CN212355745U - Automatic feeding mechanism is used in brass bar production - Google Patents

Abstract

The utility model discloses an automatic feeding mechanism for brass bar production, which comprises a lifting component, wherein the lifting component comprises a mounting plate, I-shaped stand columns, mounting holes, Z-shaped barrier strips, a cross beam and an electric hoist, the two I-shaped stand columns are matched with a hopper component in a sliding way, the hopper component comprises a storage hopper, a slide block, a discharge hole, a chute, a slide plate, a rewinding box, a winding shaft, a spiral spring, a rectangular block, a steel wire rope and an auxiliary pulley, the storage hopper is hinged with a discharging component, the discharging component comprises a discharging chute hinged with the storage hopper, the position of the discharge chute corresponds to the discharge hole, both sides of the discharge chute are connected with binding posts, a movable chute is arranged in the discharge chute, the movable sliding groove is matched with an elongated slot in a sliding mode, the elongated slot is connected with a heavy strip, a wire rope is connected between the wiring terminal and the sliding plate, and the wire rope passes through the auxiliary pulley and then is wound on a winding shaft.

Description

Automatic feeding mechanism is used in brass bar production

Technical Field

The utility model belongs to brass bar production field, concretely relates to automatic material conveying mechanism is used in brass bar production.

Background

Brass rods are rod-like objects made of an alloy of copper and zinc, and are known for their yellow color. The melting point of the brass with the copper content of 56% -68% is 934-967 ℃. Brass has good mechanical property and wear resistance, and can be used for manufacturing precision instruments, ship parts, shell shells of guns and the like. Scrap copper or copper rice is often the most important raw material for the general brass bar copper production and processing enterprises, and the scrap copper or copper rice is put into a high-temperature smelting furnace to produce brass bars.

At present, most of raw materials for casting brass bars are added by manual pouring, but the manual pouring has the following problems:

1. because the feeding port of the smelting furnace is generally arranged at the top, the manual dumping is time-consuming and labor-consuming;

2. when the raw materials are poured into a feeding port of the smelting furnace, the solution in the smelting furnace can be splashed outwards, and personal injury is caused;

3. the temperature at the feed inlet of the smelting furnace is higher, which affects the health of operators.

Therefore, the problem needs to be solved by providing an automatic feeding mechanism for brass bar production.

SUMMERY OF THE UTILITY MODEL

To the problem that the above-mentioned background art provided, the utility model aims at: aiming at providing an automatic feeding mechanism for brass bar production. In order to realize the technical purpose, the utility model discloses a technical scheme as follows:

an automatic feeding mechanism for brass bar production comprises a lifting component, wherein the lifting component comprises a mounting plate, the mounting plate is provided with two I-shaped stand columns, the I-shaped stand columns are uniformly provided with mounting holes, Z-shaped barrier strips are fixed on the mounting holes, the two I-shaped stand columns are connected with a cross beam, an electric hoist is mounted on the cross beam, the two I-shaped stand columns are matched with a hopper component in a sliding manner, the hopper component comprises a storage hopper, the inner bottom surface of the storage hopper is in an inclined trapezoidal shape, the storage hopper is integrally connected with a slide block matched with the I-shaped stand columns in a sliding manner, the storage hopper is provided with a discharge hole, the storage hopper is provided with a slide groove matched with the discharge hole, the slide plate is matched with the discharge hole in size, the storage hopper is provided with a rewinding box, a winding shaft is mounted on the rewinding box, and a scroll spring is fixed between the winding shaft, the improved wire rope winding machine is characterized in that a rectangular block is integrally connected with the storage hopper, a wire rope is connected between the rectangular block and the electric hoist, an auxiliary pulley is installed on the storage hopper, the storage hopper is hinged with a discharging component, the discharging component comprises a discharging chute hinged with the storage hopper, the discharging chute corresponds to a discharging port in position, binding posts are connected to two sides of the discharging chute, a movable chute is formed in the discharging chute, the movable chute is matched with an elongated slot in a sliding mode, the elongated slot is connected with heavy strips, a wire rope is connected between the binding posts and a sliding plate, and the wire rope is wound on a winding shaft after passing through the auxiliary pulley.

Further inject, the storage hopper is connected with the auxiliary baffle that is located the discharge gate both sides, and such design shelters from the ejection of compact of discharge gate, changes and gets into out the blowpit.

Further, the weight of the sliding plate is twice that of the discharging component, and the sliding plate is easier to close the discharging port due to the design.

Further inject, the bottom surface is through smooth polishing treatment in the storage hopper, and such design, the ejection of compact is more smooth and easy clean, is difficult for remaining.

Further inject, the storage hopper has been seted up the groove of stepping down, ejection of compact part articulates in the groove of stepping down, and such design makes the material of discharging from the discharge gate can directly get into out the blowpit, seamless connection.

Adopt the beneficial effects of the utility model:

1. by adopting the structural design of the utility model, the feeding of the feed inlets of the smelting furnaces with different heights can be realized by changing the fixed position of the Z-shaped barrier strip, and the adaptability is strong;

2. by adopting the structural design of the utility model, the materials in the storage hopper can be poured into the melting furnace only by controlling the electric hoist, thereby saving time and labor;

3. by adopting the structural design of the utility model, the materials in the storage hopper can be poured into the smelting furnace only by controlling the electric hoist, people do not need to be positioned at the feed inlet of the smelting furnace, and the problem of personal injury caused by outward splashing of the solution in the smelting furnace can be avoided;

4. adopt the utility model discloses a structural design only needs control electric block just can realize pouring the material in the storage hopper into the smelting pot, need not the people and is located the pan feeding mouth department of smelting pot, can not influence the healthy of operation workman because of smelting pot pan feeding mouth department temperature is higher.

Drawings

The present invention can be further illustrated by the non-limiting examples given in the accompanying drawings;

FIG. 1 is a first schematic structural view of an embodiment of an automatic feeding mechanism for brass rod production of the present invention;

FIG. 2 is a schematic structural diagram II of an embodiment of an automatic feeding mechanism for brass rod production of the present invention;

FIG. 3 is a schematic view of a cross-sectional structure of a chute of an embodiment of an automatic feeding mechanism for brass rod production of the present invention;

FIG. 4 is an enlarged view of A in FIG. 2;

FIG. 5 is an enlarged view of the structure at B in FIG. 2;

fig. 6 is a schematic view of a sectional structure of a discharge chute part of an embodiment of an automatic feeding mechanism for brass bar production of the present invention;

the main element symbols are as follows:

the device comprises a lifting component 1, a mounting plate 11, an I-shaped upright 12, a mounting hole 13, a Z-shaped barrier strip 14, a cross beam 15, an electric hoist 16, a hopper component 2, a storage hopper 21, a slide block 22, a discharge hole 23, a chute 24, a slide plate 25, a rollback box 26, a winding shaft 27, a spiral spring 28, a rectangular block 29, a steel wire rope 210, an auxiliary pulley 211, an auxiliary baffle 212, a discharge component 3, a discharge chute 31, a binding post 32, an elongated slot 33, a heavy strip 34, a movable chute 35 and a wire rope 4.

Detailed Description

In order to make the present invention better understood by those skilled in the art, the technical solutions of the present invention are further described below with reference to the accompanying drawings and examples.

As shown in fig. 1-6, the utility model discloses an automatic feeding mechanism for brass rod production, including lifting unit 1, lifting unit 1 includes mounting panel 11, mounting panel 11 installs two i-shaped stands 12, i-shaped stand 12 evenly is equipped with mounting hole 13, mounting hole 13 is fixed with zigzag blend stop 14, two i-shaped stands 12 are connected with crossbeam 15, crossbeam 15 installs electric block 16, two i-shaped stands 12 are matched with hopper component 2 in a sliding manner, hopper component 2 includes storage hopper 21, the bottom surface is the trapezoidal shape of slope in the storage hopper 21, storage hopper 21 is connected with slider 22 that matches with i-shaped stand 12 in a sliding manner, storage hopper 21 is equipped with discharge gate 23, storage hopper 21 is equipped with chute 24 that matches with discharge gate 23, chute 24 matches with slide 25, slide 25 matches with discharge gate 23 size, rewind case 26 is installed to storage hopper 21, reel 27 is installed to rollback box 26, be fixed with scroll spring 28 between reel 27 and the rollback box 26, storage hopper 21 an organic whole is connected with rectangular block 29, be connected with wire rope 210 between rectangular block 29 and the electric block 16, auxiliary pulley 211 is installed to storage hopper 21, storage hopper 21 articulates there is ejection of compact part 3, ejection of compact part 3 includes the blowpit 31 with storage hopper 21 articulated, the blowpit 31 position corresponds discharge gate 23, blowpit 31 both sides are connected with terminal 32, the inside movable spout 35 of having seted up of blowpit 31, movable spout 35 slides and matches there is elongated slot 33, elongated slot 33 is connected with heavy strip 34, be connected with cotton rope 4 between terminal 32 and the slide 25, cotton rope 4 is around establishing on reel 27 after crossing auxiliary pulley 211.

In the embodiment, when the automatic feeding mechanism for producing the brass bars is used, the lifting part 1 is fixed on one side of a feeding port of a smelting furnace through the mounting plate 11, the discharge chute 31 on the I-shaped upright post 12 is opposite to the upper side of the feeding port, and the Z-shaped barrier strip 14 is matched with the mounting hole 13 and fixed on a proper position of the I-shaped upright post 12, so that the use can be started; when the device is used, a brass bar casting raw material is directly poured into the storage hopper 21, the electric hoist 16 is controlled to be matched with the steel wire rope 210 to lift the rectangular block 29 and lift the hopper component 2 and the discharging component 3, the lifting stability is ensured under the matching effect of the slide block 22 and the I-shaped upright post 12, in the lifting process, when the discharging groove 31 is contacted with the Z-shaped barrier strip 14, the discharging groove 31 is hinged with the storage hopper 21, so that the discharging groove 31 is forced to incline, the winding shaft 27 is pulled to rotate under the effects of the wiring terminal 32 and the wire rope 4, the slide block 22 is lifted in the sliding groove 24, the discharging opening 23 is opened, the raw material in the storage hopper 21 enters the discharging groove 31 through the discharging opening 23, meanwhile, the elongated slot 33 automatically slides out of the movable sliding groove 35 under the effect of the heavy strip 34 due to the inclination of the discharging groove 31, the raw material is guided into the feeding opening under the matching of the discharging groove 31, after the raw materials in the storage hopper 21 are poured, the electric hoist 16 is controlled to be loosened, the hopper component 2 descends under the self weight, when the Z-shaped barrier strip 14 is not in contact with the discharge chute 31 any more, the discharge chute 31 is pulled back to the original position by matching with the wire rope 4 under the effect of the spiral spring 28, the elongated slot 33 returns to the movable chute 35 under the effect of the heavy strip 34, and the slide block 22 also automatically descends under the self weight to close the discharge port 23 to prepare for the next raw material addition.

Preferably, the storage hopper 21 is connected with the auxiliary baffle 212 positioned at two sides of the discharge port 23, and the design can shield the discharge of the discharge port 23 and can easily enter the discharge chute 31, and in fact, the size of the auxiliary baffle 212 can be considered according to specific situations.

The slide 25 preferably has a weight twice that of the discharge member 3, so that the slide 25 is easier to close the discharge opening 23, and in fact, the weight of the slide 25 can be taken into account as the case may be.

The bottom surface is through smooth polishing treatment in preferred storage hopper 21, and such design, the ejection of compact is more smooth and easy clean, and is difficult for remaining, in fact, also can consider the mode that the bottom surface does not remain the raw materials in the storage hopper 21 according to particular case.

Preferably, the storage hopper 21 is provided with an abdicating groove 213, and the discharging component 3 is hinged in the abdicating groove 213, so that the material discharged from the discharging port 23 can directly enter the discharging groove 31, and is connected seamlessly, and in fact, the hinging mode of the discharging component 3 and the storage hopper 21 can be considered according to specific situations.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (5)

1. The utility model provides a brass bar production is with automatic material conveying mechanism, includes lifting means (1), its characterized in that: the lifting component (1) comprises a mounting plate (11), two I-shaped columns (12) are mounted on the mounting plate (11), mounting holes (13) are uniformly formed in the I-shaped columns (12), Z-shaped barrier strips (14) are fixed on the mounting holes (13), the I-shaped columns (12) are connected with a cross beam (15), an electric hoist (16) is mounted on the cross beam (15), the I-shaped columns (12) are matched with a hopper component (2) in a sliding mode, the hopper component (2) comprises a storage hopper (21), the inner bottom surface of the storage hopper (21) is in an inclined trapezoidal shape, a sliding block (22) matched with the I-shaped columns (12) in a sliding mode is integrally connected with the storage hopper (21), a discharge port (23) is formed in the storage hopper (21), and a sliding chute (24) matched with the discharge port (23) is formed in the storage hopper (21), the utility model discloses a material discharging device, including spout (24), slide (25), discharge gate (23), reel case (26) are installed to storage hopper (21), reel (27) are installed to reel case (26), be fixed with spiral spring (28) between reel (27) and reel case (26), storage hopper (21) an organic whole is connected with rectangular block (29), be connected with wire rope (210) between rectangular block (29) and electric block (16), auxiliary pulley (211) are installed to storage hopper (21), storage hopper (21) articulates there is ejection of compact part (3), ejection of compact part (3) include with storage hopper (21) articulated blowpit (31), blowpit (31) position corresponds discharge gate (23), blowpit (31) both sides are connected with terminal (32), movable spout (35) have been seted up to blowpit (31) inside, the movable sliding groove (35) is matched with an elongated groove (33) in a sliding mode, the elongated groove (33) is connected with a heavy strip (34), a wire rope (4) is connected between the wiring terminal (32) and the sliding plate (25), and the wire rope (4) passes through the auxiliary pulley (211) and then is wound on the winding shaft (27).

2. The automatic feeding mechanism for brass bar production of claim 1, wherein: the storage hopper (21) is connected with auxiliary baffles (212) positioned at two sides of the discharge hole (23).

3. The automatic feeding mechanism for brass bar production of claim 2, wherein: the weight of the sliding plate (25) is twice of that of the discharging component (3).

4. The automatic feeding mechanism for brass bar production of claim 3, wherein: the inner bottom surface of the storage hopper (21) is subjected to smooth polishing treatment.

5. The automatic feeding mechanism for brass bar production of claim 4, wherein: the storage hopper (21) is provided with a yielding groove (213), and the discharging component (3) is hinged in the yielding groove (213).

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