CN214095608U - Indirect air cooling tower with self-supporting rotary air guide device - Google Patents

Abstract

The utility model discloses an indirect air cooling tower with a self-supporting rotary air guide device, which comprises a hyperbolic natural ventilation tower cylinder, an indirect air cooling heat exchanger and a self-supporting rotary air guide device, wherein the self-supporting rotary air guide device consists of an inner supporting plate and an outer split air guide device, the inner end of the inner supporting plate is positioned outside a connecting surface at the outer ends of two adjacent cooling columns, and the outer end is a suspension frame; the outer split air guide device is arranged on the suspension frame and is divided into 1-60 blocks along the height; the outer split air guide device can perform a flow guiding function according to the rotation of 0-60 degrees of ambient wind speed, wind direction, wind temperature and the like under the control of the actuating mechanism, and is matched with the rectification function of the inner supporting plate, and the leeward side vortex is eliminated through the gap between the outer split air guide device and the inner supporting plate, so that the cooling performance of the indirect air cooling tower is improved; the layered structure of the outer split air guide device is convenient to install and maintain, and the strength can be improved; in a severe cold environment, the outer split air guide device can deflect 90 degrees in the radial direction relative to the indirect air cooling tower, so that the air inlet amount is reduced, and the indirect air cooling circulating water is prevented from freezing.

Description

Indirect air cooling tower with self-supporting rotary air guide device

Technical Field

The utility model belongs to the indirect air cooling tower field of fire nuclear power station natural draft, in particular to indirect air cooling tower with rotatory wind-guiding device of self-supporting.

Background

The indirect air cooling system of natural draft utilizes the draft effect of the natural draft tower section of thick bamboo of hyperbola shape to suck ambient air, makes it carry out indirect heat exchange with recirculated cooling water, and then realizes the cooling to the circulating water. The triangular heat exchanger is a core component of the indirect air cooling tower, and the performance of the triangular heat exchanger is directly related to the economy and the stability of an indirect air cooling system; the environmental wind is a main factor influencing the performance of the triangular heat exchanger, and especially, the environmental wind entering the triangular heat exchanger at a certain angle under the condition of cross wind not only can cause the ventilation quantity of the triangular heat exchanger with the side wind surface to be greatly reduced, but also can influence the uniformity of the air flow distribution in the triangular heat exchanger, even can generate air flow vortex and cause the hot air reflux phenomenon, and further can reduce the cooling performance of the natural ventilation indirect air cooling tower.

The Chinese application patent No. 202010664869.1 discloses an indirect air cooling tower with a split rotary air guide device, which comprises a hyperbolic natural ventilation tower barrel, an indirect air cooling heat exchanger and an air guide device, wherein the indirect air cooling heat exchanger and the air guide device are composed of triangular heat exchangers; under the condition of environmental wind, the rotating angles of the split air guide modules can be adjusted by the executing mechanism according to the wind direction and the wind speed of the environment of the region where the air guide device is located and the wind guide module group, when the wind is guided to the windward side triangular heat exchanger, the vortex at the leeward side of the split air guide modules is eliminated through jet flow gap jet flow, the adverse effect on the leeward side triangular heat exchanger is reduced, and the cooling performance of the indirect air cooling tower is improved by the system; the split rotary air guide device is used for guiding the environmental wind, but each split air guide module is a whole in the height direction, and each split air guide module is relatively high in stress in a strong wind environment and relatively high in installation and control difficulty; the utility model discloses a set up the rotatory air ducting of self-supporting radially along indirect air cooling tower outside the triangle-shaped heat exchanger of indirect air cooling tower, on the one hand can adapt to environment wind direction and wind speed under the environment wind condition, adjust the air flow field around the indirect air cooling tower through the water conservancy diversion effect of outside components of a whole that can function independently air ducting and the rectification effect system of medial branch fagging, improve the heat transfer performance of indirect air cooling tower; on the other hand, the outer side split air guide device is layered in the height direction, so that the air guide device is convenient to install and maintain, the strength of the air guide device can be effectively improved, the adaptability of the air guide device to a strong wind environment is enhanced, and the safety and the stability of the air guide device are improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the problems that the cooling capacity is reduced under the condition of side wind of the natural ventilation indirect air cooling tower and the existing air guide facility can not adapt to the change of the environmental wind direction in the prior art, the indirect air cooling tower with the self-supporting rotary air guide device is provided, which comprises a natural ventilation tower cylinder, an indirect air cooling heat exchanger and the self-supporting rotary air guide device, the self-supporting rotary air guide device consists of an inner side support plate and an outer side split air guide device, the inner side support plate is arranged along the radial direction outside the indirect air cooling heat exchanger, the outer end of the inner side support plate is provided with a suspension frame, the outer end split air guide device is fixed on the suspension frame through a rotating shaft, the rotation is controlled by an actuating mechanism to be 0-60 degrees according to the environmental wind direction and the wind speed of the region where the inner side support plate is positioned, the diversion effect on the environmental wind is played, the rectification effect of the inner side support plate is matched, and the air guide device passes through the gap between the outer side split air guide device and the inner side support plate, the vortex at the leeward side of the air guide device under the condition of crosswind is effectively eliminated, so that the air flow field structure around the indirect air cooling tower and inside the triangular heat exchanger is improved, and the cooling performance of the indirect air cooling tower is improved; in addition, under the severe cold weather condition, the outer split air guide device can rotate to be perpendicular to the radial state of the indirect air cooling tower, so that the air inlet volume of the cooling triangular unit is reduced, and the cooling pipe bundle is prevented from freezing.

In order to achieve the above purpose, the technical solution of the present invention is as follows: the utility model provides an indirect air cooling tower with rotatory air ducting of self-supporting, includes a natural draft tower section of thick bamboo, indirect air cooling heat exchanger and the rotatory air ducting of self-supporting which characterized in that: the natural ventilation tower barrel is of a hyperbolic structure; the indirect air cooling heat exchanger is composed of n_dA triangular heat exchanger annularly arranged outside the tower-combining cylinder, wherein n_dIs an integer and n_d10-300 parts; the self-supporting rotary air guide device is circumferentially spaced by n along the indirect air cooling tower_lA triangular heat exchanger arrangement, wherein n_lIs an integer and n_l＝1～n _d2; the self-supporting rotary air guide device consists of an inner side supporting plate and an outer side split air guide device; the inner side supporting plates are vertically arranged on the outer side of the indirect air-cooling heat exchanger along the radial direction, the inner ends of the inner side supporting plates are positioned outside the joint surface of the outer ends of the two adjacent cooling columns, and the outer ends of the inner side supporting plates are suspension frames; the outer split air guide device is arranged on a suspension frame at the outer end of the inner support plate and is divided into N pieces along the height, wherein N is an integer and N is 1-60; the outer split air guide device is provided with a rotating shaft and can be controlled by an actuating mechanism to rotate around the rotating shaft; under the influence of ambient wind, when the outer split air guide device deflects by 0-60 degrees in the radial direction relative to the indirect air cooling tower, the guide effect on the ambient wind is achieved; under the severe cold weather condition, the split air guide device radially deflects 90 degrees relative to the indirect air cooling tower and then forms air inlet shielding along the indirect air cooling tower, so that the air inlet amount of the triangular heat exchanger can be reduced, and the indirect air cooling circulating water is prevented from freezing.

The triangular heat exchanger is composed of two cooling columns which are arranged in a triangular mode, and a cooling water inlet and a cooling water outlet are formed in the bottom of each cooling column and are respectively connected with a water inlet pipeline and a water return pipeline of the indirect air cooling system.

The inner side supporting plate is made of a flat plate, a corrugated plate or a ribbed plate and is externally applied to the self-supporting steel framework.

The height of the inner side supporting plate is equal to that of the triangular heat exchanger, and the width of the inner side supporting plate is equal to the width l of an air inlet of the triangular heat exchanger_s0.2 to 5 times of the distance d between the inner end of the cooling column and the joint surface of the outer ends of two adjacent cooling columns₁D is in the range of 0 to d₁≤l_s。

The suspension frame is composed of cantilever beams which extend out of the inner side supporting plate and are horizontally arranged along the radial direction of the indirect air cooling tower, wherein the cantilever beams positioned at the top end and the bottom end are respectively flush with the top end and the bottom end of the inner side supporting plate, and the middle cantilever beams are distributed at equal intervals in the height direction.

The outer side split air guide device is made of flat plates or corrugated plates or ribbed plates and is fixed on a suspension frame at the outer end of the inner side supporting plate through a rotating shaft.

The distance L between the inner end and the outer end of the outer side split air guide device is smaller than the minimum circumferential distance L between the rotating shafts of two circumferentially adjacent self-supporting rotating air guide devices_Z。

The rotating shaft of the outer split air guide device is positioned at the inner end and the outer end of the split air guide device or at a certain distance l from the inner end of the split air guide device_nWhere l is_nIs in the range of 0<l_n<L。

The actuating mechanism is an electric actuating mechanism or a pneumatic actuating mechanism or a chain transmission mechanism

When the actuating mechanism is a pneumatic actuating mechanism or an electric actuating mechanism, the actuating mechanism consists of a motor or a rotary cylinder, a transmission shaft and a driving rod, the driving rod and the outer split air guide device are provided with a driving connecting point, and the distance d from the driving connecting point to the rotary shaft₂In the range of 0<d₂≤l_maxWherein l is_maxThe distance l from the rotating shaft of the split air guide device to the inner end_nAnd the distance l from the rotating shaft of the split air guide device to the outer end_wThe larger of these; when the actuating mechanism is a chain transmission mechanism, the actuating mechanism consists of a motor, a chain and a gear, the gear is fixed on a rotating shaft of the outer side split air guide device block, and the motor drives the outer side split air guide device to rotate through the chain.

Compared with the prior art, the utility model has the advantages that: an indirect air cooling tower with a self-supporting rotary air guide device comprises a natural ventilation tower barrel, an indirect air cooling heat exchanger and the self-supporting rotary air guide device, wherein the self-supporting rotary air guide device consists of an inner side supporting plate and an outer side split air guide device, the inner side supporting plate is arranged on the outer side of the indirect air cooling heat exchanger in the radial direction, a suspension frame is arranged at the outer end of the inner side supporting plate, the outer side split air guide device is fixed on the suspension frame through a rotating shaft and can rotate 0-60 degrees under the control of an execution mechanism according to the ambient wind speed and the wind direction, the flow field structure around a radiator of the indirect air cooling tower is improved through the flow guide effect of the outer side split air guide device and the rectification effect of the inner side supporting plate, and the cooling performance of the indirect air cooling tower is improved; when the indirect air cooling tower operates under a severe cold weather condition, the air inlet volume of the triangular heat exchanger is reduced and the indirect air cooling circulating water is prevented from freezing by rotating the outer air guide device to be in a state of being perpendicular to the indirect air cooling tower in the radial direction; on the other hand, the outer split air guide device is divided into multiple layers along the height, so that the air guide device is convenient to install and maintain, and meanwhile, the strength of the whole air guide device is improved, and the resistance of the air guide device to severe weather such as strong wind is improved.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the following detailed description of non-limiting implementations with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of an indirect air cooling tower.

Fig. 2 is a top view of an indirect air cooling tower structure with a self-supporting rotary air guide device.

Fig. 3 is a schematic structural view of a self-supporting rotary air guiding device.

Fig. 4 is a schematic structural view of a self-supporting rotary air guiding device using an electric actuator or a pneumatic actuator.

Fig. 5 is a schematic view of the external split air guiding device of the self-supporting rotary air guiding device after being deflected by 90 °.

Fig. 6 is a schematic structural view of a self-supporting rotary air guiding device adopting chain transmission.

In the figure, 1-a natural ventilation tower cylinder, 2-an indirect air cooling heat exchanger, 3-a triangular heat exchanger, 4-cooling columns, 5-an outer end connecting surface of an adjacent cooling column, 6-a self-supporting rotary air guide device, 7-an inner side supporting plate, 8-an outer side split air guide device, 9-ambient air, 10-a self-supporting steel framework, 11-a cantilever beam, 12-an inner side supporting plate inner end, 13-an inner side supporting plate outer end, 14-an outer side split air guide device inner end and 14-an outer side split air guide device outer end; 16-outer split air guide device rotating shaft; 17-motor or rotating cylinder, 18-drive shaft, 19-drive rod, 20-drive connection point, 21-motor, 22-chain, 23-gear.

Detailed Description

In order to make the technical means, creation features, achievement purposes and effects of the present invention easy to understand, the present invention is further explained by combining with the following embodiments.

As shown in fig. 1-3, the utility model relates to an indirect air cooling tower with self-supporting rotary air ducting comprises a natural draft tower section of thick bamboo 1, indirect air cooling heat exchanger 2 and self-supporting rotary air ducting 6, indirect air cooling heat exchanger 2 comprises 10~300 groups of triangle-shaped heat exchangers 3, each group of triangle-shaped heat exchangers 3 comprises two cooling columns 4 that are triangle-shaped and arrange, cooling water inlet and export are equipped with to the bottom of cooling column 4, self-supporting rotary air ducting 6 comprises inboard backup pad 7 and outside components of a whole that can function independently air ducting 8, inboard backup pad 7 is along arranging to vertical outside indirect air cooling heat exchanger, external application is on self-supporting steel framework 10, inboard backup pad 7 inner 12 is located on two adjacent cooling column outer end joint face 5, outer end 13 is equipped with the suspension frame; the outer side split air guide devices 8 are arranged on a cantilever beam 11 of the suspension frame and are divided into 1-60 blocks along the height direction, and the distance L between the inner end and the outer end of each outer side split air guide device is smaller than the distance L between the rotating shafts of two adjacent split air guide devices_ZThe outer split air guide device is provided with a rotating shaft 16 which is positioned at the inner end and the outer end of each split air guide device or at a certain distance l from the inner end of each split air guide device_nWhere l is_nIs in the range of 0<l_n<L; under the condition of ambient wind, the outer split air guide device 8 can be controlled by the execution mechanism to rotate 0-60 degrees according to the wind direction and the wind speed of the ambient wind in the region where the outer split air guide device is located, the flow field near the air inlet of the indirect air cooling tower is improved, and therefore the cooling performance of the indirect air cooling tower is improved.

Embodiment 1 adopts a self-supporting rotary air guiding device of an electric actuator or a pneumatic actuator.

As shown in figure 4, the self-supporting rotary air guiding device 6 is arranged on the outer side of the triangular heat exchanger 3 of the natural ventilation indirect air cooling tower and mainly comprises an inner side supporting plate 7 and an outer side split air guiding device 8, the inner side supporting plate 7 is externally coated on a self-supporting steel framework 11, and the distance between the inner end 13 of the inner side supporting plate and the connecting surface 5 of the outer end of an adjacent cooling column is d₁The outer end 14 is provided with a suspension frame consisting of a suspension beam 12, one end of which is fixed insideOn the supporting plate 7; the outer split air guide device 8 is arranged on a cantilever beam 12 of the suspension frame at the outer end of the inner support plate 7; the outer split air guiding device 8 is provided with a rotating shaft 16, and the rotating shaft 16 is positioned at the inner end 14 and the outer end 15 of each split air guiding device 8 or is at a certain distance l from the inner end of the split air guiding device_nWhere l is_nIs in the range of 0<l_n<L (L is the distance between the inner end and the outer end of the outer side split air guide device 8); the outer split air guide device 8 can be controlled by an electric or pneumatic actuating mechanism to rotate around a rotating shaft 16 thereof; the actuating mechanism comprises a motor or a rotary cylinder 17, a transmission shaft 18 and a driving rod 19, the driving rod 19 and the outer split air guide device are provided with a driving connecting point 20, and the distance d between the driving connecting point 20 and the rotary shaft 16₂In the range of 0<d₂≤l_max，l_maxThe distance l from the rotating shaft 16 to the inner end 14 of the split air guide device_nA distance l from a rotating shaft 16 of the split air guide device to an outer end 15_wThe larger of them.

Under the windless condition, the outer side split air guide device of the self-supporting rotary air guide device 6 is in a state shown by a dotted line in the figure, at the moment, by means of the drawing action of the natural ventilation tower barrel 1, ambient air can enter the triangular heat exchanger 3 in a direction parallel to the outer side split air guide device 8 and the inner side support plate 7, a relatively uniform air flow field is formed inside the triangular heat exchanger 3, and a good heat exchange effect can be realized; under the condition of ambient wind, the outer split air guiding device 8 can rotate 0-60 degrees according to the wind speed and the wind direction of the ambient wind in the area where the outer split air guiding device 8 is located under the action of the actuating mechanism, for example, when the ambient wind comes from the left side shown in the figure, the outer split air guiding device 8 rotates to the state shown by a solid line in the figure, the ambient wind 9 changes the direction through the flow guiding action of the outer split air guiding device 8, and the ambient wind 9 enters the triangular heat exchanger 3 at a proper angle by combining the rectifying action of the inner supporting plate 7, so that the air flow field structure inside the three-machine type heat exchanger 3 is improved, and the heat exchange performance of the indirect air cooling tower is improved.

Embodiment 2 under severe cold weather conditions outside components of a whole that can function independently wind-guiding device is 90 degrees relative indirect air cooling tower radial deflection.

As shown in fig. 5, when the indirect air cooling tower operates in a severe cold weather, the outer side split air guiding device 8 of the self-supporting rotary air guiding device 6 can rotate to a state of radially deflecting 90 degrees relative to the indirect air cooling tower under the action of the execution structure, so that the outer side split air guiding devices of the circumferentially adjacent self-supporting rotary air guiding devices can be connected end to form an enclosing wall, thereby reducing the air intake of the triangular heat exchanger, preventing circulating water in a cooling column heat dissipation tube bundle from freezing, and ensuring the safe and stable operation of the indirect air cooling system.

Embodiment 3 adopts a chain-driven self-supporting rotary wind guiding device.

As shown in fig. 6, in this embodiment, a chain transmission mechanism is used to replace an electric actuator or a pneumatic actuator in the embodiment, and the structures and the arrangement manners of the inner supporting plate 7 and the outer split air guiding device 8 are unchanged; when a chain transmission mechanism is adopted, the gear 23 is arranged on the rotating shaft 16 of the outer split air guide device, and the motor 21 is connected through the chain 22, so that the outer split air guide device 8 can also rotate according to the wind speed and the wind direction of the ambient wind in the area where the outer split air guide device is located, the air flow field structures around the natural ventilation indirect air cooling tower and in the triangular heat exchanger 3 are adjusted, and the cooling characteristic of the natural ventilation indirect air cooling tower is improved.

The utility model relates to an indirect air cooling tower with rotatory air ducting of self-supporting, through set up the rotatory air ducting of self-supporting around the indirect air cooling tower of natural draft, according to the wind speed and the wind direction of the regional environment wind that each air ducting is located, make outside components of a whole that can function independently air ducting rotate 0~60, carry out the water conservancy diversion to the environment wind, cooperate the rectification effect of inboard backup pad, and eliminate the swirl of air ducting leeward side under the crosswind through the space between inboard backup pad and the outside components of a whole that can function independently air ducting, effectively improve the air flow field structure around the indirect air cooling tower and inside the triangle-shaped heat exchanger, improve the cooling performance of indirect air cooling tower; in severe cold weather, the air inlet volume of the triangular heat exchanger can be reduced and the cooling tube bundle is prevented from freezing by rotating the outer split air guide device to a state perpendicular to the radial direction of the indirect air cooling tower; in addition, the self-supporting structure is adopted, and the outer split air guide device is layered along the height direction, so that the air guide device is convenient to install and maintain, the strength of the air guide device can be enhanced, the resistance of the air guide device to severe weather of strong wind is improved, and the safe and stable operation of the air guide device is ensured.

The basic principles, main features and advantages of the present invention have been shown and described above, it will be apparent to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, but rather can be embodied in other specific forms without departing from the spirit or essential characteristics thereof; the present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides an indirect air cooling tower with rotatory air ducting of self-supporting, includes a natural draft tower section of thick bamboo, indirect air cooling heat exchanger and the rotatory air ducting of self-supporting which characterized in that:

the natural ventilation tower barrel is of a hyperbolic structure; the indirect air cooling heat exchanger consists ofn _d A triangular heat exchanger annularly arranged outside the tower-combining cylinder, whereinn _d Is an integer andn _d =10 to 300; the self-supporting rotary air guide device is circumferentially spaced along the indirect air cooling towern _l A triangular heat exchanger arrangement in whichn _l Is an integer andn _l =1~n _d 2; the self-supporting rotary air guide device consists of an inner side supporting plate and an outer side split air guide device(ii) a The inner side supporting plates are vertically arranged on the outer side of the indirect air-cooling heat exchanger along the radial direction, the inner ends of the inner side supporting plates are positioned outside the joint surface of the outer ends of the two adjacent cooling columns, and the outer ends of the inner side supporting plates are suspension frames; the outer split air guide device is arranged on a suspension frame at the outer end of the inner supporting plate and is divided into a plurality of parts along the heightNA block thereinNIs an integer andN1-60; the outer split air guide device is provided with a rotating shaft and can be controlled by an actuating mechanism to rotate around the rotating shaft; under the influence of ambient wind, when the outer split air guide device deflects by 0-60 degrees in the radial direction relative to the indirect air cooling tower, the guide effect on the ambient wind is achieved; under the severe cold weather condition, the split air guide device radially deflects 90 degrees relative to the indirect air cooling tower and then forms air inlet shielding along the indirect air cooling tower, so that the air inlet amount of the triangular heat exchanger can be reduced, and the indirect air cooling circulating water is prevented from freezing.

2. The indirect air cooling tower with self-supporting rotary air guide device as claimed in claim 1, wherein: the triangular heat exchanger is composed of two cooling columns which are arranged in a triangular mode, and a cooling water inlet and a cooling water outlet are formed in the bottom of each cooling column and are respectively connected with a water inlet pipeline and a water return pipeline of the indirect air cooling system.

3. The indirect air cooling tower with self-supporting rotary air guide device as claimed in claim 1, wherein: the inner side supporting plate is made of a flat plate, a corrugated plate or a ribbed plate and is externally applied to the self-supporting steel framework.

4. The indirect air cooling tower with self-supporting rotary air guide device as claimed in claim 1, wherein: the height of the inner side supporting plate is equal to that of the triangular heat exchanger, and the width of the inner side supporting plate is equal to that of an air inlet of the triangular heat exchangerl _s 0.2 to 5 times of the distance between the inner end of the cooling column and the joint surface of the outer ends of two adjacent cooling columnsd ₁In the range of 0 to lessd ₁≤l _s 。

5. The indirect air cooling tower with self-supporting rotary air guide device as claimed in claim 1, wherein: the suspension frame is composed of cantilever beams which extend out of the inner side supporting plate and are horizontally arranged along the radial direction of the indirect air cooling tower, wherein the cantilever beams positioned at the top end and the bottom end are respectively flush with the top end and the bottom end of the inner side supporting plate, and the middle cantilever beams are distributed at equal intervals in the height direction.

6. The indirect air cooling tower with self-supporting rotary air guide device as claimed in claim 1, wherein: the outer side split air guide device is made of flat plates or corrugated plates or ribbed plates and is fixed on a suspension frame at the outer end of the inner side supporting plate through a rotating shaft.

7. The indirect air cooling tower with self-supporting rotary air guide device as claimed in claim 1, wherein: outer end interval in the said outside separate body wind-guiding deviceLLess than the minimum circumferential distance between the rotating shafts of two circumferentially adjacent self-supporting rotary air guide devicesL _Z 。

8. The indirect air cooling tower with self-supporting rotary air guide device as claimed in claim 1, wherein: the rotating shaft of the outer split air guide device is positioned at the inner end and the outer end of the split air guide device or at a certain distance from the inner end of the split air guide devicel _n Therein is disclosedl _n Is in the range of 0<l _n <L。

9. The indirect air cooling tower with self-supporting rotary air guide device as claimed in claim 1, wherein: the actuating mechanism is an electric actuating mechanism or a pneumatic actuating mechanism or a chain transmission mechanism.

10. The indirect air cooling tower with self-supporting rotary air guide device as claimed in claim 9, wherein: when the actuating mechanism is a pneumatic actuating mechanism or an electric actuating mechanism, the actuating mechanism consists of a motor or a rotary cylinder, a transmission shaft and a driving rodThe driving connection point is arranged on the outer side split air guide device, and the distance from the driving connection point to the rotating shaftd ₂In the range of 0<d ₂≤l _max Whereinl _max The distance from the rotating shaft of the split air guide device to the inner endl _n The distance from the rotating shaft of the split air guide device to the outer endl _w The larger of these; when the actuating mechanism is a chain transmission mechanism, the actuating mechanism consists of a motor, a chain and a gear, the gear is fixed on a rotating shaft of the outer side split air guide device block, and the motor drives the outer side split air guide device to rotate through the chain.

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