CN218475796U - Cooling device after aluminum pipe extrusion molding - Google Patents

Abstract

The utility model discloses a cooling device after extrusion molding of aluminum pipes, which comprises a frame, a cooling water tank, a water storage tank and a water pump; the water storage tank and the water pump are connected to the bottom of the rack, and the cooling water tank is connected to the top end of the rack; a feed inlet and a discharge outlet are formed in two ends of the cooling water tank, and a supporting mechanism is connected inside the cooling water tank; the bottoms of the two ends of the cooling water tank are connected with overflow boxes, and the bottom ends of the overflow boxes are communicated with a water storage tank; one end of the cooling water tank is connected with a support, one end of the support extends to the position above the overflow box at the end of the discharge port, the bottom end of the support is provided with a wiper, the bottom end of the wiper is provided with a notch, and the notch corresponds to the discharge port in the left-right direction. The utility model discloses after well aluminum pipe passed through the cooling basin, the surplus water on aluminum pipe surface can be struck off to the scraper blade, guarantees the dry and comfortable on workshop ground.

Description

Cooling device after extrusion molding of aluminum pipe

Technical Field

The utility model relates to an aluminum product processing equipment technical field especially relates to an aluminum pipe extrusion moulding aftercooling device.

Background

Thin-walled aluminum tubes are most commonly used in refrigeration systems and are typically formed by cold-drawing or extrusion processes. The temperature of the extruded aluminum tube is high, and in order to ensure rapid setting thereof, the aluminum tube needs to be immediately cooled.

Current cooling trough does not have water scraping device, and after the aluminum pipe passed through cooling trough, the cooling water can remain on the aluminum pipe, finally drips on the workshop ground, leads to the workshop ground wet and slippery, not only influences the workshop environment, and has certain potential safety hazard.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cooling device behind aluminum pipe extrusion moulding, after the aluminum pipe passes through the cooling trough, the surplus water on aluminum pipe surface can be struck off to the scraper blade, guarantees the dry and comfortable on workshop ground to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a cooling device after extrusion molding of an aluminum pipe comprises a rack, a cooling water tank, a water storage tank and a water pump; the water storage tank and the water pump are connected to the bottom of the rack, and the cooling water tank is connected to the top end of the rack; a feed port and a discharge port are formed in two ends of the cooling water tank, and a supporting mechanism is connected inside the cooling water tank; the bottoms of the two ends of the cooling water tank are connected with overflow boxes, and the bottom ends of the overflow boxes are communicated with a water storage tank; one end of the cooling water tank is connected with a support, one end of the support extends to the position above the overflow box at the end of the discharge port, the bottom end of the support is provided with a wiper, the bottom end of the wiper is provided with a notch, and the notch corresponds to the discharge port in the left-right direction.

The utility model discloses a further improvement is, the frame bottom is connected with the horizontal pole, and the water pump is connected on the horizontal pole, and the water pump is through absorbing water union coupling in the bottom of storage water tank, and the water pump passes through the water injection union coupling in cooling trough.

The utility model discloses a further improvement is, the bounding wall at cooling trough both ends is less than the bounding wall of both sides, and the feed inlet sets up on the bounding wall at both ends with the discharge gate symmetry, and feed inlet and discharge gate are U style of calligraphy structure.

The utility model discloses a further improvement is, supporting mechanism includes the supporting seat, and supporting connection is connected with a plurality of backup pads A of group on the bottom of cooling trough, the top of backup pad A is equipped with draw-in groove A, and the roller card at bearing roller A both ends is arranged in draw-in groove A in the supporting seat.

The utility model discloses a further improvement is, the bottom of support is connected with first telescopic link, and the bottom of first telescopic link is connected with the base, and the wiper blade is connected in the lateral part of base.

The utility model discloses a further improvement is, breach on the wiper blade is the U style of calligraphy, and the material of wiper blade is silica gel.

The utility model discloses a further improvement is, the support bottom still is connected with the second telescopic link, and the bottom of second telescopic link is connected with annular air knife, and annular air knife passes through the pipe connection air supply.

The utility model discloses a further improvement is, the overflow box diapire of discharge gate end is connected with a set of backup pad B, and backup pad B's top is equipped with draw-in groove B, and the roller card at bearing roller B both ends is arranged in draw-in groove B.

The utility model discloses a further improvement scheme is, bearing roller B is located the overflow box of feed inlet end and keeps away from the one end in cooling trough.

The utility model discloses a further improvement scheme is, correspond about the breach on through-hole in the middle of the annular air knife and the wiper blade.

The utility model has the advantages that:

first, the utility model discloses a cooling device behind aluminum pipe extrusion moulding, after the aluminum pipe passes through the cooling trough, the surplus water on aluminum pipe surface can be struck off to the scraper blade, guarantees the dry and comfortable on workshop ground.

Second, the utility model discloses a cooling device behind aluminum pipe extrusion moulding, the material of wiper blade are silica gel, guarantee that the aluminum pipe outer wall is difficult to be worn and torn.

Third, the utility model discloses a cooling device behind aluminum pipe extrusion moulding is provided with the annular air knife, 360 water stains on blowing off the aluminum pipe surface further promote dewatering effect.

Fourth, the utility model discloses a cooling device behind aluminum pipe extrusion moulding, the wiper blade is installed on the telescopic link pole with the annular air knife, can adjust from top to bottom, satisfies the user demand of unidimensional aluminum pipe not.

Fifth, the utility model discloses a cooling device behind aluminum pipe extrusion moulding, bearing roller B's setting guarantees that the aluminum pipe outer wall can not contact with annular air knife inner hole wall, prevents the wearing and tearing of aluminum pipe outer wall.

Drawings

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

Fig. 2 is a sectional view of the cooling water tank of the present invention.

Fig. 3 is a schematic view of the installation of the wiper blade and the annular air knife according to the present invention.

Fig. 4 is a schematic view of the structure of the discharge hole of the present invention.

Fig. 5 is a schematic structural view of the wiper blade of the present invention.

Figure 6 is a schematic view of a circular air knife of the present invention.

In the figure: 1-frame, 101-cross rod, 2-cooling water tank, 201-feed inlet, 202-discharge outlet, 203-support, 204-first telescopic rod, 205-base, 206-second telescopic rod, 3-water storage tank, 4-water pump, 401-water suction pipe, 402-water injection pipe, 5-support mechanism, 501-support seat, 502-support plate A, 503-carrier roller A, 6-overflow box, 7-water scraping plate, 701-notch, 8-annular air knife, 9-support plate B, 901-carrier roller B and 10-aluminum tube.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

Example 1: as shown in fig. 1 to 6, a cooling device after extrusion molding of an aluminum pipe comprises a frame 1, a cooling water tank 2, a water storage tank 3 and a water pump 4; the water storage tank 3 and the water pump 4 are connected to the bottom of the rack 1, and the cooling water tank 2 is connected to the top end of the rack 1; a feed port 201 and a discharge port 202 are arranged at two ends of the cooling water tank 2, and a support mechanism 5 is connected inside the cooling water tank 2; the bottoms of the two ends of the cooling water tank 2 are connected with overflow boxes 6, and the bottom ends of the overflow boxes 6 are communicated with the water storage tank 3; one end of the cooling water tank 2 is connected with a support 203, one end of the support 203 extends to the upper part of the overflow box 6 at the end of the discharge port 202, the bottom end of the support 203 is provided with a wiper 7, the bottom end of the wiper 7 is provided with a notch 701, and the notch 701 corresponds to the discharge port 202 in the left-right direction; the bottom of the rack 1 is connected with a cross bar 101, a water pump 4 is connected to the cross bar 101, the water pump 4 is connected to the bottom end of the water storage tank 3 through a water suction pipe 401, and the water pump 4 is connected to the cooling water tank 2 through a water injection pipe 402; the enclosing plates at two ends of the cooling water tank 2 are lower than the enclosing plates at two sides, the feeding port 201 and the discharging port 202 are symmetrically arranged on the enclosing plates at two ends, and the feeding port 201 and the discharging port 202 are in a U-shaped structure; the supporting mechanism 5 comprises a supporting seat 501, the supporting seat 501 is connected to the bottom end of the cooling water tank 2, a plurality of groups of supporting plates A502 are connected to the supporting seat 501, a clamping groove A is formed in the top end of each supporting plate A502, and roll shafts at two ends of each carrier roller A503 are clamped in the clamping grooves A; the bottom end of the bracket 203 is connected with a first telescopic rod 204, the bottom end of the first telescopic rod 204 is connected with a base 205, and the wiper blade 7 is connected with the side part of the base 205; the notch 701 on the wiper blade 7 is U-shaped, and the wiper blade 7 is made of silica gel.

Example 2: the embodiment is a further improvement of the embodiment 1, and the main improvement is that water stains still remain at the bottom end of the aluminum pipe 10 when the embodiment 1 is used; in the present embodiment, the above-mentioned defects can be avoided, specifically:

the bottom end of the bracket 203 is also connected with a second telescopic rod 206, the bottom end of the second telescopic rod 206 is connected with an annular air knife 8, and the annular air knife 8 is connected with an air source through a pipeline; the bottom wall of the overflow box 6 at the discharge port 202 end is connected with a group of supporting plates B9, the top ends of the supporting plates B9 are provided with clamping grooves B, and roll shafts at two ends of the carrier roller B901 are clamped in the clamping grooves B; the carrier roller B901 is positioned at one end of the overflow box 6 at the material inlet end, which is far away from the cooling water tank 2; the through hole in the middle of the annular air knife 8 corresponds to the notch 701 on the wiper blade 7 left and right; the annular air knife 8 is arranged in the embodiment, water stains on the surface of the aluminum pipe 10 are blown off by 360 degrees, and the water removal effect is further improved.

Otherwise, this embodiment is identical to embodiment 1, and will not be described herein.

The utility model discloses a concrete theory of operation as follows:

when the water pump 4 works, cooling water is injected into the cooling water tank 2, and when the cooling water in the cooling water tank 2 reaches a certain height, because the enclosing plates at two ends of the cooling water tank 2 are lower than the enclosing plates at two sides, the cooling water flows into the overflow box 6 from the top ends of the feeding hole 201, the discharging hole 202 and the enclosing plates at two ends, and then flows back into the water storage tank 3 from the overflow box 6; the thin-walled aluminum tube 10 discharged from the extrusion device enters the cooling water tank 2 from the feed inlet 201, is loaded on the carrier roller a503, then comes out from the discharge outlet 202, passes through the notch 701 of the water scraping plate 7 and the annular air knife 8, passes through the upper part of the carrier roller B901, and finally reaches the winding device.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. The utility model provides an aluminum pipe extrusion moulding after cooling device which characterized in that: comprises a frame (1), a cooling water tank (2), a water storage tank (3) and a water pump (4); the water storage tank (3) and the water pump (4) are connected to the bottom of the rack (1), and the cooling water tank (2) is connected to the top end of the rack (1); a feed inlet (201) and a discharge outlet (202) are formed in two ends of the cooling water tank (2), and a supporting mechanism (5) is connected inside the cooling water tank (2); the bottoms of the two ends of the cooling water tank (2) are connected with overflow boxes (6), and the bottom ends of the overflow boxes (6) are communicated with the water storage tank (3); cooling trough (2) one end is connected with support (203), and the one end of support (203) extends to overflow box (6) top of discharge gate (202) end, and the bottom of support (203) is equipped with wiper blade (7), and wiper blade (7) bottom is equipped with breach (701), and this breach (701) and discharge gate (202) are controlled and are corresponded.

2. An aluminum pipe extrusion molding post-cooling device as recited in claim 1, wherein: frame (1) bottom is connected with horizontal pole (101), and water pump (4) are connected on horizontal pole (101), and water pump (4) are connected in the bottom of storage water tank (3) through absorbing water pipe (401), and water pump (4) are connected in cooling trough (2) through water injection pipe (402).

3. An aluminum pipe extrusion molding post-cooling device as recited in claim 1, wherein: the coamings at the two ends of the cooling water tank (2) are lower than the coamings at the two ends, the feeding port (201) and the discharging port (202) are symmetrically arranged on the coamings at the two ends, and the feeding port (201) and the discharging port (202) are in a U-shaped structure.

4. An aluminum pipe extrusion molding after-cooling apparatus as recited in claim 2 or 3, wherein: the supporting mechanism (5) comprises a supporting seat (501), the supporting seat (501) is connected to the bottom end of the cooling water tank (2), a plurality of groups of supporting plates A (502) are connected to the supporting seat (501), a clamping groove A is formed in the top end of each supporting plate A (502), and roller shaft clamps at two ends of each carrier roller A (503) are arranged in the clamping grooves A.

5. An aluminum pipe extrusion molding after-cooling apparatus as recited in claim 2 or 3, wherein: the bottom end of the support (203) is connected with a first telescopic rod (204), the bottom end of the first telescopic rod (204) is connected with a base (205), and the wiper blade (7) is connected to the side portion of the base (205).

6. An aluminum pipe extrusion molding after-cooling apparatus as recited in claim 5, wherein: breach (701) on wiper blade (7) are the U style of calligraphy, and the material of wiper blade (7) is silica gel.

7. An aluminum pipe extrusion molding after-cooling apparatus as recited in claim 6, wherein: the bottom end of the support (203) is further connected with a second telescopic rod (206), the bottom end of the second telescopic rod (206) is connected with an annular air knife (8), and the annular air knife (8) is connected with an air source through a pipeline.

8. An aluminum pipe extrusion molding post-cooling device as recited in claim 7, wherein: the overflow box (6) diapire of discharge gate (202) end is connected with a set of backup pad B (9), and the top of backup pad B (9) is equipped with draw-in groove B, and the roller card at bearing roller B (901) both ends is arranged in draw-in groove B.

9. An aluminum pipe extrusion molding after-cooling apparatus as recited in claim 8, wherein: the carrier roller B (901) is positioned at one end of the overflow box (6) at the material inlet end, which is far away from the cooling water tank (2).

10. An aluminum pipe extrusion molding post-cooling device as recited in claim 8, wherein: the through hole in the middle of the annular air knife (8) corresponds to the notch (701) on the water scraping plate (7) left and right.

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