CN115990863B - Put pipe rack for producing heat dissipation copper pipe and production method - Google Patents

Abstract

The invention provides a pipe placing frame for producing a heat dissipation copper pipe and a production method thereof, which relate to the technical field of production of heat dissipation copper pipes, and the production method of the heat dissipation copper pipe comprises the following steps: step one: and (5) upward guiding a copper pipe blank: step two: rolling the copper pipe blank through a rolling mill; step three: drawing the rolled copper pipe blank for multiple times to form a copper pipe; step four: cutting the copper pipe to a fixed length; step five: the cut copper tubes fall onto a tube placing rack, and each copper tube is separated when the tube placing rack is placed; step six: placing the pipe placing frame into a cleaning tank, and then cleaning the copper pipe; step seven: packaging the cleaned and dried copper pipe; after the copper pipe is cut, the cut copper pipes fall to the pipe placing frame, so that each copper pipe is separated, extrusion deformation can occur when the copper pipe is prevented from moving, cleaning liquid can fully contact with the copper pipe when the copper pipe is cleaned, and unclean cleaning is avoided.

Description

Put pipe rack for producing heat dissipation copper pipe and production method

Technical Field

The invention relates to the technical field of production of heat dissipation copper pipes, in particular to a pipe placing frame for production of heat dissipation copper pipes and a production method.

Background

Copper tubes are also known as copper tubes. One type of non-ferrous metal tube is a pressed and drawn seamless tube. Copper tubes have good electrical conductivity and thermal conductivity, and are the main materials of various heat dissipation accessories.

However, in the conventional heat dissipation copper pipes, the copper pipes are cut to a certain length to form a plurality of copper pipes, and because the copper pipes are stacked together, extrusion deformation may occur during movement, and a stack of copper pipes is placed in the cleaning tank, so that cleaning liquid cannot be fully contacted with the copper pipes, and the cleaning is not clean.

Disclosure of Invention

The invention aims to provide a pipe placing frame for producing heat dissipation copper pipes, which aims to solve the problems that in the prior art, because copper pipes are stacked together, extrusion deformation possibly occurs during movement, and a pile of copper pipes is placed in a cleaning pool and cleaning liquid cannot be fully contacted with the copper pipes.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the utility model provides a heat dissipation copper pipe production is with putting pipe support, put the pipe support and include a plurality of sill bars, equidistant a plurality of pole setting of installing on the sill bar, every connect through connecting the horizontal pole between the pole setting of same row on the sill bar, put the bottom of pipe support and install the adjustment mechanism who is used for adjusting the pole setting interval, one side of pole setting articulates there is the L shaped plate, the pole setting is provided with and is used for controlling L shaped plate pivoted control assembly, thereby control assembly makes L shaped plate rotate and can prevent the steel pipe whereabouts to the below of this L shaped plate.

In order to facilitate layering and stacking of copper pipes, the control assembly comprises a torsion spring arranged on an L-shaped plate hinge shaft, the other end of the torsion spring is connected with a vertical rod, a plurality of first magnets are arranged in the vertical rod, second magnets attracted to the first magnets are arranged on the L-shaped plate, the first magnet positioned at the lowest position in the vertical rod is arranged at a position corresponding to the second magnet on the L-shaped plate at the lowest position, other first magnets are slidably arranged in the vertical rod, a movement assembly for moving the first magnet closest to the upper position when the L-shaped plate is turned downwards is arranged on the L-shaped plate, and after the L-shaped plate is completely turned downwards, the first magnet closest to the upper position moves to a position corresponding to the second magnet on the L-shaped plate above the L-shaped plate.

According to a further technical scheme, the motion assembly comprises an arc-shaped rack fixedly arranged at the folded angle of the L-shaped plate, the arc-shaped rack is meshed with a rack, the rack is slidably arranged in the vertical rod, and the first magnet is fixedly arranged on the rack.

In order to enable the lifting device to have the function of facilitating resetting of all L-shaped plates, the lifting device comprises a lifting rod, a lifting component and a lifting rod, wherein the first magnet positioned at the lowest part in the vertical rod is slidably arranged in the vertical rod, a connecting rod is connected between the first magnets positioned at the lowest part, the lifting rod is arranged at the bottom of the pipe placing frame, the connecting rod is connected with the lifting rod, and the lifting component for controlling the lifting rod to lift relative to the vertical rod is arranged on the vertical rod.

According to a further technical scheme, the lifting component comprises an electric telescopic rod, and two ends of the electric telescopic rod are respectively connected with the connecting rod and the vertical rod.

According to a further technical scheme, the bottom rod is formed by mutually and slidably connecting a cross insert rod and a cross groove rod, and upright rods at two ends of the same row are fixedly connected with the cross insert rod and the cross groove rod respectively.

In order to enable the invention to have the function of adjusting the distance between the vertical rods, the further technical scheme of the invention is that the adjusting mechanism comprises a scissor connecting rod, a row of pin shafts in the middle of the scissor connecting rod are respectively connected with one row of vertical rods, a first fixing rod is fixedly connected between all the cross inserting rods, a second fixing rod is fixedly connected between all the cross slot rods, and an electric push rod is arranged between the first fixing rod and the second fixing rod.

According to a further technical scheme, the number of the scissor connecting rods is two, and the two scissor connecting rods are respectively connected with the two rows of vertical rods.

In order to enable the invention to have the function of convenient movement, the further technical scheme of the invention is that rollers are arranged on the first fixing rod and the second fixing rod.

Another object of the present invention is to provide a method for producing a heat dissipation copper pipe, comprising the steps of:

step one: and (5) upward guiding a copper pipe blank:

step two: rolling the copper pipe blank through a rolling mill;

step three: drawing the rolled copper pipe blank for multiple times to form a copper pipe;

step four: cutting the copper pipe to a fixed length;

step five: the cut copper tubes fall onto a tube placing rack, and each copper tube is separated when the tube placing rack is placed;

step six: placing the pipe placing frame into a cleaning tank, and then cleaning the copper pipe;

step seven: packaging the cleaned and dried copper pipe.

The beneficial effects of the invention are as follows:

1. when the copper pipe cleaning device is used, after the copper pipe is cut, the cut copper pipes fall onto the pipe placing frame, so that each copper pipe is separated, extrusion deformation can be avoided when the copper pipe is moved, cleaning liquid can be fully contacted with the copper pipe when the copper pipe is cleaned, and unclean cleaning is avoided.

2. When the copper pipe cutting device is used, the cut copper pipe falls between the vertical rods, the L-shaped plate is turned over to enable the copper pipe to fall to the bottommost part, the L-shaped plate above the copper pipe is turned over and then reset, so that other copper pipes are prevented from being contacted with the copper pipe, the next falling copper pipe falls on the L-shaped plate which is not reset, then the L-shaped plate above the copper pipe is prevented from being reset, and the copper pipes are separated independently, so that the copper pipes are prevented from being contacted.

3. When the copper pipe is used, the upper L-shaped plate overturns to enable the copper pipe to descend when the copper pipe falls between the vertical rods, and as the second magnet on the L-shaped plate is far away from the first magnet in the vertical rods after the L-shaped plate overturns, the L-shaped plate is reset, when the copper pipe falls to the lowest position, the lowest L-shaped plate overturns, the second magnet on the L-shaped plate corresponds to the lowest first magnet in the vertical rods, so that the lowest L-shaped plate does not reset, the copper pipe is prevented from entering, meanwhile, as the lowest L-shaped plate overturns, the arc-shaped rack moves to enable the tooth strips to ascend along with the first magnet, so that when the second L-shaped plate overturns, the second magnet on the L-shaped plate corresponds to the first magnet after ascending, and is not reset, and so on, the steel pipes are separated and placed.

4. When the invention is used, the first fixed rod and the second fixed rod are mutually close to or far away from each other through the extension and contraction of the electric push rod, so that the upright rods at the two ends move together with the first fixed rod and the second fixed rod, and simultaneously, the scissor connecting rod is extended and contracted, so that other upright rods move, and the distance between the upright rods is adjusted, thereby being applicable to steel pipes with different thicknesses.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the present invention.

Fig. 2 is a schematic view of the structure of the bottom of an embodiment of the present invention.

Fig. 3 is a schematic view of the structure of the bottom bar in the embodiment of the present invention.

Fig. 4 is a schematic structural view of a connecting rod in an embodiment of the present invention.

Fig. 5 is a schematic view of the structure of the front L-shaped plate of the steel pipe according to the embodiment of the present invention.

Fig. 6 is a front view showing a state where a steel pipe is placed according to an embodiment of the present invention.

Fig. 7 is a schematic view of the structure of a steel pipe according to an embodiment of the present invention.

Fig. 8 is a schematic structural view of an L-shaped plate after placing a steel pipe according to an embodiment of the present invention.

In the figure: 1. a bottom bar; 101. a cross inserted link; 102. a cross grooved bar; 2. a vertical rod; 3. connecting the cross bars; 4. an adjusting mechanism; 41. a scissors fork connecting rod; 42. a first fixing rod; 43. a second fixing rod; 44. an electric push rod; 5. an L-shaped plate; 6. a control assembly; 61. a torsion spring; 62. a first magnet; 63. a second magnet; 64. a motion assembly; 641. an arc-shaped rack; 642. a rack; 7. a connecting rod; 8. a lifting rod; 9. a lifting member; 10. and a roller.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings.

A production method of a heat dissipation copper pipe comprises the following steps:

step one: and (5) upward guiding a copper pipe blank:

step two: rolling the copper pipe blank through a rolling mill;

step three: drawing the rolled copper pipe blank for multiple times to form a copper pipe;

step four: cutting the copper pipe to a fixed length;

step five: the cut copper tubes fall onto a tube placing rack, and each copper tube is separated when the tube placing rack is placed;

step six: placing the pipe placing frame into a cleaning tank, and then cleaning the copper pipe;

step seven: packaging the cleaned and dried copper pipe.

In this embodiment, after the copper pipe cutting, the copper pipe of cutting falls to put the pipe support to make each copper pipe separate, can appear extrusion deformation when avoiding moving the copper pipe, and can make washing liquid and copper pipe fully contact when the copper pipe washs, avoid wasing uncleanly.

As shown in fig. 1, 2 and 8, a heat dissipation copper pipe production is with putting pipe support, put the pipe support and include a plurality of sill bars 1, equidistant a plurality of pole setting 2 of installing on the sill bar 1, connect through connecting horizontal pole 3 between the pole setting 2 of same row on every sill bar 1, put the bottom of pipe support and install the adjustment mechanism 4 that is used for adjusting pole setting 2 interval, one side of pole setting 2 articulates there is L shaped plate 5, pole setting 2 is provided with the control assembly 6 that is used for controlling L shaped plate 5 pivoted, control assembly 6 makes L shaped plate 5 rotate thereby can prevent the steel pipe whereabouts to the below of this L shaped plate 5, put the pipe support and remove the below of cutting machine, thereby make the copper pipe that cuts fall between the pole setting 2, and L shaped plate 5 upset makes the copper pipe whereabouts to the bottommost, the L shaped plate 5 upset of top resets after the copper pipe, the L shaped plate 5 that the copper pipe top is closest does not reset, thereby avoid other copper pipes to contact with this copper pipe, the whereabouts is through falling on the L shaped plate 5 that does not reset, then the copper pipe top is closest L shaped plate 5 also does not reset, like this setting makes the copper pipe separate, and is contacted.

As shown in fig. 8, specifically, the control assembly 6 includes a torsion spring 61 mounted on the hinge shaft of the L-shaped plate 5, the other end of the torsion spring 61 is connected with the upright 2, a plurality of first magnets 62 are disposed in the upright 2, second magnets 63 attracted to the first magnets 62 are disposed on the L-shaped plate 5, the first magnet 62 located at the lowest position in the upright 2 is mounted at the position corresponding to the second magnet 63 on the L-shaped plate 5 located at the lowest position, other first magnets 62 are slidably mounted in the upright 2, a moving assembly 64 for moving the first magnet 62 located closest above when the L-shaped plate 5 is mounted on the L-shaped plate 5 when the L-shaped plate 5 is turned down, and the first magnet 62 located closest above moves to the position corresponding to the second magnet 63 on the L-shaped plate 5 above when the L-shaped plate 5 is turned down completely.

Specifically, the moving assembly 64 includes an arc rack 641 fixedly installed at the corners of the L-shaped plates 5, the arc rack 641 is engaged with a rack 642, the rack 642 is slidably installed inside the upright 2, the first magnet 62 is fixedly installed on the rack 642, when the copper pipe falls between the uprights 2, the upper L-shaped plate 5 is turned over to lower the copper pipe, and since the second magnet 63 on the upper L-shaped plate 5 is far from the first magnet 62 in the upright 2 after the L-shaped plate 5 is turned over, there is insufficient magnetic force, the L-shaped plate 5 is reset, when the copper pipe falls to the lowest, the lower L-shaped plate 5 is turned over, and the second magnet 63 on the upper L-shaped plate corresponds to the first magnet 62 in the upright 2, so that the lower L-shaped plate 5 is not reset, and the lower copper pipe is blocked from entering, and meanwhile, the arc rack 641 moves to raise the rack 642 with the first magnet 62, so that when the second L-shaped plate 5 is turned over, the second magnet 63 on the upper L-shaped plate corresponds to the first magnet 62 after the raising, so that the second magnet 62 is not reset, and thus the steel pipe is not reset, and thus the steel pipes are separated and placed and separated.

As shown in fig. 4 and 8, specifically, the first magnet 62 located at the lowest position in the upright 2 is slidably mounted in the upright 2, and a connecting rod 7 is connected between the first magnets 62 located at the lowest position, a lifting rod 8 is provided at the bottom of the pipe rack, the connecting rod 7 is connected with the lifting rod 8, and a lifting component 9 for controlling the lifting rod 8 to lift relative to the upright 2 is mounted on the upright 2.

Preferably, the lifting part 9 comprises an electric telescopic rod, two ends of the electric telescopic rod are respectively connected with the connecting rod 7 and the upright rod 2, the electric telescopic rod stretches to enable the first magnet 62 at the lowest part to move, so that attractive force between the electric telescopic rod and the second magnet 63 on the L-shaped plate 5 at the lowest part is reduced, the L-shaped plate 5 at the lowest part is reset under the action of the torsion spring 61, meanwhile, the first magnet 62 at the last but one is lowered away from the second magnet 63 on the L-shaped plate 5 at the last but one, then the L-shaped plate 5 at the last but one is reset under the action of the torsion spring 61, and all reset is sequentially carried out, so that all L-shaped plates 5 are conveniently reset.

As shown in fig. 3, specifically, the bottom rod 1 is formed by slidably connecting a cross insert rod 101 and a cross slot rod 102, the upright rods 2 at two ends of the same row are fixedly connected with the cross insert rod 101 and the cross slot rod 102 respectively, the structure of the lifting rod 8 is the same as that of the bottom rod 1, the connecting rods 7 at two ends are fixedly connected with two ends of the lifting rod 8, and the bottom rod 1 and the lifting rod 8 can be integrally extended or contracted.

As shown in fig. 2, specifically, the adjusting mechanism 4 includes a scissor link 41, a row of pins in the middle of the scissor link 41 are respectively connected with one row of upright posts 2, a first fixing rod 42 is fixedly connected between all cross inserting rods 101, a second fixing rod 43 is fixedly connected between all cross slot rods 102, an electric push rod 44 is installed between the first fixing rod 42 and the second fixing rod 43, the first fixing rod 42 and the second fixing rod 43 are made to approach or separate from each other through the expansion and contraction of the electric push rod 44, so that the upright posts 2 at two ends move together with the first fixing rod 42 and the second fixing rod 43, and meanwhile, the scissor link 41 is made to expand and contract, so that other upright posts 2 move, and the distance between the upright posts 2 is adjusted, so that the adjusting mechanism is suitable for steel pipes with different thicknesses.

Preferably, the number of the scissors linkage 41 is two, and the two scissors linkages 41 are respectively connected with the two rows of the uprights 2.

Further, the rollers 10 are mounted on the first fixing rod 42 and the second fixing rod 43, so that movement and transportation are facilitated.

In the description of the present invention, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (9)

1. The utility model provides a heat dissipation copper pipe production is with putting pipe support, its characterized in that, put pipe support includes a plurality of sill bars (1), equidistant a plurality of pole setting (2) of installing on sill bar (1), every connect through connecting horizontal pole (3) between pole setting (2) of same row on sill bar (1), put the bottom of pipe support and install adjustment mechanism (4) that are used for adjusting pole setting (2) interval, one side of pole setting (2) articulates has L shaped plate (5), pole setting (2) are provided with control assembly (6) that are used for controlling L shaped plate (5) pivoted, thereby control assembly (6) make L shaped plate (5) rotate and can prevent that the steel pipe from falling to the below of this L shaped plate (5);

the control assembly (6) comprises a torsion spring (61) arranged on the hinge shaft of the L-shaped plate (5), the other end of the torsion spring (61) is connected with the vertical rod (2), a plurality of first magnets (62) are arranged in the vertical rod (2), second magnets (63) attracted by the first magnets (62) are arranged on the L-shaped plate (5), the first magnets (62) which are arranged at the bottommost in the vertical rod (2) are arranged at positions corresponding to the second magnets (63) on the L-shaped plate (5) which correspond to the bottommost, other first magnets (62) are slidably arranged in the vertical rod (2), and a moving assembly (64) which moves the first magnets (62) which are closest to the upper side of the L-shaped plate (5) when the L-shaped plate (5) is turned downwards is arranged at positions corresponding to the second magnets (63) on the L-shaped plate (5) which are arranged above the L-shaped plate.

2. The pipe placing frame for producing the heat dissipation copper pipe according to claim 1, wherein the moving assembly (64) comprises an arc-shaped rack (641) fixedly installed at the folding angle of the L-shaped plate (5), a rack (642) is meshed on the arc-shaped rack (641), the rack (642) is slidably installed inside the vertical rod (2), and the first magnet (62) is fixedly installed on the rack (642).

3. The heat dissipation copper pipe production is with putting pipe support according to claim 2, characterized in that, first magnet (62) that is located the below in pole setting (2) slidable mounting is in pole setting (2), and is connected with connecting rod (7) between first magnet (62) that are located the below, put the bottom of pipe support and be provided with lifter (8), connecting rod (7) are connected with lifter (8), install on pole setting (2) and be used for controlling lifter (8) lift elevating component (9) for pole setting (2).

4. A support for producing heat dissipation copper pipes according to claim 3, characterized in that the lifting part (9) comprises an electric telescopic rod, and two ends of the electric telescopic rod are respectively connected with the connecting rod (7) and the upright rod (2).

5. The support for producing heat dissipation copper pipes according to any one of claims 1 to 4, wherein the bottom rod (1) is formed by mutually slidably connecting a cross insert rod (101) and a cross groove rod (102), and the upright rods (2) at two ends of the same row are fixedly connected with the cross insert rod (101) and the cross groove rod (102) respectively.

6. The heat dissipation copper pipe production is with putting pipe support according to claim 5, characterized in that adjustment mechanism (4) is including cutting fork connecting rod (41), the round pin axle of a row in the middle of cutting fork connecting rod (41) is connected with one of them row pole setting (2) respectively, all fixedly connected with first dead lever (42) between cross inserted bar (101), all fixedly connected with second dead lever (43) between cross grooved bar (102), install electric push rod (44) between first dead lever (42) and second dead lever (43).

7. The heat dissipation copper pipe production rack as claimed in claim 6, wherein the number of the scissor connecting rods (41) is two, and the two scissor connecting rods (41) are respectively connected with the two rows of upright rods (2).

8. The tube placing rack for producing the heat dissipation copper tube according to claim 6, wherein the first fixing rod (42) and the second fixing rod (43) are respectively provided with a roller (10).

9. The production method of the heat dissipation copper pipe is characterized by comprising the following steps of:

step one: and (5) upward guiding a copper pipe blank:

step two: rolling the copper pipe blank through a rolling mill;

step three: drawing the rolled copper pipe blank for multiple times to form a copper pipe;

step four: cutting the copper pipe to a fixed length;

step five: the cut copper tubes fall onto the pipe placing frame according to any one of claims 1-8, and the copper tubes in the pipe placing frame are separated;

step six: placing the pipe placing frame into a cleaning tank, and then cleaning the copper pipe;

step seven: packaging the cleaned and dried copper pipe.

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