CN209886424U - Copper ingot feeding device - Google Patents

Abstract

The utility model discloses a copper ingot material feeding unit. The feeding device comprises a trough, a vertical moving tooth, a cylinder, a baffle, a feeding chute, a feeding cylinder, a base, wherein the cylinder is fixed at the central position of the base, the trough is obliquely placed on a support, a baffle is welded at the outlet of the trough, the baffle is welded with the baffle at intervals, a strip hole for moving the gear shaping to move up and down is reserved in the middle of each baffle, one end of each movable gear shaping is welded on the front face of a connecting plate, the back face of the connecting plate is connected with a piston rod on the cylinder, the feeding chute is installed in the vertical direction of the one end of the outlet of the trough, and the feeding cylinder is installed at the rear end. According to the technical scheme, the feeding trough is inclined, the cylindrical copper ingot is placed on the feeding trough and then automatically rolls down at the feeding hole, the cylindrical copper ingot is pushed up to the feeding trough from the lower part of the cylindrical copper ingot through the movable gear shaping, the cylindrical copper ingot slides down to the feeding trough, and the cylindrical copper ingot is conveyed to the heating furnace through the cylinder.

Description

Copper ingot feeding device

Technical Field

The utility model relates to a copper ingot material feeding unit, use during circular copper ingot pay-off on the specially adapted wire drawing machine.

Background

The copper wire drawing process is feeding → heating → drawing → coiling, and the feeding is the most important in the initial stage of the drawing process, the existing feeding is operated manually, the cylindrical copper ingot is fed to the heating furnace from the feeding hole by the clamp, and the furnace temperature is high, so that the copper wire drawing process is difficult to be performed manually by standing beside the furnace to receive the furnace temperature, especially in summer.

Disclosure of Invention

The utility model aims to provide a cylinder type copper ingot material feeding unit who need not be artifical, automatic feeding, moreover safety.

The utility model discloses a task is accomplished like this, material feeding unit includes the silo, reciprocates tooth, cylinder, keeps off tooth, feed chute, feeding cylinder, base, and the central point of base puts and is fixed with the cylinder, and the silo slope is put on supporting, and silo export welding has a baffle, and the interval welding has a fender tooth on the baffle, and the centre of every fender tooth leaves the strip hole that supplies to remove the gear shaping and reciprocate, and the one end welding of every removal gear shaping is in the front of connecting plate, and the back of connecting plate is connected with the piston rod on the cylinder, the feed chute is installed to this one end vertical direction of silo export, and feeding cylinder is installed to the rear end of feed chute. The feed end of the trough is open, and the discharge end of the trough is closed by a baffle. Keep off tooth one end welding on the baffle, keep off the setting of tooth other end towards the silo direction, and keep off the tooth and be higher than the silo bottom surface, keep off the diameter that highly is higher than the copper ingot of tooth, and the number of teeth that just keeps off the tooth is three at least. When the movable gear shaping is inserted into the movable strip hole to move upwards, the movable gear shaping and the blocking teeth form a plane in a comb shape, one end of the movable gear shaping is a fixed end, and the other end of the movable gear shaping can freely move upwards and downwards in the strip hole under the driving of the cylinder.

The utility model discloses has following effect: this technical scheme's last silo slope design, cylinder type copper ingot put the silo after automatic roll fall at the feed inlet, by removing the gear shaping from cylinder type copper ingot below to push up as to feed chute department, the gliding falls into the feed chute, carries cylindrical copper ingot to the heating furnace by the cylinder, this simple structure reasonable in design does not account for the space, saves the labour to reduction in production cost.

Drawings

Fig. 1 is a schematic structural diagram of the present invention; FIG. 2 is a schematic view of the operating condition of the ejection cylinder of FIG. 1; fig. 3 is a schematic structural diagram of the working state of the mobile gear shaping.

Description of the drawings: 1. the feed trough comprises a trough, 2 parts of movable gear shaping, 3 parts of supports, 4 parts of a base, 5 parts of a cylinder, 6 parts of blocking teeth, 7 parts of a feed trough, 8 parts of a feeding cylinder, 9 parts of a baffle, 10 parts of a connecting plate.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

Specific embodiment is as shown in fig. 1 and 2, material feeding unit includes silo 1, remove gear shaping 2, cylinder 5, fender tooth 6, feed chute 7, feeding cylinder 8, and the central point of base 4 puts and is fixed with cylinder 5, and the silo slope is put on support 3, and silo export welding has baffle 9, and interval welding has fender tooth 6 on the baffle, and the centre of every fender tooth leaves the strip hole that supplies to remove gear shaping 2 and reciprocate, and the one end welding of every removal gear shaping is in the front of connecting plate 10, and the back of connecting plate 10 is connected with the piston rod on the cylinder 5, the feed chute is installed to this one end vertical direction of silo export, and feeding cylinder 8 is installed to the rear end of feed chute 7.

The feeding end of the trough is open (as shown by an arrow), the discharging end of the trough is closed by a baffle 9, and further, a baffle tooth welded on the baffle aims to prevent a certain time interval from being formed between copper ingots rolled from the trough and entering the feeding groove from the front, so that the copper ingots enter the feeding groove in order.

The blocking teeth are shown in fig. 3, one end of each blocking tooth is welded on the baffle, the other end of each blocking tooth faces the trough, the blocking teeth are higher than the bottom surface of the trough, the blocking teeth are higher than the diameter of a copper ingot, the number of the blocking teeth is at least three, and a strip hole for moving the gear shaping to move up and down is machined between every two blocking teeth.

The movable gear shaping device is characterized in that a plane is in a comb shape when the movable gear shaping is inserted into a movable bar hole to move upwards and a blocking tooth is formed, one end of the movable gear shaping is a fixed end, the other end of the movable gear shaping can freely move upwards and downwards in the bar hole under the driving of an air cylinder, the movable end of the movable gear shaping is extended out of the bar hole by the movable gear shaping fixed end fixed on a connecting plate driven by a piston rod during the working of the air cylinder, a copper ingot falling into the blocking tooth is upwards pushed to flush with the blocking tooth plane by the movable gear shaping after being extended out, the copper ingot rolls into a feeding groove on a platform built between the blocking tooth and the movable gear shaping with ejecting force, and at the moment, the piston rod on the air cylinder returns to drive the movable gear shaping to move downwards to reserve a position.

One end of the feeding groove is connected with an inlet of a downstream heating furnace, a feeding cylinder is fixed at the other end of the feeding groove, a copper ingot falls into the feeding groove from the upstream, the cylinder works, and a piston rod extends upwards to prop against the bottom of the copper ingot and is conveyed forwards to the heating furnace.

In conclusion, the technical scheme overcomes the defect of manual feeding in the prior art by moving the gear shaping 2, the material groove 1, the blocking tooth 6, the air cylinder 5, the feeding groove 7 and the feeding air cylinder 8.

The structure is controlled by a controller, the controller is arranged in the position close to the feeding groove and fixed by a support, and the controller is provided with a working button for controlling the cylinder 5 and the feeding cylinder 8.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected, and may communicate between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Claims (4)

1. The utility model provides a copper ingot material feeding unit which characterized in that: feeding device includes the silo, reciprocates tooth, cylinder, fender tooth, feed chute, feeding cylinder, base, and the central point of base puts and is fixed with the cylinder, and the silo slope is put on the support, and silo export welding has the baffle, and the interval welding has the fender tooth on the baffle, and every fender tooth the centre leave the strip hole that supplies to remove the gear shaping and reciprocate, and the one end welding of every removal gear shaping is in the front of connecting plate, and the back of connecting plate is connected with the piston rod on the cylinder, the feed chute is installed to this one end vertical direction of silo export, and the rear end of feed chute installs feeding cylinder.

2. The copper ingot feeding device according to claim 1, characterized in that: the feed end of the trough is open, and the discharge end of the trough is closed by a baffle.

3. The copper ingot feeding device according to claim 1, characterized in that: keep off tooth one end welding on the baffle, keep off the setting of tooth other end towards the silo direction, and keep off the tooth and be higher than the silo bottom surface, keep off the diameter that highly is higher than the copper ingot of tooth, and the number of teeth that just keeps off the tooth is three at least.

4. The copper ingot feeding device according to claim 1, characterized in that: when the movable gear shaping is inserted into the movable strip hole to move upwards, the movable gear shaping and the blocking teeth form a plane in a comb shape, one end of the movable gear shaping is a fixed end, and the other end of the movable gear shaping can freely move upwards and downwards in the strip hole under the driving of the cylinder.

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