CN221247165U - Saw blade sharpening equipment - Google Patents

Abstract

The utility model provides saw blade sharpening equipment which comprises a conveying channel, wherein a sharpening area for sharpening is arranged on the conveying channel, a dust cover is covered on the sharpening area, an inlet and an outlet which are convenient for a saw blade to pass through are arranged on two sides of the dust cover, a grinding wheel for sharpening the saw blade is arranged in the dust cover, a strong magnetic block is transversely arranged at the lower end of the dust cover, a soft interlayer is covered at the upper end of the strong magnetic block, a first collecting box and a second collecting box are arranged below the strong magnetic block, and a turnover moving assembly for driving the strong magnetic block to turn over by 90 degrees and move between the first collecting box and the second collecting box is arranged on the strong magnetic block. According to the saw blade sharpening equipment provided by the utility model, all scraps are blocked by the dust cover and fall on the strong magnetic blocks, the non-magnetic sand grains fall into the first collecting box through the overturning of the strong magnetic blocks, and the magnetic scraps fall into the second collecting box through the glass of the soft interlayer, so that the cleanness and the neatness of the office environment of workers are ensured, and the scraps are effectively classified and recovered.

Description

Saw blade sharpening equipment

Technical Field

The utility model relates to the technical field of saw blade production and processing equipment, in particular to saw blade sharpening equipment.

Background

The saw blade is the steel sheet strip that opens the tooth sword, and the tooth sword is the main part of saw blade, thereby in the saw blade use, in order to make the sawtooth of saw blade smoother and sharper, the better cutting of being convenient for, need polish the sawtooth of saw blade. At present, the saw tooth surface is ground manually or by a machine, and scraps generated by grinding comprise sand grains on a grinding wheel or sand paper, scrap iron on a saw blade and scraps splashed and scattered to all parts of a working place, so that the office environment of workers is affected, and separation and recovery of scraps are not facilitated.

Disclosure of utility model

The technical problems to be solved by the utility model are as follows: in order to overcome the defects that scraps are scattered to the positions of a working place in the prior art, the office environment of workers is affected, and separation and recovery of scraps are not facilitated, the utility model provides saw blade sharpening equipment.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a saw blade sharpening equipment, includes the frame, be equipped with the multiunit conveying roller in the frame, the multiunit conveying roller mutually support and form the conveying channel who is used for carrying the saw blade, be equipped with the sharpening district that polishes on the conveying channel, sharpening district cover that polishes is equipped with the dust cover, the dust cover both sides are equipped with the exit of being convenient for the saw blade to pass through, be equipped with the emery wheel that is used for polishing the saw blade in the dust cover, the dust cover lower extreme transversely is equipped with strong magnetic path, strong magnetic path upper end covers has soft interlayer, strong magnetic path below is equipped with first collecting box and second collecting box, be equipped with on the strong magnetic path and be used for driving strong magnetic path upset 90 and the upset removal subassembly that removes between first collecting box and second collecting box.

The multiple groups of conveying rollers convey the saw blade, so that the saw blade is kept in a straight state, and the grinding wheel is used for polishing saw teeth of the saw blade; because sand grains and scrap iron can be generated when the grinding wheel is used for grinding, the grinding sharpening area is covered by the dust cover, so that the sand grains and the scrap iron can be prevented from splashing, and the sand grains and the scrap iron fall on the soft interlayer of the strong magnetic block; at intervals, the strong magnetic blocks are moved to the position above the first collecting box through the overturning and moving assembly, and are overturned for 90 degrees and arranged along the vertical direction, so that sand grains which are not attracted by the strong magnetic blocks fall into the first collecting box; and then the vertically arranged strong magnetic blocks are moved to the upper part of the second collecting box through the overturning and moving assembly, the soft interlayer on the strong magnetic blocks is uncovered, scrap iron arranged on the soft interlayer is forced to be far away from the strong magnetic blocks, and the scrap iron loses magnetic attraction and falls into the second collecting box. The soft interlayer plays a role in separating scrap iron from the strong magnetic block rapidly, and prevents the scrap iron from falling on the strong magnetic block and being difficult to clean.

Further, upset remove the subassembly including two backup pads that set up relatively, two the backup pad is located strong magnetic path both sides respectively, be equipped with the spout in the backup pad, spout one end is equipped with the opening, strong magnetic path both ends be equipped with spout complex slide bar.

When the sliding rods at the two ends of the strong magnetic block are arranged in the sliding grooves, the strong magnetic block is horizontally arranged below the dust cover; when the sliding rod close to one side of the opening of the sliding groove slides out of the sliding groove, the strong magnetic block can rotate by taking the sliding rod arranged in the sliding groove as a rotation center, and can be turned over by 90 degrees under the influence of gravity and arranged along the vertical direction; in order to enable sand grains to fall into the first collecting box, the strong magnetic blocks can be moved to the position above the first collecting box and then turned over; in order to enable the scrap iron to fall into the second collecting box, the vertically arranged strong magnetic blocks can be directly moved to the upper portion of the second collecting box, and the soft interlayer on the strong magnetic blocks is torn off, so that the scrap iron falls into the second collecting box.

Further, the first collecting box is arranged below one side, close to the opening, of the sliding groove, and the second collecting box is arranged below one side, far away from the opening, of the sliding groove.

Further, the strong magnetic block is provided with a handle for pulling the strong magnetic block to enable the strong magnetic block to slide in the sliding groove.

Further, in order to lay soft interlayer flat on strong magnetic path, soft interlayer one end with strong magnetic path lateral wall fixed connection, the other end is equipped with the magnetic stripe that can be adsorbed by strong magnetic path.

The soft interlayer itself does not have viscidity or magnetism, in order to prevent that soft interlayer warpage, leads to the iron fillings not to be attracted by strong magnetic path to influence the categorised recovery of piece, through soft interlayer one end and strong magnetic path fixed connection, the other end utilizes the magnetic stripe to make soft interlayer tip and strong magnetic path fixed, thereby makes soft interlayer tiling on strong magnetic path.

Further, a telescopic motor or an air cylinder for driving the grinding wheel to be close to or far away from the saw blade is arranged on the grinding wheel.

The beneficial effects of the utility model are as follows: according to the saw blade sharpening equipment provided by the utility model, all scraps are blocked by the dust cover and fall on the strong magnetic blocks, the non-magnetic sand grains fall into the first collecting box through the overturning of the strong magnetic blocks, and the magnetic scraps fall into the second collecting box through the glass of the soft interlayer, so that the cleanness and the neatness of the office environment of workers are ensured, and the scraps are effectively classified and recovered.

Drawings

The utility model is further described below with reference to the drawings and examples.

FIG. 1 is a schematic view of a preferred embodiment of the present utility model;

FIG. 2 is a schematic diagram of the structure of the strong magnet and the support plate;

FIG. 3 is a schematic diagram of a structure in which a ferromagnetic piece is mated with a soft spacer.

In the figure: 1. the magnetic disc type magnetic disc cleaning machine comprises a conveying roller, 2, a dust cover, 3, a grinding wheel, 4, an air cylinder, 5, a strong magnetic block, 6, a soft interlayer, 7, a first collecting box, 8, a second collecting box, 9, a supporting plate, 901, a sliding chute, 902, an opening, 10, a sliding rod, 11, a handle, 12, a magnetic strip, 13 and a saw blade.

Detailed Description

The present utility model will now be described in detail with reference to the accompanying drawings. The figure is a simplified schematic diagram illustrating the basic structure of the utility model only by way of illustration, and therefore it shows only the constitution related to the utility model.

As shown in fig. 1-3, the saw blade sharpening device comprises a frame, a plurality of groups of conveying rollers 1 are arranged on the frame, a plurality of groups of conveying rollers 1 are matched with each other to form a conveying channel for conveying saw blades 13, sharpening areas are arranged on the conveying channel, dust covers 2 are covered on the sharpening areas, inlet and outlet openings for facilitating the passing of the saw blades 13 are arranged on two sides of the dust covers 2, grinding wheels 3 for sharpening the saw blades 13 are arranged in the dust covers 2, air cylinders 4 for driving the grinding wheels 3 to be close to or far away from the saw blades 13 are arranged on the grinding wheels 3, and the shells of the air cylinders 4 are fixedly connected with the inner wall surfaces of the dust covers 2.

The dust cover is characterized in that a strong magnetic block 5 is transversely arranged at the lower end of the dust cover 2, a soft interlayer 6 is covered at the upper end of the strong magnetic block 5, a first collecting box 7 and a second collecting box 8 are arranged below the strong magnetic block 5, and a turnover moving assembly used for driving the strong magnetic block 5 to turn over by 90 degrees and move between the first collecting box 7 and the second collecting box 8 is arranged on the strong magnetic block 5.

The overturning and moving assembly comprises two supporting plates 9 which are oppositely arranged, the two supporting plates 9 are respectively arranged on two sides of the strong magnetic block 5, a chute 901 is arranged on each supporting plate 9, an opening 902 is formed in one end of each chute 901, and sliding rods 10 matched with the corresponding chute 901 are arranged at two ends of the strong magnetic block 5.

The first collecting box 7 is arranged below one side of the chute 901 close to the opening 902, and the second collecting box 8 is arranged below one side of the chute 901 away from the opening 902.

The strong magnetic block 5 is provided with a handle 11 for pulling the strong magnetic block 5 to slide in the chute 901.

One end of the soft interlayer 6 is fixedly connected with the side wall of the strong magnetic block 5, and the other end of the soft interlayer is provided with a magnetic stripe 12 which can be adsorbed by the strong magnetic block 5.

The working process comprises the following steps:

When the slide bars 10 at the two ends of the strong magnetic block 5 are arranged in the slide groove 901, the strong magnetic block 5 is horizontally arranged below the dust cover 2, and sand grains and scrap iron generated by grinding of the grinding wheel 3 fall on the soft interlayer 6; when the scraps need to be cleaned, a worker pulls out one end of the strong magnetic block 5 from one side of the opening 902 of the chute 901, the strong magnetic block 5 rotates downwards by taking the sliding rod 10 arranged in the chute 901 as a rotation center, sand grains arranged on the soft interlayer 6 fall into the first collecting box 7, and sand grains adhered with the soft interlayer 6 or the scrap iron are shaken into the first collecting box 7 by beating and shaking and other modes;

After sand grains all fall into the first collecting box 7, the strong magnetic block 5 slides by taking the sliding rod 10 arranged in the sliding groove 901 as a base point, the strong magnetic block 5 slides to the upper part of the second collecting box 8, then one end of the soft interlayer 6 with the magnetic stripe 12 is lifted, the soft interlayer 6 is gradually far away from the strong magnetic block 5, scrap iron arranged on the soft interlayer 6 is forced to be far away from the strong magnetic block 5, the scrap iron loses magnetic attraction and falls into the second collecting box 8, and a small part of scrap iron adhered with the soft interlayer 6 can shake off the scrap iron into the second collecting box 8 in a shaking manner of the soft interlayer 6.

Directions and references (e.g., up, down, left, right, etc.) in this utility model may be used only to aid in the description of features in the drawings. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the claimed subject matter is defined only by the appended claims and equivalents thereof.

While the foregoing is directed to the preferred embodiment of the present utility model, other and further embodiments of the utility model may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims (6)

1. A saw blade sharpening apparatus characterized in that: including the frame, be equipped with multiunit conveying roller (1) in the frame, multiunit conveying roller (1) mutually support and form the conveying channel who is used for carrying saw blade (13), be equipped with on the conveying channel and polish the edging district, it is equipped with dust cover (2) to polish edging district cover, dust cover (2) both sides are equipped with the exit of being convenient for saw blade (13) through, be equipped with in dust cover (2) and be used for grinding emery wheel (3) to saw blade (13), dust cover (2) lower extreme transversely is equipped with strong magnetic path (5), strong magnetic path (5) upper end cover has soft interlayer (6), strong magnetic path (5) below is equipped with first collecting box (7) and second collecting box (8), be equipped with on strong magnetic path (5) and be used for driving strong magnetic path (5) upset 90 and the upset removal subassembly that removes between first collecting box (7) and second collecting box (8).

2. A saw blade sharpening apparatus as recited in claim 1, wherein: the overturning moving assembly comprises two supporting plates (9) which are oppositely arranged, the two supporting plates (9) are respectively arranged on two sides of the strong magnetic block (5), a sliding groove (901) is formed in each supporting plate (9), an opening (902) is formed in one end of each sliding groove (901), and sliding rods (10) matched with the sliding grooves (901) are arranged at two ends of the strong magnetic block (5).

3. A saw blade sharpening apparatus as recited in claim 2, wherein: the first collecting box (7) is arranged below one side, close to the opening (902), of the sliding groove (901), and the second collecting box (8) is arranged below one side, far away from the opening (902), of the sliding groove (901).

4. A saw blade sharpening apparatus as recited in claim 2, wherein: the strong magnetic block (5) is provided with a handle (11) for pulling the strong magnetic block (5) to slide in the chute (901).

5. A saw blade sharpening apparatus as recited in claim 1, wherein: one end of the soft interlayer (6) is fixedly connected with the side wall of the strong magnetic block (5), and the other end of the soft interlayer is provided with a magnetic stripe (12) which can be adsorbed by the strong magnetic block (5).

6. A saw blade sharpening apparatus as recited in claim 1, wherein: the grinding wheel (3) is provided with a telescopic motor or a cylinder (4) for driving the grinding wheel (3) to approach or separate from the saw blade (13).