CN213593159U - Chopping block processingequipment - Google Patents

Abstract

The utility model provides a chopping block processingequipment belongs to chopping block processing equipment technical field. A cutting board processing device comprises: the base, the support piece of setting on the base and the mould of setting on support piece, the mould is inside to be hollow structure and top and bottom have respectively with the import and the export of hollow structure intercommunication, hollow structure is used for the holding chopping block, and the shape of hollow structure's cross section corresponds with the shape of chopping block, the import area is greater than the export area, still including setting up the actuating mechanism on the base, actuating mechanism's drive end stretches into hollow structure through the import and is used for supporting with the chopping block and holds, and exert pressure to the chopping block towards the export direction, so that the chopping block drops from the export. This application can extrude and compress the wood fiber of chopping block, improves the hardness of chopping block, in addition, can also improve the resistant fracture nature of chopping block, further improves the life of chopping block.

Description

Chopping block processingequipment

Technical Field

The utility model relates to a chopping block processing equipment technical field particularly, relates to a chopping block processingequipment.

Background

The chopping block is used for being placed on a table or a cabinet and protecting the table top of the table or the cabinet surface when cutting vegetables. The chopping block is made of solid wood, and the processing technology of the solid wood chopping block is simple, environment-friendly and safe. However, due to the loose wood fibers of the solid wood, when vegetables are cut or meat is chopped, if the cutting force of the kitchen knife is too high, the kitchen knife is easily sunk into the chopping board, so that the chopping board is damaged to a large extent in the using process, and the service life of the chopping board is seriously shortened.

In order to solve the chopping block because the sword leads to the technical problem that chopping block life shortens, among the prior art, add steel wire or steel hoop through the outer wall at the chopping block, however, this scheme can only protect the chopping block outer wall not damaged, lead to chopping block life weak point to the sword and not solve, another kind is a reinforcing means of design, carry out local pressure to the outer wall of chopping block through the device, the extrusion effect is relatively poor, can not make the wood fiber of chopping block become closely knit, therefore, this reinforcing means is relatively poor to the effect that improves chopping block life.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a chopping block processingequipment for among the solution prior art, the wood fiber of wood chopping block is loose, influences the use and leads to the technical problem that chopping block life is short.

The embodiment of the utility model is realized like this:

the embodiment of the utility model provides a chopping block processingequipment, include: the base, the support piece of setting on the base and the mould of setting on support piece, the mould is inside to be hollow structure and top and bottom have respectively with the import and the export of hollow structure intercommunication, hollow structure is used for the holding chopping block, and the shape of hollow structure's cross section corresponds with the shape of chopping block, the import area is greater than the export area, still including setting up the actuating mechanism on the base, actuating mechanism's drive end stretches into hollow structure through the import and is used for supporting with the chopping block and holds, and exert pressure to the chopping block towards the export direction, so that the chopping block is sent out from the export.

Optionally, a fastening assembly is included that rests on the base and fastens circumferentially to the anvil delivered by the outlet.

Optionally, the cross-section of the hollow structure is circular, and the diameter of the hollow structure gradually decreases from the inlet to the outlet.

Optionally, the cross-section of the hollow structure is rectangular, and the width and/or length of the hollow structure gradually decreases from the inlet to the outlet.

Optionally, a wax layer is applied to the inner wall of the hollow structure.

Optionally, the die further comprises a support frame arranged on the base, the driving mechanism is arranged on the support frame, and the driving end of the driving mechanism faces to the inlet of the die.

Optionally, the supporting member includes two supporting rods, the mold is located between the two supporting rods, and the mold is fixedly connected to the two supporting rods respectively.

Optionally, the fastening assembly comprises a fastener and a fastening lock arranged on the fastener, the fastener is bent to surround to form a hollow space corresponding to the shape of the anvil, the hollow space is used for placing the anvil sent out from the outlet, and the fastening lock is used for fixedly connecting two ends of the fastener.

Optionally, the driving mechanism includes a hydraulic pump, a reversing valve, and a hydraulic jack, the hydraulic pump is connected to the reversing valve, the reversing valve is connected to the hydraulic jack, and the hydraulic jack is disposed on the support frame.

Optionally, the driving mechanism further comprises a pressure sensor arranged at the liquid inlet of the hydraulic jack and a controller electrically connected with the pressure sensor and the hydraulic pump respectively.

The utility model discloses beneficial effect includes:

the embodiment of the utility model provides a pair of chopping block processingequipment, this chopping block processingequipment includes the base, the support piece of setting on the base and the mould of setting on support piece, inside hollow structure and the top and the bottom of being of mould have respectively with the import and the export of hollow structure intercommunication, hollow structure is used for the holding chopping block, and the shape of hollow structure's cross section corresponds with the shape of chopping block, the import area is greater than the export area, still including setting up the actuating mechanism on the base, actuating mechanism's drive end is used for supporting with the chopping block in stretching into hollow structure through the import, and exert pressure to the chopping block towards the direction of export, so that the chopping block is seen off from the export. The chopping block processingequipment that provides in this embodiment, cooperation through mould and actuating mechanism, the chopping block that will put into from the import is passed through actuating mechanism and is exerted pressure, make it fall out from the export, because the area of import is greater than the area of export, therefore, exert pressure at actuating mechanism and make the chopping block remove to the in-process of export from the import, the mould has carried out whole extrusion to the wood fibre of chopping block, make the wood fibre that forms the chopping block become more closely knit, thereby the hardness of chopping block has been improved, further reduced the kitchen knife and cut the possibility that the situation takes place when cutting dish or chopping meat, so effectively improved the life and the user experience of chopping block.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a cutting board processing device provided in an embodiment of the present invention;

fig. 2 is a schematic structural view of a die section in a cutting board processing device according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a first viewing angle of a fastening component in the cutting board processing device according to the embodiment of the present invention;

fig. 4 is a schematic structural view of a second view angle of a fastening component in the cutting board processing device according to the embodiment of the present invention.

Icon: 100-cutting board processing device; 110-a base; 111-a support bar; 112-a support frame; 120-a mold; 121-inlet; 122-an outlet; 123-a hollow structure; 130-a drive mechanism; 131-hydraulic jack; 132-a drive end; 133-a pressure sensor; 134-a controller; 140-a fastening assembly; 141-a fastener; 142-securing locks; 200-chopping block.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: the terms "central," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used in the description and are used in a generic and descriptive sense only and not for purposes of limitation, the term "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; 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 invention can be understood in specific cases to those skilled in the art.

Fig. 1 is a schematic structural view of a cutting board processing device 100 provided by the present invention, please refer to fig. 1, an embodiment of the present invention provides a cutting board processing device 100, including: the cutting tool comprises a base 110, a support arranged on the base 110, and a mold 120 arranged on the support, wherein the mold 120 is internally provided with a hollow structure 123, the top and the bottom of the mold 120 are respectively provided with an inlet 121 and an outlet 122 communicated with the hollow structure 123, please refer to fig. 2, the hollow structure 123 is used for accommodating an anvil plate 200, the cross section of the hollow structure 123 corresponds to the shape of the anvil plate 200, the area of the inlet 121 is larger than that of the outlet 122, the cutting tool further comprises a driving mechanism 130 arranged on the base 110, and a driving end 132 of the driving mechanism 130 extends into the hollow structure 123 through the inlet 121 for abutting against the anvil plate 200 and applies pressure to the anvil plate 200 towards the outlet 122, so that the anvil plate 200 is sent out from the.

The mold 120 has a hollow structure 123 inside and has an inlet 121 and an outlet 122 communicating with the hollow structure 123 at the top and bottom, respectively, and a gap between the outlet 122 and the base 110, which is greater than the thickness of one anvil 200, so as to facilitate taking the extruded anvil 200 dropped from the outlet 122.

The cross section of the hollow structure 123 has a shape corresponding to the shape of the anvil 200, the area of the inlet 121 is larger than that of the outlet 122, the non-pressed anvil 200 is inserted from the inlet 121, and the hollow structure 123 of the mold 120 has the same shape as the anvil 200, and then the hollow structure 123 is inserted into the inlet 121 through the driving end 132 of the driving mechanism 130, so as to press the anvil 200 inserted from the inlet 121, so that the anvil 200 can move along the hollow structure 123 toward the outlet 122, the area of the anvil 200 is gradually reduced during the movement toward the outlet 122, and the side walls of the hollow structure 123 have pressing force on the outer wall of the anvil 200 until the anvil 200 drops from the outlet 122, thereby completing the pressing of the anvil 200, that is, by the cooperation of the mold 120 and the driving mechanism 130, the anvil 200 is proportionally compressed, so that the wood fibers of the anvil 200 become dense, and furthermore, by the anvil processing device 100 during the compression processing of the anvil, the anvil 200 is not deformed, is not worn, and is more stable after compression.

It should be noted that, first, wood fiber has certain clearance, and when receiving external force extrusion, wood fiber's clearance can reduce, consequently, through the wood fiber of extrusion compression chopping block, can make the volume of chopping block reduce.

Secondly, the inner wall of the hollow structure 123 is smooth, and in the process that the driving mechanism 130 presses the anvil 200 to move the anvil towards the outlet 122, the hollow structure 123 with the smooth inner wall can reduce the friction between the inner wall and the peripheral wall of the anvil 200, thereby improving the utilization rate of the energy of the driving mechanism 130.

Wherein the difference between the areas of the inlet 121 and the outlet 122 is determined by the degree of compression of the solid wood material of the anvil 200, if the degree of compression of the solid wood material forming the anvil 200 is greater, the difference between the areas of the inlet 121 and the outlet 122 is greater, and conversely, the difference between the areas of the inlet 121 and the outlet 122 is smaller.

The driving mechanism 130 can be hydraulically, electrically, or electrically driven, and is not limited thereto, as long as it can apply pressure to the unpressed anvil 200 through the inlet 121 to move it toward the outlet 122.

As described above, an anvil machining apparatus 100 includes a base 110, a support disposed on the base 110, and a mold 120 disposed on the support, the mold 120 is a hollow structure 123, the top and the bottom of the mold 120 are respectively provided with an inlet 121 and an outlet 122 communicated with the hollow structure 123, the hollow structure 123 is used for accommodating an anvil 200, the cross section of the hollow structure 123 has a shape corresponding to the shape of the anvil 200, the area of the inlet 121 is larger than that of the outlet 122, the apparatus further includes a driving mechanism 130 disposed on the base 110, and a driving end 132 of the driving mechanism 130 extends into the hollow structure 123 through the inlet 121 for abutting against the anvil 200 and presses the anvil 200 toward the outlet 122, so that the anvil 200 is sent out from the outlet 122. The chopping board processing device 100 provided in this embodiment, through the cooperation of the die 120 and the driving mechanism 130, the chopping board 200 placed in from the inlet 121 is pressed by the driving mechanism 130, so that it falls out from the outlet 122, because the area of the inlet 121 is larger than that of the outlet 122, therefore, in the process that the driving mechanism 130 presses the chopping board 200 to move from the inlet 121 to the outlet 122, the die 120 integrally presses the wood fibers of the chopping board 200, the stress of the chopping board 200 is uniform, and the chopping board is not easy to deform, so that the wood fibers forming the chopping board 200 become more compact, the moisture of the wood fibers is reduced, the gaps in the wood fibers are reduced, thereby improving the hardness of the chopping board 200, further reducing the possibility that a kitchen knife cuts when cutting vegetables or chopping meat, and effectively improving the service life of the chopping board 200 and the user experience.

Fig. 3 is a schematic structural view of a first viewing angle of the fastening component 140 in the cutting board processing device 100 according to an embodiment of the present invention, please refer to fig. 3, optionally, the cutting board processing device 100 further includes the fastening component 140 disposed on the base 110, and the fastening component 140 circumferentially fastens the cutting board 200 sent out from the outlet 122.

When the anvil 200 moves towards the outlet 122 along the hollow structure 123 under the action of the driving mechanism 130 until the anvil 200 leaves the outlet 122, the fastening assembly 140 is sleeved on the sidewall of the anvil 200 that has been pressed, so as to prevent the wood fibers pressed and compressed in the anvil 200 from rebounding. That is, the pressing assembly is used to fasten the cutting board 200 falling out of the outlet 122, so as to improve the effect of pressing and compressing the wood fibers by the cutting board processing device 100, further improve the hardness and strength of the cutting board 200, and further improve the service life of the cutting board 200.

Optionally, the cross-section of the hollow structure 123 is circular, and the diameter of the hollow structure 123 gradually decreases from the inlet 121 to the outlet 122.

When the anvil 200 is circular, the corresponding hollow structure 123 in the mold 120 is also circular, and the diameter of the inlet 121 is slightly larger than that of the anvil 200 before machining, and the diameter of the outlet 122 is smaller than that of the anvil 200 before machining, when the anvil 200 before machining is put into the hollow structure 123 from the inlet 121, the driving end 132 of the driving mechanism 130 extends into the inlet 121 to press the anvil 200, so that the anvil 200 moves toward the outlet 122 until the anvil 200 falls from the outlet 122, and the pressing and compressing of the wood fibers in the anvil 200 are completed, so that the wood fibers become compact.

Optionally, the cross-section of the hollow structure 123 is rectangular, and the width and/or length of the hollow structure 123 gradually decreases from the inlet 121 to the outlet 122.

When the cross-section of the hollow structure 123 is rectangular, the outlet 122, the inlet 121, and the outlet 122 and the inlet 121 are sized similarly to the hollow structure 123 being circular.

It should be noted that the width and/or length of the hollow structure 123 gradually decreases from the inlet 121 to the outlet 122, and the first scheme is that the width of the hollow structure 123 gradually decreases from the inlet 121 to the outlet 122, and the first scheme can realize the pressing and compression in the width direction of the anvil 200; the second solution is that the length of the hollow structure 123 is gradually reduced from the inlet 121 to the outlet 122, and the second solution can realize the extrusion and compression in the length direction of the anvil 200; the third solution, in which the width and length of the hollow structure 123 are gradually reduced from the inlet 121 toward the outlet 122, enables the pressing and compression of the anvil 200 in both width and length directions. Those skilled in the art can design the structure according to actual requirements.

Optionally, a wax layer is applied to the inner wall of the hollow structure 123.

The wax layer is laid on the inner wall of the hollow structure 123, so that the driving mechanism 130 can press the chopping block 200 to further reduce the friction force between the inner wall and the peripheral wall of the chopping block 200 in the process of moving the chopping block to the outlet 122, and the utilization rate of the energy of the driving mechanism 130 is effectively improved.

Referring to fig. 1, optionally, the anvil machining apparatus 100 further includes a supporting frame 112 disposed on the base 110, the driving mechanism 130 is disposed on the supporting frame 112, and the driving end 132 of the driving mechanism 130 faces the inlet 121 of the mold 120.

Referring to fig. 1, the supporting frame 112 includes a cross bar and a vertical bar vertically connected to two ends of the cross bar, the driving mechanism 130 is disposed on the cross bar, the driving end 132 of the driving mechanism 130 is disposed between two tree trunks, and the supporting member and the mold 120 are disposed between two vertical bars, and the driving end 132 moves downward to enter the inlet 121 of the mold 120 to press the cutting board 200 accommodated in the mold 120.

Referring to fig. 1, optionally, the supporting member includes two supporting rods 111, the mold 120 is located between the two supporting rods 111, and the mold 120 is fixedly connected to the two supporting rods 111 respectively.

For example, the outer wall of the mold 120 is welded to the two support rods 111, or two engaging lugs are disposed on the outer wall of the mold 120, the engaging lugs are respectively provided with an engaging through hole, the two corresponding support rods 111 are respectively provided with a fixing hole, and a bolt sequentially passes through the engaging through hole and the fixing hole to fixedly connect the engaging lug of the mold 120 to the support rod 111, so as to fixedly connect the mold 120 to the support rod 111. The above description is only for illustration and is not intended to limit the way the support bar 111 is fixedly connected to the mold 120, which should be known to those skilled in the art.

Fig. 4 is a schematic structural diagram of a second viewing angle of the fastening assembly 140 in the anvil processing device 100 according to an embodiment of the present invention, please refer to fig. 4, optionally, the fastening assembly 140 includes a fastening member 141 and a fastening lock 142 disposed on the fastening member 141, the fastening member 141 is bent to surround and form a hollow space corresponding to the shape of the anvil 200, the hollow space is used for placing the anvil 200 sent out from the outlet 122, and the fastening lock 142 is used for fixedly connecting two ends of the fastening member 141.

The width of the fastening element 141 is not limited, for example, the width of the fastening element 141 is the same as the thickness of an anvil 200, so that an anvil 200 falling from the outlet 122 can be accommodated in the hollow space, and the fastening lock 142 fixes the two ends of the fastening element 141, thereby fastening an anvil 200 falling from the outlet 122 and preventing the compressed wood fibers from rebounding. Of course, the width of the fastening element 141 can be larger than the thickness of one anvil 200, for example, the width of the fastening element 141 can be larger than the thickness of two anvils 200, that is, the fastening element 141 can fasten two anvils 200 falling from the outlet 122 at the same time, and those skilled in the art can design the width correspondingly according to actual needs.

Referring to fig. 1, the driving mechanism 130 may optionally include a hydraulic pump (not shown), a directional valve (not shown), and a hydraulic jack 131, wherein the hydraulic pump is connected to the directional valve, the directional valve is connected to the hydraulic jack 131, and the hydraulic jack 131 is disposed on the supporting frame 112.

This embodiment shows a hydraulically driven drive mechanism 130, the drive mechanism 130 comprising a hydraulic pump for supplying hydraulic oil, a directional valve for controlling the direction of action of the hydraulic jack 131, and a hydraulic jack 131.

In order to increase the intelligence of the cutting board processing device 100, the driving mechanism 130 further comprises a pressure sensor 133 disposed at the fluid inlet of the hydraulic jack 131, and a controller 134 electrically connected to the pressure sensor 133 and the hydraulic pump, respectively. The controller 134 is configured to control the operation of the hydraulic pump according to the pressure signal detected by the pressure sensor 133, so that the pressure provided by the hydraulic jack 131 can be controlled by the controller 134, and the utilization rate of the output energy of the hydraulic jack 131 can be improved.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. 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.

Claims (10)

1. A cutting board processing device, comprising: base, setting are in support piece and setting on the base are in mould on the support piece, inside hollow structure and the top and the bottom of being of mould have respectively with the import and the export of hollow structure intercommunication, hollow structure is used for holding the chopping block, just hollow structure's cross section's shape with the shape of chopping block corresponds, import area is greater than export area, still including setting up actuating mechanism on the base, actuating mechanism's drive end passes through the import stretches into be used for in the hollow structure with the chopping block supports and holds, and the orientation export direction is right the chopping block is exerted pressure, so that the chopping block is followed the export is sent away.

2. The anvil machining device of claim 1, further comprising a fastening assembly disposed on the base, the fastening assembly circumferentially fastening the anvil delivered by the outlet.

3. An anvil machining apparatus according to claim 1, wherein said hollow structure is circular in cross-section and has a diameter which decreases from said inlet to said outlet.

4. An anvil machining device according to claim 1, wherein said hollow structure has a rectangular cross-section, the width and/or length of said hollow structure decreasing from said inlet to said outlet.

5. An anvil machining device according to claim 1, characterized in that a wax layer is applied to the inner wall of the hollow structure.

6. The anvil machining device of claim 1, further comprising a support disposed on the base, wherein the drive mechanism is disposed on the support with a drive end of the drive mechanism facing an entrance of the die.

7. An anvil machining apparatus according to claim 2, wherein said support comprises two support rods, said die is positioned between said two support rods, and said die is fixedly attached to each of said two support rods.

8. An anvil machining apparatus according to claim 2, wherein said fastening assembly comprises a fastener and a fastening lock provided on said fastener, said fastener being bent to surround a hollow space corresponding to the shape of said anvil for receiving said anvil fed from said outlet, said fastening lock being adapted to fixedly attach the two ends of said fastener.

9. An anvil machining apparatus according to claim 6, wherein said drive mechanism comprises a hydraulic pump, a diverter valve and a hydraulic jack, said hydraulic pump being connected to said diverter valve, said diverter valve being connected to said hydraulic jack, said hydraulic jack being mounted on said support frame.

10. An anvil machining apparatus according to claim 9, wherein said drive mechanism further comprises a pressure sensor disposed at a fluid inlet of said hydraulic jack and a controller electrically connected to said pressure sensor and said hydraulic pump, respectively.

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