CN214791189U - Bidirectional ash cleaning plate and bidirectional ash cleaning boiler - Google Patents

Abstract

The utility model relates to the field of boilers, in particular to a bidirectional ash cleaning plate and a bidirectional ash cleaning boiler, wherein the bidirectional ash cleaning plate comprises a left ash cleaning plate, a right ash cleaning plate, a left pull rod and a right pull rod, the left ash cleaning plate and the right ash cleaning plate are arranged at intervals left and right, a left guide hole and a left fixing hole which are communicated left and right are arranged at the upper and lower intervals in the center of the left ash cleaning plate, a right fixing hole which is communicated left and right is arranged on the right ash cleaning plate corresponding to the position of the left guide hole, and a right guide hole which is communicated left and right is arranged on the right ash cleaning plate corresponding to the position of the left fixing hole; the bidirectional ash removal boiler comprises an inner furnace shell, an outer furnace shell, bidirectional ash removal plates, a circulating pipe, a left guide pipe and a right guide pipe, wherein the outer furnace shell is arranged on the outer side of the inner furnace shell, a circulating cavity is arranged between the inner furnace shell and the outer furnace shell, and at least one bidirectional ash removal plate is arranged in the circulating cavity at an upper-lower interval. The utility model has the advantages of reasonable and compact structure, convenient to use through setting up two-way deashing board, realizes having stable, reliable and effectual characteristics of deashing to the two-way deashing of circulating pipe.

Description

Bidirectional ash cleaning plate and bidirectional ash cleaning boiler

Technical Field

The utility model relates to a boiler field is a two-way deashing board and two-way deashing boiler.

Background

Coal fired boiler is the production, the equipment of field bulk use such as life, the civil boiler who sells and the user uses in the existing market is mostly fuel direct combustion, the flue gas direct discharge of production is to the atmosphere, simultaneously because fuel combustion's is not abundant, make a large amount of dust and the fuel granule that does not burn to the greatest extent discharge in the middle of the atmosphere, the boiler chimney emits a large amount of black cigarette, produce a large amount of deposition in the stove simultaneously, it is difficult to clear away, and waste time and energy, make boiler heat transfer efficiency greatly reduced, the waste and the serious environmental pollution of fuel have been caused.

The ash removal device of the existing boiler is usually arranged on one side of the boiler, so that the pulling direction of a pull rod matched with the installation position of the boiler is arranged due to different installation positions of the boiler, and the space limitation of the installation position of the boiler is caused; in addition, the existing pull rod can be completely pulled out to finish the ash removal of the circulating pipe, so that a large space is needed to pull out the pull rod completely.

Disclosure of Invention

The utility model provides a two-way deashing board and two-way deashing boiler has overcome above-mentioned prior art not enough, and it can effectively solve the problem that current boiler ash removal device pull-out direction caused the limitation of boiler mounted position, need the whole problem of pulling out of pull rod when can also further solving the deashing.

One of the technical schemes of the utility model is realized through following measures: a bidirectional dust cleaning plate comprises a left dust cleaning plate, a right dust cleaning plate, a left pull rod and a right pull rod, wherein the left dust cleaning plate and the right dust cleaning plate are arranged at left and right intervals, a left guide hole and a left fixing hole which are communicated with each other left and right are arranged at the center of the left dust cleaning plate at an interval from top to bottom, a right fixing hole which is communicated with each other left and right is arranged on the right dust cleaning plate corresponding to the position of the left guide hole, a right guide hole which is communicated left and right is arranged on the right dust cleaning plate corresponding to the position of the left fixing hole is arranged on the right dust cleaning plate, a left pull rod of which the left end passes through the left guide hole and is positioned at the left side of the left dust cleaning plate is fixedly arranged in the right fixing hole, and a right pull rod of which the right end passes through the right guide hole and is positioned at the right side of the right dust cleaning plate is fixedly arranged in the left fixing hole; the left dust cleaning plate is provided with at least one left dust cleaning hole which is communicated with the left and the right, and the right dust cleaning plate corresponding to the position of each left dust cleaning hole is provided with a right dust cleaning hole which is communicated with the left and the right.

The following is a further optimization or/and improvement of one of the above technical solutions of the present invention:

the number of the left ash removing holes can be four, five, six, seven or eight.

The device also comprises a left handle and a right handle, wherein the left handle is fixedly installed at the left end of the left pull rod, and the right handle is fixedly installed at the right end of the right pull rod.

The second technical scheme of the utility model is realized through following measure: a bidirectional ash removing boiler using bidirectional ash removing plates comprises an inner boiler shell, an outer boiler shell, bidirectional ash removing plates, a circulating pipe, a left guide pipe and a right guide pipe, wherein the outer boiler shell is arranged on the outer side of the inner boiler shell; the left side of the outer furnace shell corresponding to the left end position of each left pull rod is provided with a left guide pipe which can enable the inner cavity of the inner furnace shell to be communicated with the outside of the outer furnace shell, the left part of each left pull rod is positioned in the left guide pipe at the corresponding position, the left end of each left pull rod is positioned at the left side of the outer furnace shell, the right side of the outer furnace shell corresponding to the right end position of each right pull rod is provided with a right guide pipe which can enable the inner cavity of the inner furnace shell to be communicated with the outside of the outer furnace shell, the right part of each right pull rod is positioned in the right guide pipe at the corresponding position, and the right end of each right pull rod is positioned at the right side of the outer furnace shell; circulating pipes are arranged between the left ash cleaning plate and the right ash cleaning plate corresponding to the positions of the left ash cleaning holes, the left part of each circulating pipe is located in the left ash cleaning hole corresponding to the position, the left end of each circulating pipe is fixedly installed together with the corresponding position of the inner wall of the inner furnace shell and can be communicated with the circulating cavity, the right part of each circulating pipe is located in the right ash cleaning hole corresponding to the position, and the right end of each circulating pipe is fixedly installed together with the corresponding position of the inner wall of the inner furnace shell and can be communicated with the circulating cavity.

The following is further optimization or/and improvement of the second technical scheme of the utility model:

the furnace can also comprise a left protective shell and a right protective shell, wherein the left protective shell is sleeved on the outer side of the left part of each left pull rod, and the right end of the left protective shell is fixedly arranged together with the outer wall of the outer furnace shell at a corresponding position; the right side of each right pull rod is sleeved with a right protective shell, and the left end of the right protective shell is fixedly installed together with the outer wall of the outer furnace shell in a corresponding position.

The utility model has reasonable and compact structure and convenient use, and realizes the bidirectional ash removal of the circulating pipe by arranging the bidirectional ash removal plate; the plurality of left ash cleaning holes and the plurality of right ash cleaning holes are arranged, so that a plurality of circulating pipes can be cleaned conveniently and simultaneously; the ash removing device has the advantages that the left pull handle is arranged to facilitate pulling out and pushing in the left pull rod, the right pull handle is arranged to facilitate pulling out and pushing in the right pull rod, and the ash removing device has the advantages of being stable and reliable and good in ash removing effect.

Drawings

FIG. 1 is a left side sectional view of the first embodiment.

FIG. 2 is a schematic right sectional view of the first embodiment.

Fig. 3 is a schematic sectional structure view in front view of the second embodiment.

The codes in the figures are respectively: the furnace comprises a left ash cleaning plate 1, a right ash cleaning plate 2, a left pull rod 3, a right pull rod 4, a left fixing hole 5, a left guide hole 6, a right fixing hole 7, a right guide hole 8, a left handle 9, a right handle 10, an inner furnace shell 11, an outer furnace shell 12, a circulating pipe 13, a left guide pipe 14, a right guide pipe 15, a circulating cavity 16, a left protective shell 17 and a right protective shell 18.

Detailed Description

The utility model discloses do not receive the restriction of following embodiment, can be according to the utility model discloses a technical scheme and actual conditions determine concrete implementation.

In the present invention, for convenience of description, the description of the relative position relationship of the components is described according to the layout mode of the attached drawing 1 in the specification, such as: the positional relationship of front, rear, upper, lower, left, right, etc. is determined in accordance with the layout direction of the drawings of the specification.

The invention will be further described with reference to the following examples and drawings:

the first embodiment is as follows: as shown in the attached drawings 1 and 2, the bidirectional dust cleaning plate comprises a left dust cleaning plate 1, a right dust cleaning plate 2, a left pull rod 3 and a right pull rod 4, wherein the left dust cleaning plate 1 and the right dust cleaning plate 2 are arranged at left and right intervals, a left guide hole 6 and a left fixing hole 5 which are communicated left and right are arranged in the center of the left dust cleaning plate 1 at intervals from top to bottom, a right fixing hole 7 which is communicated left and right is arranged on the right dust cleaning plate 2 corresponding to the position of the left guide hole 6, a right guide hole 8 which is communicated left and right is arranged on the right dust cleaning plate 2 corresponding to the position of the left fixing hole 5, a left pull rod 3 which is positioned at the left of the left dust cleaning plate 1 and penetrates through the left guide hole 6 is fixedly arranged in the right fixing hole 7, and a right pull rod 4 which is positioned at the right of the right dust cleaning plate 2 and penetrates through the right guide hole 8 is fixedly arranged in the left fixing hole 5; the left dust cleaning plate 1 is provided with at least one left dust cleaning hole which is communicated from left to right, and the right dust cleaning plate 2 corresponding to each left dust cleaning hole is provided with a right dust cleaning hole which is communicated from left to right. In the use, will the utility model discloses in packing into current well-known boiler, make boiler cavity's circulating pipe 13 be located the left deashing hole and the right deashing hole that correspond the position to make 3 left ends of left pull rod and the 4 right-hand members of right pull rod all be located outside the boiler, through the deashing that stimulates left pull rod 3 and the 4 realization circulating pipes of right pull rod 13, can avoid current boiler because of mounted position causes space limitation, the problem of unable normal deashing. According to requirements, the aperture of the left dust cleaning hole and the aperture of the right dust cleaning hole are larger than the outer diameter of the circulating pipe 13.

The bidirectional dust removing plate can be further optimized or/and improved according to actual needs:

as shown in fig. 1 and 2, the number of the left ash removing holes is four, five, six, seven or eight. In the use, through setting up a plurality of left deashing holes and right deashing hole, be convenient for clear up many circulating pipes 13 simultaneously. According to the demand, left deashing board 1 and right deashing board 2 all can be triangle-shaped or quadrangle or pentagon or hexagon, when left deashing board 1 and right deashing board 2 are the hexagon, can be equipped with six left deashing holes on the left deashing board 1, a left deashing hole is located left guiding hole 6 tops, a left deashing hole is located left fixed orifices 5 below, two left deashing holes are located left guiding hole 6 the place ahead, two left deashing holes are located left guiding hole 6 backs.

As shown in the attached figures 1 and 2, the multifunctional handle comprises a left handle 9 and a right handle 10, wherein the left handle 9 is fixedly installed at the left end of the left pull rod 3, and the right handle 10 is fixedly installed at the right end of the right pull rod 4. In the use process, the left handle 9 is arranged to facilitate the pulling out and the pushing in of the left pull rod 3, and the right handle 10 is arranged to facilitate the pulling out and the pushing in of the right pull rod 4.

Example two: as shown in fig. 1, 2 and 3, the bidirectional soot cleaning boiler using the bidirectional soot cleaning plate comprises an inner furnace shell 11, an outer furnace shell 12, the bidirectional soot cleaning plate, a circulating pipe 13, a left guide pipe 14 and a right guide pipe 15, wherein the outer furnace shell 12 is arranged on the outer side of the inner furnace shell 11, a circulating cavity 16 is arranged between the inner furnace shell 11 and the outer furnace shell 12, and at least one bidirectional soot cleaning plate is arranged in the circulating cavity 16 at intervals up and down; a left guide pipe 14 which can enable the inner cavity of the inner furnace shell 11 to be communicated with the outside of the outer furnace shell 12 is arranged on the left side of the outer furnace shell 12 corresponding to the left end position of each left pull rod 3, the left part of each left pull rod 3 is arranged in the left guide pipe 14 corresponding to the corresponding position, the left end of each left pull rod 3 is arranged on the left side of the outer furnace shell 12, a right guide pipe 15 which can enable the inner cavity of the inner furnace shell 11 to be communicated with the outside of the outer furnace shell 12 is arranged on the right side of the outer furnace shell 12 corresponding to the right end position of each right pull rod 4, the right part of each right pull rod 4 is arranged in the right guide pipe 15 corresponding to the corresponding position, and the right end of each right pull rod 4 is arranged on the right side of the outer furnace shell 12; circulating pipes 13 are arranged between the left ash cleaning plate 1 and the right ash cleaning plate 2 corresponding to the positions of the left ash cleaning holes, the left part of each circulating pipe 13 is located in the left ash cleaning hole corresponding to the position, the left end of each circulating pipe 13 is fixedly installed together with the inner wall of the inner furnace shell 11 corresponding to the position and can be communicated with the circulating cavity 16, the right part of each circulating pipe 13 is located in the right ash cleaning hole corresponding to the position, and the right end of each circulating pipe 13 is fixedly installed together with the inner wall of the inner furnace shell 11 corresponding to the position and can be communicated with the circulating cavity 16. In the use process, through the arrangement, the left pull rod 3 can be completely pulled out through the left handle 9 to realize the ash removal of the circulating pipe 13, the right pull rod 4 can be completely pulled out through the right handle 10 to realize the ash removal of the circulating pipe 13, the left pull rod 3 can be pulled out by half through the left handle 9, and the right pull rod 4 can be pulled out by half through the right handle 10 to realize the ash removal of the circulating pipe 13, so that the problems that the existing boiler cannot normally clean ash due to space limitation caused by the installation position can be solved; in addition, the problem that the whole circulating pipe 13 can be cleaned by pulling out the left pull rod 3 or the right pull rod 4 can be avoided.

The bidirectional deashing boiler can be further optimized or/and improved according to actual needs:

as shown in the attached figures 1, 2 and 3, the furnace shell further comprises a left protective shell 17 and a right protective shell 18, wherein the left protective shell 17 is sleeved on the outer side of the left part of each left pull rod 3, and the right end of the left protective shell 17 is fixedly installed together with the outer wall of the outer furnace shell 12 at a corresponding position; the right outer side of each right pull rod 4 is sleeved with a right protective shell 18, and the left end of the right protective shell 18 is fixedly installed together with the corresponding position of the outer wall of the outer furnace shell 12. In the use, through such setting, reduce calorific loss, also can avoid steam to spill between left protective case 17 and left pull rod 3 and cause the scald.

Above technical feature constitutes the utility model discloses an embodiment, it has stronger adaptability and implements the effect, can increase and decrease unnecessary technical feature according to actual need, satisfies the demand of different situation.

Claims (5)

1. A bidirectional dust cleaning plate is characterized by comprising a left dust cleaning plate, a right dust cleaning plate, a left pull rod and a right pull rod, wherein the left dust cleaning plate and the right dust cleaning plate are arranged at left and right intervals, a left guide hole and a left fixing hole which are communicated left and right are arranged in the center of the left dust cleaning plate at intervals from top to bottom, a right fixing hole which is communicated left and right is arranged on the right dust cleaning plate corresponding to the left guide hole, a right guide hole which is communicated left and right is arranged on the right dust cleaning plate corresponding to the left fixing hole, the left pull rod of which the left end passes through the left guide hole and is positioned at the left side of the left dust cleaning plate is fixedly arranged in the right fixing hole, and the right pull rod of which the right end passes through the right guide hole and is positioned at the right side of the right dust cleaning plate is fixedly arranged in the left fixing hole; the left dust cleaning plate is provided with at least one left dust cleaning hole which is communicated with the left and the right, and the right dust cleaning plate corresponding to the position of each left dust cleaning hole is provided with a right dust cleaning hole which is communicated with the left and the right.

2. A bi-directional deashing plate according to claim 1, characterized in that the number of left deashing holes is four or five or six or seven or eight.

3. A bidirectional deashing board according to claim 1 or 2, characterized by further comprising a left handle and a right handle, wherein the left handle is fixedly mounted at the left end of the left pull rod, and the right handle is fixedly mounted at the right end of the right pull rod.

4. A two-way ash cleaning boiler using the two-way ash cleaning plate as claimed in any one of claims 1 to 3, characterized by comprising an inner boiler shell, an outer boiler shell, the two-way ash cleaning plate, a circulating pipe, a left guide pipe and a right guide pipe, wherein the outer boiler shell is arranged outside the inner boiler shell, a circulating cavity is arranged between the inner boiler shell and the outer boiler shell, and at least one two-way ash cleaning plate is arranged in the circulating cavity at intervals up and down; the left side of the outer furnace shell corresponding to the left end position of each left pull rod is provided with a left guide pipe which can enable the inner cavity of the inner furnace shell to be communicated with the outside of the outer furnace shell, the left part of each left pull rod is positioned in the left guide pipe at the corresponding position, the left end of each left pull rod is positioned at the left side of the outer furnace shell, the right side of the outer furnace shell corresponding to the right end position of each right pull rod is provided with a right guide pipe which can enable the inner cavity of the inner furnace shell to be communicated with the outside of the outer furnace shell, the right part of each right pull rod is positioned in the right guide pipe at the corresponding position, and the right end of each right pull rod is positioned at the right side of the outer furnace shell; circulating pipes are arranged between the left ash cleaning plate and the right ash cleaning plate corresponding to the positions of the left ash cleaning holes, the left part of each circulating pipe is located in the left ash cleaning hole corresponding to the position, the left end of each circulating pipe is fixedly installed together with the corresponding position of the inner wall of the inner furnace shell and can be communicated with the circulating cavity, the right part of each circulating pipe is located in the right ash cleaning hole corresponding to the position, and the right end of each circulating pipe is fixedly installed together with the corresponding position of the inner wall of the inner furnace shell and can be communicated with the circulating cavity.

5. The boiler of claim 4, further comprising a left protective shell and a right protective shell, wherein the left protective shell is sleeved on the outer side of the left portion of each left pull rod, and the right end of the left protective shell is fixedly mounted with the outer wall of the outer furnace shell at a position corresponding to the right end of the left protective shell; the right side of each right pull rod is sleeved with a right protective shell, and the left end of the right protective shell is fixedly installed together with the outer wall of the outer furnace shell in a corresponding position.

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