CN116951549A - Raise boring machine with heating mode - Google Patents

Abstract

The application provides a courtyard machine with a heating mode, which comprises a main body frame, wherein an air outlet channel is arranged in the main body frame, and the air outlet channel is provided with a first end and a second end along the air flow direction; the air outlet assembly is arranged in the main body frame in a lifting manner. According to the courtyard machine with the heating mode, provided by the application, the air supply distance and the attenuation of the air outlet air quantity of the courtyard machine in the heating mode are balanced by limiting the ratio of the height of the air outlet in the heating mode to the width of the first end of the air outlet air channel, namely, the design standard of the courtyard machine is given, the air outlet effect of the manufactured courtyard machine in the heating mode is ensured, and the air outlet effect of the manufactured courtyard machine is finally ensured to reach the preset degree by limiting the ratio range of the minimum value of the air outlet to the width of the first end of the air outlet air channel as the air deflector can regulate the height of the air outlet.

Description

Raise boring machine with heating mode

Technical Field

The application relates to the technical field of air treatment equipment, in particular to a raise boring machine with a heating mode.

Background

The patio machine is an air conditioner, which is embedded in a ceiling to reduce the occupied space, and performs air-out heat exchange through an air outlet formed in the surface of the patio machine, and due to the limitation of the air outlet position, the patio machine can only perform air-out according to a set direction, but cannot perform downward air-out during heating.

In order to realize that the solar energy well head machine can downwards wind out under the heating mode so as to realize rapid heating, the technical scheme adopted is that an air-out assembly is of a lifting structure, and a main body frame is fixedly arranged on the circumferential outer side of the air-out assembly. When the courtyard machine works, the air outlet assembly descends by a certain height and forms a height difference with the main body frame, the air outlet assembly and the main body frame arranged on the outer side of the air outlet assembly form an air outlet, and the fan blows air from the inside of the courtyard machine through the air outlet. When the air conditioner is in a heating mode, the air outlet is required to be directed to the ground as much as possible to increase the heating efficiency, so that the aim of rapid heating is fulfilled, and the comfort of a user is improved.

However, the descending height of the air outlet frame of the raise-boring machine in the prior art is only designed by experience of a designer, and the cooperation relationship with the internal structure of the raise-boring machine is not considered, and when the size of the air outlet formed between the air outlet frame and the main body frame is too small, in the heating mode, the air supply distance is large, but the attenuation of the air outlet volume is serious, so that the problem of poor air outlet effect of the raise-boring machine is caused.

Disclosure of Invention

In order to solve the technical problem of poor air outlet effect of the raise-air machine in the prior art, the raise-air machine with a heating mode is provided, wherein the relation between the descending height of an air outlet frame and an air outlet air duct is limited under the heating mode to improve the air outlet effect.

A raise boring machine with a heating mode, comprising:

the main body frame is internally provided with an air outlet duct, and the air outlet duct is provided with a first end and a second end along the air flow direction;

the air outlet component is arranged on the main body frame, when the outdoor unit is in a heating mode, the air outlet component and the main body frame have a height difference, an air outlet is formed between the air outlet component and the main body frame, and the air outlet is communicated with the second end of the air outlet air duct;

the ratio of the height h1 of the air outlet to the width h2 of the first end of the air outlet duct is 2/3-4/3 h1/h 2.

The air outlet component is arranged on the main body frame in a lifting manner, the air outlet component is provided with a working position which is lowered to a set height to form the height difference, and when the air outlet component is positioned at the working position, the ratio of the height h1 of the air outlet to the width h2 of the first end of the air outlet duct is in a range of 2/3-4/5.

The air outlet assembly comprises an air deflector and an air outlet frame, the air outlet frame is arranged on the main body frame, the air deflector is rotatably arranged on the air outlet frame, and when the air outlet assembly is positioned at the working position, the air deflector can adjust the height of the air outlet.

The air deflector is provided with a first position for enabling the height h1 of the air outlet to reach the minimum value, and the ratio range of the minimum value of the height h1 of the air outlet to the width of the first end of the air outlet air duct is 2/3-4/5.

When the raise boring machine is in a heating mode, the angle range of the included angle a between the plane where the air deflector is positioned and the horizontal plane is 45-75 degrees.

The air outlet assembly is provided with a closing position matched with the main body frame to close the air outlet, the air deflector is provided with a first edge and a second edge, when the air outlet assembly is positioned at the closing position, the first edge is in sealing arrangement with the corresponding position of the main body frame, and the second edge is in sealing arrangement with the corresponding edge of the air outlet frame.

When the air outlet assembly is positioned at the closing position, the air outlet frame and the air deflector are matched and sealed together with the main body frame.

The second edge is provided with a first step structure, the air outlet frame is provided with a second step structure matched with the first step structure, and when the air outlet assembly is in a closed position, the first step structure is in sealing fit with the second step structure.

The first step structure is provided with a sealing element, and when the air outlet assembly is in a closed position, the sealing element is arranged between the first step structure and the second step structure.

The raise boring machine further comprises a lifting mechanism, the lifting mechanism is arranged on the main body frame, and the air outlet assembly is arranged on the lifting mechanism.

The air outlet assembly comprises an air outlet frame, an air outlet is formed between the air outlet frame and the main body frame, and the air outlet frame is independently lifted.

The air outlet assembly comprises an air outlet frame and an air return panel, an air outlet is formed between the air outlet frame and the main body frame, the air return panel is provided with an air return opening, and the air outlet frame is connected with the air return panel and ascends and descends together.

At least one second air outlet is formed in the air outlet assembly, and the second air outlet is communicated with the second end of the air outlet duct.

The courtyard machine further comprises an air deflector, the air deflector is rotatably arranged at the second air outlet, and the air deflector can close or open the second air outlet.

According to the courtyard machine with the heating mode, the design standard of the courtyard machine is given through limiting the ratio of the height of the air outlet in the heating mode to the width of the first end of the air outlet air duct, so that the air outlet effect of the manufactured courtyard machine in the heating mode is guaranteed, the heat exchange efficiency of the courtyard machine in the heating mode is further guaranteed, the height of the air outlet can be regulated due to the air deflector, the size and the rotation angle of the air deflector are limited through limiting the range of the ratio of the minimum value of the air outlet to the width of the first end of the air outlet air duct, and finally the air outlet effect of the manufactured courtyard machine is guaranteed to reach the preset degree.

Drawings

FIG. 1 is a schematic view of a raise boring machine according to an embodiment of the present application;

FIG. 2 is another schematic view of a raise boring machine according to an embodiment of the present application;

FIG. 3 is a simulation diagram of a wind field of a raise boring machine with h1/h2 of about 0.75 according to an embodiment of the present application;

FIG. 4 is a simulation diagram of a wind field of a raise boring machine with h1/h2 of about 0.8 in an embodiment provided by the application;

FIG. 5 is a simulation diagram of a wind field of a raise boring machine with h1/h2 of about 0.9 according to an embodiment of the present application;

FIG. 6 is a simulation diagram of a wind field of a raise boring machine with h1/h2 of about 0.67 in an embodiment provided by the application;

FIG. 7 is a simulation diagram of a wind field of a raise boring machine with h1/h2 of about 0.6 according to an embodiment of the present application;

FIG. 8 is a simulation diagram of a wind field of a raise boring machine with an air deflector and h1/h2 of about 0.75 according to an embodiment of the present application;

FIG. 9 is a simulation diagram of a wind field of a raise boring machine with an air deflector and h1/h2 of about 0.8 according to an embodiment of the present application;

FIG. 10 is a simulation diagram of a wind field of a raise boring machine with an air deflector and h1/h2 of about 0.9 according to an embodiment of the present application;

FIG. 11 is a simulation diagram of a wind field of a raise boring machine with an air deflector and h1/h2 of about 0.67 according to an embodiment of the present application;

FIG. 12 is a simulation diagram of a wind field of a raise boring machine with an air deflector and h1/h2 of about 0.6 according to an embodiment of the present application;

FIG. 13 is another schematic structural view of a raise boring machine according to an embodiment of the present application;

FIG. 14 is a cross-sectional view of a raise boring machine provided by an embodiment of the present application;

in the figure:

1. a main body frame; 2. an air outlet duct; 21. a first end; 22. a second end; 3. an air outlet assembly; 10. an air outlet; 4. an air deflector; 41. a first edge; 42. a second edge; 5. a rotating arm; 13. a second air outlet; 14. an air supply duct; 15. and a frame.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

The raise-frame machine is an air treatment device which is arranged on a ceiling and used for indoor heat exchange, the heat exchange is preferentially carried out on the part at the high position of a room in the heat exchange process, when in refrigeration, cold air can flow from the high position of the room to the ground of the room to realize rapid refrigeration, but when in heating, hot air is lighter, and can float at the high position of the room to only improve the temperature at the high position of the room, so that the raise-frame machine mistakenly considers that the temperature in the room reaches the set temperature, and the integral heating effect in the room is affected. However, after the applicant researches the air outlet flow of the raise-boring machine and analyzes the air outlet flow through the simulation experimental data, the technical scheme of increasing the relevant parameters of the fan is actually more disadvantageous than beneficial, and is unfavorable for further development of industry, but the parameters related to the size of the air outlet and the size of the air channel in the raise-boring machine, which are ignored and ignored in the art, are rather improvement points capable of effectively improving the heating efficiency of the raise-boring machine.

Therefore, in order to achieve better heating comfort, hot air should be blown to the nearby ground first and then spread outwards along the ground to ensure the heat exchange efficiency of the raise-frame machine in the heating mode, the present application provides a raise-frame machine with heating mode as shown in fig. 1 and 2, comprising a main body frame 1, wherein an air outlet duct 2 is arranged in the main body frame 1, and the air outlet duct 2 has a first end 21 and a second end 22 along the air flow direction; the air outlet component 3 is arranged in the main body frame 1 in a lifting manner, the air outlet component 3 is provided with a working position which is lowered to a preset height and forms an air outlet 10 with the main body frame 1, and the air outlet 10 is communicated with the second end 22 of the air outlet duct 2; the raise-boring machine has a heating mode, when the raise-boring machine is in the heating mode, and when the air outlet component 3 is in the working position, the ratio range of the height h1 of the air outlet 10 to the width h2 of the first end 21 of the air outlet duct 2 is 2/3.ltoreq.h1/h2.ltoreq.4/5.

The main body frame 1 is a main bearing structure of the courtyard machine, and when the courtyard machine is installed, the main body frame 1 is used for being installed on a ceiling, and other structures can be directly or indirectly installed on the main body frame 1 and fixed on the ceiling through the main body frame 1. The height h1 of the air outlet 10 is the height between the edge of the lowest point of the air outlet channel formed by the main body frame and the edge of the outermost side of the air outlet component in the direction that the air outlet component and the main body frame form a height difference. The courtyard machine has the interior machine part of installing in the ceiling, and main body frame 1 is connected with interior machine, and air-out subassembly 3 is connected on main body frame 1, and interior machine has interior machine air exit, and the first end 21 of the air-out wind channel 2 of main body frame 1 communicates with interior machine air exit, and the air flow route: the air is blown out from the air return opening, the evaporator, the air outlet of the internal fan, the first end 21 of the air outlet air duct 2, the second end 22 of the air outlet air duct 2 and the air outlet.

When the courtyard machine works, air flows from the first end 21 to the second end 22 of the air outlet air duct and finally is discharged out of the courtyard machine through the air outlet 10, and when the courtyard machine is designed, in order to ensure the balance between the air supply distance and the air outlet air quantity of the courtyard machine, a designer can determine specific parameters of the courtyard machine according to the range of the ratio of the height h1 of the air outlet to the width of the first end 21 of the air outlet air duct 2, so as to ensure that the air outlet effect of the produced courtyard machine reaches the preset requirement.

Taking 3 pieces of experimental data as an example, in the scheme, h2 is a fixed value of 60mm, and the numerical value of h1 is adjusted to carry out simulation, wherein the simulation result is as follows:

from the results, when h1/h2 is about 0.8, the air volume and the hot air landing are both optimal and optimal (FIG. 3); when h1/h2 is continuously increased by more than 0.9, the air flow can only flow downwards and can not be spread outwards, and the effect is poor (figure 5); when h1/h2 is reduced by 0.75, the air quantity is not changed, but as can be seen from the figure, the hot air starts to float upwards and cannot fall to the ground well (fig. 4); when h1/h2 is reduced to 0.67, the air volume starts to decrease, and the air supply distance increases, but the hot air cannot reach the ground, and the heating effect starts to deteriorate (fig. 6); when h1/h2 is less than 0.6, the hot air can be sent to a distance but cannot be blown near the ground, and the heating effect is poor (fig. 7).

The air outlet component 3 is arranged on the main body frame 1 in a lifting manner, the air outlet component 3 is provided with a working position which is lowered to a set height to form the height difference, and when the air outlet component 3 is positioned at the working position, the ratio of the height h1 of the air outlet 10 to the width h2 of the first end 21 of the air outlet air duct 2 is in a range of 2/3 to less than or equal to h1/h2 to less than or equal to 4/5. At this time, the height h1 of the air outlet 10 is the height between the edge of the lowest point of the air outlet duct formed by the main body frame and the edge of the outermost side of the air outlet assembly in the lifting direction of the air outlet assembly 3.

The air-out subassembly 3 includes aviation baffle 4 and air-out frame, and the air-out frame sets up on main body frame 1, and aviation baffle 4 rotatable setting is on the air-out frame, and when air-out subassembly 3 is in the working position, and aviation baffle 4 can adjust the height of air outlet 10. At this time, the height of the air outlet is the height between the edge of the lowest point of the air outlet channel formed by the main body frame and the edge of the outermost side of the air deflector in the lifting direction of the air outlet assembly.

The air deflector 4 is provided with a first position for enabling the height h1 of the air outlet 10 to reach the minimum value, the ratio range of the minimum value of the height h1 of the air outlet 10 to the width of the first end 21 of the air outlet air duct 2 is 2/3-4/5, and the size and the rotation range of the air deflector are determined through the ratio range to ensure the air outlet effect of the courtyard machine.

Taking 3 pieces of experimental data as an example, in the scheme, h2 is a fixed value 60, and under the condition that the air deflector 4 exists, the air outlet assembly can be directly adjusted to the value of h1 through the opening angle of the air deflector without descending. And (3) performing simulation, wherein the simulation result is as follows:

from the experimental results, when h1/h2 is about 0.8, the air quantity and the air supply distance are optimal, and the air quantity and the air supply distance are optimal (fig. 8); when h1/h2 is increased more than 0.9, the air flow can only flow downwards and can not spread outwards, and the effect is poor (figure 10); when h1/h2 is reduced to 0.75, the air supply distance increases, but hot air starts to float upwards and cannot fall well (FIG. 9); when h1/h2 is reduced to 0.67, the air volume is further reduced, and the air supply distance is increased, but the hot air cannot reach the ground, so that the heating effect is poor (fig. 11); when h1/h2 is less than 0.6, the hot air can be sent to a distance but cannot be blown near the ground, and the heating effect is poor (FIG. 12).

When the air deflector 4 is not present and only the air outlet is formed by descending the air outlet assembly 3, the air flow direction of the air outlet of the courtyard machine cannot be adjusted, in order to ensure that the heat seal can smoothly reach the ground, the descending dimension of the air outlet assembly 3 far exceeds 54mm when required to enable the air outlet of the courtyard machine, the effect air outlet needs to be more descended, the size of the lifting mechanism is increased, and the descending dimension of the acceptable air outlet assembly is far exceeded, so that the simulation is carried out only by the structure with the air deflector 4.

The air deflector 4 can guide the air outlet at the air outlet 10, and when the raise boring machine is in a heating mode, the angle range of the included angle a between the air deflector 4 and the horizontal plane is 45-75 degrees in order to realize the effect of rapid heating. At this time, the air outlet at the air outlet 10 can be blown out in the vertical direction under the limitation of the air deflector 4, so as to achieve the effect of rapid heating.

The air outlet assembly is provided with a closing position matched with the main body frame 1 to close the air outlet 10, the air deflector 4 is provided with a first edge 41 and a second edge 42, when the air outlet assembly 3 is in the closing position, the first edge 41 is in sealing arrangement with the corresponding position of the main body frame 1, and the second edge 42 is in sealing arrangement with the corresponding edge of the air outlet frame. Through the corresponding seal of the first edge 41 and the main body frame 1 and the corresponding seal of the second edge 42 and the air outlet assembly, when the air outlet assembly is at the closed position, the air deflector 4 can seal the corresponding position of the air outlet 10, so that the performance of the courtyard machine is prevented from being influenced by dust and other impurities entering the courtyard machine from the position of the air outlet 10.

When the air outlet assembly 3 is in the closed position, the air outlet frame and the air deflector 4 are sealed together in a matched manner with the main body frame 1. At this time, the air outlet assembly 3 is attached to the main body frame 1, and the opening on the main body frame 1 is completely covered by the air outlet assembly 3, so that the courtyard machine has a good appearance effect.

The second edge 42 is provided with a first step structure, and the air outlet frame is provided with a second step structure matched with the first step structure, and when the air outlet assembly 3 is in the closed position, the first step structure is in sealing fit with the second step structure. The first step structure and the second step structure can ensure that the sealing between the air deflector 4 and the air outlet frame is reliable, and meanwhile, the structural interference between the air deflector 4 and the air outlet assembly 3 can not be generated in the rotating process of the air deflector 4, so that the structural reliability of the air outlet assembly 3 is affected.

The first step structure is provided with a sealing member, and when the air outlet assembly 3 is in the closed position, the sealing member is arranged between the first step structure and the second step structure. That is, the sealing piece moves together with the air deflector, and when the air deflector and the air outlet frame are sealed relatively, the sealing piece can seal a gap between the air deflector and the air outlet frame, so that the sealing effect between the air deflector and the air outlet frame is improved.

The raise boring machine also comprises a rotating mechanism, the rotating mechanism is arranged on the air outlet assembly 3, and the air deflector 4 is arranged on the rotating mechanism.

The rotating mechanism comprises a rotating arm 5, one end of the rotating arm 5 is hinged to the air outlet assembly 3, and the other end of the rotating arm 5 is arranged on the air deflector 4. Preferably, a rotating arm 5 is arranged at both ends of the air deflector 4 in the length direction, so that the synchronism of the integral movement of the air deflector 4 is ensured.

The rotating mechanism further comprises a driving piece, the driving piece is arranged on the air outlet assembly 3, and the driving piece directly or indirectly drives the rotating arm 5 to rotate. Wherein one end of the rotating arm 5 is arranged on the driving piece, and the air deflector 4 is arranged on the other end of the rotating arm 5, when the rotating arm 5 rotates with the end part arranged on the driving piece, the air deflector 4 can move together with the end part of the rotating arm 5, so that the rotation of the air deflector 4 is realized, wherein the driving piece can be a stepping motor.

The courtyard machine further comprises a lifting mechanism, the lifting mechanism is arranged on the main body frame 1, and the air outlet assembly 3 is arranged on the lifting mechanism. The air outlet assembly 3 can extend out of or retract into the main body frame 1 by a lifting mechanism, so that the air outlet assembly 3 can freely move between a working position and a closing position.

The air outlet assembly 3 comprises an air outlet frame, an air outlet is formed between the air outlet frame and the main body frame, and the air outlet frame is independently lifted. In other embodiments not shown, the air outlet assembly 3 includes an air outlet frame and an air return panel, an air outlet is formed between the air outlet frame and the main body frame, the air return panel is provided with an air return opening, and the air outlet frame is connected with the air return panel and is lifted together.

As shown in fig. 13 and 14, another embodiment of the raise-boring machine is provided, at least one second air outlet 13 is provided on the air outlet assembly 3, and the second air outlet 13 is communicated with the second end 22 of the air outlet duct. The second air outlet 13 is arranged, so that the raise boring machine can meet the requirements of obliquely downward air outlet and even vertically downward air outlet. And the air outlet mode of the courtyard machine can be increased through the cooperation of the air outlet 10 and the second air outlet 13, so that the air outlet effect of the courtyard machine, the accuracy of temperature adjustment and the speed of adjustment are increased.

When the air outlet assembly 3 forms the air outlet 10 by descending with the main body frame 1, a space is formed between the air outlet assembly 3 and the main body frame 1, the space forms an air supply duct 14, one end of the air supply duct 14 is communicated with the air outlet duct 2, and the other end of the air supply duct 14 forms the air outlet 10. The air flow in the air outlet air duct 2 is blown out from the air outlet 10 after being guided by the air supply air duct 14, and the air flow vertically downward in the air outlet air duct 2 is guided into the direction which is approximately horizontally far away from the courtyard machine and even is upwards inclined relative to the horizontal plane by the air supply air duct 14, so that the horizontal air outlet to the courtyard machine is realized.

In the prior art, all the patio machines are provided with air outlets on the surface facing the ground for air outlet, in order to change the air outlet direction, air deflectors are arranged at the air outlets for guiding, but on the installation plane of the patio machine, the projection of the air deflectors is not overlapped with the projection of the panel of the patio machine, so that the guiding effect of the air deflectors on the air flow is poor, and finally the air supply distance of the patio machine is reduced. When the projection of the air outlet component 3 is overlapped with the projection part of the frame 15, the air outlet component is substantially prolonged relative to the prior art, so that the horizontal blowing effect of the courtyard machine is good, the air supply distance is increased, when the courtyard machine opens the air outlet 10, the air outlet component 3 is gradually far away from the main body frame 1 to form the air supply air duct 14, at the moment, the corresponding part of the air outlet component 3 forms the lower side surface of the air supply air duct 14, and when the air flow flows through the air supply air duct 14, the air flow flows along the horizontal direction and is blown out even along the upward inclined direction under the flow guiding effect of the lower side surface of the air supply air duct, so that the air supply distance of the courtyard machine is increased, and the effect of horizontal air outlet is realized.

As another embodiment, the projection of the air outlet assembly 3 and the projection of the frame 15 completely coincide, in this case, the air outlet assembly can be further prolonged compared with the case where the projection of the air outlet assembly 3 and the projection of the frame 15 partially coincide, so that the horizontal blowing effect of the raise-lift unit is better, and the air supply distance is further increased. Meanwhile, when the courtyard machine is in a stop state, the air outlet assembly 3 is attached to the main body frame 1, the corresponding part of the air outlet assembly 3 is attached to the frame 15, and when people observe the courtyard machine from the ground, only the air outlet assembly 3 can be seen, but the main body frame 1 cannot be seen, so that the attractiveness of the courtyard machine is effectively improved.

As another embodiment, the projection of the air outlet assembly 3 exceeds the projection of the frame 15, in this case, the air outlet assembly can be further prolonged compared with the case that the projection of the air outlet assembly 3 completely coincides with the projection of the frame 15, so as to further increase the horizontal blowing effect and the blowing distance of the raise-boring machine.

Preferably, the projection of the air outlet assembly 3 exceeds the projection of the main body frame 1, so that the air outlet assembly 3 effectively increases the air guide size relative to the prior art, and the purpose of increasing the air supply distance of the courtyard machine is achieved.

The courtyard machine further comprises an air deflector 4, the air deflector 4 is rotatably arranged at the second air outlet 13, and the air deflector 4 can close or open the second air outlet 13. When the second air outlet 13 needs to be opened, the air deflector 4 gradually rotates, so that the second air outlet 13 is communicated with the air outlet air duct 2, the air flow in the air outlet air duct 2 can be blown out by the second air outlet 13, and the air deflector 4 can adjust the air outlet direction and/or the air outlet air quantity of the second air outlet 13 according to actual needs by adjusting the inclination angle of the air deflector; when the second air outlet 13 needs to be closed, the air deflector 4 is reset to be in sealing fit with the air outlet assembly 3, so that the second air outlet 13 is closed, and at the moment, the air flow in the air outlet air duct 2 can be blown out from the air outlet 10 only under the common guiding action of the air outlet assembly 3 and the air deflector 4.

The foregoing examples illustrate only a few embodiments of the application and are described in detail herein without thereby limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (14)

1. A raise boring machine with heating mode, its characterized in that: comprising the following steps:

the air conditioner comprises a main body frame (1), wherein an air outlet air duct (2) is arranged in the main body frame (1), and the air outlet air duct (2) is provided with a first end (21) and a second end (22) along the air flow direction;

the air outlet assembly (3) is arranged on the main body frame (1), when the outdoor unit is in a heating mode, the air outlet assembly (3) and the main body frame (1) have a height difference, an air outlet (10) is formed between the air outlet assembly (3) and the main body frame (1), and the air outlet (10) is communicated with the second end (22) of the air outlet air duct (2);

the ratio of the height h1 of the air outlet (10) to the width h2 of the first end (21) of the air outlet air duct (2) is 2/3-4/5.

2. The raise boring machine according to claim 1, wherein: the air outlet assembly (3) is arranged on the main body frame (1) in a lifting manner, the air outlet assembly (3) is provided with a working position which is lowered to a set height to form the height difference, and when the air outlet assembly (3) is positioned at the working position, the ratio range of the height h1 of the air outlet (10) to the width h2 of the first end (21) of the air outlet air duct (2) is 2/3 less than or equal to h1/h2 less than or equal to 4/5.

3. A raise boring machine according to claim 1 or claim 2, characterised in that: the air-out subassembly (3) include aviation baffle (4) and air-out frame, the air-out frame set up in on main body frame (1), aviation baffle (4) rotationally set up in on the air-out frame, and when air-out subassembly (3) are in during working position, aviation baffle (4) can be adjusted the height of air outlet (10).

4. A raise boring machine according to claim 3, characterised in that: the air deflector (4) is provided with a first position for enabling the height h1 of the air outlet (10) to reach the minimum value, and the ratio of the minimum value of the height h1 of the air outlet (10) to the width of the first end (21) of the air outlet air duct (2) is 2/3-4/5.

5. A raise boring machine according to claim 3, characterised in that: when the raise boring machine is in a heating mode, the included angle a between the plane where the air deflector (4) is positioned and the horizontal plane is 45-75 degrees.

6. A raise boring machine according to claim 3, characterised in that: the air outlet assembly (3) is provided with a closing position matched with the main body frame (1) to close the air outlet (10), the air deflector (4) is provided with a first edge (41) and a second edge (42), when the air outlet assembly (3) is positioned at the closing position, the first edge (41) is in sealing arrangement with the corresponding position of the main body frame (1), and the second edge (42) is in sealing arrangement with the corresponding edge of the air outlet frame.

7. The raise boring machine according to claim 6, wherein: when the air outlet assembly (3) is in the closed position, the air outlet frame and the air deflector (4) are sealed together in a matched mode with the main body frame (1).

8. The raise boring machine according to claim 6, wherein: the second edge (42) is provided with a first step structure, the air outlet frame is provided with a second step structure matched with the first step structure, and when the air outlet assembly (3) is in a closed position, the first step structure is in sealing fit with the second step structure.

9. The raise boring machine according to claim 8, wherein: the first step structure is provided with a sealing element, and when the air outlet assembly (3) is in a closed position, the sealing element is arranged between the first step structure and the second step structure.

10. The raise boring machine according to claim 2, wherein: the raise boring machine further comprises a lifting mechanism, the lifting mechanism is arranged on the main body frame (1), and the air outlet assembly (3) is arranged on the lifting mechanism.

11. The raise boring machine according to claim 2, characterized in that the air outlet assembly (3) comprises an air outlet frame, an air outlet is formed between the air outlet frame and the main body frame, and the air outlet frame is independently lifted.

12. The raise boring machine according to claim 2, characterized in that the air outlet assembly (3) comprises an air outlet frame and an air return panel, an air outlet is formed between the air outlet frame and the main body frame, the air return panel is provided with an air return opening, and the air outlet frame is connected with the air return panel and ascends and descends together.

13. The raise boring machine according to claim 1, wherein: at least one second air outlet (13) is formed in the air outlet assembly (3), and the second air outlet (13) is communicated with the second end (22) of the air outlet air duct (2).

14. The raise boring machine according to claim 13, characterized in that: the courtyard machine further comprises an air deflector (4), the air deflector (4) is rotatably arranged at the second air outlet (13), and the air deflector (4) can close or open the second air outlet (13).