CN106679355B - Air drying device for aluminum profile - Google Patents

Abstract

The invention discloses an air drying device for an aluminum profile, which comprises a first supporting mechanism and a second supporting mechanism, wherein the first supporting mechanism comprises a first abutting component, one end of the aluminum profile abuts against the first abutting component, the air drying device also comprises a first supporting rod, the first supporting rod is higher than the first abutting component in horizontal height, the aluminum profile is obliquely arranged on the first supporting mechanism, one end of the aluminum profile is supported on the first supporting rod, and the other end of the aluminum profile abuts against the first abutting component; the second supporting mechanism comprises a second abutting component and a second supporting rod, the second supporting rod is higher than the second abutting component in horizontal height, the aluminum profile is obliquely arranged on the second supporting mechanism, one end of the aluminum profile is supported on the second supporting rod, and the other end of the aluminum profile is abutted on the second abutting component; the invention also comprises a fan structure, the fan structure blows away the moisture in the aluminum profile groove, and the technical problems that the water is easy to accumulate in the groove and the air drying effect is poor when the aluminum profile is naturally air-dried in the prior art can be solved.

Description

Air drying device for aluminum profile

Technical Field

The invention relates to the field of aluminum profile air-drying equipment, in particular to an air-drying device for aluminum profiles.

Background

In the 21 st century, with the rapid promotion of large-scale capital investment and industrialization progress in China, the yield and consumption of the whole industry of aluminum profiles are rapidly increased, and China is the largest aluminum profile production base and consumption market in the world. Through the rapid growth of up to about 10 years, the aluminum profile industry in China steps into a new development stage, and shows a plurality of new development trends and continuously perfected processing technologies. The existing aluminum profile production process comprises three processes of casting, extrusion forming and coloring, wherein the surface of the extruded aluminum alloy profile is not strong in corrosion resistance, and surface treatment is required to be carried out through anodic oxidation to increase the corrosion resistance, wear resistance and appearance attractiveness of the aluminum profile. The surface of the aluminum profile is subjected to pretreatment before anodic oxidation, and is cleaned by a chemical or physical method to expose a pure matrix, so that a complete and compact artificial oxide film can be obtained. The aluminum profile after cleaning can be processed in the next step after being drained, if the aluminum profile is randomly piled up to be naturally air-dried, due to the contour characteristics of the outer surface of the aluminum profile, the aluminum profile is often provided with a plurality of surface grooves, water is easy to accumulate in the grooves, and the natural air-drying effect can be greatly reduced. The technicians consider evaporating the moisture on the surface of the aluminum profile by adopting a heating and drying mode, but the mode has the advantages of high production cost, high consumption of a large amount of electric energy, easiness in damaging the surface of the aluminum profile at high temperature and urgent need for an air drying device for the aluminum profile with low cost and excellent air drying effect to solve the problems.

Accordingly, the prior art is still in need of improvement and development.

Disclosure of Invention

The invention aims to provide an air drying device for aluminum profiles, which aims to solve the technical problems that water is easy to accumulate in a groove and the air drying effect is poor when the aluminum profiles are naturally air-dried in the prior art.

The technical scheme of the invention is as follows:

the first supporting mechanism comprises a first abutting component, one end of the aluminum profile abuts against the first abutting component, the first supporting mechanism also comprises a first supporting rod matched with the first abutting component, the first supporting rod is higher than the first abutting component in set level, the aluminum profile is obliquely placed on the first supporting mechanism, one end of the aluminum profile is supported on the first supporting rod, and the other end of the aluminum profile abuts against the first abutting component; the second supporting mechanism comprises a second supporting member and a second supporting rod, the second supporting rod is higher than the second supporting member in horizontal height, the aluminum profile is obliquely arranged on the second supporting mechanism, one end of the aluminum profile is supported on the second supporting rod, and the other end of the aluminum profile is supported on the second supporting member; the aluminum profile groove also comprises a fan structure, and the fan structure blows air to blow away the accumulated moisture in the aluminum profile groove.

The air drying device for the aluminum profiles is characterized in that the horizontal height of the first bearing mechanism is higher than that of the second bearing mechanism, and the aluminum profiles can be simultaneously placed on the first bearing mechanism and the second bearing mechanism in an upper layer and a lower layer.

The air drying device for the aluminum profile is characterized in that the first abutting component comprises square pipes which are obliquely arranged, an abutting part for abutting the aluminum profile is arranged between the two square pipes, the abutting part consists of a plurality of abutting sub-parts, the surface of the abutting part is further provided with an anti-scraping part, and the bottom of each square pipe is connected and supported with pins of the first abutting component.

The air drying device for the aluminum profile, wherein the second abutting component comprises an abutting frame body, the abutting frame body comprises a base plate which is horizontally arranged, one end of the base plate is connected with a wing plate which is vertically arranged, the wing plate is connected with a circular tube, the bottom of the circular tube is provided with a supporting rib for supporting the circular tube, and the outer surface of the wing plate is further provided with an anti-scraping part.

The air drying device for the aluminum profile is characterized in that the bottoms of the first supporting rod and the second supporting rod are connected with supporting rod pins, each supporting rod pin comprises an upper pin and a lower pin connected with the upper pin, the upper pin can be adjusted in a telescopic mode relative to the lower pin, a plurality of corresponding pin holes are formed in the upper pin and the lower pin, and the upper pin and the lower pin are fastened through a knob penetrating through the pin holes.

The air drying device for the aluminum profile comprises a knob head, wherein one end of the knob head is connected with a rod portion, an external thread is arranged on the rod portion, the air drying device also comprises a nut connected with the rod portion, and the nut is provided with an internal thread.

The air drying device for the aluminum profile is characterized in that the fan structure is obliquely arranged, the direction of the axis of the fan structure is parallel to the direction of oblique placement of the aluminum profile, and the fan structure comprises a fan mounting frame and a fan mounted on the fan mounting frame.

The air drying device for the aluminum profile is characterized in that the fan comprises a plurality of rotating blades, the cross sections of the blades are in wing section shapes, the width of the cross sections of the blades gradually narrows from the middle to the two ends, the upper edge and the lower edge are in smooth transition arc shapes, and a tip is formed at one end of each blade.

The air drying device for the aluminum profile comprises a plurality of rotating blades, wherein the cross sections of the blades are in a shape of a lower bent wing section, the width of the cross sections of the blades is gradually narrowed from the middle to the two ends, the upper edge and the lower edge are bent downwards, and a tip is formed at one end of each blade.

The air drying device for the aluminum profile is characterized in that the scratch-resistant part is a rubber block.

The invention has the beneficial effects that: according to the air drying device for the aluminum profile, the first supporting mechanism and the second supporting mechanism are arranged to enable the aluminum profile to be obliquely placed, water drops flow away under the action of gravity, the fan structure which blows air obliquely downwards is arranged to blow accumulated water in the aluminum profile groove, and after the air drying device is used, the air drying efficiency of the aluminum profile is greatly improved, the air drying time which originally needs two hours is shortened to be half an hour, and the technical problems that water is easy to accumulate in the groove and the air drying effect is poor when the aluminum profile is air-dried in the prior art are solved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the first supporting mechanism in the present invention.

Fig. 3 is a schematic structural view of a second supporting mechanism in the present invention.

Fig. 4 is a schematic structural view of the first abutment member in the present invention.

Fig. 5 is a schematic structural view of a second abutment member according to the present invention.

Fig. 6 is a side view of a second abutment member of the present invention.

Fig. 7 is a schematic view of the structure of the support bar pin.

Fig. 8 is a schematic diagram of the structure of the upper pin.

Fig. 9 is a schematic diagram of the structure of the lower pin.

Fig. 10 is an assembly schematic of the upper and lower pins.

Fig. 11 is a schematic structural view of a fan structure.

Fig. 12 is a schematic cross-sectional shape of a blade of a prior art fan.

Fig. 13 is a schematic view of the structure of the vane in the present invention.

Fig. 14 is a schematic view showing a structure of a blade according to another embodiment of the present invention.

The drawings are marked with the following description:

a first support mechanism 1; a first abutment member 100; square tube 1000; an abutment member 1001; a pin 1002; a first support bar 101; a support bar pin 102; an upper pin 1020; lower pin 1021; pin holes 1022; a knob 1023; knob head 10230; a lever 10231; nut 10232; a second support mechanism 2; a second abutment member 200; round tube 2000; the abutment frame 2001; support ribs 2002; a scratch prevention portion 2003; a second support bar 201; a fan structure 3; a fan 30; a blade 300; a fan mounting 31.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clear and clear, the present invention will be further described in detail below with reference to the accompanying drawings and examples.

Referring to fig. 1, the present invention provides an air drying device for an aluminum profile, which includes a first supporting mechanism 1 and a second supporting mechanism 2 for supporting an aluminum profile, where the first supporting mechanism 1 includes a first abutting member 100, one end of the aluminum profile abuts against the first abutting member 100, and further includes a first supporting rod 101 matched with the first abutting member 100, and the first supporting rod 101 is disposed at a level higher than that of the first abutting member 100, so that the aluminum profile can be obliquely placed on the first supporting mechanism 1, one end of the aluminum profile is supported on the first supporting rod 101, the other end of the aluminum profile abuts against the first abutting member 100, and the water drops in the groove of the aluminum profile are obliquely placed, and downward flow under the action of gravity, so that the accumulated water drops can be cleaned.

The second supporting mechanism 2 comprises a second supporting member 200 and a second supporting rod 201, the second supporting rod 201 is arranged at a level higher than that of the second supporting member 200, the aluminum profile is obliquely arranged on the second supporting mechanism 2, one end of the aluminum profile is supported on the second supporting rod 201, and the other end of the aluminum profile is supported on the second supporting member 200; still include fan structure 3, the moisture that accumulates in the aluminium alloy recess is blown away in the air supply of fan structure 3, for letting aluminium alloy natural air-dry's mode, blow away the water droplet through fan structure 3, it is better to air-dry the effect, can not have the water droplet of remaining in the recess.

Because the space for placing the aluminum profiles in the factory is relatively limited, if the aluminum profiles are directly drained in a line, more space can be occupied, and the draining efficiency can be affected only in batches under the condition of insufficient space, therefore, in the embodiment, the horizontal height of the first bearing mechanism 1 is higher than that of the second bearing mechanism 2, the aluminum profiles can be simultaneously placed on the first bearing mechanism 1 and the second bearing mechanism 2 in an upper layer and a lower layer, and thus, the aluminum profiles can be drained in layers, and the draining efficiency is doubled.

Further, referring to fig. 2 to 4, the first abutting component 100 includes two inclined square tubes 1000, an abutting component 1001 for abutting against an aluminum profile is disposed between the two square tubes 1000, the abutting component 1001 is directly contacted with a corner of the aluminum profile, and is easily damaged by touching of the aluminum profile, and the abutting component 1001 is easily recessed due to pressure applied to the inclined aluminum profile to the abutting component 1001, at this time, if the abutting component 1001 is replaced in a whole, the cost is relatively high, and the economical principle is not met. In addition, since the aluminum profile is colored and polished smoothly at this time, in order to prevent the abutting part 1001 from scratching the aluminum profile, the surface of the abutting part 1001 is further provided with a scratch-proof portion 2003, and in this embodiment, the scratch-proof portion 2003 is a rubber block, so that the aluminum profile is directly contacted with the rubber having elasticity, the outer surface of the aluminum profile is not easily damaged, and the bottom of the square tube 1000 is connected with the pin 1002 supporting the first abutting member 100.

Further, referring to fig. 5 and 6, the second abutting member 200 includes an abutting frame 2001, the abutting frame 2001 includes a horizontally disposed base plate, one end of the base plate is connected with a vertically disposed wing plate, the wing plate is connected with a circular tube 2000, the circular tube 2000 is used as a skeleton in the second abutting member 200, the rigidity of the whole second abutting member 200 is increased, the circular tube 2000 is not easy to be deformed due to pressure when contacting with an aluminum profile, a supporting rib 2002 for supporting the circular tube 2000 is further provided at the bottom of the circular tube 2000, and the supporting rib 2002 provides a fulcrum for the circular tube 2000, so that the circular tube 2000 is more firmly connected to the abutting frame 2001. The pterygoid lamina surface still is provided with prevents scraping portion 2003, prevents scraping portion 2003 and is the rubber piece, and aluminium alloy is direct with have elastic rubber contact, is difficult to scratch the surface to the aluminium alloy.

Further, referring to fig. 7 to 10, the bottoms of the first supporting rod 101 and the second supporting rod 201 are connected with a supporting rod pin 102, the supporting rod pin 102 comprises an upper pin 1020 and a lower pin 1021 connected with the upper pin 1020, different types and specifications of aluminum profiles have different diameters, lengths and widths, and various supporting height selections are needed to meet the use requirements, in this embodiment, the upper pin 1020 can be telescopically adjusted relative to the lower pin 1021, the heights of the first supporting rod 101 and the second supporting rod 201 can be very conveniently adjusted, a plurality of corresponding pin holes 1022 are arranged on the upper pin 1020 and the lower pin 1021, and the upper pin 1020 and the lower pin 1021 are tightly screwed up through the pin holes 1022 through a knob 1023. Knob 1023 includes knob head 10230, and knob head 10230 one end is connected with pole portion 10231, be provided with the external screw thread on the pole portion 10231, still include a nut 10232 that is connected with pole portion 10231, nut 10232 is provided with the internal screw thread, nut 10232 and pole portion 10231 screw-thread fit. The height of the supporting rod pins 102 can be adjusted by tightening the pin holes 1022 of the upper pins 1020 through the knob 1023 after aligning with different pin holes 1022 on the lower pins 1021, so as to meet the placing requirements of aluminum profiles with different types and specifications.

Further, in order to make the air blown by the fan structure 3 reach the surface of the aluminum profile as much as possible, and improve the air drying effect, referring to fig. 11, the fan structure 3 is obliquely arranged, the direction of the axis of the fan structure 3 is parallel to the direction of the oblique placement of the aluminum profile, and the fan structure 3 includes a fan mounting frame 31 and a fan 30 mounted on the fan mounting frame 31. The fan 30 includes a plurality of rotating blades 300, and in order to reduce wind noise caused when the blades 300 rotate, the fan 30 is provided in a multi-blade structure, and in this embodiment, the blades 300 are provided in six.

Referring to fig. 12, in the prior art, the cross-sectional shape of the blade 300 is often configured as an ellipse as shown in fig. 12, and wind enters from the left side and travels along the upper and lower edges of the blade 300, and the wind forms a vortex (i.e., the air resisting effect) on the right end surface of the blade 300, and the formed vortex causes the following disadvantages: firstly, very large wind noise is generated, and the working environment of operators is deteriorated; secondly, the formation of the vortex causes the air outlet to lose a certain amount of kinetic energy, the air outlet quantity is reduced to a certain extent, and the air drying effect of the aluminum profile is greatly reduced.

Therefore, in order to solve the above problem, the right end face of the blade 300 is prevented from forming a vortex as much as possible, the cross section of the blade 300 in the technical solution of the present invention is configured in a wing section shape (as shown in fig. 13), the width of the cross section of the blade 300 gradually narrows from the middle to the two ends, the upper and lower edges are in a smooth transition arc shape, and a tip is formed at one end of the blade. The air resistance effect of the vane with the cross section shape is much smaller than that of the vane with the oval shape, the aerodynamic performance of the vane is greatly improved, and the research and verification of a technician prove that the resistance of the vane with the oval shape with the square centimeter is 66 times of that of the vane with the cross section shape with the square centimeter, so that the wind resistance is remarkably reduced by improving the shape structure of the vane, the electric energy of a motor can be saved, the air supply efficiency is greatly improved, and the air drying effect of the aluminum profile is more excellent by adopting the vane with the structure.

In order to reduce the weight of the blade 300, reduce the moment of inertia thereof and accelerate the reaction speed of the blade, as another embodiment of the present invention, referring to fig. 14, the cross section of the blade 300 is configured in a shape of a down-turned wing, the width of the cross section of the blade 300 gradually narrows from the middle to the two ends, the up-and-down edge is bent downward, a tip is formed at one end of the blade, and the shape of the down-turned wing is configured to make the blade 300 lighter and less wind resistance.

According to the air drying device for the aluminum profile, the first supporting mechanism and the second supporting mechanism are arranged to enable the aluminum profile to be obliquely placed, water drops flow away under the action of gravity, the fan structure which blows air obliquely downwards is arranged to blow away accumulated water in the aluminum profile groove, and the air drying efficiency of the aluminum profile is greatly improved after the air drying device is applied, so that the technical problems that water is easy to accumulate in the groove and an air drying effect is poor when the aluminum profile is air-dried in the prior art are solved.

It is to be understood that the invention is not limited in its application to the examples described above, but is capable of modification and variation in light of the above teachings by those skilled in the art, and that all such modifications and variations are intended to be included within the scope of the appended claims.

Claims (7)

1. The air drying device for the aluminum profile is characterized by comprising a first supporting mechanism and a second supporting mechanism for supporting the aluminum profile, wherein the first supporting mechanism comprises a first abutting component, one end of the aluminum profile abuts against the first abutting component, the air drying device also comprises a first supporting rod matched with the first abutting component, the first supporting rod is higher than the first abutting component in set level, the aluminum profile is obliquely placed on the first supporting mechanism, one end of the aluminum profile is supported on the first supporting rod, and the other end of the aluminum profile abuts against the first abutting component; the second supporting mechanism comprises a second supporting member and a second supporting rod, the second supporting rod is higher than the second supporting member in horizontal height, the aluminum profile is obliquely arranged on the second supporting mechanism, one end of the aluminum profile is supported on the second supporting rod, and the other end of the aluminum profile is supported on the second supporting member; the aluminum profile bearing device comprises a first bearing mechanism, a second bearing mechanism, a fan structure, a first bearing mechanism and a second bearing mechanism, wherein the first bearing mechanism is used for bearing aluminum profiles, the second bearing mechanism is used for bearing aluminum profiles, and the first bearing mechanism and the second bearing mechanism are used for bearing aluminum profiles; the second abutting component comprises an abutting frame body, the abutting frame body comprises a base plate which is horizontally arranged, one end of the base plate is connected with a wing plate which is vertically arranged, a round pipe is connected to the wing plate, a supporting rib which supports the round pipe is arranged at the bottom of the round pipe, an anti-scraping part is further arranged on the outer surface of the wing plate, the first abutting component comprises two obliquely arranged square pipes, an abutting part for abutting against an aluminum profile is arranged between the two square pipes, the abutting part consists of a plurality of abutting sub-parts, an anti-scraping part is further arranged on the surface of the abutting part, and the bottom of the square pipe is connected with and supports pins of the first abutting component.

2. The air drying device for aluminum profiles according to claim 1, wherein the bottoms of the first supporting rod and the second supporting rod are connected with supporting rod pins, the supporting rod pins comprise upper pins and lower pins connected with the upper pins, the upper pins can be adjusted in a telescopic manner relative to the lower pins, a plurality of corresponding pin holes are formed in the upper pins and the lower pins, and the upper pins and the lower pins are fastened through the pin holes through a knob.

3. The air drying device for aluminum profiles according to claim 2, wherein the knob comprises a knob head, one end of the knob head is connected with a rod part, an external thread is arranged on the rod part, and the air drying device further comprises a nut connected with the rod part, and the nut is provided with an internal thread.

4. The air drying device for aluminum profiles according to claim 1, wherein the fan structure is obliquely arranged, the direction of the axis of the fan structure is parallel to the direction of the oblique placement of the aluminum profiles, and the fan structure comprises a fan mounting frame and a fan mounted on the fan mounting frame.

5. The air drying device for aluminum profiles according to claim 4, wherein the fan comprises a plurality of rotating blades, the cross section of each blade is in a wing section shape, the width of the cross section of each blade is gradually narrowed from the middle to the two ends, the upper and lower edges are in a smooth transition arc shape, and a tip part is formed at one end of each blade.

6. The air drying apparatus for aluminum profiles as claimed in claim 4, wherein the fan comprises a plurality of rotating blades, the cross section of the blades is formed in a shape of a down-bent wing section, the width of the cross section of the blades is gradually narrowed from the middle to both ends, the upper and lower edges are bent downward, and a tip portion is formed at one end of the blades.

7. The air drying apparatus for aluminum profiles according to claim 1, wherein the scratch-proof portion is a rubber block.

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