CN110905778A - Air compressor machine box that goes up and down to dispel heat and fall and make an uproar - Google Patents

Abstract

The invention discloses a lifting heat dissipation and noise reduction air compressor box body which comprises a bottom plate, a top cover plate, a front door plate, a rear door plate, two side plates, four vertical frame columns and a box body frame, wherein an air inlet, a fan assembly and a lifting assembly are arranged on the front door plate, the lifting assembly controls the lifting of the fan assembly, a heat dissipation port is formed in the rear door plate, the fan assembly comprises a driving motor and an axial flow fan blade, the axial flow fan blade comprises a hub and at least one blade, the blade is arranged on the outer peripheral wall of the hub, a first flow guide groove is formed in the negative pressure surface of the blade, and the first flow guide groove comprises at least two sub-grooves which are arranged at intervals along the radial direction of the hub. Install radiator fan on the preceding door plant of this air compressor box, and this fan liftable heat dissipation, the radiating effect is good, improves the blade of this fan, and this fan can also effectively reduce the noise of supplying air.

Description

Air compressor machine box that goes up and down to dispel heat and fall and make an uproar

Technical Field

The invention relates to the technical field of air compressors, in particular to an air compressor box body capable of lifting, radiating and reducing noise.

Background

An air compressor is a machine that compresses air to generate huge pneumatic power, and has multiple uses for propelling machinery, gas or liquid. The air pump of the air compressor can be divided into an electric air pump, a manual air pump and a foot-operated air pump according to the power source. The existing air compressor can emit a large amount of heat energy when running, and after the air compressor runs in a closed space for a short time, the air compressor can cause poor compression efficiency or halt due to high heat.

To the not good condition of efficiency, prior art has the installation fan in the box to realize radiating, but the blade of conventional fan is comparatively smooth, and partial air current easily forms vortex air current under the effect of centrifugal force to cause great noise, also can produce great noise when the air compressor machine itself operates, the noise of fan can aggravate holistic noise volume. Moreover, the heat dissipation effect of the fan in the prior art is not good.

Therefore, it is necessary to provide an air compressor casing which has a good heat dissipation effect and is capable of reducing noise.

Disclosure of Invention

To the above-mentioned problem that exists among the prior art, aim at providing a lift heat dissipation and fall the air compressor machine box of making an uproar, install radiator fan on the preceding door plant of this air compressor machine box, and this fan liftable heat dissipation, the radiating effect is good, improves the blade of this fan, and this fan can also effectively reduce the noise of supplying air.

The specific technical scheme is as follows:

the utility model provides a go up and down to dispel heat and fall air compressor machine box of making an uproar, includes bottom plate, lamina tecti, preceding door plant, back door plant, both sides board, four upright frame posts and box frame, be equipped with air intake, fan assembly and lifting unit on the preceding door plant, lifting unit controls fan assembly's lift, be equipped with the thermovent on the back door plant, fan assembly includes driving motor and axial compressor blade, the axial compressor blade includes wheel hub and at least one blade, the blade is established on wheel hub's periphery wall, be equipped with first guiding gutter on the negative pressure face of blade, first guiding gutter includes the edge two at least sub-recesses that wheel hub's radial interval set up, just the tip degree of depth of sub-recess is less than the middle part degree of depth.

Compared with the prior art, the invention has the following advantages:

according to the invention, the fan assembly is arranged on the front door plate of the air compressor box body for blowing air, the heat dissipation port is arranged on the rear door plate for heat dissipation, the fan can lift up and down to realize lifting heat dissipation, the heat dissipation effect is good, and the blades of the fan assembly are improved, so that vortex air flow can be effectively destroyed, and air supply noise is reduced.

As an improvement of the invention, the lifting assembly comprises a lifting cylinder or a screw rod lifter, and can control the fan assembly to lift up and down to realize lifting and heat dissipation, so that the heat dissipation effect is better.

As another improvement of the invention, a guide bulge is formed on the positive pressure surface of the blade, the guide bulge comprises at least two sub-bulges arranged at intervals along the radial direction of the hub, and the thickness of the end parts of the sub-bulges is smaller than that of the middle part of the sub-bulges. Therefore, the shapes of the positive pressure surface and the negative pressure surface of the blade are changed, so that vortex airflow can be effectively destroyed, and air supply noise is reduced.

And the blade root of the blade is provided with a second guide groove, and the second guide groove comprises a large mountain-shaped groove arranged at the blade root and small mountain-shaped grooves symmetrically arranged at two sides of the large mountain-shaped groove. The second guiding gutter can strengthen the intensity of blade root department, reduces the risk that the blade was damaged by the air current when rotating, protects and has prolonged the life of blade.

And the mountain feet of the large mountain-shaped groove and the small mountain-shaped groove are connected with the outer peripheral wall of the hub, and the mountain tops of the large mountain-shaped groove and the small mountain-shaped groove are protruded along the radial direction of the blade.

And the small mountain-shaped groove is sunken along the direction vertical to the positive pressure surface and is protruded along the direction vertical to the negative pressure surface.

In a further improvement, the part of the blade from the connecting line of the middle point of the blade root of the blade and the middle point of the outer edge of the blade to the tail edge of the blade is set into a frosted surface. The friction coefficient of the blade is increased, so that wind flow can flow out from the tail edge and the outer edge along the surface of the frosting surface after entering the front edge of the blade, the generation of vortex air flow is reduced, and noise is reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a front door panel according to the present invention;

FIG. 3 is a front view of the front door panel of the present invention;

FIG. 4 is a schematic reverse side view of a front door panel according to the present invention;

FIG. 5 is a schematic reverse side view of the back door panel of the present invention;

FIG. 6 is a schematic view of the overall structure of an axial-flow fan blade according to the present invention;

FIG. 7 is an enlarged view of portion A of FIG. 6;

fig. 8 is a side view of an axial-flow fan blade according to the present invention.

In the attached drawings, 1, a bottom plate; 2. a top cover plate; 3. a front door panel; 4. a rear door panel; 5. a side plate; 6. erecting a frame column; 7. a box frame; 8. a lifting assembly; 9. a lifting guide rail; 10. an air inlet; 11. a heat dissipation port; 12. a hub; 13. a blade; 13.1, blade root; 13.2, outer edge; 13.3, leading edge; 13.4, trailing edge; 13.5, leaf tip; 13.6, positive pressure surface; 13.7, negative pressure surface; 14. a first diversion trench; 14.1, sub-grooves; 15. a flow guide bulge; 15.1, a sub-bump; 16. a second guiding gutter; 16.1, a mountain-shaped groove; 16.2, a hill-shaped groove; 17.1, mountain tops; 17.2, mountain feet; 18. and (5) sanding.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "midpoint", "intermediate", "length", "width", "thickness", "depth", "up", "down", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate an orientation or positional relationship based on that shown in the drawings, merely to facilitate the description of the invention and to simplify the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be taken as limiting the invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The following disclosure provides many different embodiments, or examples, for implementing different features of the invention. To simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed.

As shown in fig. 1 to 5, an air compressor box with lifting heat dissipation and noise reduction is shown, which comprises a bottom plate 1, a top cover plate 2, a front door plate 3, a rear door plate 4, two side plates 5, four upright frame columns 6 and a box frame 7, wherein an air inlet 10, a fan assembly and a lifting assembly are arranged on the front door plate 3, the lifting assembly controls the lifting of the fan assembly, the lifting assembly comprises a lifting cylinder or a screw rod lifter and also comprises a lifting guide rail, the fan assembly moves up and down along the lifting guide rail so as to better dissipate heat, the heat is dissipated from a heat dissipation port 11 arranged on the rear door plate 4, and by adopting the design, the air compressor box has a heat dissipation function, and the fan is lifted and dissipated, wind enters from the air inlet 10 and blows out from the heat dissipation port 11 after the fan assembly forms air flow, and the heat dissipation effect.

The fan assembly comprises a driving motor and an axial flow fan blade, as shown in fig. 6 to 8, the axial flow fan blade comprises a hub 12 and at least one blade 13, and the blade 13 is arranged on the outer peripheral wall of the hub 12. Specifically, the hub 12 is substantially cylindrical, each blade 13 is connected to the outer peripheral wall of the hub 12, and the blades 13 extend outward in the radial direction of the hub 12, wherein the blades 13 may be multiple and the multiple blades 13 are uniformly distributed on the outer peripheral wall of the hub 12, for example, in one example of the present invention, the blades 13 are five, and five blades 13 are uniformly distributed along the circumferential direction of the hub 12, and five blades 13 are centrosymmetric about the central axis of the hub 12. Therefore, the running stability of the axial flow fan blade can be effectively improved. Here, it should be noted that the direction "outward" is understood to be a direction away from the center of the hub 12, and the opposite direction is defined as "inward", i.e., a direction toward the center of the hub 12.

Specifically, referring to fig. 4 and 8, the end of the blade 13 connected to the hub 12 is defined as a blade root 13.1, the end opposite to the blade root is defined as an outer edge 13.2, that is, the end of the blade 13 away from the hub 12 is defined as an outer edge 13.2, and two ends of the blade root 13.1 are correspondingly connected with two ends of the outer edge 13.2 respectively to obtain a leading edge 13.3 and a trailing edge 13.4 of the blade 13, when the axial flow fan blade rotates in the forward direction (for example, when the axial flow fan blade shown in fig. 4 rotates in the direction indicated by an arrow, that is, clockwise), the leading edge 13.3 is always located in front of the trailing edge 13.4, the junction of the leading edge 13.3 and the outer edge 13.2 is defined as a blade tip 13.5, further, when the axial flow fan blade rotates, wind flows in and flows out in the axial direction of the axial flow fan blade, when the axial flow fan blade rotates in the forward direction, wind flows in from the side of a positive pressure surface 13.6 (for example, such as a, specifically, the wind flows along the positive pressure surface 13.6 and creates a vortex air flow on the negative pressure surface 13.7, which creates a blowing noise, wherein, as the wind flows over the positive pressure surface 13.6, the wind flows in from the leading edge 13.3 of the positive pressure surface 13.6, and separates out from the trailing edge 13.4 and the outer edge 13.2.

In order to disperse vortex airflow and reduce air supply noise, the invention carries out innovative design on the blades 13.

In particular, with reference to fig. 6, the negative pressure surface 13.7 of the blade 13 is provided with a first flow guiding groove 14, wherein the first flow guide groove 14 comprises at least two sub-grooves 14.1 arranged at intervals in the radial direction of the hub 12, the depth of each sub-groove 14.1 is increased from inside to outside along the radial direction of the blade 13 and then is reduced, namely the sub-grooves are tapered grooves, the circumferential width of at least two sub-grooves 14.1 is sequentially increased from inside to outside along the radial direction of the blade 13, since the first flow channels 14 are arranged on the negative pressure surface 13.7 and extend convexly in a direction perpendicular to the positive pressure surface 13.6, therefore, the flow guide protrusion 15 is formed on the positive pressure surface 13.6 of the blade 13, wherein the flow guide protrusion 15 comprises at least two sub-protrusions 15.1 arranged at intervals along the radial direction of the hub 12, the thickness of each sub-protrusion 15.1 is increased from inside to outside along the radial direction of the blade 13 and then is reduced, that is, the protrusion is a conical protrusion, and the circumferential widths of at least two sub-protrusions 15.1 are sequentially increased from inside to outside along the radial direction of the blade 13. Thereby, the shapes of the positive pressure surface 13.6 and the negative pressure surface 13.7 of the blade 13 are changed, so that the vortex air flow can be effectively destroyed, and the air supply noise can be reduced.

For example, in the example of fig. 6, the first guiding gutter 14 on the negative pressure surface 13.7 of the blade 13 includes two sub-grooves 14.1, the two sub-grooves 14.1 are arranged at intervals along the radial direction of the hub 12, the depth of each sub-groove 14.1 increases from inside to outside along the radial direction of the blade 13, and then decreases to form a conical groove, each sub-groove 14.1 extends convexly along a direction perpendicular to the positive pressure surface 13.6, and a guiding bulge 15 is formed on the positive pressure surface 13.6; the circumferential widths of the two sub-grooves 14.1 increase from inside to outside in the radial direction of the blade 13, that is, the circumferential width of the sub-groove 14.1 near the blade root 13.1 is smaller than the circumferential width of the sub-groove 14.1 near the outer edge 13.2. Here, "thickness" may be understood as a thickness in the axial direction of the hub 12, and "circumferential width" may be understood as a width in the circumferential direction of the hub 12. Therefore, the purposes of destroying vortex air flow and reducing air supply noise can be achieved.

Of course, the present invention is not limited thereto, the number of the sub-grooves 14.1 may also be specifically set according to the radial length of the blade 13, and preferably, the overall radial length of the first guide vane 14 is slightly smaller than the radial length of the blade 13, when the radial length of the blade 13 is smaller, the number of the sub-grooves 14.1 may be two, and when the radial length of the blade 13 is larger, the number of the sub-grooves 14.1 may be three or more. Wherein "radial length" is understood to be the length in the radial direction of the hub 12. Therefore, the air flow can be effectively destroyed, and the air supply noise is reduced.

According to the axial flow fan blade provided by the embodiment of the invention, the first guide groove 14 is arranged on the negative pressure surface 13.7 of the blade 13, so that vortex airflow can be effectively damaged, the air supply noise is reduced, and the axial flow fan blade is simple in structure and attractive in appearance.

In an embodiment of the present invention, as shown in fig. 6, the blade root 13.1 of the blade 13 is provided with a second guiding groove 16, the second guiding groove 16 includes a large mountain-shaped groove 16.1 disposed in the middle of the blade root 13.1 and small mountain-shaped grooves 16.2 symmetrically disposed on both sides of the large mountain-shaped groove 16.1, a relatively sharp end of the mountain-shaped groove is defined as a mountain top 17.1, a relatively flat end is defined as a mountain bottom 17.2, the mountain bottoms 17.2 of one large mountain-shaped groove 16.1 and two small mountain-shaped grooves 16.2 are connected to the outer peripheral wall of the hub 12, and the mountain tops 17.1 of one large mountain-shaped groove 16.1 and two small mountain-shaped grooves 16.2 are protruded in the radial direction of the blade 13. Wherein, the big mountain type groove 16.1 is concave along the direction vertical to the negative pressure surface 13.7 and convex along the direction vertical to the positive pressure surface 13.6, and the small mountain type groove 16.2 is concave along the direction vertical to the positive pressure surface 13.6 and convex along the direction vertical to the negative pressure surface 13.7. Therefore, the airflow can be further destroyed, the air supply noise is reduced, meanwhile, the second guide groove 16 also plays a role in strengthening the strength of the blade root 13.1 part of the blade 13, the risk that the blade 13 is damaged by wind power during rotation is reduced, and the service life of the blade 13 can be prolonged.

In another embodiment of the invention, the part of the blade 13 from the connecting line of the midpoint of the blade root 13.1 and the midpoint of the outer edge 13.2 to the tail edge 13.4, namely 1/2 blade 13, is arranged as a frosted surface, so that the friction coefficient of the blade 13 is increased, and after wind flow enters the front edge 13.3 of the blade 13, the wind flow can flow out from the tail edge 13.4 and the outer edge 13.2 along the surface of the frosted surface, thereby reducing the generation of vortex air flow and reducing noise.

The first guide groove 14 and the second guide groove 16 are arranged on the blade 13 to destroy vortex airflow, so that noise is reduced; the second guide grooves 16 are arranged, so that the strength of the blade root 13.1 of the blade 13 can be enhanced, the risk that the blade 13 is damaged by airflow during rotation is reduced, and the service life of the blade 13 is protected and prolonged; the invention has simple structure and good effect.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides a lift heat dissipation and air compressor box of making an uproar that falls, includes bottom plate (1), lamina tecti (2), preceding door plant (3), back door plant (4), both sides board (5), four upright frame posts (6) and box frame (7), its characterized in that: be equipped with air intake (10), fan unit and lifting unit (8) on preceding door plant (3), lifting unit (8) control fan unit's lift, be equipped with thermovent (11) on back door plant (4), fan unit includes driving motor and axial fan blade, the axial fan blade includes wheel hub (12) and at least one blade (13), establish on the periphery wall of wheel hub (12) blade (13), be equipped with first guiding gutter (14) on negative pressure face (13.7) of blade (13), first guiding gutter (14) include the edge two at least sub-recesses (14.1) that the radial interval of wheel hub (12) set up, just the tip degree of depth of sub-recess (14.1) is less than the middle part degree of depth.

2. The air compressor box body capable of dissipating heat and reducing noise according to claim 1, wherein: the lifting assembly (8) comprises a lifting cylinder or a screw rod lifter.

3. The air compressor box body capable of dissipating heat and reducing noise according to claim 1, wherein: form water conservancy diversion arch (15) on positive pressure face (13.6) of blade (13), water conservancy diversion arch (15) are including two at least sub-archs (15.1) that set up along the radial interval of wheel hub (12), just the tip thickness of sub-arch (15.1) is less than middle part thickness.

4. The air compressor box capable of dissipating heat and reducing noise in the lifting mode according to claim 2 or 3, is characterized in that: the blade root (13.1) of blade (13) is equipped with second guiding gutter (16), second guiding gutter (16) are including setting up big mountain-shaped groove (16.1) and the symmetry of blade root (13.1) department set up in little mountain-shaped groove (16.2) of big mountain-shaped groove (16.1) both sides.

5. The air compressor box body capable of dissipating heat and reducing noise according to claim 4, wherein: the mountain foot (17.2) of the large mountain-shaped groove (16.1) and the mountain foot (17.2) of the small mountain-shaped groove (16.2) are both connected with the outer peripheral wall of the hub (12), and the mountain top (17.1) of the large mountain-shaped groove (16.1) and the mountain top (17.1) of the small mountain-shaped groove (16.2) are both protruded along the radial direction of the blade (13).

6. The air compressor box body capable of dissipating heat and reducing noise according to claim 5, wherein: the large-mountain-shaped groove (16.1) is sunken along the direction vertical to the negative pressure surface (13.7) and is protruded along the direction vertical to the positive pressure surface (13.6), and the small-mountain-shaped groove (16.2) is sunken along the direction vertical to the positive pressure surface (13.6) and is protruded along the direction vertical to the negative pressure surface (13.7).

7. The air compressor box body capable of dissipating heat and reducing noise according to claim 1, wherein: the part of the blade (13) from the connecting line of the midpoint of the blade root (13.1) of the blade (13) and the midpoint of the outer edge (13.2) of the blade (13) to the trailing edge (13.4) of the blade (13) is set as a frosted surface (18).

Images