CN208953190U - A kind of pressure transmitter for the power generation of glass furnace fume afterheat - Google Patents

Abstract

The utility model discloses a kind of pressure transmitters for the power generation of glass furnace fume afterheat, including shell, fixed device is equipped at the top and bottom of the shell, and fixed device includes fixed sleeving, the fixed sleeving is welded on the top of shell, and fixed block is welded in the top inner wall of fixed sleeving, and fixed block is cylindrical structure, and the bottom of fixed block is equipped with rotating block, the bottom of the rotating block is welded with rotor plate, limit plate is welded on the side outer wall of the shell, and shell is far from being welded with fixed plate on the side outer wall of limit plate, and the height of fixed plate is equal with the height of limit plate.The utility model can drive rotor plate to rotate when gas passes through shell, to be squeezed by stripper plate water pocket, different extruding degree can be shown according to the pressure of gas in shell, extruding force to water pocket can be amplified, facilitate pressure transmitter head to detect pressure, improves the sensitivity of device.

Description

A kind of pressure transmitter for the power generation of glass furnace fume afterheat

Technical field

The utility model relates to pressure transmitter technical field more particularly to it is a kind of for glass furnace fume afterheat power generation Pressure transmitter.

Background technique

The unfavorable industry in China mainly generates steam using waste heat, for daily production currently with the waste heat of flue gas And life, wherein production is mainly used for the heating of heavy oil, but the quantity of steam used and little, and to use natural gas be fuel into Capable glass production, wherein can almost not have to steam, therefore the waste heat of flue gas cannot be fully utilized, it is useless using glass Gas waste heat carries out the project that power generation is a comprehensive utilization of resources, generally requires pressure transmitter when using its power generation to detect Pressure in flue, but the general sensitivity of existing detection device is not high, cannot detect well to pressure, because This, needs a kind of pressure transmitter for the power generation of glass furnace fume afterheat and solves the above problems.

Utility model content

Purpose of the utility model is to solve disadvantages existing in the prior art, and the one kind proposed is used for glass furnace The pressure transmitter of fume afterheat power generation.

To achieve the goals above, the utility model adopts the technical scheme that

A kind of pressure transmitter for the power generation of glass furnace fume afterheat, including shell, the top and bottom of the shell It is equipped with fixed device, and fixed device includes fixed sleeving, the fixed sleeving is welded on the top of shell, and fixed sleeving Top inner wall on be welded with fixed block, and fixed block is cylindrical structure, and the bottom of fixed block is equipped with rotating block, described turn The bottom of motion block is welded with rotor plate, is welded with limit plate on the side outer wall of the shell, and shell far from limit plate one Fixed plate is welded on the outer wall of side, and the height of fixed plate is equal with the height of limit plate, the fixed plate is close to rotor plate It is welded with the first connecting tube on the outer wall of side, and the first connecting tube is far from being bonded with water pocket on the side outer wall of fixed plate, it is described It is welded with the second connecting tube being vertically arranged at the top of first connecting tube, and is equipped with floating block in the second connecting tube, the shell It is provided with installing port in top exterior walls, and is welded with vertical pipe on the inner wall of installing port, the inner wall of the vertical pipe is equipped with pressure Transmitter head, and the bottom of pressure transmitter head is connect by conducting wire with floating block.

Further, it is provided with annular groove on the outer wall of the rotating block and fixed block opposite side, and is put in annular groove It is equipped with the ball equidistantly distributed.

Further, the diameter of the ball is greater than two times of annular groove depth, and, it is welded on the side outer wall of rotor plate There is stripper plate, stripper plate is located remotely from one end of limit plate.

Further, the water pocket is connected with the first connecting tube and the second connecting tube, and water pocket is located at close to stripper plate Position at.

Further, baffle is welded on the two sides outer wall of the shell, and baffle is ring structure, baffle is far from perpendicular Rubber pad is bonded on the side outer wall of straight tube.

Further, it is socketed with mounting head on the two sides outer wall of the shell, and is provided with screw thread on the inner wall of mounting head.

Further, wiring hole is provided on the side outer wall of the shell, and the top of vertical pipe is equipped with display, display The bottom of device is connect with pressure transmitter head.

The utility model has the following beneficial effects:

1. enabling to shell quickly to connect with pipeline by the setting of mounting head, and pass through baffle and rubber It is even closer that the setting of pad enables to shell to connect with pipeline, improves the stability of device connection.

2. rotor plate can be driven to rotate when gas passes through shell by the setting of rotating block and ball, thus by squeezing Pressing plate squeezes water pocket, and different extruding degree can be shown according to the pressure of gas in shell.

3. the extruding force to water pocket can be amplified by the setting of the first connecting tube and the second connecting tube, facilitate pressure Power transmitter head detects pressure, improves the sensitivity of device.

Detailed description of the invention

Fig. 1 be the utility model proposes it is a kind of for glass furnace fume afterheat power generation pressure transmitter sectional structure Schematic diagram；

Fig. 2 be the utility model proposes it is a kind of for glass furnace fume afterheat power generation pressure transmitter shell section view Structural schematic diagram.

Fig. 3 be the utility model proposes it is a kind of for glass furnace fume afterheat power generation pressure transmitter front view structure Schematic diagram.

In figure: the fixed device of 1- shell, 2-, 3- rotor plate, 4- stripper plate, 5- water pocket, the first connecting tube of 6-, 7- are fixed Plate, the second connecting tube of 8-, 9- mounting head, 10- baffle, 11- rubber pad, 12- vertical pipe, 13- floating block, 14- pressure transmitter head, 15- display, 16- fixed sleeving, 17- fixed block, 18- ball, 19- rotating block, 20- limit plate, 21- wiring hole.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Referring to Fig.1-3, a kind of pressure transmitter for the power generation of glass furnace fume afterheat, including shell 1, the top of shell 1 Portion and bottom are equipped with fixed device 2, and fixed device 2 includes fixed sleeving 16, and fixed sleeving 16 is welded on the top of shell 1 Portion, and fixed block 17 is welded in the top inner wall of fixed sleeving 16, and fixed block 17 is cylindrical structure, and fixed block 17 Bottom is equipped with rotating block 19, and the bottom of rotating block 19 is welded with rotor plate 3, is welded with limit plate 20 on the side outer wall of shell 1, Drive rotor plate 3 to rotate when gas passes through shell 1 by rotating block 19 and ball 18, and shell 1 far from limit plate 20 one Fixed plate 7 is welded on the outer wall of side, and the height of fixed plate 7 is equal with the height of limit plate 20, fixed plate 7 is close to rotor plate 3 Side outer wall on be welded with the first connecting tube 6, and the first connecting tube 6 is far from being bonded with water pocket on the side outer wall of fixed plate 7 5, the top of the first connecting tube 6 is welded with the second connecting tube 8 being vertically arranged, and is equipped with floating block 13, shell in the second connecting tube 8 It is provided with installing port in 1 top exterior walls, and is welded with vertical pipe 12 on the inner wall of installing port, the inner wall of vertical pipe 12 is equipped with pressure Power transmitter head 14, and the bottom of pressure transmitter head 14 is connect by conducting wire with floating block 13.

In the utility model, annular groove, and annular groove are provided on the outer wall of 17 opposite side of rotating block 19 and fixed block Inside it is placed with the ball 1 equidistantly distributed, the diameter of ball 18 is greater than two times of annular groove depth, and, outside the side of rotor plate 3 Stripper plate 4 is welded on wall, stripper plate 4 is located remotely from one end of limit plate 20, and water pocket 5 is connect with the first connecting tube 6 and second Pipe 8 is connected, and the extruding force to water pocket 5 is amplified by the first connecting tube 6 and the second connecting tube 8, facilitates pressure inverting Device head 14 detects pressure, and water pocket 5 is located at the position of stripper plate 4, is squeezed by stripper plate 4 to water pocket 5 Pressure, is welded with baffle 10 on the two sides outer wall of shell 1, and baffle 10 is ring structure, baffle 10 far from vertical pipe 12 one It is bonded with rubber pad 11 on the outer wall of side, by baffle 10 and rubber pad 11 shell 1 is connect with pipeline even closer, improves The stability of device connection is socketed with mounting head 9 on the two sides outer wall of shell 1, makes shell 1 and pipe by mounting head 9 Road quickly connects, and screw thread is provided on the inner wall of mounting head 9, wiring hole 21 is provided on the side outer wall of shell 1, and perpendicular The top of straight tube 12 is equipped with display 15, and the bottom of display 15 is connect with pressure transmitter head 14.

Working principle: in use, rotational installation head 9 quickly connects shell 1 with pipeline, when connection, passes through baffle 10 and rubber pad 11 that shell 1 is connect with pipeline is even closer, pass through rotating block 19 and ball when gas passes through shell 1 18 drive rotor plate 3 to rotate, and then stripper plate 4 squeezes water pocket 5, and gas pressure is bigger, and stripper plate 4 is squeezed to water pocket 5 Pressure degree is bigger, and water squeezes floating block 13, the extruding force that floating block 13 is subject to by the first connecting tube 6 and the second connecting tube 8 when extruding Pressure transmitter head 14 is passed to, pressure is detected by pressure transmitter head 14, detection data cylinder display 15 is shown Out.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (7)

1. a kind of pressure transmitter for the power generation of glass furnace fume afterheat, including shell (1), which is characterized in that the shell (1) it is equipped at the top and bottom of fixed device (2), and fixed device (2) include fixed sleeving (16), the fixed sleeving (16) it is welded on the top of shell (1), and is welded with fixed block (17) in the top inner wall of fixed sleeving (16), and fixed block It (17) is cylindrical structure, and the bottom of fixed block (17) is equipped with rotating block (19), the bottom of the rotating block (19) is welded with Rotor plate (3) is welded with limit plate (20) on the side outer wall of the shell (1), and shell (1) far from limit plate (20) one It is welded on the outer wall of side fixed plate (7), and the height of fixed plate (7) is equal with the height of limit plate (20), the fixed plate (7) It is welded with the first connecting tube (6) on the side outer wall of rotor plate (3), and the one of the first connecting tube (6) separate fixed plate (7) It is bonded on the outer wall of side water pocket (5), the second connecting tube (8) being vertically arranged is welded at the top of first connecting tube (6), and Floating block (13) are equipped in second connecting tube (8), are provided with installing port, and the inner wall of installing port in the top exterior walls of the shell (1) On be welded with vertical pipe (12), the inner wall of the vertical pipe (12) is equipped with pressure transmitter head (14), and pressure transmitter head (14) bottom is connect by conducting wire with floating block (13).

2. a kind of pressure transmitter for the power generation of glass furnace fume afterheat according to claim 1, which is characterized in that institute It states and is provided with annular groove on the outer wall of rotating block (19) and fixed block (17) opposite side, and be placed with equidistant point in annular groove The ball (18) of cloth.

3. a kind of pressure transmitter for the power generation of glass furnace fume afterheat according to claim 2, which is characterized in that institute The diameter for stating ball (18) is greater than two times of annular groove depth, and, stripper plate (4) are welded on the side outer wall of rotor plate (3), Stripper plate (4) is located remotely from one end of limit plate (20).

4. a kind of pressure transmitter for the power generation of glass furnace fume afterheat according to claim 1, which is characterized in that institute It states water pocket (5) to be connected with the first connecting tube (6) and the second connecting tube (8), and water pocket (5) is located at close to the position of stripper plate (4) Set place.

5. a kind of pressure transmitter for the power generation of glass furnace fume afterheat according to claim 1, which is characterized in that institute It states and is welded on the two sides outer wall of shell (1) baffle (10), and baffle (10) is ring structure, baffle (10) is far from vertical pipe (12) rubber pad (11) are bonded on side outer wall.

6. a kind of pressure transmitter for the power generation of glass furnace fume afterheat according to claim 1, which is characterized in that institute It states and is socketed on the two sides outer wall of shell (1) mounting head (9), and be provided with screw thread on the inner wall of mounting head (9).

7. a kind of pressure transmitter for the power generation of glass furnace fume afterheat according to claim 1, which is characterized in that institute It states and is provided on the side outer wall of shell (1) wiring hole (21), and the top of vertical pipe (12) is equipped with display (15), display (15) bottom is connect with pressure transmitter head (14).