CN205620263U - Continuous measuring device of weighing type liquid density - Google Patents

Abstract

The utility model provides a continuous measuring device of weighing type liquid density, including the urceolus, the inner tube, weighing sensor and density changer, the inner tube lower part is coniform barrel, at its the bottom row of being equipped with cinder notch, the urceolus is equipped with the top cap, feed liquor pipe and leakage fluid dram, the top cap is established at the urceolus top, install weighing sensor on the top cap, weighing sensor passes through cable junction with the density changer, the inner tube is placed in the urceolus, be equipped with the jib on the inner tube lateral wall, jib one end is passed top through - hole and is connected with weighing sensor, the terminal of feed liquor pipe sets up at the top of inner tube opening part, the leakage fluid dram sets up in row cinder notch below. The utility model discloses rational in infrastructure, simple and easy, the suitability is strong, has avoided the contact of measuring transducer with the medium moreover, has reduced initial investment cost of equipment and maintenance cost, has very high using value.

Description

A kind of Weighing type fluid density continuous measuring device

Technical field

This utility model relates to a kind of device measuring fluid density, particularly relates to a kind of Weighing type fluid density continuous measuring device.

Background technology

The fluid density continuous measuring device applied the most in the industry, type mainly has mass flowmenter, tuning fork densimeter, gradiomanometer etc., price comparison is high, applying working condition is required higher, stability is not ideal enough, and mostly needs to put in testing medium by measurement apparatus, and corrosion or abrasion to measurement apparatus are stronger, make measurement apparatus shorter for service life, improve the cost of measurement apparatus accordingly.

Summary of the invention

Problem to be solved in the utility model is for the deficiencies in the prior art, designs the Weighing type fluid density continuous measuring device that a kind of simple in construction, the suitability are wide, stable.

Technical problem to be solved in the utility model is achieved through the following technical solutions, a kind of Weighing type fluid density continuous measuring device, it is characterized in: include urceolus, inner core, LOAD CELLS and density transmitter, described inner core bottom is cone shape cylinder, slag-drip opening it is provided with bottom it, described urceolus is provided with top cover, feed tube and leakage fluid dram, described top cover is located at urceolus top, top cover is provided with LOAD CELLS, described LOAD CELLS is connected by cable with density transmitter, described inner core is placed in urceolus, inner core sidewall is provided with suspension rod, described suspension rod one end is connected through top cover through hole with LOAD CELLS, the end of described feed tube is arranged at the upper opening of inner core, described leakage fluid dram is arranged on below slag-drip opening.

Technical problem to be solved in the utility model can also be realized further by following technical scheme: described urceolus bottom is set to coniform cylinder, and described leakage fluid dram is arranged on bottom urceolus.

Technical problem to be solved in the utility model can also be realized further by following technical scheme: is provided with the inclined floor being positioned at below slag-drip opening in described urceolus, and described leakage fluid dram is positioned close on the outer tube side wall of the relatively low one end of inclined floor.

Technical problem to be solved in the utility model can also be realized further by following technical scheme: be arranged over the weighing plate of horizontal positioned at described LOAD CELLS, and described weighing plate is connected by securing member with suspension rod termination.

Technical problem to be solved in the utility model can also be realized further by following technical scheme: is connected by oscillating bearing between described weighing plate and LOAD CELLS.

Technical problem to be solved in the utility model can also be realized further by following technical scheme: is installed with temperature sensor at described inner core top, and described temperature sensor is connected with density transmitter cable.

Technical problem to be solved in the utility model can also be realized further by following technical scheme: is provided with on described outer tube side wall and only shakes bolt.

Technical problem to be solved in the utility model can also be realized further by following technical scheme: is provided with top cover flange in urceolus top.

Technical problem to be solved in the utility model can also be realized further by following technical scheme: is provided with buffer board at described feed tube end.

Technical problem to be solved in the utility model can also be realized further by following technical scheme: is provided with observation panel and installing port on described outer tube side wall.

Compared with prior art; this utility model uses weighting manner to measure continuously; in urceolus, i.e. lay inner core; this inner core is connected with the LOAD CELLS being arranged on urceolus top cover; testing liquid continues to flow at the upper opening of inner core or overflow; bigger solid particle or the chopped fiber slag-drip opening bottom inner core is discharged; liquid gross weight in inner core and inner core acts on LOAD CELLS; by LOAD CELLS, signal is uploaded to density transmitter, thus realizes the continuous measurement of fluid density.This utility model is rational in infrastructure, simple, the suitability is strong, can be used for measuring high viscosity, containing bigger solid particle, liquid medium density containing more bubble, and the device avoids and measure contacting of sensor and medium, reduce equipment initial outlay cost and maintenance cost, have the highest using value.

Accompanying drawing explanation

Fig. 1 represents this utility model one structural representation.

Fig. 2 represents this utility model another kind structural representation.

Fig. 3 represents the third structural representation of the present utility model.

Detailed description of the invention

Referring to the drawings, concrete technical scheme of the present utility model is further described, in order to those skilled in the art is further understood that the present invention, and does not constitute the restriction to its right.

nullEmbodiment 1，With reference to Fig. 1，A kind of Weighing type fluid density continuous measuring device，Including urceolus 1、Inner core 2、LOAD CELLS 6 and density transmitter 7，Described inner core 2 bottom is cone shape cylinder，Slag-drip opening 14 it is provided with bottom it，Described urceolus 1 is provided with top cover 5、Feed tube 3 and leakage fluid dram 16，Described top cover 5 is located at urceolus 1 top，Top cover 5 is provided with LOAD CELLS 6，Described LOAD CELLS 6 is connected by cable with density transmitter 7，Described inner core 2 is placed in urceolus 1，Inner core 2 sidewall is fixedly welded with suspension rod 4，Described suspension rod 4 one end is connected through the through hole on top cover 5 with LOAD CELLS 6，The end of described feed tube 3 is arranged at the upper opening of inner core 2，Described leakage fluid dram 16 is arranged on below slag-drip opening 14，The liquid overflowed at inner core upper opening and solid particle or the chopped fiber discharged from slag-drip opening are all discharged from leakage fluid dram.

Embodiment 2, with reference to Fig. 2, in a kind of Weighing type fluid density continuous measuring device described in embodiment 1, described urceolus 1 bottom is set to coniform cylinder, and described leakage fluid dram 16 is arranged on the bottom of the coniform cylinder of urceolus.

Embodiment 3, with reference to Fig. 3, in a kind of Weighing type fluid density continuous measuring device described in embodiment 1, is provided with the inclined floor 19 being positioned at below slag-drip opening 14 in described urceolus 1, described leakage fluid dram 16 is positioned close on the outer tube side wall of the relatively low one end of inclined floor 19.

Embodiment 4, in a kind of Weighing type fluid density continuous measuring device described in embodiment 1 or 2 or 3, is arranged over the weighing plate 8 of horizontal positioned at described LOAD CELLS 6, and described weighing plate 8 is flexibly connected by bolt with the termination of suspension rod 4.

Embodiment 5, in a kind of Weighing type fluid density continuous measuring device described in embodiment 4, described weighing plate 8 is connected by oscillating bearing between LOAD CELLS 6.

Embodiment 6, in a kind of Weighing type fluid density continuous measuring device described in embodiment 1 or 2 or 3, is installed with temperature sensor 11 at described inner core 2 top, and described temperature sensor 11 is connected by cable with density transmitter 7.Temperature sensor 11 is modified after the real time temperature of testing liquid is reached density transmitter 7, is converted into standard signal teletransmission, eliminates the error caused because of the difference of temperature.

Embodiment 7, in a kind of Weighing type fluid density continuous measuring device described in embodiment 1 or 2 or 3, is provided with 3 equally distributed bolts 13 that only shake in the same level of outer tube side wall, only shakes between bolt and inner core and leave gap.

Embodiment 8, in a kind of Weighing type fluid density continuous measuring device described in embodiment 1 or 2 or 3, the top at urceolus 1 is provided with and coordinates the top cover flange 9 installed with top cover.

Embodiment 9, in a kind of Weighing type fluid density continuous measuring device described in embodiment 1 or 2 or 3, arranges buffer board 12 at described feed tube 3 end.

Embodiment 10, in a kind of Weighing type fluid density continuous measuring device described in embodiment 1 or 2 or 3, is provided with observation panel 10 and installing port 15 on described outer tube side wall, and observation panel is located at outer tube side wall top, and installing port is located at outer tube side wall bottom.

Claims (10)

1. a Weighing type fluid density continuous measuring device, it is characterized in that: include urceolus, inner core, LOAD CELLS and density transmitter, described inner core bottom is cone shape cylinder, slag-drip opening it is provided with bottom it, described urceolus is provided with top cover, feed tube and leakage fluid dram, described top cover is located at urceolus top, top cover is provided with LOAD CELLS, described LOAD CELLS is connected by cable with density transmitter, described inner core is placed in urceolus, inner core sidewall is provided with suspension rod, described suspension rod one end is connected through top cover through hole with LOAD CELLS, the end of described feed tube is arranged at the upper opening of inner core, described leakage fluid dram is arranged on below slag-drip opening.

A kind of Weighing type fluid density continuous measuring device the most according to claim 1, it is characterised in that: described urceolus bottom is set to coniform cylinder, and described leakage fluid dram is arranged on bottom urceolus.

A kind of Weighing type fluid density continuous measuring device the most according to claim 1, it is characterised in that: being provided with the inclined floor being positioned at below slag-drip opening in described urceolus, described leakage fluid dram is positioned close on the outer tube side wall of the relatively low one end of inclined floor.

4. according to a kind of Weighing type fluid density continuous measuring device described in claim 1 or 2 or 3, it is characterised in that: be arranged over the weighing plate of horizontal positioned at described LOAD CELLS, described weighing plate is connected by securing member with suspension rod termination.

A kind of Weighing type fluid density continuous measuring device the most according to claim 4, it is characterised in that: it is connected by oscillating bearing between described weighing plate and LOAD CELLS.

6. according to a kind of Weighing type fluid density continuous measuring device described in claim 1 or 2 or 3, it is characterised in that: being installed with temperature sensor at described inner core top, described temperature sensor is connected by cable with density transmitter.

7. according to a kind of Weighing type fluid density continuous measuring device described in claim 1 or 2 or 3, it is characterised in that: described outer tube side wall is provided with and only shakes bolt.

8. according to a kind of Weighing type fluid density continuous measuring device described in claim 1 or 2 or 3, it is characterised in that: it is provided with top cover flange in urceolus top.

9. according to a kind of Weighing type fluid density continuous measuring device described in claim 1 or 2 or 3, it is characterised in that: described feed tube end is provided with buffer board.

10. according to a kind of Weighing type fluid density continuous measuring device described in claim 1 or 2 or 3, it is characterised in that: on described outer tube side wall, it is provided with observation panel and installing port.