阅读说明：本技术 一种粉碎刀片 (Crushing blade ) 是由 谢旭平 于 2019-11-13 设计创作，主要内容包括：本发明属于机械加工器械技术领域,尤其涉及一种粉碎刀片。所述粉碎刀片,包括刀片主体和刀片主体一侧面上开设的切割面,该切割面包括多个依次顺序排列的切割组,前述切割组由相邻设置的第一切割刃和第二切割刃组成；间隔设置的第一切割刃形成第一切割群,间隔设置的第二切割刃形成第二切割群；所述第二切割刃相对于第一切割刃向内凹陷设置。本发明的有益效果是,第一切割群相对凸起于切割面,形成的点面打击能快速地将大尺寸高硬度物质裂解为若干尺寸相当或相差不大的小个体。进一步地,将第二切割刃设置为相对更锋利,有利于第二切割群对小颗粒高硬度物质和软质物质进行砍、切的粉碎动作,提高了刀片综合处理不同材质物质的粉碎能力。同时,第二切割群因为相对凹陷设置于切割面而避免了被大尺寸高硬度物质的撞击,进而延长了第二切割刃的使用寿命。(The invention belongs to the technical field of machining instruments, and particularly relates to a crushing blade. The crushing blade comprises a blade main body and a cutting surface arranged on one side surface of the blade main body, wherein the cutting surface comprises a plurality of cutting groups which are sequentially arranged, and each cutting group consists of a first cutting edge and a second cutting edge which are adjacently arranged; the first cutting edges arranged at intervals form a first cutting group, and the second cutting edges arranged at intervals form a second cutting group; the second cutting edge is recessed relative to the first cutting edge. The invention has the advantages that the first cutting group relatively protrudes from the cutting surface, and the formed point-surface striking can rapidly crack large-size high-hardness substances into a plurality of small individuals with equal or comparable sizes. Furthermore, the second cutting edge is relatively sharp, so that the second cutting group can crush small-particle high-hardness substances and soft substances in a chopping and cutting manner, and the crushing capacity of blades for comprehensively treating substances of different materials is improved. Meanwhile, the second cutting group is relatively sunken and arranged on the cutting surface, so that the second cutting group is prevented from being impacted by large-size high-hardness substances, and the service life of the second cutting edge is prolonged.)

1. A crushing blade comprises a blade body and a cutting surface arranged on one side surface of the blade body, wherein the cutting surface comprises a plurality of cutting groups which are sequentially arranged, and each cutting group consists of a first cutting edge and a second cutting edge which are adjacently arranged; the first cutting edges arranged at intervals form a first cutting group, and the second cutting edges arranged at intervals form a second cutting group; the method is characterized in that: the second cutting edge is disposed inwardly recessed relative to the first cutting edge.

2. A disintegrating blade as defined in claim 1, wherein: the number of the first cutting edges is at least one more than that of the second cutting edges.

3. A disintegrating blade as defined in claim 1, wherein: the second cutting edge is sharper relative to the first cutting edge.

4. A crushing blade according to claim 1 or 3, characterized in that: the second cutting edge is configured as a serrated edge.

5. A disintegrating blade as defined in claim 1, wherein: the concave shape of the second cutting edge can be any, such as a square block shape, an arc shape and the like.

6. A crushing blade according to claim 4 or 5, characterized in that: the second cutting edge is provided with at least three concave shapes, and all the saw-tooth edges are uniformly arranged according to the concave cambered surface.

7. The crushing blade according to claim 1, characterized in that: the length of the cutting lines accumulated by the first cutting group does not exceed the length of the cutting lines accumulated by the second cutting group.

8. A disintegrating blade as defined in claim 1, wherein: the shape and size of the first cutting edge constituting the first cutting group and the shape and size of the second cutting edge constituting the second cutting group are arbitrary.

9. A disintegrating blade as defined in claim 1, wherein: the first cutting group and the second cutting group are arranged on the cutting surface and the back surface of the blade at the same time, and forward and reverse bidirectional cutting can be achieved.

10. A disintegrating blade as defined in claim 1, wherein: the first cutting group or the second cutting group is detachably arranged on the blade body.

11. A disintegrating blade as defined in claim 1, wherein: the first cutting edge protrudes out of the top surface or the bottom surface of the blade.

Technical Field

The invention belongs to the technical field of machining instruments, and particularly relates to a crushing blade.

Background

Along with the improvement of living standard of people, the output of garbage is increased day by day, and the problem of garbage recycling treatment is increasingly serious. Currently, the crushing treatment of garbage by crushing blades is the main operation mode of garbage recycling treatment, especially in the field of food garbage treatment.

Meanwhile, the crushing blades are also widely used in home appliances, such as juicers, meat grinders, cooking machines, etc., for cutting and crushing food.

However, the current crushing blades have a single structure and are mostly flat linear blades or serrated blades with connected blades. Since the hardness, texture, and the like of the object to be treated are very different, the crushing blade is easily subjected to high-strength impact when crushing a large-size and high-hardness substance, and thus problems such as edge curling and chipping easily occur.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a crushing blade so as to improve the capability of the blade for treating large-size and high-hardness substances and prolong the service life of the blade.

In order to achieve the purpose, the invention provides a crushing blade, which comprises a blade main body and a cutting surface arranged on one side surface of the blade main body, wherein the cutting surface comprises a plurality of cutting groups which are sequentially arranged in sequence, and each cutting group consists of a first cutting edge and a second cutting edge which are adjacently arranged; the first cutting edges arranged at intervals form a first cutting group, and the second cutting edges arranged at intervals form a second cutting group; the method is characterized in that: the second cutting edge is disposed inwardly recessed relative to the first cutting edge.

Optionally, the number of the first cutting edges is at least one more than the number of the second cutting edges.

Optionally, the second cutting edge is sharper relative to the first cutting edge.

Optionally, the second cutting edge is a serrated edge.

Alternatively, the concave shape of the second cutting edge may be any, such as a square block shape, an arc shape, and the like.

Optionally, the concave shape of the second cutting edge 221 is an arc, the second cutting edge 221 is a serrated edge, the number of the serrated edges is at least three, and all the serrated edges are uniformly arranged along the concave arc surface.

Optionally, the first cutting edge is a blunt edge, such as a non-sharpened or ground edge.

Optionally, the accumulated cutting line length of the first cutting group does not exceed the accumulated cutting line length of the second cutting group. The accumulated cutting line length of the first cutting group is the sum of the cutting line lengths of all the first cutting edges of the first cutting group; the accumulated cutting line length of the second cutting group is the sum of the cutting line lengths of all the second cutting edges of the second cutting group; the first cutting edge cutting line is the arc length of the surface of the first cutting edge participating in cutting; the second cutting edge cutting line is the arc length of the surface of the second cutting edge participating in cutting.

Alternatively, the first cutting edges constituting the first cutting group may have any shape and size.

Alternatively, the second cutting edges constituting the second cutting group may have any shape and size.

Optionally, the first cutting group and the second cutting group are arranged on the cutting surface and the back surface of the blade at the same time, so that forward and reverse bidirectional cutting can be realized.

Optionally, the first cutting group or the second cutting group is detachably mounted on the blade body. The detachable installation can facilitate the change and the maintenance of the cutter.

Optionally, the first cutting edge protrudes from the top surface or the bottom surface of the blade body. The larger the size of the first cutting edge, the more pronounced the hammering effect on the hard treatment object. Accordingly, the first cutting edge may be sized to be larger than the thickness of the blade body. Specifically, the thickness of the first cutting edge may be increased, the shape of the first cutting edge may be changed to a raised cross section such as a triangle or a square, or the shape of the first cutting edge may be changed while the thickness of the first cutting edge is increased. It will be appreciated that the projection of the first cutting edge from the blade body is convenient for use where either the first cutting group or the second cutting group is removably mounted to the blade body.

The invention has the beneficial effects that: because the second cutting edge is concavely arranged relative to the first cutting edge, the first cutting edge is discontinuously protruded on the cutting surface, and a first cutting group protruded on the cutting surface is formed. When the blade is used for crushing, the first raised cutting group strikes the object to be treated with clustered point surfaces, the point surfaces have a hammering effect, and the high-hardness substances are easily split into a plurality of small individuals with equal or slightly different sizes by using the impact force. Is further comminuted by the second cutting edge when the aforesaid small individual size is small enough to enter the recess in which the second cutting edge is provided. Meanwhile, after the size of the object to be processed is reduced, the quality is correspondingly reduced, the impact force of the cutting edge on the object to be processed is reduced, and the hammering effect is reduced. Further, set up the second cutting edge to be relatively sharper, make it cut, the wire-electrode cutting who cuts hard rubbish, polish gradually easily and cut hard rubbish fast, make the whole size of hard rubbish cut more little more, improved the whole crushing efficiency of blade. Meanwhile, the second cutting edge is concavely arranged on the cutting surface, so that the second cutting edge cannot be impacted by large-size objects to be processed, quality problems such as edge rolling, opening cracking and the like caused by the relatively sharp second cutting edge can be effectively avoided, and the service life of the blade is prolonged. In addition, the action of cutting, cutting that the second cutting edge that sharp relatively carries on more is favorable to handling flexible material such as fruit vegetables, rubber and zongzi leaf, has promoted the blade and has synthesized the ability of handling stereoplasm and soft material.

Drawings

FIG. 1 is a perspective view of a comminuting blade provided in accordance with an embodiment of the present invention;

FIG. 2 is another perspective view of a comminuting blade in accordance with embodiments of the present invention;

FIG. 3 is a top plan view of a comminuting blade provided in accordance with another embodiment of the present invention;

FIG. 4 is a perspective view of a comminuting blade in accordance with another embodiment of the present invention;

FIG. 5 is a perspective view of a comminuting blade in accordance with yet another embodiment of the present invention;

FIG. 6 is a perspective view of a comminuting blade in accordance with still another embodiment of the present invention;

the correspondence between reference numbers and names in the drawings is as follows:

1. a blade body; 2. cutting the group; 21. a first cutting group; 211. A first cutting edge; 2110. a first cutting edge cutting line; 22. a second cutting group; 221. a second cutting edge; 2210. a second cutting edge cutting line; 2211. a serrated edge; 2212. a screw; 3. cutting the surface; 4. a back side; 5. a top surface; 6. a bottom surface;

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 2, the present invention provides a crushing blade, including a blade body 1 and a cutting surface 3 formed on one side of the blade body, wherein the cutting surface 3 is a crushing operation surface of the crushing blade for crushing food or garbage; the structure of the cutting surface 3 is as follows: the cutting device comprises a first cutting edge 211 and a second cutting edge 221 which are adjacently arranged, wherein the first cutting edge 211 and the second cutting edge 221 form a cutting group 2, and a plurality of cutting groups 2 are sequentially arranged on a cutting surface 3; the second cutting edge 221 is recessed relative to the first cutting edge 211, and the second cutting edge 221 has a cutting edge and is sharper relative to the first cutting edge 211; the first cutting edges 211 arranged at intervals form the first cutting groups 21, and the second cutting edges 221 arranged at intervals form the second cutting groups 22.

In the invention, the first cutting group 21 which is relatively convex strikes the point surfaces which form clusters on the object to be processed, the point surfaces strike the object to be processed, the point surfaces have a hammering effect, and the high-hardness substance is easy to be cracked into a plurality of small individuals with equal or not different sizes by using the striking force. Is further comminuted by the second cutting edge when the aforesaid small individual size is small enough to enter the recess in which the second cutting edge is provided. So set up, first cutting edge 211 can realize the hammering effect, and second cutting edge 221 only is responsible for handling the pending thing that is less than sunken size, and two sets of cutting edges have carried out the cutting and have divided the labour, have improved the crushing ability of smashing the blade.

Because the second cutting edge 221 is set to be relatively sharper, the hard garbage is more easily and rapidly and gradually ground and cut by chopping and cutting, the overall size of the hard garbage is smaller and smaller, and the overall crushing efficiency of the blade is improved. Meanwhile, the second cutting edge 221 is concavely arranged on the cutting surface 3, so that the second cutting edge is not impacted by large-size objects to be processed, quality problems such as edge rolling, opening cracking and the like caused by the relatively sharp second cutting edge 221 can be effectively avoided, and the service life of the blade is prolonged. In addition, the chopping and cutting actions of the relatively sharp second cutting edge 221 are more beneficial to processing flexible substances such as fruits and vegetables, rubber, reed leaves and the like, and the capability of comprehensively processing hard and soft substances by the blade is improved.

Optionally, the number of the first cutting edges 211 is at least one more than the number of the second cutting edges 221. So set up, can guarantee that all second cutting edges 211 all cave in relatively and set up with cutting surface 3, be favorable to guaranteeing that all second cutting edges 221 are handled the material of smaller size specially, avoided the impact of big size high rigidity material to second cutting edges 221, be particularly favorable to protecting the second cutting edges 221 that the sharpness is higher relatively.

Optionally, the first cutting edge 211 is a non-sharp or dull edge. The non-cutting edge processing means that the blade is not provided with a cutting edge, so that the thickness of the cutting edge of the blade is consistent with that of the blade body; by dulling is meant the performance of operations such as grinding, rounding, etc. of the edge of the blade, which essentially reduces the sharpness of the edge and increases the thickness of the edge. The non-cutting edge or the passivation treatment can further improve the capability of the first cutting edge 211 to respond to the impact of the high-hardness object to be processed, and avoid the quality problems of edge rolling, port collapse and the like of the cutting edge. Simultaneously, after no cutting edge or passivation, the cutting surface area increase that first cutting edge 211 participated in crushing operation can produce stronger hammering effect to the high rigidity material, can make it split into a plurality of more tiny granules fast, and these tiny granules can get into and be provided with in the sunken of second cutting edge 221 and by the quick cutting of second cutting edge 221 smash, have promoted crushing efficiency of crushing blade on the whole.

Optionally, the length of the cutting line accumulated by the first cutting group 21 does not exceed the length of the cutting line accumulated by the second cutting group 22. The accumulated length of the cutting lines of the first cutting group 21 is the sum of the lengths of the cutting lines 2110 of all the first cutting edges 211; the accumulated cutting line length of the second cutting group 22 is the sum of the cutting line lengths 2210 of all the second cutting edges 221; the first cutting edge cutting line 2110 is an arc length of a cutting surface of the first cutting edge 211 participating in the crushing operation; the cutting line 2210 of the second cutting edge 221 is the arc length of the cutting surface of the second cutting edge 221 participating in the pulverizing operation. The longer the accumulated cutting line length of the second cutting group 22, the longer the cutting surface thereof participating in the crushing work, and the stronger the ability thereof to crush small particulate matter. The longer accumulated cutting lines of the second cutting group 22 are for the crushing blades to have a stronger ability to handle small particle materials, and since the larger number of particles is larger after the large size materials are crushed, the crushing blades are required to have a stronger fine crushing ability accordingly, thereby improving the crushing ability of the whole crushing blades as a whole.

Referring to fig. 3 and 4, in one embodiment, the concave shape of the second cutting edge 221 is an arc, the second cutting edge 221 is a serrated edge 2211, the number of the serrated edges 2211 is at least three, and all the serrated edges 2211 are uniformly arranged along the concave arc surface. The arc-shaped recess is beneficial to prolonging the arc length of the recessed crushing operation surface, so that more sawtooth edges 2211 can be arranged, and the cutting efficiency is improved. In addition, the serrated edge 2211 has a biting function and a better crushing effect than a straight cutting edge.

Alternatively, the plurality of serrated edges 2211 may have any tooth shape and size.

Optionally, the cutting edge of the serrated edge 2211 is sharpened by grinding, so that the thickness of the cutting edge is reduced, the sharpness of the cutting edge is improved, and the cutting and crushing efficiency of the cutting edge is improved.

Optionally, the first cutting edge 211 is an arc-shaped non-sharp edge.

Referring to fig. 5, in one embodiment, the first cutting edge 211 protrudes from the top surface 5 and the bottom surface 6 of the blade body 1, which is beneficial to increase the cutting surface area of the first cutting edge 211, so that the hammering capability is stronger. Meanwhile, the strength of the first cutting edge 211 is also enhanced, and the problems of blade breakage, cracking, blade rolling and the like are not easy to occur in hammering.

Referring to fig. 6, in one embodiment, the second cutting edge 221 is a serrated edge, and is detachably mounted on the blade body 1 by a screw 2212; the first cutting edge 211 is provided as a sharp-edge-free edge turned up toward the blade top surface 5, and the turned-up cross-sectional shape thereof is square. The first cutting edge 211 which is turned up in a square shape is large in cross-sectional area and strong in hammering capacity, and the second cutting edge 221 which is detachably mounted is convenient for replacement of the worn cutting edge.

The crushing blade provided by the invention can be applied to small household appliances such as juice makers, food processors, dry grinders and the like, and can also be applied to garbage crushing processors.

It is noted that relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

It should be understood that the above description is only exemplary of the present invention, and is not intended to limit the present invention, and any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.