CN216632482U - Continuous forming equipment with heat dissipation function for aluminum coil casting and forging forming - Google Patents

Abstract

The utility model discloses continuous forming equipment with a heat dissipation function for aluminum coil casting and forging forming, relates to the technical field of metal coil forging heat dissipation equipment, and solves the problems that most aluminum skin scraps intercepted on a filter rail net of a blowing heat dissipation assembly of the existing forging heat dissipation forming equipment need to be checked and cleaned regularly by manpower, and the equipment is troublesome to use and labor-consuming and inconvenient. A continuous forming device with a heat dissipation function for aluminum coil casting and forging forming comprises an I-shaped base; the I-shaped base is of an I-shaped structure, two vertical support rods are symmetrically welded in the middle positions of the left end and the right end of the I-shaped base, and an exchanger is inserted between the top end sections of the two vertical support rods in a cross bracing manner; two water inlet and outlet pipes are correspondingly matched with the top end sections of the two vertical supporting rods in a penetrating way, and two conveying wheels are symmetrically and rotatably sleeved on the pipe sections, close to the two water distribution disks, of the two water inlet and outlet pipes. This practicality can save and be supporting driving motor respectively for transport module and radiator unit, helps reducing the cost, weight and the consumption of equipment.

Description

Continuous forming equipment with heat dissipation function for aluminum coil casting and forging forming

Technical Field

The utility model relates to the technical field of metal coil forging heat dissipation equipment, in particular to continuous forming equipment with a heat dissipation function for aluminum coil casting and forging forming.

Background

The aluminium skin needs convey to rolling equipment to carry out the rolling after coming out from the forging furnace, carries out continuous cooling to the aluminium skin through utilizing transfer process, supplementary aluminium skin cooling shaping, and this just needs to use the continuous forming equipment that the aluminium roll is cast and is forged the shaping and have the heat dissipation function.

The linkage is mostly lacked between the conveying subassembly of current former and the radiating component that bloies, need be for conveying subassembly and the radiating component that bloies supporting driving motor respectively, causes the motor to set up a great deal and does not utilize the whole weight that subtracts of equipment and reduce the cost, and the aluminium skin piece of intercepting on the radiating component that bloies in addition filters and blocks the net mostly needs artifical periodic inspection clearance, and it is difficult inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide continuous forming equipment with a heat dissipation function for aluminum coil casting and forging forming, and aims to solve the problems that most of aluminum sheet scraps intercepted on a filter screen of a blowing heat dissipation assembly in the background art need to be checked and cleaned regularly by manpower, and the use is troublesome, labor-consuming and inconvenient.

In order to achieve the purpose, the utility model provides the following technical scheme: a continuous forming device with a heat dissipation function for aluminum coil casting and forging forming comprises an I-shaped base; the I-shaped base is of an I-shaped structure, two vertical support rods are symmetrically welded in the middle positions of the left end and the right end of the I-shaped base, and an exchanger is inserted between the top end sections of the two vertical support rods in a cross bracing manner; the whole exchanger is formed by welding twelve U-shaped radiating pipes and two water distribution plates welded at the left and right ends of the twelve U-shaped radiating pipes together, wherein the centers of the two water distribution plates are symmetrically welded and communicated with two water inlet and outlet pipes which are correspondingly matched with the top end sections of the two vertical supporting rods in a penetrating way, and pipe sections of the two water inlet and outlet pipes, which are in penetrating and inserting connection with the two vertical supporting rods, are of a hexagonal structure; two conveying wheels are symmetrically and rotatably sleeved on the pipe sections of the two water inlet and outlet pipes, which are close to the two water distribution disks; a driving shaft is rotatably arranged between the bottom sections of the two vertical support struts, a driving motor is fixed on the right vertical support strut in a threaded manner, and the driving motor is in shaft coupling transmission with the driving shaft; the U-shaped wind wheel support is characterized in that two transverse mounting rods with U-shaped structures are symmetrically supported and welded on the I-shaped base in a front-back mode, an intercepting metal net with a rectangular structure is slidably mounted on the two transverse mounting rods, and three wind wheels are rotatably mounted on a connecting rod of a middle transverse support of the I-shaped base at equal intervals.

Preferably, the left and right water inlet and outlet pipes of the exchanger are externally connected with a cooling water circulation system, the U-shaped radiating pipe at the middle position of the topmost end of the exchanger is rotatably provided with a supporting roller sleeve, and the middle part of the aluminum skin before being rolled is sunken to be abutted against and contacted with the supporting roller sleeve.

Preferably, two rubber wheels are symmetrically sleeved on the left end section and the right end section of the driving shaft, the two rubber wheels are correspondingly in pressure contact with the tops of the two conveying wheels, and two swing rods are symmetrically welded and supported on the left end section and the right end section of the driving shaft.

Preferably, three driving bevel gears are sleeved on the driving shaft at equal intervals, three wind wheels are located right below the exchanger, one driven bevel gear is sleeved at each of the top ends of rotating shafts of the three wind wheels, and the three driven bevel gears are in meshing transmission with the three driving bevel gears.

Preferably, four sliding shafts are symmetrically welded downwards on the front side supporting rod and the rear side supporting rod of the intercepting metal mesh peripheral frame, the four sliding shafts are correspondingly matched with the two transverse mounting rods in a penetrating mode through spring pushing, and the two swing rods are correspondingly abutted and contacted with the left side supporting rod and the right side supporting rod of the intercepting metal mesh peripheral frame in a rotating mode.

Compared with the prior art, the utility model has the beneficial effects that:

1. in the utility model, the two rubber wheels can be used for driving the two transmission wheels to rotate by linkage friction when the driving shaft drives the three wind wheels to rotate so as to provide transmission driving force for the aluminum sheet, so that the wind wheels and the transmission wheels share one electric motor for driving, and driving motors respectively matched with the transmission assembly and the heat dissipation assembly are omitted, thereby being beneficial to reducing the manufacturing cost, the weight and the power consumption of equipment;

2. the utility model discloses, the interception metal mesh can intercept the aluminium skin piece that drops in the data send process, avoid the piece direct and three wind wheels to drop the contact and cause the wind wheel striking to warp and damage, and the rotatable top that pushes away of two pendulum rods orders about the interception metal mesh about high frequency vibration vibrate the aluminium skin piece of interception above that and drops, avoid the aluminium skin piece to shelter from the interception metal mesh and influence the ventilation volume, and the power transmission through two pendulum rods, the usable driving motor of interception metal mesh links and orders about, this trouble of saving artifical manual clearance interception metal mesh, and remove from and for the extra supporting clearance motor of interception metal mesh, help equipment further subtract heavy and reduce the cost.

Drawings

FIG. 1 is a schematic diagram of the use of the present invention in a packaged arrangement;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic diagram of an exchanger according to the present invention;

fig. 4 is a schematic view of the intercepting metal net of the present invention.

In the figure: 1. an I-shaped base; 101. a vertical supporting rod; 102. a transverse mounting bar; 2. an exchanger; 201. supporting a roller sleeve; 3. a transfer wheel; 4. a drive shaft; 401. a rubber wheel; 402. a swing rod; 5. intercepting the metal net; 6. and a wind wheel.

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.

Referring to fig. 1 to 4, an embodiment of the present invention includes: a continuous forming device with a heat dissipation function for aluminum coil casting and forging forming comprises an I-shaped base 1; the I-shaped base 1 is in an I-shaped structure, two vertical support rods 101 are symmetrically welded in the middle positions of the left end and the right end of the I-shaped base, and an exchanger 2 is inserted between the top end sections of the two vertical support rods 101 in a cross support mode; the exchanger 2 is integrally formed by welding twelve U-shaped radiating pipes and two water distribution plates welded at the left and right ends of the twelve U-shaped radiating pipes together, wherein the centers of the two water distribution plates are symmetrically welded and communicated with two water inlet and outlet pipes which are correspondingly matched with the top end sections of the two vertical supporting rods 101 in a penetrating way, and pipe sections of the two water inlet and outlet pipes, which are in penetrating and inserting connection with the two vertical supporting rods 101, are of a hexagonal structure; two conveying wheels 3 are symmetrically and rotatably sleeved on the pipe sections of the two water inlet and outlet pipes, which are close to the two water distribution disks; a driving shaft 4 is rotatably arranged between the bottom sections of the two vertical support struts 101, a driving motor is fixed on the right vertical support strut 101 through threads, and the driving motor is in shaft connection transmission with the driving shaft 4; the U-shaped transverse mounting rods 102 are symmetrically supported and welded on the I-shaped base 1 in a front-back manner, the two transverse mounting rods 102 are slidably provided with the intercepting metal net 5 with a rectangular structure, and the middle cross-brace connecting rod of the I-shaped base 1 is rotatably provided with three wind wheels 6 at equal intervals; the left and right water inlet and outlet pipes of the exchanger 2 are externally connected with a cooling water circulation system, and the U-shaped radiating pipe at the topmost middle position of the exchanger 2 is rotatably provided with a supporting roller sleeve 201, and the middle part of the aluminum skin before being rolled is concave and is abutted against and contacted with the supporting roller sleeve 201.

Further, two rubber wheels 401 are symmetrically sleeved on the left end section and the right end section of the driving shaft 4, the two rubber wheels 401 are correspondingly in jacking contact with the two conveying wheels 3, two swing rods 402 are symmetrically welded and supported on the left end section and the right end section of the driving shaft 4, the two conveying wheels 3 are used for conveying aluminum skins before being rolled, and the driving shaft 4 can be linked with friction to drive the two conveying wheels 3 to rotate to provide conveying driving force for the aluminum skins when the driving shaft 4 rotates to drive the three wind wheels 6 through the two rubber wheels 401, so that the wind wheel 6 and the conveying wheels 3 share one electric motor for driving, a driving motor respectively matched with a conveying assembly and a heat dissipation assembly is omitted, and the manufacturing cost, the weight and the power consumption of equipment are reduced.

Further, three driving bevel gears are sleeved on the driving shaft 4 at equal intervals, the three wind wheels 6 are located right below the exchanger 2, driven bevel gears are sleeved at the top ends of rotating shafts of the three wind wheels 6, the three driven bevel gears are in meshing transmission with the three driving bevel gears, the driving shaft 4 can rotate to drive the three wind wheels 6 to rotate to blow upwards, the air blown upwards is subjected to heat exchange with the exchanger 2 for cooling and then is blown away on continuously conveyed aluminum sheets, and heat dissipation and cooling forming are carried out on the aluminum sheets.

Further, four sliding shafts are symmetrically welded downwards on the front and rear side support rods of the peripheral frame of the interception metal net 5, the four sliding shafts are correspondingly penetrated and matched with the two transverse installation rods 102 through spring pushing, the two swing rods 402 are correspondingly rotated and abutted to and contacted with the left and right side support rods of the peripheral frame of the interception metal net 5, the interception metal net 5 can intercept aluminum skin fragments falling in the transmission process, the wind wheel 6 is prevented from being impacted and deformed and damaged due to the fact that the fragments directly fall to be contacted with the three wind wheels 6, the two swing rods 402 can rotate and push the interception metal net 5 to vibrate and fall off the aluminum skin fragments intercepted on the interception metal net 5 through high-frequency vibration, the phenomenon that the aluminum skin fragments obstruct the interception metal net 5 to influence ventilation rate is avoided, the interception metal net 5 can be driven by a driving motor through power transmission of the two swing rods 402, and the trouble of manually cleaning the metal interception metal net 5 is avoided, and the additional matching cleaning motor for intercepting the metal net 5 is avoided, thereby being beneficial to further reducing the weight of the equipment and lowering the manufacturing cost.

The working principle is as follows: when the device is used, a left water inlet pipe and a right water outlet pipe of the exchanger 2 are externally connected with a cooling water circulation system, the two transmission wheels 3 are used for transmitting the aluminum sheet before being rolled, and the middle part of the aluminum sheet before being rolled is concave and is abutted to and contacted with the supporting roller sleeve 201;

through the meshing transmission of three driven bevel gears and three driving bevel gears, the driving shaft 4 can rotate to drive the three wind wheels 6 to rotate and blow upwards, the upward blown wind and the exchanger 2 carry out heat exchange cooling and then blow the heat exchange cooling to the continuously conveyed aluminum sheet, the aluminum sheet is subjected to heat dissipation cooling forming, through the two rubber wheels 401, the driving shaft 4 can also be linked to rub to drive the two transmission wheels 3 to rotate to provide transmission driving force for the aluminum sheet when rotating to drive the three wind wheels 6, the intercepting metal net 5 can intercept aluminum sheet scraps falling in the transmission process, the phenomenon that the scraps directly fall into contact with the three wind wheels 6 to cause the collision deformation and damage of the wind wheels 6 is avoided, and in addition, the two swing rods 402 can rotate to push the intercepting metal net 5 to vibrate and drop the aluminum sheet scraps intercepted on the intercepting metal net 5 in a vertical high-frequency mode.

It will be evident to those skilled in the art that the utility model 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 attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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.

Claims (5)

1. The utility model provides a continuous forming equipment that aluminium coil casting and forging shaping has heat dissipation function which characterized in that: the forming equipment comprises an I-shaped base (1); the I-shaped base (1) is of an I-shaped structure, two vertical support rods (101) are symmetrically welded in the middle positions of the left end and the right end of the I-shaped base, and an exchanger (2) is inserted between the top end sections of the two vertical support rods (101) in a cross bracing manner; the exchanger (2) is integrally formed by welding twelve U-shaped radiating pipes and two water distribution plates welded at the left and right ends of the twelve U-shaped radiating pipes together, wherein the centers of the two water distribution plates are symmetrically welded and communicated with two water inlet and outlet pipes which are correspondingly matched with the top end sections of the two vertical supporting rods (101) in a penetrating way, and the pipe sections of the two water inlet and outlet pipes, which are in penetrating and inserting connection with the two vertical supporting rods (101), are of a six-edge structure; two conveying wheels (3) are symmetrically and rotatably sleeved on the pipe sections of the two water inlet and outlet pipes, which are close to the two water distribution disks; a driving shaft (4) is rotatably arranged between the bottom sections of the two vertical support struts (101), a driving motor is fixed on the right vertical support strut (101) through threads, and the driving motor is in shaft connection transmission with the driving shaft (4); the U-shaped wind wheel support is characterized in that the U-shaped transverse mounting rods (102) are symmetrically supported and welded on the I-shaped base (1) in a front-back mode, the U-shaped transverse mounting rods (102) are slidably mounted with the rectangular intercepting metal net (5), and the middle transverse support connecting rod of the I-shaped base (1) is rotatably mounted with three wind wheels (6) at equal intervals.

2. The aluminum coil casting-forging forming continuous forming equipment with the heat dissipation function as recited in claim 1, wherein: the external cooling water circulation system of business turn over water pipe about interchanger (2), and rotate on the U form cooling tube of interchanger (2) topmost intermediate position and install one and prop holding roller shell (201), the middle part of the aluminium skin before the non-rolling is sunken to lean on with propping holding roller shell (201) and is leaned on and contact.

3. The aluminum coil casting-forging forming continuous forming equipment with the heat dissipation function as recited in claim 1, wherein: two rubber wheels (401) are symmetrically sleeved on the left end section and the right end section of the driving shaft (4), the two rubber wheels (401) are correspondingly pressed and contacted with the two conveying wheels (3), and two swing rods (402) are symmetrically welded and supported on the left end section and the right end section of the driving shaft (4).

4. The aluminum coil casting-forging forming continuous forming equipment with the heat dissipation function as recited in claim 1, wherein: three driving bevel gears are sleeved on the driving shaft (4) at equal intervals, three wind wheels (6) are located right below the exchanger (2), one driven bevel gear is sleeved at the top end of a rotating shaft of each wind wheel (6), and the three driven bevel gears are in meshing transmission with the three driving bevel gears.

5. The aluminum coil casting-forging forming continuous forming equipment with the heat dissipation function as recited in claim 3, wherein: four sliding shafts are symmetrically welded downwards on the front side supporting rod and the rear side supporting rod of the peripheral frame of the interception metal net (5), the four sliding shafts are correspondingly matched with the two transverse mounting rods (102) in a penetrating way through spring pushing, and the two swing rods (402) are correspondingly abutted and contacted with the left side supporting rod and the right side supporting rod of the peripheral frame of the interception metal net (5) in a rotating way.

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