DE202004010505U1 - Fluid flow meter, for a water pipe, has a platform at the outer side of the pipe at a venturi section for a cover as a circuit board with two pressure sensors flanking the narrowed neck section of the pipe - Google Patents

Abstract

The fluid flow meter is composed of a pipe (21) and a cover (60) as a circuit board, with two pressure sensors (50). The pipe has a venturi structure with a tapering inflow (23) and an expanded outflow. The pipe forms a platform (22) at its outer side, with two recesses (22a,22b), each with a small hole (25,26) linked to the tapering and expanded pipe zones. The cover is over the platform, and carries the two sensors over the holes. An intermediate layer (40) is bonded by an adhesive to the under side of the cover, with openings (42) to hold the sensors.

Description

technical area

The Invention relates to a fluid flow meter, the two pressure sensors having.

State of the art

1 shows a conventional fluid flow meter ( 10 ), the interior of the tube ( 11 ) has a neck and thus forms a venturi tube. The entry area ( 13 ) the interior of the pipe ( 11 ) tapers and the outlet area ( 14 ) the interior of the pipe ( 11 ) is expanding. The neck is created at the junction of the inlet area and the outlet area.

The fluid flow meter ( 10 ) the fluid pressure (P ₁ ) in the inlet area ( 13 ) of the pipe ( 11 ) and the fluid pressure (P ₂ ) in the outlet area ( 14 ) of the pipe ( 11 ), use a microprocessor to calculate the pressure difference (P ₁ –P ₂ ) and convert it into flow quantity and flow rate, and then display these measured values.

To determine the pressure difference (P ₁ -P ₂ ), the pipe ( 11 ) of the fluid flow meter ( 10 ) a platform on the outside ( 12 ) that has a small hole ( 15 ) with the inlet area ( 13 ) of the pipe ( 11 ) connected is. The platform ( 12 ) also has a recess that a pressure sensor ( 18 ) and in the floor with a small hole ( 16 ) that is as close as possible to the neck and with the outlet area ( 14 ) of the pipe ( 11 ) connected is.

So that the pressure sensor ( 18 ) through the hole ( 15 ) the fluid pressure (P ₁ ) in the inlet area ( 13 ) is the platform ( 12 ) with a groove ( 19 ) provided the hole ( 15 ) with the top of the pressure sensor ( 18 ) connects. A lid ( 17 ) covers the platform ( 12 ). Therefore, the top and bottom of the pressure sensor ( 18 ) through the hole ( 15 ) the fluid pressure (P ₁ ) in the inlet area ( 13 ) and through the hole ( 16 ) the fluid pressure (P ₂ ) in the outlet area ( 14 ) to capture. These measurement signals are sent to the microprocessor, which calculates the pressure difference (P ₁ -P ₂ ) and converts it into the flow rate and flow rate.

This fluid flow meter ( 10 ) has the following disadvantages:

• 1. The fluid flow meter ( 10 ) has only one pressure sensor ( 18 ) to determine the pressure difference (P ₁ –P ₂ ) on both sides of the neck, with the top and bottom of the pressure sensor ( 18 ) are simultaneously loaded by the fluid pressure (P ₁ ) in the inlet area and the fluid pressure (P ₂ ) in the outlet area, so that the pressure sensor ( 18 ) can be damaged by the pressure difference and therefore has a shorter service life.
• 2. Since the platform ( 12 ) of the fluid flow meter ( 10 ) a horizontal groove ( 19 ) that is vertical to the hole ( 15 ), a distortion can occur when measuring the fluid pressure (P ₁ ), so that the measuring accuracy of the fluid flow meter ( 10 ) is low.
• 3. Since the platform ( 12 ) of the fluid flow meter ( 10 ) a horizontal groove ( 19 ), the lid ( 17 ) required. The adhesive force of the lid ( 17 ) on the platform ( 12 ) is however less than the fluid pressure (P ₁ ), which means that the cover ( 17 ) can be damaged, so that the fluid flow meter ( 10 ) becomes unbreakable.

Task of invention

The The invention has for its object a fluid flow meter to create the above disadvantages of the conventional solution can eliminate by providing two pressure sensors that the Fluid pressure in the inlet area and in the outlet area at the two Sides of the neck.

The Another object of the invention is a fluid flow meter create, the two pressure sensors arranged directly on a circuit board and are surrounded by silicone, and the circuit board as a lid trained and screwed to the tube, making the pressure resistance of the fluid flow meter elevated is so that the fluid flow meter a longer one Lab duration and a longer one measurement accuracy having.

The The invention is based on yet another object, a fluid flow meter create that when measuring the amount of flow of tap water, Spring water, mineral water and other packaged water at the same time their hardness and can measure purity.

Short description of the drawings

1 shows a sectional view of the conventional fluid flow meter ( 10 )

2 shows a perspective view of the fluid flow meter according to the invention ( 20 )

3 shows an exploded view of the fluid flow meter according to the invention ( 20 )

4 shows a perspective sectional view of the tube ( 21 ) of the fluid flow meter according to the invention ( 20 )

5 shows a perspective view of the lid ( 60 ) of the fluid flow meter according to the invention ( 20 ), which is designed as a printed circuit board and on which two pressure sensors ( 50 ) are provided

6 shows a perspective view of the lid ( 60 ) with an intermediate layer ( 40 ), the pressure sensors ( 50 ) of silicone ( 80 ) are enclosed,

7 shows a sectional view of the fluid flow meter according to the invention ( 20 )

8th shows a perspective view of the second embodiment of the fluid flow meter according to the invention ( 20 ), the pipe ( 21 ) at both ends with a connecting link ( 211 ) for a nozzle ( 90 ) is provided,

9 shows a perspective view of the third embodiment of the fluid flow meter according to the invention ( 20 ), on the outside of the tube ( 21 ) a TDS water quality meter ( 95 ) is provided.

Ways to Execute the invention

Referring to 2 to 7 there is the fluid flow meter according to the invention ( 20 ) essentially from a tube ( 21 ) and a lid ( 60 ), on which two pressure sensors ( 50 ) are provided. In the present preferred embodiment, the cover ( 60 ) designed as a printed circuit board on which a printed circuit and the two pressure sensors ( 50 ) are arranged.

How out 4 can be seen, the interior of the tube ( 21 ) a neck on (A) and thus forms a Venturi tube. Ie the inlet area ( 23 ) the interior of the pipe ( 21 ) tapers and the outlet area ( 24 ) the interior of the pipe ( 21 ) is expanding. The neck (A) is created at the junction of the inlet area and the outlet area.

How out 3 and 4 can be seen, the tube forms a platform on the outside ( 22 ), which has depressions. In the present preferred embodiment, two depressions ( 22a ) and( 22b ) provided, the recess ( 22a ) in the bottom with a small hole ( 25 ) which is provided with the tapering inlet area ( 23 ) of the pipe ( 21 ) is connected, and the recess ( 22b ) in the bottom with a small hole ( 26 ) that is as close as possible to the neck and with the widening outlet area ( 24 ) of the pipe ( 21 ) connected is.

The platform ( 22 ) of the pipe ( 21 ) has a positioning pin on both sides ( 27 ), which is also the platform ( 22 ) can reinforce. On the platform ( 22 ) positioning walls ( 22c ) be provided around a sealing washer ( 30 ) restrict.

The sealing washer ( 30 ) has a main body ( 31 ) that corresponds to the specializations ( 22a ), ( 22b ) the platform ( 22 ) of the pipe ( 21 ) two openings ( 32 ) owns and on the platform ( 22 ) rests around the gap between the depressions ( 22a ), ( 22b ) to seal so that fluid ingress is prevented.

The sealing washer ( 30 ) is on both sides according to the positioning pins ( 27 ) the platform ( 22 ) of the pipe ( 21 ) each with a positioning notch ( 33 ) Mistake. This allows the sealing washer ( 30 ) exactly on the platform ( 22 ) of the pipe ( 21 ) can be positioned to ensure the sealing effect of the sealing washer ( 30 ) to ensure.

How out 3 and 5 the lid ( 60 ) a main body ( 61 ), which is designed as a printed circuit board on which a printed circuit is provided. The main body ( 61 ) of the lid ( 60 ) is on both sides according to the positioning pins ( 27 ) the platform ( 22 ) each with a positioning notch ( 64 ) Mistake. This allows the lid ( 60 ) exactly on the platform ( 22 ) of the pipe ( 21 ) are positioned.

How out 3 and 7 the platform ( 22 ) also several threaded holes ( 22d ) on. Accordingly, the main body ( 61 ) of the lid ( 60 ) with holes ( 62 ) Mistake. The screws ( 70 ) through the holes ( 62 ) of the lid ( 60 ) in the threaded holes ( 22d ) the platform ( 22 ) of the pipe ( 21 ) are rotated, whereby the cover ( 60 ) with the platform ( 22 ) of the pipe ( 21 ) is screwed. Through the screw connection using the screws ( 70 ) the pressure resistance of the fluid flow meter ( 20 ) are increased so that damage to the cover ( 60 ) is avoided by the fluid pressure. In addition, the lid ( 60 ) by the screw connection against the sealing washer ( 30 ) on the platform ( 22 ) of the pipe ( 21 ) are pressed so that the sealing effect of the sealing washer ( 30 ) is guaranteed.

How out 3 . 5 and 6 can be seen includes the two pressure sensors ( 50 ) a highly sensitive sensor chip ( 51 ), Cables ( 52 ) and a glass ( 53 ). These pressure sensors ( 50 ) are on the main body ( 61 ) of the lid ( 60 ) attached and with the printed circuit of the cover ( 60 ) electrically connected. The two pressure sensors ( 50 ) are made of silicone ( 80 ) enclosed and thus completely isolated from the fluid. The pressure sensors ( 50 ) can still use the silicone ( 80 ) record the fluid pressure.

How out 3 and 6 can be seen, in the present preferred exemplary embodiment for isolating the pressure sensors ( 50 ) in silicone ( 80 ) an intermediate layer ( 40 ) that uses a main body ( 41 ) which has two openings ( 42 ) and on the main body ( 61 ) of the lid ( 60 ) is glued, whereby the pressure sensors ( 50 ) in the openings ( 42 ) are included. Then the silicone ( 80 ) in the openings ( 42 ) the liner ( 40 ) filled until the pressure sensors ( 50 ) completely of the silicone ( 80 ) are enclosed.

How out 3 . 6 and 7 can be seen is the main body ( 41 ) the liner ( 40 ) on both sides according to the positioning pins ( 27 ) the platform ( 22 ) of the pipe ( 21 ) each with a positioning notch ( 43 ) Mistake. This allows the intermediate layer ( 40 ) exactly on the platform ( 22 ) of the pipe ( 21 ) are positioned so that the intermediate layer ( 40 ) in connection with the sealing washer ( 30 ) achieved a sealing effect.

To glue the intermediate layer ( 40 ) on the lid ( 60 ) is the main body ( 61 ) of the lid ( 60 ) with positioning holes ( 63 ) and the main body ( 41 ) the liner ( 40 ) with positioning pins ( 44 ) Mistake. After coating the adhesive, the positioning pins ( 44 ) the liner ( 40 ) in the positioning holes ( 63 ) of the lid ( 60 ) so that the intermediate layer ( 40 ) on the lid ( 60 ) is glued.

After connecting the pipe ( 21 ) and the cover ( 60 ), as in 7 is shown, the pressure sensors ( 50 ) over the wells ( 22a ), ( 22b ) the platform ( 22 ) of the pipe ( 21 ) and are made of silicone ( 80 ) enclosed. Therefore, touching the pressure sensor ( 50 ) excluded with the fluid to be measured, so that the fluid flow meter according to the invention ( 20 ) can withstand the pressure difference over a wide range.

Since the lid ( 60 ) as a circuit board for the pressure sensors ( 50 ), loss or distortion of the measurement signal is avoided, as a result of which the measurement accuracy of the fluid flow meter ( 20 ) is increased.

How out 7 can be seen, the two pressure sensors ( 50 ) through the hole ( 25 ) of the pipe ( 21 ) the fluid pressure P1 in the inlet area ( 23 ) and through the hole ( 26 ) of the pipe ( 21 ) the fluid pressure P2 in the outlet area ( 24 ) and record the two measurement signals P1, P2 via the cover ( 60 ) send to a microprocessor, which calculates the pressure difference (P ₁ –P ₂ ), converts it into flow quantity Q and flow speed and displays it.

How out 8th can be seen, the pipe ( 21 ) of the fluid flow meter according to the invention ( 20 ) at one end or at both ends with a connecting link ( 211 ) for a nozzle ( 90 ) be provided so that the fluid flow meter ( 20 ) can be quickly connected to a pipeline. The link ( 211 ) of the pipe ( 21 ) can also have an internal thread (not shown) or an external thread (not shown) to connect directly to the pipeline.

How out 9 can be seen, the pipe ( 21 ) of the fluid flow meter according to the invention ( 20 ) a holder on the outside ( 28 ) to make a TDS (Total Dissolved Solids) water quality meter ( 95 ) which can measure the total amount of contaminants, foreign bodies and unknown chemicals in the water, so that the fluid flow meter according to the invention ( 20 ) can also be used to measure water hardness and water purity.

If the fluid flow meter according to the invention ( 20 ) is used to measure the flow of tap water, spring water, mineral water and other compacted water, it can measure their hardness and purity at the same time.

Claims (11)

Fluid flow meter that consists of a pipe ( 21 ) and a lid ( 60 ), on which two pressure sensors ( 50 ) are provided, the interior of the tube ( 20 ) forms a venturi tube and a tapering inlet area ( 23 ) and an expanding outlet area ( 24 ), the tube ( 21 ) a platform on the outside ( 22 ) forms the two wells ( 22a . 22b ), each with a small hole ( 25 . 26 ) which are provided with the tapering inlet area ( 23 ) and the expanding outlet area ( 24 ) are connected, and the cover ( 60 ) the platform ( 22 ) covers and the two pressure sensors ( 50 ) wearing the silicone ( 80 ) are enclosed and over the holes ( 25 . 26 ) lie. Fluid flow meter according to claim 1, characterized in that under the cover ( 60 ) an intermediate layer ( 40 ) is provided, the two openings ( 42 ) and on the lid ( 60 ) is glued, whereby the pressure sensors ( 50 ) in the openings ( 42 ) the liner ( 40 ) and the silicone ( 80 ) in the openings ( 42 ) the liner ( 40 ) is filled. Fluid flow meter according to claim 1 or 2, characterized in that on the platform ( 22 ) Positioning walls ( 22c ) are provided around a sealing washer ( 30 ) restrict. Fluid flow meter according to claim 3, characterized in that the cover ( 60 ) with positioning solution chern ( 63 ) and the liner ( 40 ) with positioning pins ( 44 ) is provided, which in the positioning holes ( 63 ) of the lid ( 60 ) can be inserted. Fluid flow meter according to claim 1 or 2, characterized in that the platform ( 22 ) Positioning pins ( 27 ) has. Fluid flow meter according to claim 1, 2 or 4, characterized in that the cover ( 60 ) is designed as a printed circuit board. Fluid flow meter according to claim 3, characterized in that the cover ( 60 ) is designed as a printed circuit board. Fluid flow meter according to claim 1, 2, 4 or 7, characterized in that the tube ( 21 ) at the end with a connecting link ( 211 ) for a nozzle ( 90 ) can be provided. Fluid flow meter according to claim 6, characterized in that the tube ( 21 ) at the end with a connecting link ( 211 ) for a nozzle ( 90 ) can be provided. Fluid flow meter according to claim 1, 2, 7 or 9, characterized in that on the outside of the tube ( 21 ) a TDS water quality meter ( 95 ) is provided. Fluid flow meter according to claim 8, characterized in that on the outside of the tube ( 21 ) a TDS water quality meter ( 95 ) is provided.