CN211977590U - Feeding module of aluminum alloy profile extrusion molding heating equipment - Google Patents

Abstract

The utility model belongs to the technical field of the aluminum alloy production, it discloses an aluminum alloy ex-trusions heating equipment's feeding module, the induction cooker comprises a cooker bod, but be equipped with open closed feed inlet on the furnace body, one side of feed inlet is equipped with height-adjustable's feeding frame, one side of feeding frame is equipped with the storage frame, be equipped with on the feeding frame and can be along feeding frame length direction reciprocating motion's ejector pad stick, the both ends of feeding frame all are equipped with and are used for the spacing travel switch of ejector pad stick, the ejector pad stick drives through an actuating mechanism that sets up on the feeding frame, travel switch, actuating mechanism all are connected with the peripheral hardware controller electricity. The feeding module of the aluminum alloy profile extrusion molding heating equipment is simple in structure, simple and effective in material pushing action, and capable of effectively improving production efficiency.

Description

Feeding module of aluminum alloy profile extrusion molding heating equipment

Technical Field

The utility model relates to an aluminum alloy production technical field specifically is an aluminum alloy ex-trusions heating equipment's feeding module.

Background

The invention discloses an invention patent publication number CN109668439A in 2018 by Taizhou city Jinmei aluminum industry Co., Ltd, and discloses a feeding mechanism of an aluminum bar homogenizing furnace, which comprises a furnace body, a feeding hole and a feeding frame, wherein the feeding frame is provided with a feeding space, a plurality of feeding wheels are arranged in the feeding space, the end part of the feeding space far away from the feeding hole is provided with a material pushing frame, the material pushing frame is rotatably connected with a material pushing rod, and the material pushing rod protrudes out of the side wall of the material pushing frame; the feeding frame is also provided with a limiting frame and a driving mechanism for driving the material pushing frame to move towards the direction of the feeding hole, and the limiting frame enables the material pushing rod and the material pushing frame to form an included angle; a proximity switch is arranged between the limiting frame and the feeding hole, a first induction block is arranged on the material pushing frame, and a second induction block is arranged on the material pushing rod.

In the scheme of the feeding mechanism of the aluminum bar homogenizing furnace, the pushing of the aluminum bar is realized by carrying out primary feeding through the pushing frame and carrying out secondary feeding through the pushing bar, the pushing process is divided into 2 times, the pushing process is complex, and the pushing efficiency is low; meanwhile, the limit of the pushing rod and the pushing frame at one end of the feeding frame, which is far away from the feeding port, is limited by the limiting frame, the structure is complex, and the limit of the pushing rod is effectively realized, but if the action of the driving mechanism can be stopped in time, the limit of the pushing rod and the pushing frame on the feeding frame can be realized without arranging the limiting frame.

Therefore, the technical problem to be solved by the application is as follows: how to simplify the pushing process of the aluminum bar feeding, thereby simplifying the structure of the aluminum bar feeding equipment and improving the production efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an aluminum alloy ex-trusion molding firing equipment's feed module, this aluminum alloy ex-trusion molding firing equipment's feed module simple structure pushes away the material action simple effective, has improved production efficiency effectively.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an aluminum alloy ex-trusions extrusion moulding firing equipment's feeding module, includes the furnace body, be equipped with open closed feed inlet on the furnace body, one side of feed inlet is equipped with height-adjustable's feeding frame, one side of feeding frame is equipped with the storage frame, be equipped with the ejector pad that can follow feeding frame length direction reciprocating motion on the feeding frame, the both ends of feeding frame all are equipped with and are used for the spacing travel switch of ejector pad, the ejector pad drives through an actuating mechanism that sets up on the feeding frame, travel switch, actuating mechanism all are connected with the peripheral hardware controller electricity.

In the feeding module of the heating equipment for extrusion molding of the aluminum alloy profile, a moving plate is arranged at the bottom of one end, away from the feeding hole, of the material pushing rod, and two sides of the moving plate are rotationally connected with 4 moving wheels which are symmetrically arranged and used for assisting the material pushing rod to move; the feeding frame is provided with a guide groove matched with the moving wheel, and the driving mechanism drives the moving plate to reciprocate along the length direction of the feeding frame.

In the feeding module of the heating device for extrusion molding of aluminum alloy profiles, the driving mechanism comprises chain wheels arranged at two ends of the feeding frame, and the chain wheels at two ends of the feeding frame are connected through a chain; the driving mechanism also comprises a motor arranged below one end of the feeding frame, and the motor and a chain wheel arranged at the same end of the feeding frame transmit power through belt transmission; the bottom of the moving plate is provided with a rack matched with the chain, and the motor drives the chain to rotate so as to realize the reciprocating movement of the moving plate on the feeding frame.

In the feeding module of the aluminum alloy profile extrusion molding heating equipment, the mounting plate is arranged on the feeding frame, the mounting seat used for mounting the motor is arranged on the mounting plate, and the mounting seat is arranged on the mounting plate in a position-adjustable mode.

In the feeding module of the heating device for extrusion molding of aluminum alloy profiles, a plurality of rotating wheels which are symmetrically arranged and have rotating shafts perpendicular to the horizontal plane are arranged on two sides of the feeding frame, a conveying slope surface is arranged on the upper portion of each rotating wheel, and the rotating wheels which are symmetrically arranged form a conveying track for assisting in conveying materials.

In the feeding module of the heating equipment for extrusion molding of the aluminum alloy profiles, one side of the feeding frame, which is far away from the storage frame, is provided with a plurality of baffles for preventing materials from falling; the top of the storage rack is provided with a plurality of support rods which are arranged side by side and used for supporting materials, and the support rods are obliquely arranged towards the side direction of the feeding rack; and a discharging mechanism for stopping or discharging materials is arranged on one side of the storage frame, which is close to the feeding frame.

In foretell aluminum alloy ex-trusion extrusion moulding firing equipment's feeding module, drop feed mechanism connects the axis of rotation that is close to feeding frame one side at the storage frame including rotating, the both ends of axis of rotation all are equipped with the striker plate, the storage frame lower part articulates there is a lift cylinder, the power take off end of lift cylinder with the striker plate is articulated.

In the feeding module of the aluminum alloy profile extrusion molding heating equipment, one side of the material baffle, which is far away from the feeding frame, is in an inwards concave arc shape matched with the shape of the material, and the bottom of one side of the material baffle, which is far away from the feeding frame, is in an outwards convex arc shape; and the power output end of the lifting cylinder is hinged to one side of the material baffle close to the feeding frame.

In the feeding module of the aluminum alloy profile extrusion molding heating device, the feeding frame is further provided with a cross bar for supporting the lower part of the chain.

The feeding module of the aluminum alloy profile extrusion molding heating equipment further comprises a fixed block fixedly connected with the ground, a waist hole is formed in the fixed block, and the feeding frame is matched with the waist hole through a bolt and fixed on the fixed block in a height-adjustable mode; the furnace body is provided with a door plate for opening and closing the feeding hole, and two sides of the door plate are provided with limit columns; a limiting frame matched with the limiting column is arranged on the furnace body; the furnace body is also provided with a push rod cylinder, and the power output of the push rod cylinder is provided with a rigging fixedly connected with the door plate.

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

the utility model discloses a chain drive ejector pin carries out reciprocating motion on the feeding frame and realizes the propelling movement of material is right through travel switch the extreme position of ejector pin on the feeding frame limits, and it has realized effectively the automatic propelling movement of material, simple structure pushes away the material action simple effective, has improved production efficiency.

Drawings

Fig. 1 is a front view of a storage rack of embodiment 1 of the present invention with the storage rack removed;

fig. 2 is a connecting structure diagram of the material pushing rod and the feeding frame according to embodiment 1 of the present invention;

fig. 3 is a side view of embodiment 1 of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1 to 3, a feeding module of an aluminum alloy profile extrusion molding heating device includes a furnace body 1, a feed port 11 capable of being opened and closed is arranged on the furnace body 1, a feed frame 2 with adjustable height is arranged on one side of the feed port 11, a storage frame 4 is arranged on one side of the feed frame 2, a material pushing rod 21 capable of reciprocating along the length direction of the feed frame 2 is arranged on the feed frame 2, travel switches 22 for limiting the material pushing rod 21 are arranged at both ends of the feed frame 2, the material pushing rod 21 is driven by a driving mechanism 3 arranged on the feed frame 2, and the travel switches 22 and the driving mechanism 3 are electrically connected with an external controller.

In practical application, the feeding frame 2 is adjusted to a proper height to enable the material pushing rod 21 to face the feeding hole 11, and the working process is as follows: the material storage rack 4 outputs materials to the feeding rack 2, and the driving mechanism 3 drives the material pushing rod 21 to push the materials to the feeding hole 11 and push the materials into the furnace body 1;

the initial position of the material pushing rod 21 is at one end of the feeding frame 2 far away from the feeding hole 11, and the working process of the material pushing rod 21 is as follows: when the travel switch 22 on one end of the feeding frame 2 close to the feeding port 11 detects the material pushing rod 21, the material pushing rod 21 is indicated to finish the material pushing action, the travel switch 22 outputs a signal to an external controller, and the external controller controls the driving mechanism 3 to drive the material pushing rod 21 to be far away from the feeding port 11; when the travel switch 22 at one end of the feeding frame 2, which is far away from the feeding hole 11, detects the material pushing rod 21, the travel switch 22 outputs a signal to the peripheral controller, and the peripheral controller controls the driving mechanism 3 to drive the material pushing rod 21 to stop acting or drive the material pushing rod 21 to move towards the feeding hole 11; the material storage rack 4 completes the discharging action before the material pushing rod 21 moves towards the direction of the feeding hole 11.

As a specific implementation of the preferable scheme of this embodiment, referring to fig. 1 to 2, a moving plate 23 is disposed at the bottom of one end of the material pushing rod 21 away from the feed port 11, and two sides of the moving plate 23 are rotatably connected with 4 moving wheels 24 which are symmetrically arranged and used for assisting the material pushing rod 21 to move; the feeding frame 2 is provided with a guide groove 25 matched with the moving wheel 24, and the driving mechanism 3 drives the moving plate 23 to reciprocate along the length direction of the feeding frame 2.

The driving mechanism 3 comprises chain wheels 31 arranged at two ends of the feeding frame 2, and the chain wheels 31 at two ends of the feeding frame 2 are connected through a chain 32; the driving mechanism 3 further comprises a motor 33 arranged below one end of the feeding frame 2, and the motor 33 and the chain wheel 31 arranged at the same end of the feeding frame 2 transmit power through belt transmission; the bottom of the moving plate 23 is provided with a rack matched with the chain 32, and the motor 33 drives the chain 32 to rotate so as to realize the reciprocating movement of the moving plate 23 on the feeding frame 2.

Specifically, the forward and reverse rotation of the motor 33 drives the chain 32 to move back and forth, so as to realize the reciprocating motion of the material pushing rod 21 on the feeding frame 2.

Preferably, a mounting plate 26 is arranged on the feeding frame 2, a mounting seat 34 for mounting the motor 33 is arranged on the mounting plate 26, and the mounting seat 34 is arranged on the mounting plate 26 in a position-adjustable manner.

Particularly, be equipped with the waist hole on the mounting panel 26, be equipped with on the mount pad 34 with waist hole assorted through-hole, the mount pad 34 passes through the bolt the through-hole is installed with position adjustable mode with the waist hole on the mounting panel 26, its advantage lies in, the motor 33 passes through the belt and arrives power transmission with the belt pulley on the sprocket 31, the position of mount pad 34 is adjustable promptly the position of motor 33 is adjustable, and motor 33 adjustable position can be guaranteed the rate of tension of belt to guarantee its power transmission's normal clear.

Preferably, a plurality of rotating wheels 27 with rotating shafts arranged perpendicular to the horizontal plane are symmetrically arranged on two sides of the feeding frame 2, a conveying slope surface is arranged on the upper portion of each rotating wheel 27, the symmetrically arranged rotating wheels 27 form a conveying track for assisting material conveying, and the material pushing rod 21 is located between the rotating wheels 27 on the two sides.

Preferably, referring to fig. 3, a plurality of baffles 28 for preventing the material from falling are arranged on one side of the feeding frame 2 away from the storage frame 4; a plurality of support rods 41 which are arranged side by side and used for supporting materials are arranged at the top of the material storage rack 4, and the support rods 41 are obliquely arranged towards the side direction of the feeding rack 2; and a discharging mechanism 5 for stopping or discharging materials is arranged on one side of the storage rack 4 close to the feeding rack 2.

Specifically, the inclined support rods 41 facilitate the material to be discharged under the action of gravity.

As the concrete realization of the preferred scheme of this embodiment, drop feed mechanism 5 is including rotating the axis of rotation 51 of connecting in that storage frame 4 is close to feeding frame 2 one side, the both ends of axis of rotation 51 all are equipped with striker plate 52, storage frame 4 lower part articulates there is a lift cylinder 53, lift cylinder 53's power take off end with striker plate 52 is articulated.

One side of the material baffle plate 52, which is far away from the feeding frame 2, is in an inward concave arc shape matched with the shape of the material, and the bottom of one side of the material baffle plate 52, which is far away from the feeding frame 2, is in an outward convex arc shape; the power output end of the lifting cylinder 53 is hinged to one side of the striker plate 52 close to the feeding frame 2.

Specifically, the lifting cylinder 53 is controlled by an external controller, and after the material pushing rod 21 exits from the conveying track, the lifting cylinder 53 drives the material baffle plate 52 to discharge materials, so that the materials are supplemented to the conveying track, and the continuity of work is ensured.

Preferably, the feeding frame 2 is further provided with a cross bar 29 for supporting the lower part of the chain 32.

As a specific implementation of the preferred scheme of this embodiment, the feeding device further comprises a fixing block 6 fixedly connected with the ground, a waist hole is formed in the fixing block 6, and the feeding frame 2 is fixed on the fixing block 6 in a height-adjustable manner through the matching of a bolt and the waist hole;

the furnace body 1 is provided with a door plate 12 for opening and closing the feed inlet 11, and two sides of the door plate 12 are provided with limit columns 121; the furnace body 1 is provided with a limiting frame 13 matched with the limiting column 121; the furnace body 1 is further provided with a push rod cylinder 14, and the power output of the push rod cylinder 14 is provided with a rigging 15 fixedly connected with the door plate 12.

The rigging 15 may be a chain sling, a wire rope sling, or another rigging 15, which is not limited in this embodiment, as an implementation manner of the specific implementation, the rigging 15 is a chain rigging, one end of the chain rigging is fixedly connected to the power output end of the push rod cylinder 14, and the other end of the chain rigging is fixedly connected to the door panel 12, due to the limitation of space, the furnace body 1 is provided with a guide wheel 16 for steering the chain rigging, and the push rod cylinder 14 is horizontally arranged.

The fixing connection described in this embodiment is a welding connection or a bolt connection, which is not limited in this embodiment.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. 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.

Claims (10)

1. The utility model provides an aluminum alloy ex-trusions extrusion moulding firing equipment's feeding module, includes the furnace body, be equipped with open closed feed inlet on the furnace body, one side of feed inlet is equipped with height-adjustable's feeding frame, one side of feeding frame is equipped with the storage frame, its characterized in that, be equipped with on the feeding frame and can be along feeding frame length direction reciprocating motion's ejector tie rod, the both ends of feeding frame all are equipped with and are used for the spacing travel switch of ejector tie rod, the ejector tie rod is through the actuating mechanism drive of a setting on the feeding frame, travel switch, actuating mechanism all are connected with the peripheral hardware controller electricity.

2. The feeding module of the aluminum alloy profile extrusion molding heating device according to claim 1, wherein a moving plate is arranged at the bottom of one end, away from the feeding hole, of the material pushing rod, and 4 moving wheels which are symmetrically arranged and used for assisting the material pushing rod to move are rotatably connected to two sides of the moving plate; the feeding frame is provided with a guide groove matched with the moving wheel, and the driving mechanism drives the moving plate to reciprocate along the length direction of the feeding frame.

3. The feeding module of the aluminum alloy profile extrusion molding heating device according to claim 2, wherein the driving mechanism comprises chain wheels arranged at two ends of the feeding frame, and the chain wheels at two ends of the feeding frame are connected through a chain; the driving mechanism also comprises a motor arranged below one end of the feeding frame, and the motor and a chain wheel arranged at the same end of the feeding frame transmit power through belt transmission; the bottom of the moving plate is provided with a rack matched with the chain, and the motor drives the chain to rotate so as to realize the reciprocating movement of the moving plate on the feeding frame.

4. A feeding module of an aluminum alloy profile extrusion molding heating device according to claim 3, wherein a mounting plate is arranged on the feeding frame, a mounting seat for mounting the motor is arranged on the mounting plate, and the mounting seat is mounted on the mounting plate in a position-adjustable manner.

5. The feeding module of an aluminum alloy profile extrusion molding heating device according to claim 4, wherein two sides of the feeding frame are provided with a plurality of rotating wheels with rotating shafts arranged symmetrically and perpendicular to a horizontal plane, the upper parts of the rotating wheels are provided with conveying slopes, and the symmetrically arranged rotating wheels form conveying tracks for assisting in conveying materials.

6. The feeding module of the aluminum alloy profile extrusion molding heating device according to claim 1, wherein one side of the feeding frame, which is far away from the storage frame, is provided with a plurality of baffles for preventing the materials from falling; the top of the storage rack is provided with a plurality of support rods which are arranged side by side and used for supporting materials, and the support rods are obliquely arranged towards the side direction of the feeding rack; and a discharging mechanism for stopping or discharging materials is arranged on one side of the storage frame, which is close to the feeding frame.

7. The feeding module of an aluminum alloy profile extrusion molding heating device as claimed in claim 6, wherein the discharging mechanism comprises a rotating shaft rotatably connected to one side of the storage frame close to the feeding frame, the two ends of the rotating shaft are both provided with a material baffle plate, the lower part of the storage frame is hinged with a lifting cylinder, and the power output end of the lifting cylinder is hinged with the material baffle plate.

8. The feeding module of the aluminum alloy profile extrusion molding heating device as recited in claim 7, wherein one side of the striker plate away from the feeding frame is in an inward concave arc shape matched with the shape of the material, and the bottom of one side of the striker plate away from the feeding frame is in an outward convex arc shape; and the power output end of the lifting cylinder is hinged to one side of the material baffle close to the feeding frame.

9. The feeding module of the aluminum alloy profile extrusion molding heating device according to claim 3, wherein a cross bar for supporting the lower part of the chain is further provided on the feeding frame.

10. The feeding module of the aluminum alloy profile extrusion molding heating device according to claim 1, further comprising a fixing block fixedly connected with the ground, wherein a waist hole is formed in the fixing block, and the feeding frame is fixed on the fixing block in a height-adjustable manner through the matching of a bolt and the waist hole; the furnace body is provided with a door plate for opening and closing the feeding hole, and two sides of the door plate are provided with limit columns; a limiting frame matched with the limiting column is arranged on the furnace body; the furnace body is also provided with a push rod cylinder, and the power output of the push rod cylinder is provided with a rigging fixedly connected with the door plate.

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