysis device of claim 5, wherein: four spring (33) are all inlayed and are equipped with in spacing groove (31), four spring (33) are established respectively and are established in four gag lever post (32) outsides, four spring (33) are located four stopper (30) inboards respectively.

7. The mobile low-error water balance test analysis device of claim 2, wherein: the four purification boxes (20) are filled with activated carbon.

8. The mobile low-error water balance test analysis device of claim 1, wherein: the bottom end of the first rotating shaft (3) is fixedly connected with a knob (34).

9. The mobile low-error water balance test analysis device of claim 1, wherein: first pivot (3) and second pivot (5) all pass through antifriction bearing swing joint with transmission box (4) junction, first pivot (3) and second pivot (5) pass through antifriction bearing swing joint with two connecting pipes (2) respectively, two square pole (12) pass through sealing washer bearing swing joint with two connecting pipes (2) respectively.

10. A mobile low-error water balance test analysis apparatus according to claim 3, wherein: and sealing gaskets (35) are fixedly connected to the inner sides of the two connecting rings (23).

Images