CN218870116U - Chopping board component - Google Patents

Abstract

The utility model provides a chopping block component, which comprises a chopping block and a sharpener component, wherein the sharpener component comprises a sharpening piece and a connecting piece fixedly connected with one end of the sharpening piece, and the connecting piece is detachably connected with the chopping block and can rotate relative to the chopping block; be provided with the limit structure of mutually supporting between connecting piece and the chopping block, when sharpener subassembly was rotatory to predetermined angle relatively the chopping block, limit structure can carry on spacingly to the position of connecting piece. Can use comparatively conveniently and accomodate the whetting tool piece, and convenient to detach washs, has improved the convenience in use.

Description

Chopping board component

Technical Field

The utility model relates to a kitchen utensil technical field, more specifically relates to a chopping block subassembly.

Background

In daily life, in order to strengthen the functionality of the chopping block, a plurality of products can set sharpeners such as knife stones or knife sharpening rods on the chopping block, generally, the mode of using adhesion fixes the sharpeners on the chopping block, but the chopping block problem can be cut easily, and the chopping block is not easy to clean, the problem of insecurity can also be caused, and the chopping block is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a chopping block subassembly, sharpener subassembly and chopping block can be dismantled the connection to can hide and accomodate, the dismouting of being convenient for is washd, and firm in connection is difficult for dropping, and can adapt to different use scenes.

For the purpose as described above, the present disclosure provides the following technical solutions:

according to an aspect of the utility model, the chopping block subassembly includes: a chopping board; the knife sharpener component comprises a knife sharpener and a connecting piece fixedly connected to one end of the knife sharpener, and the connecting piece is detachably connected with the chopping board and can rotate relative to the chopping board; the connecting piece with be provided with the limit structure of mutually supporting between the chopping block, when the sharpener subassembly is rotatory to predetermined angle relatively the chopping block, limit structure can be to the connecting piece is spacing. Therefore, the knife sharpener can be rotated to a preset position to be used at a proper position, and the use convenience is improved. The connection can be dismantled to sharpener and connecting piece to wash after dismantling, can also dismantle the back with the sharpener and use in addition, provide sharpener's use flexibility. A sharpener assembly.

According to an aspect of the utility model, the connecting piece with the one end that the sharpener is relative is provided with hook portion, the lateral part of chopping block is provided with accomodates the groove and is located accomodate the rotation axis of the one end in groove, hook portion can hook the rotation axis makes the sharpener subassembly can center on the rotation axis is rotatory to the position of accomodating, thereby accomodate in accomodating the groove, can also center on the rotation axis is to outer rotation to the open position. The matching of the hook part and the rotating shaft is utilized, so that the knife sharpener component can rotate relative to the chopping board, and can rotate and move at the using position and the storage position, thereby being convenient for use.

According to an aspect of the utility model, limit structure is including setting up the chopping block with spacing arch on one of the connecting piece and setting up the chopping block with spacing jack on another one of the connecting piece, spacing arch can block in the spacing jack, thereby will sharpener subassembly is spacing to be in accomodate position and at least one open position. The matching of the limiting bulges and the limiting jacks is utilized to limit the knife sharpener assembly at different positions.

According to the utility model discloses an aspect, spacing arch sets up on the connecting piece, spacing jack is a plurality of, centers on the rotation axis is arranged spacing arch centers on the rotatory route of rotation axis. The plurality of limiting jacks can limit the knife sharpener component at a plurality of using positions so as to adapt to different using scenes.

According to an aspect of the utility model, the rotation axis perpendicular to the operating surface of chopping block sets up the lateral part of chopping block, the lateral part of chopping block still be provided with accomodate the connecting piece insertion groove of groove intercommunication, partly follow of rotation axis expose in the connecting piece insertion groove. The hook part can be hooked on the exposed part of the rotating shaft in the insertion groove so as to realize the rotatable connection of the sharpener component and the chopping board.

According to an aspect of the utility model, spacing arch form in the upper surface and/or the lower surface of the one end of connecting piece, spacing jack form in the perpendicular to of connecting piece insertion groove on the ascending last lateral wall of chopping block operation face side and/or the lateral wall down. The knife sharpener component can be limited by the matching of the limiting bulges and the limiting jacks.

According to the utility model discloses an aspect, be provided with the rotation axis jack on the chopping block, the perpendicular to can be followed to the rotation axis jack the chopping block operation face direction passes the middle part of connecting piece insertion groove, the rotation axis set up with interference in the rotation axis jack. The rotation axis and the rotation axis jack are in interference fit, so that the rotation axis can be prevented from rotating and moving up and down.

According to an aspect of the utility model, the chopping block subassembly still including set up in with the handle portion of the relative and/or adjacent one side edge of connecting piece insertion groove, one side edge indent forms handle portion holding tank, the handle portion set up in the handle portion holding tank. The handle part can be used for taking and placing the chopping block and hanging the chopping block, and is convenient to store.

According to the utility model discloses an aspect, the both ends of handle portion are connected to through a pair of screwed connection on the chopping block, the both ends of handle portion are provided with relatively handle portion middle part symmetric distribution's at least two pairs of spacing holes, the unilateral is adjacent be provided with the intercommunication recess between the spacing hole in order to communicate each other, and is a pair of the screw sets up respectively in a pair of in the spacing hole, when carrying and drawing during the handle portion, the screw can be relative the edge of intercommunication recess motion to the distal end a pair of in the spacing hole. When the handle part is hung, the handle part can be bent, so that the hanging is convenient; when using the chopping block, the handle portion can be hidden in the handle portion holding groove, is convenient for accomodate.

According to the utility model discloses an aspect, the chopping block includes chopping block main part and cladding the rubber coating portion of chopping block main part periphery, accomodate the groove with the rotation axis all sets up in the rubber coating portion. The rubber coating part can protect the chopping board main body and is not easy to damage.

Drawings

The above and/or other objects and advantages of the present invention will become more apparent from the following description of the embodiments taken in conjunction with the accompanying drawings, in which:

figure 1 is a perspective view of a sharpener assembly of a cutting board assembly in a stowed position according to an exemplary embodiment of the present invention.

Figure 2 is a perspective view of a sharpener assembly of an anvil assembly in a first open position according to an exemplary embodiment of the present invention.

Figure 3 is a perspective view of a sharpener assembly of an anvil assembly in a second open position according to an exemplary embodiment of the present invention.

Fig. 4 is a partially enlarged view of the connection between the sharpener assembly and the anvil.

FIG. 5 is an enlarged view of a portion of FIG. 6 with the sharpener assembly removed.

Figure 6 is a block diagram of a connecting member of an anvil assembly according to an exemplary embodiment of the present invention.

Figure 7 is a longitudinal cross-sectional view of an anvil assembly according to an exemplary embodiment of the present invention.

Fig. 8 is a partially enlarged view of the region I of fig. 7.

Figure 9 is a perspective view of an anvil assembly according to an exemplary embodiment of the present invention with the handle in a stowed position.

Fig. 10 is a perspective view of the handle portion of the anvil assembly according to the exemplary embodiment of the present invention in a lifted state.

Figure 11 is a handle portion configuration view of an anvil assembly according to an exemplary embodiment of the present invention.

Description of reference numerals:

100. a chopping board; 110. a chopping board main body; 200. a knife sharpener; 300. a connecting member; 310. a limiting bulge; 320. limiting the jacks; 330. a hook portion; 340. a connecting cylinder; 400. a glue coating part; 410. a connecting piece insertion groove; 420. a rotary shaft jack; 500. a rotating shaft; 600. a sealing plug; 700. a handle part; 710. a screw; 730. a limiting hole; 740. a handle part accommodating groove; 750. the groove is communicated; 800. a receiving groove; 810. and a limiting bulge.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. However, it should not be understood that the embodiments of the present invention are limited to the embodiments set forth herein. The same reference numerals in the drawings denote the same or similar structures, and thus their detailed description will be omitted.

The utility model provides a chopping block subassembly, the following will refer to fig. 1 to 11 the detailed description according to the utility model discloses a concrete structure of chopping block subassembly of embodiment. In the drawings, like reference numerals refer to like parts throughout.

Figure 1 is a perspective view of a sharpener assembly of a cutting board assembly in a stowed position according to an exemplary embodiment of the present invention. Figure 2 is a perspective block diagram of a sharpener assembly of an anvil assembly in a first open position according to an exemplary embodiment of the present invention. Figure 3 is a perspective view of a sharpener assembly of an anvil assembly in a second open position according to an exemplary embodiment of the present invention.

As shown in fig. 1 to 3, the utility model provides a cutting board assembly, the cutting board assembly includes: the device comprises an anvil 100 and a sharpener assembly, wherein the sharpener assembly comprises a sharpener 200 and a connecting piece 300 fixedly connected to one end of the sharpener 200, and the connecting piece 300 is detachably connected with the anvil 100 and can rotate relative to the anvil 100; be provided with the limit structure of mutually supporting between connecting piece 300 and the chopping block 100, when sharpener subassembly rotated to predetermined angle relative chopping block 100, limit structure can be spacing connecting piece 300 in predetermined position. When the knife sharpener 200 is used, the knife sharpener 200 can be rotated to a predetermined position to be used at a proper position, improving the convenience of use. The sharpener 200 and the connector 300 can be detachably connected, so that the sharpener can be cleaned after being detached, and the sharpener assembly can be detached for use, thereby providing the flexibility of the sharpener assembly.

By way of example, the sharpener 200 may be made of ceramic material or tungsten steel, and may be formed in a strip shape or a plate shape, but not limited thereto. To attach the sharpener 200 to the anvil 100, an attachment 300 is fixedly attached to one end of the sharpener 200. The connector 300 may be made of a material different from that of the sharpener 200, for example, a plastic material or a metal material, to facilitate shape processing and save manufacturing costs. Taking the shape of the knife sharpener 200 as an example of a long strip shape, one end of the connecting member 300 connected to the knife sharpener 200 may be a cylindrical connecting cylinder 340 corresponding to the shape of the knife sharpener 200, and one end of the knife sharpener 200 may be sleeved in the connecting cylinder 340, so that the two are fixedly connected together.

As shown in fig. 1 to 8, an end of the connecting member 300 opposite to the sharpener 200 is provided with a hook 330, a side of the anvil plate 100 is provided with a receiving groove 800 and a rotation shaft 500 at one end of the receiving groove 800, and the hook 330 can hook the rotation shaft 500 so that the sharpener assembly can rotate about the rotation shaft 500 to a receiving position, thereby being received in the receiving groove 800, and can also rotate outwardly about the rotation shaft 500 to an open position. The shape of the receiving groove 800 may match the shape of the sharpener 200 to be able to receive the sharpener; when the sharpener 200 is in use, the sharpener assembly may be rotated to the open position. The hook 330 may be formed in a ring shape having an opening, the inner diameter of the hook 330 may be matched with the diameter of the rotation shaft 500, the size of the opening is smaller than the diameter of the rotation shaft 500, and the hook 330 has certain elasticity, so that it can be engaged with the rotation shaft 500 by being deformed and increased through the opening, and is engaged with the rotation shaft 500 after being restored to be elastically deformed, and thus the connection member 300 can be prevented from being disengaged from the rotation shaft 500. In addition, a limiting protrusion 810 may be further disposed at an edge of the notch of the accommodating groove 800, and when the sharpener rotates into the accommodating groove 800, the limiting protrusion 810 may have a limiting effect on the sharpener 200, preventing the sharpener 200 from easily sliding out of the accommodating groove 800.

As shown in fig. 4-6, the retention structure includes a retention protrusion 310 disposed on one of the anvil 100 and the connector 300 and a retention receptacle 320 disposed on the other of the anvil 100 and the connector 300, the retention protrusion 310 being capable of snapping into the retention receptacle 320 to retain the sharpener assembly in the stowed position and the at least one open position. As an example, the top of the limiting protrusion 310 may be a circular protrusion structure, the shape of the limiting insertion hole 320 matches the shape of the top of the limiting protrusion 310, and the circular structure may facilitate the limiting protrusion 310 to enter the limiting insertion hole 320 and to be separated from the limiting insertion hole 320.

To avoid the sharpener assembly occupying the usable area of the anvil 100, the sharpener assembly is located on the side of the anvil 100, illustratively on one end of the length of the anvil 100. In other words, the axis of rotation 500 is perpendicular to the operative surface of the anvil 100, and the sharpener assembly can rotate in a horizontal plane with the anvil 100 lying flat. Hook 330 is flat in shape, having an upper surface and a lower surface parallel to the operative surface of anvil 100. As an example, the limit protrusions 310 are formed on the upper and/or lower surface of the connecting member 300 opposite to the anvil 100, and the limit insertion holes 320 are formed on the upper and/or lower sidewalls of the connecting member insertion groove 410. As shown in FIGS. 4 to 8, limit protrusions 310 are formed on the upper and lower surfaces of one end of the link 300, and limit insertion holes 320 are formed on the upper and lower sidewalls of the link insertion groove 410 in a direction perpendicular to the operating surface of the anvil 100.

As an example, the limiting protrusion 310 is disposed on the connecting member 300, the limiting insertion holes 320 are plural and are arranged on a path of the limiting protrusion 310 rotating around the rotating shaft 500, so that the sharpener assembly can be rotated and limited to different opening positions to adapt to different use scenes, and the convenience in use is further improved. When the knife sharpener 200 is used, the end of the knife sharpener 200 can be pulled by hand to rotationally pull the knife sharpener 200 out of the accommodating groove 800, the knife sharpener 200 can be rotated by different angles to adapt to different use scenes, the limiting protrusion 310 and the limiting insertion hole 320 are matched to limit the knife sharpener, and the rotation angle can be 90 degrees, 120 degrees, 150 degrees, 180 degrees or other angles. When the sharpener 200 is used, the sharpener 200 may be pushed into the receiving groove 800.

As shown in fig. 1 to 10, the rotation shaft 500 is perpendicular to the operation surface of the anvil 100 and is provided at a side portion of the anvil 100, and a connector insertion groove 410 communicating with the receiving groove 800 is further provided at the side portion of the anvil 100, and a portion of the rotation shaft 500 is exposed from the connector insertion groove 410. The hook part 330 is inserted into the connector insertion groove 410 and can hook the exposed portion of the rotation shaft 500. As an example, the link insertion groove 410 may be located at a rounded position of the anvil 100, and the notch shape of the link insertion groove 410 may be a sector shape, and the link 300 may be rotated in a sector area to have a large rotation range. The rotation shaft 500 may be positioned at the middle of the connector insertion groove 410 so that the connector insertion groove 410 can receive the hook portion 330 to prevent the connector insertion groove 410 from interfering with the rotation of the connector 300.

Specifically, a rotary shaft insertion hole 420 is formed in the anvil 100, the rotary shaft insertion hole 420 can penetrate through the connector insertion groove 410 in a direction perpendicular to the operation surface of the anvil 100, and the rotary shaft 500 is disposed in the rotary shaft insertion hole 420 in an interference manner. The interference fit prevents the rotation shaft 500 from rotating and slipping out of the rotation shaft insertion hole 420. The length of the rotation shaft 500 may be identical to the depth of the rotation shaft insertion hole 420, and as shown in fig. 8, the rotation shaft insertion hole 420 may be formed as a blind hole, the length of the rotation shaft 500 is greater than the height of the connector insertion groove 410 but less than the depth of the rotation shaft insertion hole 420, and a sealing plug 600 may be provided at the mouth of the rotation shaft insertion hole 420 to close the rotation shaft insertion hole 420.

In order to conveniently receive the anvil assembly, as shown in fig. 9, 10 and 11, the anvil assembly further includes a handle portion 700 disposed at a side edge opposite and/or adjacent to the connector insertion groove 410, wherein a side edge is recessed to form a handle receiving groove 740, and the handle portion 700 is disposed in the handle receiving groove 740. The handle portion 700 is attached to the anvil 100 at both ends by a pair of screws 710. At least two pairs of limiting holes 730 are symmetrically distributed in the middle of the handle part 700 relative to the two ends of the handle part 700, a communicating groove 750 is formed between the adjacent limiting holes 730 on one side to communicate with each other, the screws 710 are located in the limiting holes 730, and the two limiting holes 730 which are communicated with each other can be switched. When the handle portion 700 is pulled, the screws 710 at both ends of the handle portion 700 can relatively move along the communication groove 750 to the pair of limiting holes 730 at the distal end. When the handle portion 700 is inserted into the handle portion receiving groove 740, the screws 710 at both ends of the handle portion can be located in two limiting holes 730 closer to the middle of the handle portion.

Handle portion 700 can be soft silica gel material, certain deformability has, screw 710 can install handle portion 700 in handle portion holding tank 740, take the chopping block subassembly as an example, when using the chopping block subassembly, screw 710 can be arranged in a pair of spacing hole 730 that the interval is less, handle portion 700 can keep flat in handle portion holding tank 740, when hanging the chopping block subassembly, because the action of gravity of chopping block subassembly, handle portion 700 can take place crooked, screw 710 can be relative through intercommunication recess 750, get into a pair of spacing hole 730 that the interval is far away. Spacing hole 730 quantity can set up to two pairs, and the thickness direction that chopping block 100 can be followed at the middle part of handle portion holding tank 740 extends, conveniently hangs handle portion 700.

In order to prevent the screw 710 from being easily separated from the handle portion 700, an end of the screw 710 remote from the handle portion receiving groove 740 extends in a direction perpendicular to the communication groove 750. The end of the screw 710 may have a long bar shape and a width greater than that of the communication groove 750.

As shown in fig. 1 to 8, the anvil 100 includes an anvil body 110 and a rubber coating 400 coated on the outer circumference of the anvil body 110, and a receiving groove 800 and a rotation shaft 500 are provided in the rubber coating 400. The rubber-coated part 400 can be made of plastic material, the chopping board main body 110 can be made of wood or plastic or other materials, the chopping board 100 of the present invention can also include only the chopping board main body 110, and at this time, the chopping board main body 110 can be made of plastic structure. The edge of the glue coating part 400 on the operation surface is provided with a water guide groove to prevent water stain on the operation surface from flowing outwards.

To sum up, the utility model provides a chopping block subassembly, including chopping block 100 and sharpener subassembly, the sharpener subassembly can be rotatory relative chopping block 100, is provided with limit structure on chopping block 100 and sharpener subassembly, when using the sharpener subassembly, can pull out sharpener subassembly rotatory ground from accomodating groove 800 and limit the position admittedly, but convenience of customers uses to the sharpener subassembly can be dismantled with chopping block 100 and be connected, makes things convenient for the dismouting and conveniently washs.

In the description of the present disclosure, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing and simplifying the disclosure, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the disclosure.

In the description of the present disclosure, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present disclosure can be understood in a specific case to those of ordinary skill in the art.

Embodiments of the present application are described above with reference to the drawings. However, it is to be understood that the disclosed embodiments are merely intended to be examples that may be embodied in various and alternative forms. Specific structural and functional details disclosed are not to be interpreted as limiting, but as a representative basis for teaching one skilled in the art how to practice the disclosed concepts.

Claims (10)

1. An anvil assembly, comprising:

a cutting board (100);

the knife sharpener assembly comprises a knife sharpener (200) and a connecting piece (300) fixedly connected to one end of the knife sharpener (200), wherein the connecting piece (300) is detachably connected with the chopping board (100) and can rotate relative to the chopping board (100);

be provided with limit structure mutually supporting between connecting piece (300) and chopping block (100), when the sharpener subassembly is rotatory to predetermined angle relatively chopping block (100), limit structure can carry out spacingly connecting piece (300).

2. The cutting board assembly according to claim 1, wherein an end of the connecting member (300) opposite to the sharpener (200) is provided with a hook portion (330), a side of the cutting board (100) is provided with a receiving groove (800) and a rotation shaft (500) at one end of the receiving groove (800), the hook portion (330) can be hooked on the rotation shaft (500) so that the sharpener assembly can be rotated around the rotation shaft (500) to a receiving position to be received in the receiving groove (800) and can also be rotated outwards around the rotation shaft (500) to an open position.

3. An anvil assembly according to claim 2, wherein said retaining structure comprises a retaining protrusion (310) provided on one of said anvil (100) and said connector (300) and a retaining receptacle (320) provided on the other of said anvil (100) and said connector (300), said retaining protrusion (310) being snappable in said retaining receptacle (320) so as to retain said sharpener assembly in said stowed position and at least one of said open positions.

4. An anvil assembly according to claim 3, wherein said restraining projection (310) is provided on said connecting member (300), said restraining receptacle (320) being plural and arranged around said rotation axis (500) on the path of rotation of said restraining projection (310) around said rotation axis (500).

5. An anvil assembly according to claim 3, wherein said rotation shaft (500) is perpendicular to the operation surface of said anvil (100) and is provided at a side portion of said anvil (100), said side portion of said anvil (100) is further provided with a connector insertion groove (410) communicating with said receiving groove (800), a portion of said rotation shaft (500) is exposed from said connector insertion groove (410).

6. The anvil assembly of claim 5, wherein the limit projection (310) is formed on an upper surface and/or a lower surface of one end of the link (300), and the limit insertion hole (320) is formed on an upper sidewall and/or a lower sidewall of the link insertion groove (410) in a direction perpendicular to the operation surface of the anvil (100).

7. An anvil assembly according to claim 5, wherein said anvil (100) is provided with a rotary shaft insertion hole (420), said rotary shaft insertion hole (420) being capable of passing through said connector insertion groove (410) in a direction perpendicular to a plane of operation of said anvil (100), said rotary shaft (500) being interference-fitted in said rotary shaft insertion hole (420).

8. The anvil assembly of claim 7, further comprising a handle portion (700) disposed at a side edge opposite and/or adjacent to said connector insertion slot (410), said side edge being recessed to form a handle portion receiving slot (740), said handle portion (700) being disposed in said handle portion receiving slot (740).

9. An anvil assembly according to claim 8, characterized in that both ends of said handle portion (700) are connected to said anvil (100) by a pair of screws (710), said handle portion (700) is provided at both ends with at least two pairs of position limiting holes (730) symmetrically distributed with respect to the middle of said handle portion (700), a communication groove (750) is provided between adjacent position limiting holes (730) at one side for mutual communication, a pair of said screws (710) are respectively provided in a pair of said position limiting holes (730), when said handle portion (700) is pulled, said screws (710) can relatively move along said communication groove (750) to a distal pair of said position limiting holes (730).

10. The anvil assembly of claim 2, wherein said anvil (100) comprises an anvil body (110) and an encapsulated portion (400) that is coated on the outer circumference of said anvil body (110), said receiving groove (800) and said rotating shaft (500) being both disposed in said encapsulated portion (400).

Images