CN220131098U - Carbide vibration batch feeder - Google Patents

Abstract

The utility model discloses a hard alloy vibration feeder, which relates to the technical field of feeders, and comprises: the device comprises a rail, universal wheels are movably connected above the rail, bearing seats are fixedly arranged above the universal wheels, base blocks are fixedly arranged above the bearing seats, reset columns are fixedly arranged above the base blocks, springs are movably connected to the outer surfaces of the reset columns, vibration components are fixedly connected to the upper sides of the base blocks, vibration motors are fixedly arranged below the vibration components, auxiliary components are fixedly arranged above the vibration components, and discharging components are fixedly arranged on one sides of the vibration components. The fixed ring and the vibrating ring are matched with each other for use, when the vibrating feeder is in operation, the vibrating ring is used in a certain range in a moving way in the fixed ring, so that the vibration using effect of the rotating feeder is improved, and the use stability of the rotating feeder is further improved.

Description

Carbide vibration batch feeder

Technical Field

The utility model relates to the technical field of batch feeders, in particular to a hard alloy vibration batch feeder.

Background

Cemented carbide is an alloy material made from a hard compound of a refractory metal and a binder metal by a powder metallurgical process, and therefore in the smelting of cemented carbide it is necessary to feed the required material into a smelting furnace for smelting and casting.

The existing references are: the utility model discloses a Chinese patent of CN203240907U, which discloses an alloy vibration feeder, comprising a feeding trolley, wherein rollers are arranged below the feeding trolley and clamped on a guide rail; the feeding trolley comprises a storage bin and a base, wherein the storage bin is connected with the base through an elastic device, and a vibrating motor is arranged on the side wall of the storage bin; the front end of the stock bin is connected with a slide rail which is inclined downwards. After the structure is adopted, the alloy vibration feeder moves to the side of the smelting furnace through the roller, the slideway of the alloy vibration feeder is aligned to the smelting furnace mouth, the vibration motor is started, and the alloy blocks in the storage bin slide into the smelting furnace due to the slow vibration of the eye slideway. The utility model has simple structure and convenient operation.

The existing vibration feeder is in work use, the stability in the vibration process is achieved by using the spring for damping, but the weight of the hard alloy is heavier, if the stability is increased by using the spring only, the use effect is poor possibly, and in the process of repeated vibration resetting of the spring, the situation that the spring rings are clamped can be caused, so that certain defects exist in the use of the spring, and the use effect of the vibration feeder is affected.

Disclosure of Invention

The utility model provides a hard alloy vibration feeder, which solves the problems of the prior art that the use stability of the vibration feeder is increased and the use effect of the vibration feeder is improved.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a cemented carbide vibratory feeder, comprising: the utility model provides a convenient whole batch feeder moves the track of route of traveling, orbital top swing joint has the universal wheel that is used for convenient batch feeder to travel, the top fixed mounting of universal wheel has the bearing seat that is used for undertaking the whole vibration batch feeder of connection, the top fixed mounting of bearing seat has the base piece that is used for undertaking connecting spring, the top fixed mounting of base piece has the reset post that is used for assisting spring reset to use, the surface swing joint of reset post has the spring that is used for playing the auxiliary use, just the top fixedly connected with of base piece is used for carrying out the vibration subassembly that the material loading used, the below fixed mounting of vibration subassembly has the vibrating motor that is used for driving to use, the top fixed mounting of vibration subassembly has the auxiliary assembly that is used for assisting vibration to use the steadiness, one side fixed mounting of vibration subassembly has the ejection of compact subassembly that is used for discharging carbide materials.

In a preferred embodiment, the vibration assembly comprises: the vibrating frame is fixedly arranged above the vibrating motor, the bottom lining plate is movably connected inside the vibrating frame, a mounting block is fixedly arranged on one side of the bottom lining plate, a bolt is movably connected on one side of the mounting block, and a screen bar is fixedly arranged at the bottom of the inner surface of the vibrating frame; the use range of the bottom lining plate is approximately one third of the use range of the integral vibration frame, and the bolts connect the mounting blocks to the inner side of the vibration frame for use.

In a preferred embodiment, springs are fixedly arranged below the vibration frame, and the mounting blocks are movably connected to two sides of the inner surface of the vibration frame; the spring is connected in the upper and lower structures of the bearing seat and the vibration frame and used for vibration use stability between the structures.

In a preferred embodiment, the auxiliary assembly comprises: the vibration frame comprises a mounting seat fixedly mounted on the outer surface of the vibration frame, wherein an upright post is fixedly mounted above the mounting seat, a mounting sleeve is fixedly mounted above the upright post, and a connecting block is fixedly mounted on one side of the mounting sleeve; the installation sleeve structure presents a circular structure shape, and is connected above the outer surface of the upright post in a fitting way.

In a preferred embodiment, a mounting frame is fixedly mounted below the connecting block, a bearing column is fixedly mounted inside the mounting frame, a fixing ring is fixedly mounted below the bearing column, a vibrating ring is movably connected to one side of the fixing ring, and a welding seat is fixedly mounted below the vibrating ring; the vibration ring is used by moving up and down in a certain range in the fixed ring, and the auxiliary vibration feeder generates a vibration using effect.

In a preferred embodiment, the welding seat is fixedly arranged above the vibration frame, and an opening is fixedly arranged at the bottom of the inner surface of the installation frame; the opening structure is arranged below the mounting frame, the purpose that the fixing ring is connected with the bearing column is achieved, and the bearing column is connected with the fixing ring through the fixing welding mode.

In a preferred embodiment, the outfeed assembly comprises: the discharging plate is fixedly arranged at one side of the vibrating frame, two sides of the discharging plate are fixedly provided with baffle plates, and a connecting plate is fixedly arranged below the baffle plates; one end length of the baffle is greater than one end of the discharging plate, and one end of the discharging frame is connected to the bottom of the inner surface of the vibrating frame for use.

In a preferred embodiment, the connecting plate is fixedly arranged above the bearing seat, and one side of the baffle is fixedly arranged and connected to the bottom of the inner surface of the vibrating frame; the baffle is connected to one side of the vibration frame, so that the hard alloy material is conveniently conveyed into the smelting furnace for smelting, manufacturing and use, and the screen bars are achieved.

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

1. according to the novel hard alloy vibration feeder, the reset columns are connected inside the springs and are spliced together in a cylindrical shape with different sizes, when the vibration feeder is used in operation, the springs are installed and connected on the upper side and the lower side of the vibration feeder and the upper side and the lower side of the bearing seat, the vibration stabilizing effect is achieved, when the springs are reset, the spring rings can be connected at the groove connection nodes of the reset columns, the situation of clamping between the springs is effectively avoided, and the using effect of the vibration feeder is increased conveniently;

2. this novel carbide vibration feeder is connected with the welding seat through the top at the vibrating frame, the welding seat bears the vibration ring of connecting the top, be connected with the mount pad simultaneously in the surface both sides of vibrating frame, the mount pad bears the connection stand, stand external surface connection installation cover, installation cover one side installation connecting block, the bearing frame is installed to the connecting block below, install the spandrel post in the inside of bearing frame, and spandrel post below is connected with solid fixed ring, gu mutually support between fixed ring and the vibration ring and use, use in the operation when the vibration feeder, carry out the removal of certain scope through the vibration ring in gu fixed ring and use, thereby reach and increase rotation feeder vibration result of use, further increase rotation feeder stability in use.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a spring structure installation in accordance with the present utility model;

FIG. 3 is a schematic diagram of a vibration assembly according to the present utility model;

FIG. 4 is a schematic view of an auxiliary assembly structure according to the present utility model;

fig. 5 is a schematic structural view of a discharging assembly in the present utility model.

1. A track; 2. a universal wheel; 201. a bearing seat; 3. a base block; 301. a reset column; 302. a spring; 4. a vibration frame; 401. a bottom liner plate; 402. a mounting block; 403. a bolt; 404. a screen bar; 5. a vibration motor; 6. a mounting base; 601. a column; 602. a mounting sleeve; 603. a connecting block; 604. a mounting frame; 605. a bearing column; 606. a fixing ring; 607. a vibrating ring; 608. a welding seat; 7. a discharge plate; 701. a baffle; 702. and (5) connecting a plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiment one:

referring to fig. 1-5, in this embodiment, a cemented carbide vibratory feeder, the cemented carbide vibratory feeder comprising: the device comprises a track 1, wherein a universal wheel 2 is movably connected above the track 1, a bearing seat 201 is fixedly arranged above the universal wheel 2, a base block 3 is fixedly arranged above the bearing seat 201, a reset column 301 is fixedly arranged above the base block 3, a spring 302 is movably connected to the outer surface of the reset column 301, a vibration assembly is fixedly connected above the base block 3, a vibration motor 5 is fixedly arranged below the vibration assembly, and a discharging assembly is fixedly arranged on one side of the vibration assembly;

through connecting the upper and lower both sides at vibrating frame 4 and bearing seat 201 with spring 302, reach and increase vibration feeder stability in use, avoided vibration feeder in the vibration that produces of in-process of using to influence whole vibration feeder practicality, and with holistic vibration feeder structure connection in the top of bearing seat 201, be connected with universal wheel 2 in the below of bearing seat 201, universal wheel 2 swing joint is in track 1, track 1 plays the route that solidifies traveling between carbide smelting furnace and the feeder, through universal wheel 2 removal use, reach increase vibration feeder result of use, also avoided vibration feeder to stay in the smelting furnace next door for a long time simultaneously.

The vibration assembly includes: the vibrating frame 4 is fixedly arranged above the vibrating motor 5, the bottom lining plate 401 is movably connected inside the vibrating frame 4, the mounting block 402 is fixedly arranged on one side of the bottom lining plate 401, the bolt 403 is movably connected on one side of the mounting block 402, and the screen bars 404 are fixedly arranged at the bottom of the inner surface of the vibrating frame 4; a spring 302 is fixedly arranged below the vibration frame 4, and a mounting block 402 is movably connected to two sides of the inner surface of the vibration frame 4;

the mounting blocks 402 are connected to two sides of the inner surface of the vibrating frame 4 through bolts 403, so that the integral bottom lining plate 401 is driven to be connected for internal use, when the vibrating feeder is operated for use, raw materials are firstly put into the bottom lining plate 401, and then flow into the screen bars 404 below through the inertia of vibration, so that the paint is used.

The ejection of compact subassembly includes: the discharging plate 7 is fixedly arranged on one side of the vibrating frame 4, the baffle plates 701 are fixedly arranged on two sides of the discharging plate 7, the connecting plate 702 is fixedly arranged below the baffle plates 701, the connecting plate 702 is fixedly arranged above the bearing seat 201, and one side of the baffle plates 701 is fixedly arranged and connected to the bottom of the inner surface of the vibrating frame 4;

the general area of the feed inlet of the hard alloy smelting furnace is smaller, so that the feed and discharge assembly is required to be consistent with the feed of the smelting furnace, and the purpose of accurately injecting raw materials into the smelting furnace to smelt casting alloy is achieved, thereby connecting the discharge assembly on one side of the vibration assembly, bringing convenience to the raw material feeding and practical applicability, and improving the use effect of the hard alloy vibration feeder.

Embodiment two:

in conjunction with fig. 4, this embodiment also proposes: the top fixed mounting of vibration subassembly has auxiliary assembly, and auxiliary assembly includes: the mounting seat 6 is fixedly arranged on the outer surface of the vibration frame 4, the upright post 601 is fixedly arranged above the mounting seat 6, the mounting sleeve 602 is fixedly arranged above the upright post 601, and the connecting block 603 is fixedly arranged on one side of the mounting sleeve 602;

a mounting frame 604 is fixedly arranged below the connecting block 603, a bearing column 605 is fixedly arranged inside the mounting frame 604, a fixing ring 606 is fixedly arranged below the bearing column 605, a vibrating ring 607 is movably connected to one side of the fixing ring 606, and a welding seat 608 is fixedly arranged below the vibrating ring 607;

the welding seat 608 is fixedly arranged above the vibration frame 4, and an opening is fixedly arranged at the bottom of the inner surface of the mounting frame 604;

the structure through mount pad 6 presents "L" shape, reaches to connect in the one side of vibrating frame 4, and one side bears and connects stand 601, and convenient this auxiliary assembly stability in use also increases the connection effect between the structure simultaneously, and this mount pad 6 and vibrating frame 4 structure use the fixed mode of welding simultaneously to reach and increase this carbide vibration feeder practicality.

Working principle: firstly, the vibrating feeder stays in the hard alloy material, the hard alloy material is put in the vibrating frame 4, the vibrating motor 5 is turned on to perform operation vibration use, thereby driving the vibrating frame 4 structure with the whole upper part to perform vibration use, the bottom lining plate 401 is installed in the vibrating frame 4 through the bolts 403, the raw material is put in the bottom lining plate 401, the inertia of the vibration is provided to enable the raw material to flow into the screen bars 404 in a vibrating way, meanwhile, one side of the vibrating frame 4 is connected with the discharging plate 7, two sides of the discharging plate 7 are installed and connected with the baffle 701, one end of the baffle 701 is larger than one end of the discharging plate 7, the baffle 701 is connected at the edge of one side of the inner surface of the vibrating frame 4, the discharging plate 7 is made to perform vibration use under the condition that the vibrating frame 4 vibrates, the raw material is put in the hard alloy smelting furnace to perform casting use, meanwhile, the lower part of the vibration frame 4 is connected with a spring 302, the inside of the spring 302 is used for auxiliary resetting by using a resetting column 301, the resetting column 301 is connected above a base block 3, the base block 3 is connected above a bearing seat 201, the spring 302 is connected above and below the structure of the vibration frame 4 and the bearing seat 201, when the vibration frame 4 operates and vibrates, the spring 302 is arranged at a structure node, the stability of the structure is improved, the situation that a vibration feeder vibrates poorly is avoided, thus the two sides of the outer surface of the vibration frame 4 are connected with a mounting seat 6, the mounting seat 6 bears the use of a mounting sleeve 602 connected with a stand column 601 and the upper part, one side of the mounting sleeve 602 is connected with a connecting block 603, the connecting block 603 drives a mounting frame 604 to be connected above the vibration frame 4 for matched use, a bearing column 605 is arranged in the mounting frame 604, the bottom of the inner surface of the mounting frame 604 is provided with an opening, the fixed ring 606 of open-type spandrel post 605 and below is connected, the inside swing joint vibration ring 607 of fixed ring 606, the vibration ring 607 below uses in the top of vibration frame 4 through welded seat 608 connection, when vibration frame 4 carries out the batch charging vibration, drives vibration ring 607 and reciprocates the use to reach the vibration ring 607 and carry out the removal use of certain scope in the inside of fixed ring 606, increased vibration batch charging machine vibration result of use and vibration stability, convenient batch charging use to carbide casting material.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. The utility model provides a carbide vibration feeder which characterized in that, this carbide vibration feeder includes: track (1), the top swing joint of track (1) has universal wheel (2), the top fixed mounting of universal wheel (2) has bearing seat (201), the top fixed mounting of bearing seat (201) has base piece (3), the top fixed mounting of base piece (3) has post (301) that resets, the surface swing joint of post (301) that resets has spring (302), just the top fixedly connected with vibrating assembly of base piece (3), vibrating assembly's below fixed mounting has vibrating motor (5), vibrating assembly's top fixed mounting has auxiliary assembly, one side fixed mounting of vibrating assembly has ejection of compact subassembly.

2. The cemented carbide vibratory feeder of claim 1, wherein: the vibration assembly includes: the vibrating frame (4) is fixedly arranged above the vibrating motor (5), a bottom lining plate (401) is movably connected to the inside of the vibrating frame (4), a mounting block (402) is fixedly arranged on one side of the bottom lining plate (401), a bolt (403) is movably connected to one side of the mounting block (402), and a screen bar (404) is fixedly arranged at the bottom of the inner surface of the vibrating frame (4).

3. The cemented carbide vibratory feeder of claim 2, wherein: the spring (302) is fixedly arranged below the vibration frame (4), and the mounting blocks (402) are movably connected to two sides of the inner surface of the vibration frame (4).

4. The cemented carbide vibratory feeder of claim 1, wherein: the auxiliary assembly includes: the vibration frame comprises a mounting seat (6) fixedly mounted on the outer surface of the vibration frame (4), wherein an upright post (601) is fixedly mounted above the mounting seat (6), a mounting sleeve (602) is fixedly mounted above the upright post (601), and a connecting block (603) is fixedly mounted on one side of the mounting sleeve (602).

5. The vibratory feeder of claim 4, wherein: the utility model discloses a vibrating device, including connecting block (603), mounting frame (604) is fixed to the below of connecting block (603), the inside fixed mounting of mounting frame (604) has spanners (605), the below fixed mounting of spanners (605) has solid fixed ring (606), one side swing joint of solid fixed ring (606) has vibration ring (607), the below fixed mounting of vibration ring (607) has welded seat (608).

6. The vibratory feeder of claim 5, wherein: the welding seat (608) is fixedly arranged above the vibrating frame (4), and an opening is fixedly arranged at the bottom of the inner surface of the mounting frame (604).

7. The cemented carbide vibratory feeder of claim 1, wherein: the outfeed assembly includes: the discharging plate (7) is fixedly arranged on one side of the vibrating frame (4), baffle plates (701) are fixedly arranged on two sides of the discharging plate (7), and connecting plates (702) are fixedly arranged below the baffle plates (701).

8. The vibratory feeder of claim 7, wherein: the connecting plate (702) is fixedly arranged above the bearing seat (201), and one side of the baffle plate (701) is fixedly arranged and connected to the bottom of the inner surface of the vibrating frame (4).