CN112629739A - Differential pressure transmitter - Google Patents

Abstract

The invention discloses a differential pressure transmitter, which comprises a pressure leading seat and a sealing cover, wherein the sealing cover is covered on the pressure leading seat, a diaphragm type pressure sensor is arranged in the sealing cover, a lead port is arranged at the top of the sealing cover, the diaphragm type pressure sensor is connected with a signal lead, the signal lead penetrates out of the lead port, a lead connector is wrapped on the signal lead, the lead connector is plugged in the lead port and sealed with the lead port, a negative pressure oil filling hole is also arranged on the sealing cover, and an oil plug is arranged in the negative pressure oil filling hole. When the pressure in the diaphragm type pressure sensor is too high, the diaphragm type pressure sensor has the tendency of outward separation, and the liquid pressure transmission medium in the installation cavity is not easily compressed, so that the separation tendency of the diaphragm type pressure sensor can be prevented to a certain extent, and the isolation diaphragm and/or the welding ring are prevented from abutting against the assembly part in a suspension installation mode, the isolation diaphragm cannot be deformed in the installation process, and the influence of clamping stress on the measurement precision is avoided.

Description

Differential pressure transmitter

Technical Field

The invention relates to a pressure measuring device, in particular to a differential pressure transmitter.

Background

The core detecting component of the capacitance differential pressure transmitter is a diaphragm type capacitance differential pressure transmitter (diaphragm type pressure sensor), which converts two external different pressure signals into corresponding capacitance changes, a rear detecting circuit converts the capacitance changes into electric signals, and the electric signals are processed and detected to obtain the differential pressure value of the external pressure.

The diaphragm type pressure sensor comprises two cake-shaped diaphragm seats, the edges of the two diaphragm seats are welded, a diaphragm deformation cavity is arranged between the two diaphragm seats, a measuring diaphragm is arranged between the two diaphragm seats, pressure transmission channels penetrate through the two diaphragm seats respectively, external pressure to be measured is introduced into the two sides of the measuring diaphragm, and the size of the deformation of the measuring diaphragm reflects the size of differential pressure.

The traditional diaphragm type pressure sensor is installed in a way that an isolation diaphragm is arranged on the outer wall of a diaphragm seat, the isolation diaphragm seals an outer port of a pressure transmission channel, a welding ring is generally arranged on the outer side of the isolation diaphragm for the convenience of installation and stability of the isolation diaphragm, and then silicone oil is filled in the pressure transmission channel and a diaphragm deformation cavity, so that a measurement diaphragm is kept at a fixed initial position, and a stable pressure system is formed inside the diaphragm type pressure sensor; the isolation diaphragms are fixed on the diaphragm type pressure sensor and then are installed together at the later stage; this leads to two major problems:

1. in the later assembling process, the isolation diaphragm and/or the welding ring is abutted against the assembling part and is influenced by clamping stress, the isolation diaphragm is easy to deform, so that the internal silicone oil is pushed to flow, the initial position of the measuring diaphragm of each transmitter is changed under different conditions, and the measuring precision is influenced;

2. when high-pressure fluid is measured, the internal pressure of the deformation cavity is obviously increased, the tendency that the welding seam of the two membrane seats is cracked is achieved, the condition is increased along with the time and the pressure is increased, and the service life of the diaphragm type pressure sensor is not prolonged.

Therefore, it is necessary to fully consider and solve the above problems and design a set of suitable technical solutions.

Disclosure of Invention

In view of the above, the present invention provides a differential pressure transmitter.

The technical scheme is as follows:

a differential pressure transmitter comprises a pressure leading seat and a sealing cover, wherein the sealing cover is covered on the pressure leading seat, a diaphragm type pressure sensor is arranged in the sealing cover, a lead port is arranged at the top of the sealing cover, the diaphragm type pressure sensor is connected with a signal lead, the signal lead penetrates out of the lead port, a lead connector is wrapped on the signal lead, and the lead connector is plugged in the lead port and sealed with the lead port;

and a negative pressure oil filling hole is also arranged on the sealing cover, and an oil plug is arranged in the negative pressure oil filling hole.

The advantage of the scheme above that adopts is, utilizes floated mounting means, has avoided isolation diaphragm and/or weld the ring and support with the assembly position and lean on, and isolation diaphragm can not discover to warp in the installation.

The negative pressure oil filler point includes screw hole section, taper hole section and the aperture section of switch-on in proper order, the macrostoma end of taper hole section with the screw section switch-on, the aperture end of taper hole section with the aperture section switch-on be equipped with the ball sealer in the taper hole section, oil shutoff screw thread is established soon in the screw hole section, oil is stifled will the ball sealer compresses tightly on the pore wall of taper hole section.

The pressure taking device also comprises two pressure taking seats which are arranged oppositely, and the pressure guiding seat is arranged between the two pressure taking seats;

two pressure guide channels penetrate through the pressure guide seats, one ends of the pressure guide channels are inlets, the other ends of the pressure guide channels are outlets, and the inlet ends of the two pressure guide channels face the two pressure taking seats respectively;

pressure taking channels penetrate through the two pressure taking seats respectively, the inner ends of the pressure taking channels are in butt joint with the inlet ends of the corresponding pressure guide channels, and the outer ends of the pressure taking channels penetrate through the corresponding pressure taking seats;

two pressure guiding pipes are led out of the diaphragm type pressure sensor, the inner ends of the two pressure guiding pipes are communicated with the inside of the diaphragm type pressure sensor, and the outer ends of the two pressure guiding pipes are respectively communicated with the outlet ends of the two pressure guiding channels.

And pressure guide pipe sockets are respectively arranged on the pressure guide seat around the outlet ends of the pressure guide channels, the outer ends of the pressure guide pipes are inserted into the corresponding pressure guide pipe sockets, and the outer walls of the pressure guide pipes and the pressure guide pipe sockets are welded and sealed.

The outlet ends of the two pressure guiding channels penetrate out of the same side face of the pressure guiding seat, a placing counter bore is further formed in the pressure guiding seat between the outlet ends of the two pressure guiding channels, and the lower portion of the diaphragm type pressure sensor is suspended in the placing counter bore.

Two parallel mounting side surfaces are arranged on the pressure guide seat in a back-to-back manner, the inlet ends of the two pressure guide channels respectively penetrate out of the two mounting side surfaces, an annular diaphragm mounting seat is arranged on the mounting side surface and surrounds the inlet end of the pressure guide channel, the diaphragm mounting seats are annular welding bosses, the insides of the diaphragm mounting seats enclose pressure guiding areas, inlet end ports of pressure guiding channels are respectively positioned in the corresponding pressure guiding areas, the two pressure taking seats correspond to the two mounting side surfaces one by one, the pressure taking seat is provided with an assembling plane corresponding to the mounting side surface, the assembling plane is jointed and sealed with the corresponding mounting side surface, and a pressure taking area is arranged on the assembly plane corresponding to the pressure leading area, the inner end of the pressure taking channel is communicated with the pressure taking area, and the pressure taking area is butted with the corresponding pressure leading area.

The pressure guide seat comprises a mounting base and a sensor mounting seat, the mounting base is in a cube shape, two opposite side surfaces of the mounting base form two mounting side surfaces, the mounting side surfaces are vertically arranged, the sensor mounting seat is fixed on the upper end surface of the mounting base, and the outlet ends of the two pressure guide channels respectively penetrate out of the upper end surface of the sensor mounting seat;

the sensor mounting seat comprises a horizontally placed butt joint disc, the lower surface of the butt joint disc is fixed with the upper end surface of the mounting base, a butt joint seat is fixed on the upper surface of the butt joint disc, the edge of the butt joint disc extends outwards and exceeds the butt joint seat, the pressure guiding pipe socket is positioned on the upper surface of the butt joint seat, the outer wall of the butt joint seat is provided with socket joint threads, the butt joint seat is covered with the sealing cover, the sealing cover is sleeved on the butt joint seat in a threaded mode, and the sealing cover abuts against the butt joint disc and is welded and sealed;

the outlet ends of the pressure guide channels penetrate out of the upper end face of the butt joint seat, the outlet ends of the two pressure guide channels are located at the same horizontal height, the projection of the connecting line of the outlet ends of the two pressure guide channels on the horizontal plane and the included angle of the installation side face are alpha, and alpha is 45 degrees.

The pressure guide seat is also provided with a pressure balance channel in a penetrating way, the pressure balance channel is vertically arranged, the upper end of the pressure balance channel upwards penetrates out of the butt joint seat, the lower end of the pressure balance channel downwards penetrates out of the installation base, and the lower end of the pressure balance channel and the inlet end of the pressure guide channel are connected with the same pressure source.

The inlet ends of the two pressure guide channels and the lower end of the pressure balance channel are respectively provided with an isolation diaphragm, and the edge of the isolation diaphragm is sealed and fixed with the pressure guide seat at the corresponding part;

the pressure guiding area is covered with the isolating diaphragm for plugging the inlet end of the pressure guiding channel, and the edge of the isolating diaphragm is welded and sealed with the annular welding boss;

the pressure guide channel, the pressure guide pipe and the diaphragm type pressure sensor are communicated with each other, the pressure balance channel is communicated with the inside of the sealing cover, and the inside and the outside of the diaphragm type pressure sensor are isolated from each other;

and pressure transmission media are filled in the pressure guide channel, the pressure guide pipe, the diaphragm type pressure sensor, the pressure balance channel and the sealing cover.

A steering counter bore is arranged on the bottom surface of the mounting base around the port at the lower end of the pressure balance channel;

the bottom of the steering counter bore is provided with the isolating diaphragm for plugging the port at the lower end of the pressure balance channel, and the edge of the isolating diaphragm is welded and sealed with the bottom of the steering counter bore;

the outer end of the steering counter bore is fixedly provided with a sealing plug, a balance pressure taking area is formed between the sealing plug and the corresponding isolation diaphragm, a balance pressure taking hole penetrates through the wall of the steering counter bore, the inner end of the balance pressure taking hole is communicated with the balance pressure taking area, the outer end of the balance pressure taking hole penetrates through the mounting base, and the outer end of the balance pressure taking hole and the inlet end of any pressure leading channel are positioned on the same side face of the mounting base;

and the pressure taking seat is also provided with a pressure taking branch hole, one end of the pressure taking branch hole is communicated with the pressure taking area, and the other end of the balance pressure taking hole is communicated with the pressure taking branch hole on any pressure taking seat.

Compared with the prior art, the invention has the beneficial effects that: when diaphragm formula pressure sensor internal pressure is too big, it has outside separately trend, and the difficult quilt of liquid form pressure transmission medium is compressed in the installation cavity, can prevent the separately trend of diaphragm formula pressure sensor to a certain extent to prevent it and split excessively fast, and adopt floated mounting means, avoided isolation diaphragm and/or weld ring and assembly position to support and lean on, isolation diaphragm can not discover the deformation in the installation, solved the influence of clamping stress to measurement accuracy.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of section D of FIG. 1;

FIG. 3 is a schematic perspective view of the present invention;

FIG. 4 is a schematic view showing the connection between the diaphragm pressure sensor 25 and the mounting base 23;

FIG. 5 is an enlarged view of section C of FIG. 4;

fig. 6 is a schematic sectional view showing the connection relationship of the diaphragm pressure sensor 25, the mounting base 23 and the sealing cap 3;

FIG. 7 is an enlarged view of portion A of FIG. 6;

FIG. 8 is an enlarged view of portion B of FIG. 6;

fig. 9 is a schematic structural view of the mounting base 23;

FIG. 10 is a top view of FIG. 9;

FIG. 11 is a cross-sectional view taken along line Z-Z' of FIG. 10.

Detailed Description

The present invention will be further described with reference to the following examples and the accompanying drawings.

As shown in fig. 1 to 11, a differential pressure transmitter comprises a pressure guiding base 2 and a sealing cover 3, wherein the sealing cover 3 is covered on the pressure guiding base 2, a diaphragm type pressure sensor 25 is arranged in the sealing cover 3, a lead port is arranged at the top of the sealing cover 3, the diaphragm type pressure sensor 25 is connected with a signal lead, the signal lead penetrates out of the lead port, a lead connector 31 is wrapped on the signal lead, and the lead connector 31 is plugged in the lead port and sealed with the lead port;

the sealing cover 3 is also provided with a negative pressure oil filling hole 3a, and an oil plug 32 is arranged in the negative pressure oil filling hole 3 a.

Wherein:

negative pressure oil filler point 3a is including the screw hole section, taper hole section and the aperture section that switch on in proper order, the macrostoma end of taper hole section with the screw hole section switch on, the aperture end of taper hole section with the aperture section switch on be equipped with ball sealer 33 in the taper hole section, oil blocks up 32 screw thread and establishes soon in the screw hole section, oil blocks up 32 will ball sealer 33 compresses tightly on the pore wall of taper hole section.

The pressure taking device also comprises two pressure taking seats 1 which are arranged oppositely, and the pressure leading seat 2 is arranged between the two pressure taking seats 1;

two pressure guide channels 2a penetrate through the pressure guide seat 2, one end of each pressure guide channel 2a is an inlet, the other end of each pressure guide channel 2a is an outlet, and the inlet ends of the two pressure guide channels 2a face the two pressure taking seats 1 respectively;

pressure taking channels 1a respectively penetrate through the two pressure taking seats 1, the inner ends of the pressure taking channels 1a are in butt joint with the inlet ends of the corresponding pressure guide channels 2a, and the outer ends of the pressure taking channels 1a penetrate through the corresponding pressure taking seats 1;

two pressure guiding pipes 251 are led out of the diaphragm type pressure sensor 25, the inner ends of the two pressure guiding pipes 251 are communicated with the inside of the diaphragm type pressure sensor 25, and the outer ends of the two pressure guiding pipes 251 are respectively communicated with the outlet ends of the two pressure guiding channels 2 a.

In a specific implementation, the free ends of the two pressure guiding pipes 251 are respectively connected with a high-pressure source and a low-pressure source.

Pressure guide tube sockets 22 are respectively arranged on the pressure guide seat 2 around the outlet end of the pressure guide channel 2a, the outer ends of the pressure guide tubes 251 are inserted into the corresponding pressure guide tube sockets 22, and the outer walls of the pressure guide tubes 251 and the pressure guide tube sockets 22 are welded and sealed.

The outlet ends of the two pressure guide channels 2a penetrate out of the same side face of the pressure guide seat 2, a placing counter bore is further formed in the pressure guide seat 2 between the outlet ends of the two pressure guide channels 2a, and the lower portion of the diaphragm type pressure sensor 25 is suspended in the placing counter bore.

The pressure guide seat 2 is oppositely provided with two parallel installation side surfaces, the inlet ends of the two pressure guide channels 2a respectively penetrate through the two installation side surfaces, annular membrane installation seats 21 are arranged on the installation side surfaces around the inlet ends of the pressure guide channels 2a, the membrane installation seats 21 are annular welding bosses, pressure guide areas are enclosed by the membrane installation seats 21, the inlet end ports of the pressure guide channels 2a are respectively positioned in the corresponding pressure guide areas, the two pressure taking seats 1 correspond to the two installation side surfaces one by one, the installation side surfaces of the pressure taking seats 1 corresponding to the pressure taking seats are provided with assembly planes, the assembly planes are attached to and sealed with the corresponding installation side surfaces, pressure taking areas 1b are arranged on the assembly planes corresponding to the pressure guide areas, and the inner ends of the pressure taking channels 1a are communicated with the pressure taking areas 1b, the pressure taking area 1b is butted with the corresponding pressure leading area.

The pressure guide seat 2 comprises a mounting base 23 and a sensor mounting seat 24, the mounting base 23 is in a cube shape, two opposite side surfaces of the mounting base 23 form two mounting side surfaces, the mounting side surfaces are vertically arranged, the sensor mounting seat 24 is fixed on the upper end surface of the mounting base 23, and the outlet ends of the two pressure guide channels 2a respectively penetrate out of the upper end surface of the sensor mounting seat 24;

the sensor mounting seat 24 includes a horizontally disposed docking tray 241, a lower surface of the docking tray 241 is fixed to an upper end surface of the mounting base 23, a docking seat 242 is fixed to an upper surface of the docking tray 241, an edge of the docking tray 241 extends outward and exceeds the docking seat 242, the pressure guiding pipe socket 22 is located on an upper surface of the docking seat 242, a socket screw is disposed on an outer wall of the docking seat 242, the docking seat 242 is covered with the sealing cover 3, the sealing cover 3 is screwed onto the docking seat 242, and the sealing cover 3 abuts against the docking tray 241 and is welded and sealed;

the outlet ends of the pressure guiding channels 2a penetrate out of the upper end face of the butt joint seat 242, the outlet ends of the two pressure guiding channels 2a are located at the same horizontal height, the projection of the connecting line of the outlet ends of the two pressure guiding channels 2a on the horizontal plane and the installation side face form an included angle of alpha, and alpha is 45 degrees.

Further improve pressure balance effect, still run through pressure balance passageway 2b on drawing pressure seat 2, this pressure balance passageway 2b vertical setting, the upper end of pressure balance passageway 2b upwards wears out butt joint seat 242, the lower extreme of pressure balance passageway 2b downwards wears out installation base 23, the lower extreme of pressure balance passageway 2b with draw the same pressure source of entrance point connection of pressure passageway 2 a.

The inlet ends of the two pressure guide channels 2a and the lower end of the pressure balance channel 2b are respectively provided with an isolation diaphragm 26, and the edge of the isolation diaphragm 26 is sealed and fixed with the pressure guide seat 2 at the corresponding part;

the pressure guiding area is covered with the isolating diaphragm 26 for plugging the inlet end of the pressure guiding channel 2a, and the edge of the isolating diaphragm is welded and sealed with the annular welding boss;

the pressure leading channel 2a, the pressure leading pipe 251 and the diaphragm type pressure sensor 25 are communicated with each other, the pressure balance channel 2b is communicated with the inside of the sealing cover 3, and the inside and the outside of the diaphragm type pressure sensor 25 are isolated from each other;

the pressure-conducting channel 2a, the pressure-conducting tube 251, the diaphragm pressure sensor 25, the pressure-equalizing channel 2b and the sealing cap 3 are filled with a pressure-transmitting medium.

A steering counter bore 2c is arranged on the bottom surface of the mounting base 23 around the lower end port of the pressure balance channel 2 b;

the bottom of the steering counter bore 2c is provided with the isolation diaphragm 26 for plugging the lower end port of the pressure balance channel 2b, and the edge of the isolation diaphragm is welded and sealed with the bottom of the steering counter bore 2 c;

a sealing plug 27 is fixedly arranged at the outer end of the steering counter bore 2c, a balance pressure taking area is formed between the sealing plug 27 and the corresponding isolation diaphragm 26, a balance pressure taking hole 2d penetrates through the hole wall of the steering counter bore 2c, the inner end of the balance pressure taking hole 2d is communicated with the balance pressure taking area, the outer end of the balance pressure taking hole 2d penetrates through the mounting base 23, and the outer end of the balance pressure taking hole 2d and the inlet end of any pressure leading channel 2a are positioned on the same side face of the mounting base 23;

the pressure taking seat 1 is further provided with a pressure taking branch hole 1c, one end of the pressure taking branch hole 1c is communicated with the pressure taking area 1b, and the other end of the balance pressure taking hole 2d is communicated with the pressure taking branch hole 1c on any one pressure taking seat 1. More preferably, the outer end of the pressure equalizing channel 2b is connected to the high pressure source.

Two first negative pressure oil injection holes are further formed in the pressure guiding seat 2, two first negative pressure oil injection holes penetrate through the sealing cover 3 and correspond to the two pressure guiding areas respectively, one end of each first negative pressure oil injection hole penetrates out of the pressure guiding seat 2, the other end of each first negative pressure oil injection hole is communicated with the corresponding pressure guiding area, a second negative pressure oil injection hole 3a penetrates through the sealing cover 3, and the inside and the outside of the sealing cover 3 are communicated through the second negative pressure oil injection hole 3 a;

in the structure, except for the sealing cover 3, other parts are firstly installed into a whole, the two first negative pressure oil injection holes are vacuumized and kept consistent in vacuum degree, then silicon oil is injected into the two first negative pressure oil injection holes by switching valves of an air path and an oil path, the silicon oil is filled in the pressure guide area, the pressure guide channel 2a, the pressure guide pipe 251 and the diaphragm type pressure sensor 25, and then a first oil plug is arranged in the first negative pressure oil injection hole for plugging; and then observing whether oil leaks or not, if no oil leaks, assembling the sealing cover 3, sealing, vacuumizing through the second negative pressure oil injection hole 3a, injecting silicon oil into the second negative pressure oil injection hole 3a through a valve for switching an air path and an oil path, filling the inside (an installation cavity) of the sealing cover 3 and the pressure balance channel 2b with the silicon oil, and finally arranging a second oil plug 32 in the negative pressure oil injection hole 3a for plugging.

Finally, it should be noted that the above-mentioned description is only a preferred embodiment of the present invention, and those skilled in the art can make various similar representations without departing from the spirit and scope of the present invention.

Claims (10)

1. A differential pressure transmitter, characterized by: the pressure-guiding device comprises a pressure-guiding seat (2) and a sealing cover (3), wherein the sealing cover (3) is covered on the pressure-guiding seat (2), a diaphragm type pressure sensor (25) is arranged in the sealing cover (3), a lead port is arranged at the top of the sealing cover (3), the diaphragm type pressure sensor (25) is connected with a signal lead, the signal lead penetrates out of the lead port, a lead connector (31) is wrapped on the signal lead, and the lead connector (31) is blocked in the lead port and sealed with the lead port;

the sealing cover (3) is also provided with a negative pressure oil filling hole (3a), and an oil plug (32) is arranged in the negative pressure oil filling hole (3 a).

2. The differential pressure transmitter of claim 1, wherein: negative pressure oil filler point (3a) are including screw hole section, taper hole section and the aperture section of switch-on in proper order, the macrostoma end of taper hole section with the screw hole section switch-on, the aperture end of taper hole section with the aperture section switch-on be equipped with ball sealer (33) in the taper hole section, oil stifled (32) screw thread is established soon in the screw hole section, oil stifled (32) will ball sealer (33) compress tightly on the pore wall of taper hole section.

3. The differential pressure transmitter of claim 1, wherein: the pressure extraction device is characterized by also comprising two pressure extraction seats (1) which are arranged oppositely, wherein the pressure guide seat (2) is arranged between the two pressure extraction seats (1);

two pressure guide channels (2a) penetrate through the pressure guide seat (2), one ends of the pressure guide channels (2a) are inlets, the other ends of the pressure guide channels (2a) are outlets, and the inlet ends of the two pressure guide channels (2a) respectively face the two pressure taking seats (1);

pressure taking channels (1a) respectively penetrate through the two pressure taking seats (1), the inner ends of the pressure taking channels (1a) are in butt joint with the inlet ends of the corresponding pressure guide channels (2a), and the outer ends of the pressure taking channels (1a) penetrate through the corresponding pressure taking seats (1);

two pressure guiding pipes (251) are led out of the diaphragm type pressure sensor (25), the inner ends of the two pressure guiding pipes (251) are communicated with the inside of the diaphragm type pressure sensor (25), and the outer ends of the two pressure guiding pipes (251) are communicated with the outlet ends of the two pressure guiding channels (2a) respectively.

4. The differential pressure transmitter of claim 3, wherein: and pressure guide pipe sockets (22) are respectively arranged on the pressure guide seat (2) around the outlet ends of the pressure guide channels (2a), the outer ends of the pressure guide pipes (251) are inserted into the corresponding pressure guide pipe sockets (22), and the outer walls of the pressure guide pipes (251) and the pressure guide pipe sockets (22) are welded and sealed.

5. The differential pressure transmitter of claim 4, wherein: the outlet ends of the two pressure guide channels (2a) penetrate out of the same side face of the pressure guide seat (2), a placing counter bore is further formed in the pressure guide seat (2) between the outlet ends of the two pressure guide channels (2a), and the lower portion of the diaphragm type pressure sensor (25) is suspended in the placing counter bore.

6. The differential pressure transmitter of claim 5, wherein: the pressure guide seat (2) is back provided with two parallel mounting side surfaces, the inlet ends of the two pressure guide channels (2a) respectively penetrate out of the two mounting side surfaces, annular membrane mounting seats (21) are arranged on the mounting side surfaces around the inlet ends of the pressure guide channels (2a), the membrane mounting seats (21) are annular welding bosses, an pressure guide area is defined by the interior of each membrane mounting seat (21), the inlet end ports of the pressure guide channels (2a) are respectively positioned in the corresponding pressure guide areas, the two pressure taking seats (1) correspond to the two mounting side surfaces one by one, the pressure taking seats (1) are provided with assembling planes corresponding to the mounting side surfaces thereof, the assembling planes are attached to and sealed with the corresponding mounting side surfaces, pressure taking areas (1b) are arranged on the assembling planes corresponding to the pressure guide areas, and the inner ends of the pressure taking channels (1a) are communicated with the pressure taking areas (1b), the pressure taking area (1b) is butted with the corresponding pressure leading area.

7. The differential pressure transmitter of claim 6, wherein: the pressure guide seat (2) comprises a mounting base (23) and a sensor mounting seat (24), the mounting base (23) is in a cube shape, two opposite side surfaces of the mounting base (23) form two mounting side surfaces, the mounting side surfaces are vertically arranged, the sensor mounting seat (24) is fixed on the upper end surface of the mounting base (23), and the outlet ends of the two pressure guide channels (2a) respectively penetrate out of the upper end surface of the sensor mounting seat (24);

the sensor mounting seat (24) comprises a horizontally-arranged butt joint disc (241), the lower surface of the butt joint disc (241) is fixed with the upper end surface of the mounting base (23), a butt joint seat (242) is fixed on the upper surface of the butt joint disc (241), the edge of the butt joint disc (241) extends outwards and exceeds the butt joint seat (242), the pressure leading pipe socket (22) is located on the upper surface of the butt joint seat (242), the outer wall of the butt joint seat (242) is provided with a socket screw thread, the butt joint seat (242) is covered with the sealing cover (3), the sealing cover (3) is sleeved on the butt joint seat (242) through the screw thread, and the sealing cover (3) abuts against the butt joint disc (241) and is welded and sealed;

the outlet ends of the pressure guide channels (2a) penetrate out of the upper end face of the butt joint seat (242), the outlet ends of the two pressure guide channels (2a) are located at the same horizontal height, the projection of the connecting line of the outlet ends of the two pressure guide channels (2a) on the horizontal plane and the installation side face form an included angle alpha, and alpha is 45 degrees.

8. The differential pressure transmitter of claim 7, wherein: a pressure balance channel (2b) penetrates through the pressure guide seat (2), the pressure balance channel (2b) is vertically arranged, the upper end of the pressure balance channel (2b) upwards penetrates out of the butt joint seat (242), the lower end of the pressure balance channel (2b) downwards penetrates out of the mounting base (23), and the lower end of the pressure balance channel (2b) and the inlet end of the pressure guide channel (2a) are connected with the same pressure source.

9. The differential pressure transmitter of claim 8, wherein: the inlet ends of the two pressure guide channels (2a) and the lower end of the pressure balance channel (2b) are respectively provided with an isolation diaphragm (26), and the edge of the isolation diaphragm (26) is sealed and fixed with the pressure guide seat (2) at the corresponding part;

the pressure guiding area is covered with the isolating diaphragm (26) used for plugging the inlet end of the pressure guiding channel (2a), and the edge of the isolating diaphragm is welded and sealed with the annular welding boss;

the pressure guide channel (2a), the pressure guide pipe (251) and the diaphragm type pressure sensor (25) are communicated with each other, the pressure balance channel (2b) is communicated with the inside of the sealing cover (3), and the inside and the outside of the diaphragm type pressure sensor (25) are isolated from each other;

the pressure channel (2a), the pressure tube (251), the diaphragm pressure sensor (25), the pressure compensation channel (2b) and the sealing cap (3) are filled with a pressure transmission medium.

10. The differential pressure transmitter of claim 9, wherein: a steering counter bore (2c) is arranged on the bottom surface of the mounting base (23) around the lower end port of the pressure balance channel (2 b);

the bottom of the steering counter bore (2c) is provided with the isolation diaphragm (26) for plugging the lower end port of the pressure balance channel (2b), and the edge of the isolation diaphragm is welded and sealed with the bottom of the steering counter bore (2 c);

the outer end of the steering counter bore (2c) is also fixedly provided with a sealing plug (27), a balance pressure taking area is formed between the sealing plug (27) and the corresponding isolation diaphragm (26), a balance pressure taking hole (2d) penetrates through the wall of the steering counter bore (2c), the inner end of the balance pressure taking hole (2d) is communicated with the balance pressure taking area, the outer end of the balance pressure taking hole (2d) penetrates out of the mounting base (23), and the outer end of the balance pressure taking hole (2d) and the inlet end of any pressure guide channel (2a) are positioned on the same side face of the mounting base (23);

the pressure taking seat (1) is further provided with a pressure taking branch hole (1c), one end of the pressure taking branch hole (1c) is communicated with the pressure taking area (1b), and the other end of the balance pressure taking hole (2d) is communicated with the pressure taking branch hole (1c) on any one pressure taking seat (1).

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