CN214922913U - Grinding machine for processing double end faces of long and thin magnetic materials - Google Patents

Abstract

The utility model discloses a grinding machine for processing double end faces of slender magnetic materials, which comprises a hopper, a vibration feeding disc, a rotating disc, an upper grinding wheel and a lower grinding wheel which are symmetrically arranged, wherein the rotating disc, the upper grinding wheel and the lower grinding wheel are all horizontally arranged, and the upper grinding wheel and the lower grinding wheel are respectively positioned at the upper side and the lower side of the rotating disc; the rotating disc is uniformly provided with a plurality of material holes for containing slender magnetic materials along the circumferential direction, the material holes are vertical through holes, the magnetic materials can be vertically arranged in the material holes, and the circumferential motion track of the material holes is intersected with the circumferential profiles of the upper grinding wheel and the lower grinding wheel. The utility model has the advantages of high work efficiency.

Description

Grinding machine for processing double end faces of long and thin magnetic materials

Technical Field

The utility model mainly relates to a magnetic material abrasive machining's grinding machine field.

Background

In the real production life, the application of the magnetic material cannot be separated, and the magnetic material has small size and various shapes, so that the grinding processing is very difficult, and different grinding processing equipment is often required to be customized according to the magnetic materials with different sizes and shapes. At present, no efficient grinding equipment exists for processing the double end faces of the long and thin magnetic materials.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in: aiming at the defects in the prior art, the grinding machine for processing the double end faces of the slender magnetic materials is high in working efficiency.

In order to solve the technical problem, the utility model discloses a following technical scheme:

a grinding machine for processing double end faces of a slender magnetic material comprises a hopper, a vibration feeding plate, a rotary disc, an upper grinding wheel and a lower grinding wheel which are symmetrically arranged, wherein the rotary disc, the upper grinding wheel and the lower grinding wheel are horizontally arranged, and the upper grinding wheel and the lower grinding wheel are respectively positioned on the upper side and the lower side of the rotary disc; the rotary disc is uniformly provided with a plurality of material holes for containing slender magnetic materials along the circumferential direction, the material holes are vertical through holes, the magnetic materials can be vertically arranged in the material holes, and the circumferential motion track of the material holes is intersected with the circumferential profiles of the upper grinding wheel and the lower grinding wheel; a material receiving area, a grinding area and a material discharging area are sequentially arranged along the circumferential motion direction of the material hole, and magnetic materials in the vibration feeding disc are fed into the material hole of the material receiving area through a discharging pipe; the utility model discloses a material hole portion of unloading, including material hole portion, bearing disc, grinding disc, bearing disc, grinding disc, unloading disc, grinding disc, unloading disc, grinding disc, unloading disc, grinding disc, unloading disc, grinding disc, unloading disc, grinding disc, unloading disc, grinding disc, unloading disc, and unloading disc, grinding disc, and unloading disc, and grinding disc, wherein the unloading disc, the material hole portion, the unloading disc, and the unloading disc, the material hole portion, and the unloading disc, and the grinding disc, and the unloading disc, and the grinding disc, and the unloading disc, and the grinding disc, and.

Furthermore, the upper grinding wheel and the lower grinding wheel are driven to rotate by respective driving motors, and the upper grinding wheel and the lower grinding wheel are respectively arranged on a vertically arranged linear module.

Furthermore, the material holes on the rotating disk are provided with two or more circles.

The cooling water circulation system comprises a circulation water tank, a water pump and a water receiving tank, wherein the circulation water tank is a three-stage filtering water tank and is used for providing cooling water; the water pump is used for sending cooling water in the circulating water tank to the upper grinding wheel and the lower grinding wheel through a water pipe for cooling; the water receiving tank is positioned below the grinding station and used for containing the falling cooling water, the bottom of the water receiving tank is inclined, and a water outlet is formed in the bottom of the water receiving tank and communicated with the circulating water tank.

Furthermore, the department of the breach of unloading is equipped with supplementary shedding mechanism, supplementary shedding mechanism is including locating the cylinder of unloading above the rotating disc, and the telescopic link of the cylinder of unloading can insert the material hole of rotating disc downwards and release the magnetic material.

Compared with the prior art, the utility model has the advantages of: the utility model discloses a set up the rotating disc and convey the magnetism material to set up vertical material hole on the rotating disc, it is downthehole to let slender type magnetism material can be and erect the form and arrange the material in, when magnetism material gets into the upper grinding wheel along with the rotating disc and when lower grinding wheel between, just can grind the upper and lower both ends face of magnetism material simultaneously, and work efficiency is very high.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the present invention with a part of the outer casing removed.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Reference numerals: a frame 1; a housing 2; a control box 3; a hopper 4; a conveyor belt 5; a vibrating feed tray 6; a rotating disc 7; an upper grinding wheel 8; a lower grinding wheel 9; a first electric motor 10; a material hole 11; a blanking pipe 12; a support disc 13; a discharge gap 14; a discharge chute 15; a drive motor 16; a linear module 17; an adjustment motor 18; a circulation water tank 19; a water pump 20; a water receiving tank 21; a headstock 22; a water inlet 23; a drain port 24; a discharge cylinder 25; a bracket 26.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments, and it should be noted that the scope of the present invention is not limited to the following embodiments, and any modifications and decorations made by the present invention should be considered as the scope of the present invention without departing from the principle of the present invention.

Referring to fig. 1, 2, 3, the utility model discloses a grinding machine for processing of slender type magnetism material bi-polar face, including frame 1, shell 2, control box 3, hopper 4, conveyer belt 5, vibration feed table 6, rotating disc 7 and be symmetrical arrangement's last emery wheel 8 and lower emery wheel 9. The conveyer belt 5 is located below the hopper 4, the vibration feeding tray 6 is located below the conveyer belt 5, and the rotary disk 7 is located below the vibration feeding tray 6. The rotating disc 7, the upper grinding wheel 8 and the lower grinding wheel 9 are all horizontally arranged, and the upper grinding wheel 8 and the lower grinding wheel 9 are respectively positioned on the upper side and the lower side of the rotating disc 7.

Hopper 4 is used for placing the magnetism material of treating grinding, and the magnetism material in hopper 4 falls on conveyer belt 5, and the vibration feed table 6 is sent into to rethread conveyer belt 5, and vibration feed table 6 sends the magnetism material into rotating disc 7 one by one through the vibration principle. The rotating disc 7 is driven to rotate by the first motor 10, a plurality of material holes 11 used for containing slender magnetic materials are uniformly formed in the rotating disc 7 in the circumferential direction, the material holes 11 are vertical through holes, the magnetic materials can be vertically arranged in the material holes 11, and the circular motion track of the material holes 11 is intersected with the circumferential profiles of the upper grinding wheel 8 and the lower grinding wheel 9. In this embodiment, the material hole 11 of the rotating disc 7 is provided with two circles.

A material receiving area, a grinding area and a material discharging area are sequentially arranged along the circumferential motion direction of the material hole 11. Connect the material district to be used for accepting the magnetism material that comes from vibration feed table 6 transport, vibration feed table 6 leads to the material hole 11 that connects the material district through two unloading pipes 12, and the magnetism material relies on self gravity to fall into in the material hole 11 along unloading pipe 12 after coming out from vibration feed table 6. The grinding area is an area intersected with the upper grinding wheel 8 and the lower grinding wheel 9, the grinding area enters a material hole 11 of the grinding area, and the upper grinding wheel 8 and the lower grinding wheel 9 grind the upper end surface and the lower end surface of the magnetic material in the material hole 11 respectively. The discharge area is used for discharging the magnetic material after finishing grinding from the material hole 11.

A support disc 13 is arranged below the rotary disc 7 and is used for providing bottom support for the magnetic material in the material hole 11. The distance between the supporting disc 13 and the rotating disc 7 is such that the upper and lower end surfaces of the magnetic material in the material hole 11 slightly protrude out of the upper and lower end surfaces of the rotating disc 7 respectively, so that the upper and lower end surfaces of the magnetic material can be ground after entering the grinding zone; meanwhile, the bearing surface of the bearing disc 13 is smoothly connected with the grinding surface of the lower grinding wheel 9, so that the magnetic material can smoothly enter a grinding area. An avoidance notch (not shown in the figure) is arranged at the position of the bearing disc 13 corresponding to the grinding area and is used for enabling the magnetic material in the material hole 11 to be transited from the bearing surface of the bearing disc 13 to the grinding surface of the lower grinding wheel 9; the position that bearing disc 13 corresponds the district of unloading is equipped with unloading breach 14, makes the material hole 11 bottom unsettled in the district of unloading, and when the magnetic material that accomplishes grinding in material hole 11 when unloading breach 14, owing to not had the bottom sprag, the magnetic material drops downwards from material hole 11 under the effect of self gravity and unloads out. A discharging chute 15 is arranged below the discharging notch 14, and a material receiving box (not shown) can be placed at the bottom of the discharging chute 15 for receiving materials.

In this embodiment, the discharge notch 14 is further provided with an auxiliary discharge mechanism, the auxiliary discharge mechanism includes a discharge cylinder 25 disposed above the rotating disc 7 and a support 26 for mounting the discharge cylinder 25, the support 26 is fixedly connected to the side portion of the bearing disc 13, and a telescopic rod of the discharge cylinder 25 can be inserted downwards into the material hole 11 of the rotating disc 7 to push out the magnetic material, so that the smoothness of magnetic material discharge can be greatly improved.

The upper grinding wheel 8 and the lower grinding wheel 9 are driven to rotate by respective driving motors 16, the upper grinding wheel 8 and the lower grinding wheel 9 are respectively installed on a vertically arranged linear module 17, and the linear module 17 is driven to do vertical linear motion by an adjusting motor 18. The linear module 17 is used for adjusting the height positions of the upper grinding wheel 8 and the lower grinding wheel 9 so as to be suitable for magnetic materials with different dimensions.

The utility model also comprises a cooling water circulation system, the cooling water circulation system comprises a circulation water tank 19, a water pump 20 and a water receiving tank 21, the circulation water tank 19 is a three-stage filtering water tank for providing cooling water; the water pump 20 is used for sending cooling water in the circulating water tank 19 to the upper grinding wheel 8 and the lower grinding wheel 9 through a water pipe for cooling, and the top of a spindle box 22 of the upper grinding wheel 8 is provided with a water inlet 23 which is used for connecting the water pipe; the water receiving tank 21 is positioned below the grinding station and used for receiving the falling cooling water, the bottom of the water receiving tank 21 is inclined, a water outlet 24 is arranged at the bottom of the water receiving tank 21, and the water outlet 24 leads to the circulating water tank 19.

Claims (5)

1. A grinding machine for processing double end faces of long and thin magnetic materials is characterized in that: the automatic feeding device comprises a hopper, a vibration feeding plate, a rotating disc, an upper grinding wheel and a lower grinding wheel which are symmetrically arranged, wherein the rotating disc, the upper grinding wheel and the lower grinding wheel are horizontally arranged, and the upper grinding wheel and the lower grinding wheel are respectively positioned at the upper side and the lower side of the rotating disc; the rotary disc is uniformly provided with a plurality of material holes for containing slender magnetic materials along the circumferential direction, the material holes are vertical through holes, the magnetic materials can be vertically arranged in the material holes, and the circumferential motion track of the material holes is intersected with the circumferential profiles of the upper grinding wheel and the lower grinding wheel; a material receiving area, a grinding area and a material discharging area are sequentially arranged along the circumferential motion direction of the material hole, and magnetic materials in the vibration feeding disc are fed into the material hole of the material receiving area through a discharging pipe; the utility model discloses a material hole portion of unloading, including material hole portion, bearing disc, grinding disc, bearing disc, grinding disc, unloading disc, grinding disc, unloading disc, grinding disc, unloading disc, grinding disc, unloading disc, grinding disc, unloading disc, grinding disc, unloading disc, grinding disc, unloading disc, and unloading disc, grinding disc, and unloading disc, and grinding disc, wherein the unloading disc, the material hole portion, the unloading disc, and the unloading disc, the material hole portion, and the unloading disc, and the grinding disc, and the unloading disc, and the grinding disc, and the unloading disc, and the grinding disc, and.

2. The grinding machine for elongated magnet double-ended machining according to claim 1, characterized in that: the upper grinding wheel and the lower grinding wheel are driven to rotate by respective driving motors, and the upper grinding wheel and the lower grinding wheel are respectively installed on a vertically arranged linear module.

3. The grinding machine for elongated magnet double-ended machining according to claim 1, characterized in that: the material holes on the rotating disk are provided with two or more circles.

4. A grinding machine for elongated magnetic material double-ended machining according to claim 1, 2 or 3, characterized in that: the cooling water circulation system comprises a circulation water tank, a water pump and a water receiving tank, wherein the circulation water tank is a three-stage filtering water tank and is used for providing cooling water; the water pump is used for sending cooling water in the circulating water tank to the upper grinding wheel and the lower grinding wheel through a water pipe for cooling; the water receiving tank is positioned below the grinding station and used for containing the falling cooling water, the bottom of the water receiving tank is inclined, and a water outlet is formed in the bottom of the water receiving tank and communicated with the circulating water tank.

5. A grinding machine for elongated magnetic material double-ended machining according to claim 1, 2 or 3, characterized in that: the department of the breach of unloading is equipped with supplementary shedding mechanism, supplementary shedding mechanism is including locating the cylinder of unloading above the rotating disc, and the telescopic link of the cylinder of unloading can insert the material hole of rotating disc downwards and release the magnetic material.

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