CN109668159A - A kind of shock-wave ash-clearing rifle - Google Patents

Abstract

A kind of shock-wave ash-clearing rifle, including guiding tube, energy storage canister and release pipe, described guiding tube one end is provided with the port organization for convincing stomata on closing nozzle and side wall by patient analysis, the port organization is arranged in the energy storage canister, guiding tube is connect with energy storage canister sealing welding, energy storage canister front is closing in form, and energy storage canister connects the release pipe, and release pipe front end is oblique spout or direct-injection mouth；The gas port is that more than or equal to 3 sizes are identical and equally distributed through-hole, the size and number of gas port guarantee air guide flow depending on the latus rectum of guiding tube；Closing in end bore is the 4/5 to 1/3 of energy storage canister barrel diameter, and specific ratio guarantees deashing effect depending on dust stratification situation；The gradient of the oblique spout is 5 degree to 45 degree, and specific gradient guarantees to shoot the arrow at the target depending on deashing angle etc..Using shock-wave ash-clearing rifle of the present invention, targeted deashing can be carried out to deashing dead angle, deashing dynamics lack part position, substantially increase cleaning efficiency.

Description

A kind of shock-wave ash-clearing rifle

Technical field

The present invention relates to removing ash of boiler technical fields, and in particular to a kind of shock-wave ash-clearing rifle.

Background technique

Dust remover is all kinds of waste heat boilers and the indispensable Important Auxiliary equipment equipment of station boiler, it to improve boiler respectively by The heat exchange efficiency in hot face plays a crucial role.There are many types for dust remover, such as steam dust remover, acoustic wave soot blower, combustion Gas shock-wave ash-clearing device etc..Different types of dust remover has the characteristics that the different and scope of application, wherein gas shock-wave deashing utensil The many advantageous features for having other type dust removers no, such as deashing energy are big, stable, applied widely, so city Market share is larger.But existing gas shock-wave dust remover is there is also problems, such as deashing that there are dead angles, deashing dynamics It is uneven etc., cause deashing rate to be difficult to further increase.The main reason for above problem is that the deashing spout of gas shock-wave is to stretch Enter fixed installation in boiler setting, shock wave has certain angle from spout ejection, forms deashing dead angle in spout two sides；Also Due to the release characteristics of shock wave itself, the dynamics difference involved in range everywhere is larger, forward and is up and down decaying Property release so that deashing dynamics is uneven.

Summary of the invention

To solve the problems, such as existing gas shock-wave ash removing equipment there are deashing dead angle, deashing dynamics are non-uniform, the present invention is mentioned Mobile shock-wave ash-clearing rifle can be loaded and unloaded for one kind, is configured with a kind of gas shock-wave dust remover of shock-wave ash-clearing rifle of the present invention, it can be right The dust stratification position that deashing dead angle, deashing dynamics are short of carries out targetedly efficient deashing, substantially increases cleaning efficiency.

In order to achieve the above object, the technical solution adopted by the present invention is that:

A kind of shock-wave ash-clearing rifle, including guiding tube, energy storage canister and release pipe, described guiding tube one end is provided with closing nozzle And convince the port organization of stomata on side wall by patient analysis, the port organization is arranged in the energy storage canister, the guiding tube and the storage Energy tank sealing welding connection, the energy storage canister front are closing in form, and the energy storage canister connects the release pipe, and the release is managed Front end is oblique spout or direct-injection mouth.

In above scheme, the gas port is that more than or equal to 3 sizes are identical and equally distributed through-hole, the air guide The size and number in hole guarantees air guide flow depending on the latus rectum of guiding tube；Closing in end bore is the energy storage canister The 4/5 to 1/3 of barrel diameter, specific ratio guarantee deashing effect depending on dust stratification situation；The gradient of the oblique spout is 5 To 45 degree, specific gradient guarantees to shoot the arrow at the target depending on deashing angle, dust stratification situation degree.

In above scheme, the diameter of the gas port is 10mm-25mm；The latus rectum of the guiding tube be DN32mm or When DN40mm, it is preferably 4 or 3 that the diameter of the gas port, which is preferably 15mm or 20mm, quantity,.

In above scheme, the most commonly used is 3/4 or 2/3 or 1/ that closing in end bore is the energy storage canister barrel diameter 2；For general dust stratification situation, preferred proportion is 2/3 that closing in end bore is the energy storage canister barrel diameter.

In above scheme, the most commonly used is the gradient of the oblique spout be 15 degree or 25 degree or 35 degree, under normal circumstances preferably Gradient for the oblique spout is 25 degree；When deashing range target is at front, the release pipe front end is direct-injection mouth.

In above scheme, the material of the guiding tube, the energy storage canister and the release pipe is metal material or composite wood Material.

In above scheme, the guiding tube is that 1 only pipe or more single tubes are connected in sequence, the front end of the guiding tube The port organization is made, or connects the guiding tube of the port organization by connector；The closing nozzle is the end The nozzle steel closure plate welding of mouth structure is shut；The energy storage canister connects the end of the guiding tube as welding end socket or welding steel Plate.

In above scheme, the guiding tube is the tubing of DN20-DN50mm latus rectum, and the energy storage canister cylinder is DN100- The tubing of DN200mm latus rectum, the release pipe are the tubing of DN50-DN125mm latus rectum；The latus rectum of the guiding tube is DN32mm Or when DN40mm, the latus rectum of the energy storage canister cylinder is DN125mm or DN150mm, the latus rectum of the release pipe be DN80mm or DN100mm；The closing in end bore of the energy storage canister is identical as the release bore of pipe, the closing in end of the energy storage canister with The release pipe by the closing in end of welded seal connection or the energy storage canister equipped with connection structure or attachment device with it is described Release pipe is attached by screw thread or flange or cutting ferrule or clip.

In above scheme, the metal material is carbon steel or stainless steel or zinc-plated tubing, and the composite material is alloy material Material or plastic-aluminum tubing；The guiding tube for being connected with the port organization with the energy storage canister sealing welding is carbon steel or stainless steel, Other guiding tubes outside the energy storage canister are carbon steel pipe or galvanized pipe or aluminium-plastic pipe or stainless steel tube, the material of the energy storage canister Material is carbon steel or stainless steel, and the material of the release pipe is carbon steel or stainless steel.

In above scheme, the more single tubes are sequentially connected as threaded connection or cutting ferrule connects or clamp connection, described logical It crosses connector and is connected as threaded connection or cutting ferrule connection or clamp connection；Close to the guidance of the port organization in the energy storage canister The support frame for reinforcing the fixed guidance tube end is equipped at tube end, support frame as described above is to be welded on the guidance tube end The equal angular more reinforcing bars of radiation or fine steel tube, the more reinforcing bars or fine steel tube are weldingly fixed on the energy storage top tank structure On；The quantity of the more reinforcing bars or fine steel tube is 3 to 9.

Compared with prior art, what the technical solution adopted by the present invention generated has the beneficial effect that:

1, it realizes and efficient deashing targetedly is carried out to deashing dead angle

Since shock-wave ash-clearing rifle of the present invention is detachable movable shock-wave generating device, it is configured with shock-wave ash-clearing rifle of the present invention Gas shock-wave dust remover, can whenever and wherever possible, flexiblely accomplish where to have ash beats which, have at any time it is grey remove at any time, solution There is more deashing dead angle in original gas shock-wave dust remover, substantially increase cleaning efficiency.

2, the fixed point deashing for the dust stratification position being short of deashing dynamics is realized

Shock-wave ash-clearing rifle of the present invention is small in size, light-weight and dismountable moving, and the release pipe of shock-wave ash-clearing rifle is protruded into furnace The interior place nearest apart from dust stratification can beat less than or beat halfway dust stratification position to original gas shock-wave dust remover and determine Point deashing, substantially increases deashing effect.

Detailed description of the invention

Fig. 1 is shock-wave ash-clearing rifle structural schematic diagram provided by the invention；

Fig. 2 is the A-A cross-sectional view of Fig. 1.

Appended drawing reference

1, guiding tube, 2, port, 201, gas port, 202, closure plate, 3, energy storage canister,

301, end socket, 302, energy storage canister closing in, 4, release pipe, 401, release pipe spout, 5, pipe fitting, 6, support are welded Frame.

Specific embodiment

The technical solution that the present invention will be described in detail in the following with reference to the drawings and specific embodiments.

Shock-wave ash-clearing rifle as shown in Figure 1 and Figure 2, including guiding tube 1 and its port 2, energy storage canister 3 and release pipe 4, it is described Port 2 is equipped with gas-guiding structure, and the energy storage canister 3 is connect with the release pipe 4 by energy storage canister closing in 302, before the release pipe 4 End is the release pipe spout 401；The front end of the guiding tube 1 is the port 2, described in 2 welded seal of the port access Energy storage canister 3, the gas-guiding structure of the port 2 are released described in the end connection of the energy storage canister closing in 302 in the energy storage canister 3 Put pipe 4；The guiding tube 1 and its material of port 2, energy storage canister 3 and release pipe 4 are metal material or composite material.

In above scheme, the welding of nozzle steel closure plate 202 of the port 2 in the energy storage canister is shut, described It is described to lead at least provided with the identical equally distributed gas port 201 of 3 sizes on the tube wall of the guiding tube 1 in energy storage canister 201 diameter of stomata is 10mm-25mm；The diameter of the gas port 201 and quantity are logical according to the guiding tube 1 and its port 2 To guarantee air guide flow depending on diameter, when such as guiding tube 1 and its latus rectum (diameter) of port 2 are DN32mm, the gas port 201 diameter is 15mm, quantity is 4；When such as the guiding tube 1 and its latus rectum of port 2 are DN40mm, the gas port 201 diameters are 20mm, quantity is 3.

In above scheme, the bore of 302 ends of the energy storage canister closing in is identical as the release bore of pipe 4, the storage Can tank close up 302 ends bore be 3 barrel diameter of energy storage canister 4/5-1/3, specific ratio is according to the tool of deashing target To guarantee deashing effect depending on volume ash situation, the most commonly used is the energy storage canisters to close up 302 end bores as the energy storage canister 3 3/4,2/3 or the 1/2 of body diameter.Axial direction since the bore of the release pipe 4 is directly proportional to the radial extension of deashing, with deashing Distance is inversely proportional, therefore for general dust stratification situation or most medium-sized boilers, and preferred proportion is 302 ends of the energy storage canister closing in Portion's bore is the 2/3 of 3 barrel diameter of energy storage canister, mainly considers both guarantee certain deashing radial extension in this way, Also there is certain deashing axial distance, to realize preferable ash-removal effect.

In above scheme, the usual release pipe spout 401 is oblique spout, and the gradient of the oblique spout is 5 degree to 45 degree, The gradient is the angle of 90 degree of long sides for subtracting the release pipe 4 and short side line, and specific gradient is according to deashing angle, dust stratification It is 15 degree or 25 degree or 35 degree the most commonly used is the gradient of the oblique spout to guarantee to shoot the arrow at the target depending on situation.The gradient Size and deashing acting surface and deashing linear distance have certain relationship, in certain angle, the more big then described release pipe spout of gradient The acting surface in 401 gradient directions will become larger, but the linear distance of deashing will shorten；For general dust stratification situation or majority Medium-sized boiler, the gradient of the preferably described oblique spout is 25 degree, to guarantee preferable deashing range and ash-removal effect.When deashing model For the target enclosed at front, the release pipe spout 401 is direct-injection mouth.

In above scheme, the guiding tube 1 is that an only pipe or more single tubes are connected in sequence, when the guiding tube 1 Length when needing 3 meters or more, it usually needs more single tubes are sequentially connected reach the guiding tube 1 needed for length.It is described to draw The port 2 of the gas-guiding structure is made in the front end of conduit 1 or the guiding tube 1 passes through pipe fitting 5 and connects the port 2, described The side-wall hole part of port 2 enters in the energy storage canister 3 through the aperture of 3 end of energy storage canister, the port 2 and the storage The aperture of 3 end of energy tank is welded seal, and 3 end of energy storage canister is welding end socket 301 or welding steel.The more single tubes Being sequentially connected as threaded connection or cutting ferrule connection or clamp connection, the pipe fitting 5 is screwed pipe joint or ferrule fitting or card Bind round connector.

In above scheme, the tubing of the guiding tube 1 and port 2 for DN20-DN50mm latus rectum, 3 cylinder of energy storage canister For the tubing of DN100-DN200mm latus rectum, the release pipe 4 is the tubing of DN50-DN125mm latus rectum；The guiding tube 1 and end When the latus rectum of mouth 2 is DN32mm or DN40mm, the latus rectum of 3 cylinder of energy storage canister is DN125mm or DN150mm, the release The latus rectum of pipe 4 is DN80mm or DN100mm；302 end bores of the energy storage canister closing in are identical as the release bore of pipe 4, 302 ends of the energy storage canister closing in are connect with the release pipe 4 by welded seal or the energy storage canister closes up, and 302 ends are set There are connection structure or attachment device to be attached with the release pipe 4 by screw thread or flange or cutting ferrule or clip.

In above scheme, the metal material is carbon steel or stainless steel or zinc-plated tubing, and the composite material is alloy material Material or plastic-aluminum tubing；The guiding tube 1 is carbon steel pipe or galvanized pipe or aluminium-plastic pipe or stainless steel tube, the material of the port 2 are Carbon steel or stainless steel, the material of the energy storage canister 3 are carbon steel or stainless steel, and the material of the release pipe 4 is carbon steel or stainless steel.

In above scheme, the end in the energy storage canister 3 close to the port 2, which is equipped with, reinforces the fixed port 2 Support frame 6, support frame as described above 6 are the equal angular more reinforcing bars of radiation or fine steel tube for being welded on 2 end of port, described more Reinforcing bar or fine steel tube are weldingly fixed on 3 inner wall of energy storage canister, and the quantity of the more reinforcing bars or fine steel tube is 3 to 9.

Embodiment 1:

Shock-wave ash-clearing rifle as shown in Figure 1 and Figure 2, including guiding tube 1 and its port 2, energy storage canister 3 and release pipe 4, it is described Guiding tube 1 is that the galvanized pipe that two 2 meters of long latus rectums are DN32mm is formed by connecting by screw thread pipe collar, the both ends of the guiding tube 1 For screw connection structure；The port 2 is made of the seamless steel pipe of long 120mm latus rectum DN32mm, one end carbon of the port 2 The welding of steel closure plate 202 is shut, and the other end of the port 2 is hickey, in side wall of the port 2 away from the closure plate 40mm On open the equally distributed gas port 201 of 4 Φ 15mm.The seamless welding end socket that end socket 301 is DN125mm is welded, in the weldering The through-hole of Φ 40mm is opened at the center for connecing end socket 301, and 3 mutual angles are welded on the tube wall at 202 end of closure plate of the port 2 and are 120 degree, the means for supporting reinforcement steel bar 6 of Φ 12mm stretch out the port 2 from the through-hole of the Φ 40mm, the support of 3 reinforcing bars Frame 6 is just stuck on the straight section inner wall of the welding end socket 301 and is weldingly fixed on its inner wall, then, by the port 2 with The central through hole welded seal of the welding end socket 301.The cylinder of the energy storage canister 3 is length 500mm, latus rectum DN125mm Seamless steel pipe, 3 cylinder of energy storage canister one end welding latus rectum DN125mm variable diameter DN80mm seamless carbon steel reducer union (energy storage canister closing in 302), the other end of 3 cylinder of energy storage canister and above-mentioned 301 sealing welding of welding end socket.The release pipe 4 For the seamless steel pipe for the release pipe spout 401 that latus rectum DN80mm, the front end length 700mm are 15 degree of oblique spouts of gradient, the guidance Pipe 1 is tightly connected with the port 2 by screwed pipe joint 5.Above-mentioned all connections are to be tightly connected, so far, the shock wave The embodiment 1 of deashing rifle, which is assembled, to be completed.

Embodiment 2:

Shock-wave ash-clearing rifle as shown in Figure 1 and Figure 2, including guiding tube 1 and its port 2, energy storage canister 3 and release pipe 4, it is described Guiding tube 1 is that the seamless steel pipe that three 2 meters of long latus rectums are DN40mm is connected in sequence by threaded fitting, the guiding tube 1 Both ends be screw connection structure；The port 2 is made of the seamless steel pipe of long 130mm latus rectum DN40mm, and the one of the port 2 The welding of end carbon steel closure plate 202 is shut, and the other end of the port 2 is pipe collar interface, in the port 2 away from the closure plate 45mm Side wall on open the equally distributed gas port 201 of 3 Φ 20mm.The seamless welding end socket that end socket 301 is DN150mm is welded, The through-hole of Φ 60mm is opened at the center of the welding end socket 301, and 4 are welded on the tube wall at 202 end of closure plate of the port 2 mutually Angle is the fine steel tube support frame 6 of 90 degree, Φ 10mm, and the port 2 is stretched out from the through-hole of the Φ 60mm, described 4 thin The support frame 6 of steel pipe is just stuck on the straight section inner wall of the welding end socket 301 and is weldingly fixed on its inner wall, then, will The central through hole welded seal of the port 2 and the welding end socket 301.The cylinder of the energy storage canister 3 is length 500mm, leads to Diameter is the seamless steel pipe of DN150mm, the seamless carbon of one end welding latus rectum DN150mm variable diameter DN100mm of 3 cylinder of energy storage canister Steel reducer union (energy storage canister closing in 302), the other end of 3 cylinder of energy storage canister and above-mentioned 301 sealing welding of welding end socket. The seamless steel for the release pipe spout 401 that the release pipe 4 is latus rectum DN100mm, the front end length 600mm is 25 degree of oblique spouts of gradient Pipe, the guiding tube 1 are tightly connected with the port 2 by pipe hoop joint 5.Above-mentioned all connections are to be tightly connected, so far, The embodiment 2 of the shock-wave ash-clearing rifle, which is assembled, to be completed.

Embodiment 3:

Shock-wave ash-clearing rifle as shown in Figure 1 and Figure 2, including guiding tube 1 and its port 2, energy storage canister 3 and release pipe 4, it is described Guiding tube 1 is the stainless steel tube that 3 meters of long latus rectum is DN50mm, and the both ends of the guiding tube 1 are cutting ferrule connection structure；It is described Port 2 is made of the stainless steel tube of long 140mm latus rectum DN50mm, and one end of the port 2 is welded with stainless steel closure plate 202 to be sealed Extremely, the other end of the port 2 is cutting ferrule interface, and it is equal to open 5 Φ 15mm on side wall of the port 2 away from the closure plate 50mm The gas port 201 of even distribution.The stainless steel welded end socket that end socket 301 is DN150mm is welded, in the welding end socket 301 The heart opens the through-hole of Φ 60mm, welded on the tube wall at 202 end of closure plate of the port 26 mutual angles be 60 degree, Φ 10mm Means for supporting reinforcement steel bar 6 stretches out the port 2 from the through-hole of the Φ 60mm, and the support frame 6 of 6 reinforcing bars is just stuck in institute It states on the straight section inner wall of welding end socket 301 and is weldingly fixed on its inner wall, then by the port 2 and the welding end socket 301 central through hole welded seal.The cylinder of the energy storage canister 3 is the stainless steel tube of length 600mm, latus rectum DN150mm, described The stainless steel reducer union (energy storage canister closing in 302) of one end welding latus rectum DN150mm variable diameter DN80mm of 3 cylinder of energy storage canister, institute State 3 cylinder of energy storage canister the other end and above-mentioned 301 sealing welding of welding end socket.The release pipe 4 is latus rectum DN80mm, length The front end 800mm is the stainless steel tube of the release pipe spout 401 of 35 degree of oblique spouts of gradient, and the guiding tube 1 passes through with the port 2 Clamping sleeve blow-out patch 5 is tightly connected.Above-mentioned all connections are to be tightly connected, and so far, the embodiment 3 of the shock-wave ash-clearing rifle is assembled It completes.

Embodiment 1 is suitble to the deashing of 130t/h or so boiler, and embodiment 2 is suitble to the deashing of the medium-sized boiler of 220t/h or so, Embodiment 3 is suitble to the deashing of the medium-and-large-sized boiler of 410t/h or so and deashing range is larger and former gas shock-wave soot cleaning system is clear The removing ash of boiler of grey effect shortcoming.The guiding tube 1 is exported with the switching of former gas shock-wave soot cleaning system mixing apparatus to cause bursting It is attached by screw thread or pipe collar or cutting ferrule, the release pipe 4 is protruded into furnace and be can adjust through aperture and protrudes into angle and protrude into Then length ignites program by former gas shock-wave soot cleaning system mixing and carries out targetedly efficient deashing.

The series of products of more specifications are made to adapt to the deashing of various boilers in shock-wave ash-clearing rifle.

The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, and those skilled in the art exists The usual variations and alternatives carried out within the scope of technical solution of the present invention should be all included within the scope of the present invention.

Claims (10)

1. a kind of shock-wave ash-clearing rifle, it is characterised in that: including guiding tube, energy storage canister and release pipe, guiding tube one end setting There is port organization, the port organization of the guiding tube is arranged in the energy storage canister, and the guiding tube and the energy storage canister seal It is welded to connect；The energy storage canister connects the release pipe；The energy storage canister front is closing in form；Wherein,

The port organization includes: closed nozzle, and the guiding tube is arranged on closing nozzle side side wall Gas port.

2. shock-wave ash-clearing rifle as described in claim 1, it is characterised in that: the air guide hole number is no less than 3, and size phase Together, it is uniformly distributed.

3. shock-wave ash-clearing rifle as described in claim 1, it is characterised in that: the closing in bore of the energy storage canister front is the energy storage The 4/5 to 1/3 of tank barrel diameter.

4. shock-wave ash-clearing rifle as claimed in claim 3, it is characterised in that: the closing in bore of the energy storage canister front is the energy storage The 3/4 or 2/3 or 1/2 of canister body bore.

5. shock-wave ash-clearing rifle as described in claim 1, it is characterised in that: the release pipe front end is oblique spout or direct-injection mouth；Institute The gradient for stating oblique spout is 5 degree to 45 degree.

6. shock-wave ash-clearing rifle as claimed in claim 5, it is characterised in that: the gradient of the oblique spout is 15 degree or 25 degree or 35 Degree.

7. shock-wave ash-clearing rifle as described in claim 1, it is characterised in that: the guiding tube be 1 solely pipe or more single tubes successively It is formed by connecting；The port organization is made in the front end of the guiding tube, or connects the port organization by connector, described Energy storage canister connects the end of the guiding tube as welding end socket or welding steel.

8. shock-wave ash-clearing rifle as described in claim 1, it is characterised in that: the latus rectum of the guiding tube is DN32mm or DN40mm When, the latus rectum of the energy storage canister cylinder is DN125mm or DN150mm, and the latus rectum of the release pipe is DN80mm or DN100mm；

The closing in end diameter of the energy storage canister is identical as the release diameter of pipe, the closing in end of the energy storage canister with it is described Release pipe by welded seal connection or the energy storage canister closing in end and the release manage pass through screw thread, flange, cutting ferrule or Clip is attached.

9. shock-wave ash-clearing rifle as described in claim 1, it is characterised in that: the guiding tube, energy storage canister and discharge pipe material be Metal material or composite material, the metal material are carbon steel, stainless steel or zinc-plated tubing, and the composite material is alloy material Or plastic-aluminum tubing.

10. shock-wave ash-clearing rifle as claimed in claim 7, it is characterised in that: drawing close to the port organization in the energy storage canister The support frame for reinforcing the fixed guidance tube end is equipped at end of conduit, support frame as described above is to be welded on the energy storage top tank structure On more reinforcing bars or fine steel tube, the quantity of the reinforcing bar or thin steel is 3 to 9.