CN203993952U - A kind of vegetable-chopper easy for installation - Google Patents

Abstract

The utility model discloses a kind of vegetable-chopper easy for installation, belong to small household appliances field, solved the problem that driving mechanism and knife rest can not be dynamically connected certainly, the technical scheme addressing this problem is mainly on driving mechanism, to be elasticly connected with connector, described knife rest is provided with contiguous block, contiguous block is provided with link slot, in described connector Snap joint groove, realizing driving mechanism is connected with knife rest, the end face that link slot is set on described contiguous block is provided with the transition face of being convenient to connector Snap joint groove, one end of the stroke of described link slot in the box of cutting the dish is corresponding with one end of the stroke of connector, the other end of the stroke of link slot in the box of cutting the dish is corresponding with the other end of the stroke of connector, the utility model is mainly used in cutting the dish.

Description

A kind of vegetable-chopper easy for installation

Technical field

The utility model relates to small household appliances, particularly a kind of vegetable-chopper easy for installation.

Background technology

Current family kitchen reciprocating motion type electric vegetable cutting machine, comprise main frame and the box of cutting the dish, motor is set in main frame, in the box of cutting the dish, knife rest is set, motor moves back and forth in the box of cutting the dish by rotary lifting mechanism band movable knife rack, and rotary lifting mechanism generally adopts slider-crank mechanism.Cut the dish box and main frame removably connects, be finished after vegetable-chopper, user can pull down cleaning by the box of cutting the dish, but after cleaned, when user cuts the dish box in installation, syndeton between slider-crank mechanism and knife rest cannot be seated easily, needs the more time and efforts of user effort to go to make slider-crank mechanism and knife rest to connect.

Summary of the invention

The object that the utility model will reach is just to provide a kind of vegetable-chopper easy for installation, only needs user's box of cutting the dish to be fixedly connected with main frame, and rotary lifting mechanism and knife rest can be dynamically connected certainly.

In order to achieve the above object, the utility model adopts following technical scheme: a kind of vegetable-chopper easy for installation, comprise main frame and the box of cutting the dish, in described main frame, be provided with motor and driving mechanism, driving mechanism is driven by motor, cut the dish in box and be provided with knife rest, knife rest is equipped with blade, described driving mechanism and knife rest connect and rotatablely moving of motor are converted to the reciprocating motion of the relative box of cutting the dish of knife rest, wherein, on described driving mechanism, be elasticly connected with connector, described knife rest is provided with contiguous block, the stroke of described connector and described contiguous block is overlapping, described vegetable-chopper also comprises automatic syndeton, described automatic syndeton is oppressed described connector makes described connector and described contiguous block from being dynamically connected.

Preferably, contiguous block is provided with link slot, described connector is realized driving mechanism in can Snap joint groove and is connected with knife rest, described automatic syndeton comprises the inclined plane being arranged on described contiguous block, described inclined plane is arranged at the both ends of the surface of link slot, described driving mechanism is provided with chute and elastic component, and described elastic component promotes described connector and slides in described chute, and described inclined plane is oppressed described connector and is convenient to connector Snap joint groove.

Preferably, the described box of cutting the dish is erect and is fixed on main frame, described chute comprises the guide pillar that is arranged at described driving mechanism and the guide through hole that is arranged at described connector, described connector is sheathed on described guide pillar and can slides along described guide pillar, described elastic component is spring, described spring one end contacts at the described driving mechanism other end and promotes described connector, described connector comprises the projection that can insert described link slot, the lower end of the lower end of the stroke of link slot in the box of cutting the dish and the stroke of connector is in same level, the upper end of the upper end of the stroke of link slot in the box of cutting the dish and the stroke of connector is in same level.

Preferably, the described box of cutting the dish is provided with into magazine and goes out magazine, describedly enter magazine and go out the both sides that magazine is positioned at described knife rest, enter the top that magazine is positioned at main frame, the upper end that enters magazine has feeding mouth, the described box of cutting the dish is provided with the connected entrance being communicated with the upper end that goes out magazine, go out the lower end of magazine unsettled and be provided with discharging opening, the described box of cutting the dish is provided with rotating shaft, described main frame is provided with for placing the bayonet socket of rotating shaft, describedly enter magazine and be provided with main frame the buckle structure that cooperatively interacts and be connected, the described box of cutting the dish rotates around the axis and makes buckle structure coordinate realization and main frame to fix.

Preferably, the lower end of the box of cutting the dish is located in described rotating shaft, described bayonet socket is located at the bottom of main frame, described buckle structure comprises the projection and the grab of being located at main frame top of being located at into magazine bottom, described projection is to downward-extension, described grab elasticity is connected in main frame, and described grab catches on projection and coordinates bayonet socket positioning rotating shaft to realize cut the dish box and main frame and fixes.

Preferably, described rotating shaft is flat axle, all sides of rotating shaft are connected with two rotating shaft arc surface spaces by two rotating shaft planes, rotating shaft plane vertically arranges, the sidewall of described bayonet socket is by first paragraph inclined-plane, bayonet socket vertical plane, bayonet socket arc surface and second segment inclined-plane connect to form successively, two sections of inclined-planes are parallel to each other, when bayonet socket is inserted in rotating shaft, rotating shaft plane is being pasted inclined-plane and is being slipped into bayonet socket, after rotating shaft is placed in bayonet socket, rotation is cut the dish box when projection is moved to grab, rotating shaft arc surface is pasting bayonet socket arc surface and is sliding, rotating shaft plane is arrived on bayonet socket vertical plane, the angle of two sections of inclined-planes and vertical plane is β, 0 90 ° of ﹤ β ﹤.

Preferably, the below that is positioned at described link slot on described contiguous block is provided with convex tendon, described convex tendon is positioned at the both sides on described inclined plane, described connector is provided with correspondence and is against the baffle plate on convex tendon, and the described convex tendon described baffle plate of conflicting when described connector and contiguous block rotating separation departs from described connector and described link slot.

Preferably, the top of described main frame with enter magazine and be provided with the upper buckle structure that cooperatively interacts and be connected, the bottom of main frame is provided with the bottom of the box of cutting the dish the lower buckle structure that cooperatively interacts and be connected, described upper buckle structure comprises the upper protruding block and the upper grab of being located at main frame top of being located at into magazine bottom, upper protruding block is to downward-extension, described upper grab elasticity is connected in main frame, described upper grab catches on upper protruding block, described lower buckle structure comprises the lower protruding block of being located at the box bottom of cutting the dish and the lower grab of being located at main frame bottom, lower protruding block extends upward, described lower grab elasticity is connected in main frame, described lower grab catches on lower protruding block.

Preferably, the described box of cutting the dish is horizontally fixed on main frame, the left end of the left end of the stroke of link slot in the box of cutting the dish and the stroke of connector is on same vertical plane, and the right-hand member of the right-hand member of the stroke of link slot in the box of cutting the dish and the stroke of connector is on same vertical plane.

Preferably, described driving mechanism is slider-crank mechanism, and crank is connected with the main shaft of motor and the main shaft around motor rotates by driven by motor, and slide block connects with crank and relative main frame slides, described slide block is provided with linkage block, and described connector elasticity is connected in linkage block.

Adopt after technique scheme, the utlity model has following advantage: described automatic syndeton is set, can realizes being certainly dynamically connected of connector and described contiguous block, without user's particular pair of bit, person easy to use installs; Described connector elasticity arranges, and can be under the compressing of described automatic syndeton strain, and with described contiguous block Auto-mounting, simple in structure, be easy to realize; Guide pillar is set described connector and guide through hole is located, and rely on spring to promote, and simple in structure, easy to assembly, reliability is high; The described box vertical direction setting of cutting the dish, the vegetable knife cutting that moves up and down in the course of the work, simulation people manual operations, is used vegetable-chopper more convenient; Described vegetable knife does not cut in uphill process, motor only drives vegetable knife to rise, the function that motor needs is little, vegetable knife is in the cutting process of whereabouts, the gravity of vegetable knife itself can put on material, thereby reduce the power in motor cutting process, compare with horizontal operation, cut same material, required power of motor is little, is equivalent to the potential energy that is vegetable knife by the energy storage of motor in non-cutting process, and in cutting process, vegetable knife discharges potential energy, and motor power in whole process is even, has reduced loss.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Fig. 1 is the structural representation of the utility model embodiment mono-;

Fig. 2 is the decomposing schematic representation of slider-crank mechanism in embodiment mono-;

Fig. 3 is the structural representation of slide block in embodiment mono-;

Fig. 4 is schematic diagram when slider-crank mechanism does not connect with knife rest in embodiment mono-;

Fig. 5 is the schematic diagram while cutting the dish the relative main frame inclination of box in embodiment mono-;

Fig. 6 is I place enlarged drawing in Fig. 5;

Fig. 7 is the schematic diagram of buckle structure in embodiment mono-;

Fig. 8 is the schematic diagram of another kind of syndeton between grab and main frame;

Fig. 9 removes the position relationship schematic diagram between convex tendon and baffle plate while cutting the dish box in embodiment mono-;

Figure 10 is the structural representation of contiguous block and connector in embodiment mono-;

Figure 11 be in embodiment mono-, cut the dish box, knife rest and enter magazine and decompose after schematic diagram;

Figure 12 is the structural representation of the utility model embodiment bis-;

Figure 13 is the structural representation of the utility model embodiment tri-;

Figure 14 is the structural representation of the utility model embodiment tetra-.

The specific embodiment

Embodiment mono-:

Be illustrated in figure 1 first embodiment of a kind of vegetable-chopper easy for installation of the utility model, comprise main frame 1 and the box 2 of cutting the dish, in main frame, be provided with motor 3 and driving mechanism, described driving mechanism is slider-crank mechanism 4, the box 2 of cutting the dish is erect and is fixedly connected on main frame 1, the box 2 of cutting the dish is provided with into magazine 5 and goes out magazine 6, enter magazine 5 and there is feeding mouth 51, go out magazine 6 and there is discharging opening 61, cut the dish in box 2 and be provided with knife rest 7, knife rest 7 is equipped with blade 70, knife rest 7 box 2 of relatively cutting the dish vertically pumps, the lower end of slider-crank mechanism 4 and knife rest 7 connects and rotatablely moving of motor 3 is converted to the reciprocating motion of the relative box 2 of cutting the dish of knife rest 7.Enter magazine 5 and go out the both sides that magazine 6 lays respectively at knife rest 7, specifically, enter the top that magazine 5 is positioned at main frame 1, entering box 2 tops of cutting the dish after magazine 5 is installed with the box 2 of cutting the dish seals, guarantee to use safety, feeding mouth 51 is positioned at the upper end into magazine 5, entering magazine 5 extends and arranges along straight line, enter the axis of magazine 5 and the installation vertical plane of the box 2 of cutting the dish between angle be α, α≤60 °, for example α gets 60 °, 50 °, 45 °, 40 °, 35 °, 30 °, 20 °, 15 ° etc., α is less, material and the frictional force entering between magazine 5 inwalls are just less, more easily realize automatic feed, and α is less, the length L that enters the openning in the vertical direction that magazine 5 lower ends are communicated with the box 2 of cutting the dish is just longer, the dish sheet cutting out or dish slice are just longer.Go out magazine 6 and be positioned at box 2 side of main frame 1 dorsad of cutting the dish, the box 2 of cutting the dish is provided with the connected entrance 200 being communicated with the upper end that goes out magazine 6, the lower end that goes out magazine 6 is unsettled, discharging opening 61 is positioned at the lower end of magazine 6, user can place for receiving the container of the material scaling off below discharging opening 61, the structure that goes out magazine 6 can avoid the material scaling off to splash everywhere, guarantees that the material scaling off falls into the container of discharging opening 61 belows, also avoids user that finger is stretched into and cut the dish in box 2 simultaneously.Material enters into magazine 5 from feeding mouth 51, after blade 70 cuttings on knife rest 7, through connected entrance 200, enters out magazine 6, finally from discharging opening 61, falls into container.The orientation of the orientation that Fig. 1 was shown if take when user uses, go out magazine 6 in the left side of knife rest 7, enter the right side that magazine 5 and main frame 1 are located at knife rest 7, and except by main frame 1 with enter the same side that magazine 5 is arranged on knife rest 7, also main frame 1 can be horizontally rotated to 90 degree, in conjunction with the orientation of Fig. 1, be about to the place ahead or rear that main frame 1 is arranged on knife rest 7, even main frame 1 can also be arranged on out to the top of magazine 6, slider-crank mechanism 4 is connected with the upper end of knife rest 7.In a word only otherwise the turnover of ectocrine material, the position of main frame 1 can be adjusted, the preferred plan that the present embodiment is selected, main frame 1 is equivalent to and enters the space of magazine 5 shared knife rest 7 one sides, compact conformation, takes up room little, and main frame 1 can be used in and supports whole machine in addition, if main frame 1 is moved to out to magazine 6 tops, need to increase in addition supporting construction.In the lower end of knife rest 7, be provided with contiguous block 71, slider-crank mechanism 4 comprises a connector 45, and the end face towards connector 45 on contiguous block 71 is provided with link slot 711, and connector 45 Snap joint grooves 711 are realized being connected of slider-crank mechanism 4 and knife rest 7.

In conjunction with Fig. 1 to 3, crank in slider-crank mechanism 4 is connected with the main shaft 31 of motor 3 and drives the main shaft 31 around motor 3 to rotate by motor 3, stability while rotating in order to improve crank, crank adopts turntable structure, rotating disk 41 center is connected with the main shaft 31 of motor 3, eccentric setting connecting axle 42 on rotating disk 41, by rotating disk 41 and connecting axle 42, form crank, connecting axle 42 is connected with slide block 43, horizontal concrete chute 431 is set in slide block 43, the length of horizontal concrete chute 431 will be not less than the rotation diameter of connecting axle 42, support 11 with vertical chute 111 is set in main frame 1, slide block 43 is connected with support 11 and coordinates with vertical chute 111, rotating disk 41 rotates and drives connecting axle 42 to rotate the height and position that simultaneously changes connecting axle 42, connecting axle 42 slippage in horizontal concrete chute 431 is with movable slider 43 to change height and position simultaneously, make slide block 43 slippage on vertical chute 111, support 11 can be also the structure of similar rail, on slide block 43, groove being set accordingly coordinates.Because slide block 43 need to go to be connected with connector 45 through support 11, so interconnective slide block 43 and linkage block 44 are set in the both sides of support 11 could be realized and support 11 installations, also support 11 can be made to two parts conversely, can not need like this linkage block 44 just can realize the installation of support 11 and slide block 43.Crank, except rotating disk 41 structures, also adopt rod shaped structure, and the mid point of rod shaped structure and the main shaft of motor is connected, and to rotate stability also better for rod shaped structure like this.In order to reduce the friction between connecting axle 42 and horizontal concrete chute 431, the part cover that can be arranged in horizontal concrete chute 431 at connecting axle 42 has sliding bearing 421, and connecting axle 42 is fixedly connected with rotating disk 41; Or, also can make connecting axle 42 rotate, between connecting axle 42 and rotating disk 41, bearing is set, because structure is less, preferably sliding bearing, has just become rolling friction between connecting axle 42 and the sidewall of horizontal concrete chute 431 like this.In the present embodiment, on slide block 43, be also fixedly connected with linkage block 44, slide block 43 and linkage block 44 lay respectively at the both sides of support 11, after linkage block 44 is fixedly connected with slide block 43, both are positioned on support 11, slide block 43 is connected with connector 45 elasticity by linkage block 44, specifically in linkage block 44, be fixedly connected with one end of linking springs 46, the other end of linking springs 46 is connected with connector 45, linking springs 46 promotes connector 45 to the direction away from linkage block, but the length of linking springs 46 is not enough to again allow connector 45 excessive with linkage block distance, and be the stability that guarantees that connector 45 is connected with linkage block 44, guide pillar 441 is set in linkage block 44, guide pillar is positioned at the horizontal both sides of linking springs 46, the guide through hole 451 of passing for guide pillar 441 is set on connector 45, then screw hole is set on guide pillar, and after mounting screw, connector 45 is locked in linkage block 44, and it is spacing between two blocks 442 by connector 45 that block 442 is set in the both sides up and down of linking springs 46, the linking springs 46 here also can be used silica gel, the elastic component such as rubber or resilient metal strip substitutes.

Because motor 3 stall position are uncontrollable, so connector 45 may be parked in the arbitrary position on its stroke, when box 2 is cut the dish in installation, in order to realize being certainly dynamically connected of contiguous block 71 and connector 45, the end face that link slot 711 is set on contiguous block 71 is provided with the inclined plane 712 of being convenient to connector 45 Snap joint grooves 711, in the present embodiment, the box 2 of cutting the dish is holded up setting, the stroke of knife rest 7 is in the vertical direction also, so inclined plane 712 is arranged on the above and below of link slot 711, inclined plane 712 adopts ramp structure, chamfering for described link slot 711 both sides settings, in addition also can adopt globoidal structure, as long as can be convenient to connector 45 slips in link slot 711 by inclined plane 712, want the lower end of the lower end of the stroke of control connection groove 711 in the box 2 of cutting the dish and the stroke of connector 45 simultaneously in same level, the upper end of the upper end of the stroke of link slot 711 in the box 2 of cutting the dish and the stroke of connector 45 is in same level, in conjunction with Fig. 4, be that the stroke upper end of link slot 711 and the stroke upper end of connector 45 are all positioned on horizontal plane M, the stroke lower end of link slot 711 and the stroke lower end of connector 45 are all positioned on horizontal plane N.When box 2 is cut the dish in installation, knife rest 7 is due to self gravitation effect, and bottom that may be in the box 2 of cutting the dish, if connector 45 is just in time positioned at the lower end of its stroke, when box 2 is cut the dish in installation, just can allow in connector 45 Snap joint grooves 711, but this is a kind of special circumstances.Ordinary circumstance as shown in Figure 4, connector 45 is not positioned at the lower end of its stroke, so when box 2 is cut the dish in installation, connector 45 can not align with link slot 711, connector 45 is above link slot 711, like this after motor 3 starts, motor 3 drives connector 45 to move downward by slider-crank mechanism 4, when connector 45 is pressed onto on inclined plane 712, because contiguous block 71 cannot move downward, so connector 45 will compress linking springs 46 to linkage block 44 direction motions, when connector 45 moves down in the face of link slot 711 position, compressed linking springs 46 will promote connector 45 to contiguous block 71 directions, make connector 45 Snap joint grooves 711, thereby realize being certainly dynamically connected of slider-crank mechanism 4 and knife rest 7.Also have a kind of situation to be, when box 2 is cut the dish in installation, connector 45 can be positioned at the below of link slot 711, like this after motor 3 starts, motor 3 drives connector 45 to move upward by slider-crank mechanism 4, when connector 45 is pressed onto on inclined plane 712, can promote knife rest 7 moves upward together, when knife rest 7 moves to the upper end of its stroke, contiguous block 71 and link slot 711 also cannot continue to move upward, so connector 45 will compress linking springs 46 to linkage block 44 direction motions, while moving on in the face of link slot 711 position on connector 45 continues, compressed linking springs 46 will promote connector 45 to contiguous block 71 directions, make connector 45 Snap joint grooves 711, can realize being equally certainly dynamically connected of slider-crank mechanism 4 and knife rest 7.So not pipe connector 45 in its stroke where, as long as after the box 2 of cutting the dish is fixedly connected with main frame 1,3 motion a period of times of starter motor, just can make slider-crank mechanism 4 and knife rest 7 automatically connect, vegetable-chopper is normally worked, do not need user to cross multioperation, simply laborsaving.

The fixed connection structure of cut the dish box 2 and main frame 1 is described below.

As shown in Figure 5, the cut the dish lower end of box 2 is provided with rotating shaft 23, the bottom of main frame 1 is provided with for placing the bayonet socket 12 of rotating shaft 23, enter magazine 5 and be provided with main frame 1 buckle structure that cooperatively interacts and be connected, the box 2 of cutting the dish 23 rotates and makes buckle structure coordinate realization fixing with main frame 1 along the direction of arrow in Fig. 5 around the shaft.

In the present embodiment, rotating shaft 23 is integral structures with the box 2 of cutting the dish, and adopt flat axle construction, as shown in Figure 6, all sides of rotating shaft 23 are connected with two rotating shaft arc surface 232 spaces by two rotating shaft planes 231, the madial wall of bayonet socket 12 is by first paragraph inclined-plane 121, one section of bayonet socket vertical plane 122, one section of bayonet socket arc surface 123 and second segment inclined-plane 124 connect to form successively, two sections of inclined-planes are parallel to each other, rotating shaft plane 231 vertically arranges, and the angle of two sections of inclined-planes and vertical plane is β, 0 90 ° of ﹤ β ﹤, for example β gets 10 °, 20 °, 30 °, 45 °, 50 °, 60 °, 75 ° or 80 ° etc., when box 2 is cut the dish in installation, box 2 inclination β angles make to cut the dish, the oral area of first rotating shaft 23 being aimed to bayonet socket 12 pushes, make the plane of rotating shaft 23 along the inclined-plane slippage of bayonet socket 12, until in Fig. 6 under rotating shaft arc surface 232 arrive to bayonet socket arc surface 122, now first paragraph inclined-plane 121 still with Fig. 6 is close in a part for left rotating shaft plane 231, then rotate the box 2 of cutting the dish, make rotating shaft arc surface 232 along 122 slippages of bayonet socket arc surface, finally make at left rotating shaft plane 231 and bayonet socket vertical plane 122, to be close in Fig. 6, by the buckle structure connection that cooperatively interacts, realization being fixedly connected with of box 2 and main frame 1 of cutting the dish.The inclined-plane of bayonet socket 12 can support the position that the box 2 of cutting the dish remains on inclination β angle, it is state shown in Fig. 5, user cuts the dish in box 2 processes tearing open, can rest, the cut the dish box 2 of cutting the dish again after box 2 of guaranteeing to hold steadily takes off, same midway, user is in the process of box 2 is cut the dish in installation, slightly rest midway, the box 2 that guarantees to cut the dish place stable after, then the box 2 of cutting the dish to push main frame 1 to fixing.

As shown in Figure 7, buckle structure comprises the projection 53 and the grab 13 of being located at main frame 1 top of being located at into magazine 5 bottoms, projection 53 is to downward-extension, and grab 13 is connected in main frame 1 by back-moving spring 15 elasticity, and it is fixing with main frame 1 that grab 13 catches on projection 53 and coordinate bayonet socket positioning rotating shaft to realize the box 2 of cutting the dish.End face upper end in face of projection 53 on grab 13 arranges inclined plane 131, when box 2 is cut the dish in installation, is convenient to projection 53 grab 13 is pressed down, and do not need manually grab 13 to be pressed down like this, realizes from being dynamically connected.User need to pull down while cutting the dish box 2, first presses grab 13, and grab 13 and projection 53 are departed from, and then rotates the box 2 of cutting the dish, and the box 2 of finally cutting the dish is mentioned obliquely, and rotating shaft 23 is exited from bayonet socket 12.Projection 53 in above-mentioned buckle structure also can be arranged on cuts the dish on box 2, on the box 2 of cutting the dish, be positioned at pan feeding box 5 below the cut the dish cross bar of box side plate of two of connections is set, entering magazine 5 is against on cross bar, and projection 53 is arranged on cross bar, and except grab 13 elasticity are connected in main frame 1, also grab 13 can be rotatably connected on main frame 1 by bearing pin, torsion spring is set on bearing pin or between grab 13 and main frame 1, spring is set, example as shown in Figure 8, one end of grab 13 is connected with main frame 1 by bearing pin 14, between the middle part of grab 13 and main frame 1, back-moving spring 15 is set, grab 13 other ends are the coupler bodies coordinating with projection 53, user tears open while cutting the dish box 2 the same with structure shown in Fig. 8 to grab 13 operations, all that grab 13 is pressed downwards.If bearing pin 14 is arranged on to the middle part of grab 13, one end that user does not arrange coupler body by grab 13 is upwards carried, and also can make projection 53 separated with grab 13.In addition, buckle structure also can be arranged on the side of main frame 1 and cut the dish box 2 side of correspondence with it.Also bayonet socket can be arranged on to the top of main frame, rotating shaft is located on the box of cutting the dish corresponding with bayonet socket position, and buckle structure correspondence is positioned at the bottom of main frame.

When user need to be when main frame 1 be pulled down the box 2 of cutting the dish and cleaned, must be after buckle structure be thrown off, the box 2 of first cutting the dish rotates β angle relative to main frame, now connector 45 is also stuck in link slot 711, link slot 711 can be followed box 2 rotations of cutting the dish, and connector 45 keeps motionless, the upper and lower surface of connector 45 can be interfered with the upper and lower side occurrence positions of link slot 711 like this, cause the user who does not know dismounting principle cannot rotate the box 2 of cutting the dish, and the larger user of strength may directly damage connector 45 or contiguous block 71, so tearing open while cutting the dish box 2, need to when user starts to rotate the box 2 of cutting the dish, connector 45 be released to link slot 711, so as shown in Figures 9 and 10, the both sides that are positioned at inclined plane 712 on contiguous block 71 are provided with convex tendon 713, convex tendon 713 is positioned at the below of link slot 711, connector 45 is provided with correspondence and is against the baffle plate 452 on convex tendon 713, the lower end that convex tendon 713 is faced the end face of baffle plate 452 has top 714, user rotates while cutting the dish box 2, the part that can contact with baffle plate 452 on whole convex tendon 713, top 714 the radius of gyration is maximum, top 714 can be against on baffle plate 452 always, because link slot 711 degree of depth are little, so rotate at the beginning while cutting the dish box 2 user, top 714 will remove to promote connector 45 to linkage block 44 place direction motions, make connector 45 deviate from link slot 711, the box 2 of cutting the dish so just can continue smooth rotation, and finally from main frame 1, pull down, thereby realizing when box 2 is cut the dish in user's dismounting makes knife rest automatically separated with slider-crank mechanism, simple and convenient.Convex tendon 713 also can only be arranged on a side on inclined plane 712, and top 714 structure is not limited to the right-angle structure in Fig. 9, also can adopt acuter angles, obtuse angle structure or fillet structure, in the part that only need to guarantee can contact with baffle plate 452 on convex tendon 713, top 714 the radius of gyration is maximum, and top 714 lower ends that are positioned at convex tendon 713.

In addition, see Figure 11, in order to reduce the frictional force of box 2 cutter setting frames 7 of cutting the dish, roller 72 is set on knife rest 7, accordingly, the chute 21 for roller 72 mounting slips is set on the box 2 of cutting the dish, chute 21 vertically arranges, chute 21 and roller 72 corresponding installation cooperation one by one, the horizontal width of chute 21 equates with the external diameter of roller 72.Four rolling 72 is set on knife rest 7 altogether, and the both sides about knife rest 7 Central Symmetries respectively at knife rest 7, corresponding chute 21 is also provided with four sections, in the present embodiment, the structure of box 2 of cutting the dish comprises the box side plate 202 of cutting the dish of cutting the dish box panel 201 and being positioned at box panel 201 both sides of cutting the dish, cut the dish box panel 201 with go out magazine 6 and be connected, the medial surface of box side plate 202 of cutting the dish arranges chute 21, the opening of chute 21 is positioned at the upper end of chute 21, and in the side of box side plate 202 away from the box panel 201 of cutting the dish of cutting the dish, and the structure of knife rest 7 is also similar with the box 2 of cutting the dish, comprise knife rest panel 701 and knife rest side plate 702, roller 72 is arranged on knife rest side plate 702, distance on knife rest 7 between the lateral surface of two knife rest side plates 702 will with the medial surface of two box side plates 202 of cutting the dish on the box 2 of cutting the dish between distance equate, knife rest 7 is limited motion in the horizontal direction like this, and between the face being in contact with one another on cut the dish box 2 and knife rest 7 and face as long as coarsely reach certain requirement and can reduce frictional force, because 7, knife rest can vertically move, the pressure of box 2 of being subject in horizontal direction cutting the dish is very little, frictional force nature is between the two just little.Spacing except utilizing on knife rest 7 on two knife rest side plate 702 lateral surfaces and the box 2 of cutting the dish two box side plate 202 medial surfaces of cutting the dish, also can realize by the end face of roller 72 and the bottom surface of chute 21, still to reduce roller 72 beating in the axial direction.The quantity of roller 72 and chute 21 can change, a roller 72 is for example set on a knife rest side plate 702, two rollers 72 are set on another knife rest side plate 702, chute 21 also changes, and determines planes at 3, so that knife rest 7 also can obtain is spacing well, also a roller 72 can be all only set on two knife rest side plates 702, and a roller 72 is set in the middle of the upper end of knife rest 7, chute 21 is done corresponding variation, also has same limit effect.And roller 72 quantity increase, arrange five or more, waste on the contrary, increases cost, and inadvisable.In the present embodiment, going out magazine 6 can realize and fixing with box 2 integrated moldings of cutting the dish, and also can split manufacture subsequent installation fix.And because the box panel 201 of cutting the dish is positioned at a side at magazine 6 places, so enter magazine 5, need to adopt the fixing mode of subsequent installation.Specifically see Fig. 5, the lower end that enters magazine 5 is provided with riser 52, riser 52 is provided with fixture block 521, the box 2 of cutting the dish is provided with for fixture block 521 and coordinates the catching groove 22 of installing, and for the moulding process of simple mould structure and the box 2 of cutting the dish, catching groove 22 is arranged on to the opening part of chute 21, fixture block 521 is installed in catching groove 22 from the top down, riser 52 is pressed in cuts the dish on box side plate 202, adds the effect into magazine 5 self gravitations, just can realize being fixedly connected with into magazine 5 and the box 2 of cutting the dish.In addition, also the box panel 201 of cutting the dish can be arranged on into the side at magazine 5 places and with enter magazine 5 and be fixedly connected with, enter magazine 5 riser need not be set, and going out riser is set on magazine 6, and adopt the structure that enters magazine 5 in similar Fig. 5 to be fixedly connected with the box 2 of cutting the dish.

Embodiment bis-:

The difference of the present embodiment and embodiment mono-be only the to cut the dish fixed connection structure of box 2 and main frame 1.As shown in figure 12, the top of main frame 1 with enter magazine 5 and be provided with the upper buckle structure that cooperatively interacts and be connected, the bottom of main frame 1 is provided with the bottom of the box 2 of cutting the dish the lower buckle structure that cooperatively interacts and be connected, upper buckle structure comprises the upper protruding block 54 and the upper grab 16 of being located at main frame 1 top of being located at into magazine 5 bottoms, upper protruding block 54 is to downward-extension, upper grab 16 elasticity are connected in main frame 1, upper grab 16 catches on upper protruding block 54, lower buckle structure comprises the lower protruding block 24 of being located at box 2 bottoms of cutting the dish and the lower grab 17 of being located at main frame 1 bottom, lower protruding block 24 extends upward, lower grab 17 elasticity are connected in main frame 1, lower grab 17 catches on lower protruding block 24.

When user cuts the dish box 2 in installation, upper protruding block 54 is aimed to upper grab 16, lower protruding block 24 is aimed at lower grab 17, then the translation box 2 of cutting the dish is pushed main frame 1 to, identical in the connection of connector 45 and contiguous block 71 and embodiment mono-, do not need user to operate, after motor 3 starts a period of time, can certainly be dynamically connected.And user need to remove while cutting the dish box 2, upper grab 16 is pressed downwards, lower grab 17 is upwards pressed, then translation is cut the dish box 2 away from main frame 1, owing to being the translation box 2 of cutting the dish, so the structures such as convex tendon in embodiment mono-and baffle plate need not be set on contiguous block 71 and connector 45.And consider that hand of user need to hold the box of cutting the dish, another is not easy to simultaneously by pressing grab 16 and lower grab 17, after may occurring that user is first separated with upper protruding block 54 by upper grab 16, go when depressing grab 17, upper grab 16 has coordinated with upper protruding block 54 again, so can consider to arrange a link gear on main frame, link gear while and upper grab 16, lower grab 17 connects, so only need user to operate link gear No. one time, just can make grab 16 separated with upper protruding block 54 simultaneously, lower grab 17 is also separated with lower protruding block 24, thereby user-friendly.

In the present embodiment, upper grab 16 and lower grab 17 also can be used for reference the variation of buckle structure in embodiment mono-with the syndeton before main frame, for example, adopt structure shown in Fig. 8.

Embodiment tri-:

Except the box 2 of cutting the dish being holded up to the structure being fixed on main frame 1 in embodiment mono-and embodiment bis-, also the box 2 of cutting the dish can be horizontally fixed on main frame 1, as shown in figure 13, now to make connector 45 automatically snap in link slot 711, just need to make the left end of the left end of the stroke of link slot 711 in the box 2 of cutting the dish and the stroke of connector 45 on same vertical plane P, the right-hand member of the right-hand member of the stroke of link slot 711 in the box 2 of cutting the dish and the stroke of connector 45 is on same vertical plane Q.Certainly, for driving the driving mechanism of described knife rest, be reciprocating rotary mechanism, to drive described knife rest to move back and forth in the horizontal direction.

Embodiment tetra-:

In addition, also the box 2 of cutting the dish can be obliquely installed, now to make connector 45 automatically snap in link slot 711, one end of the stroke of link slot 711 in the box 2 of cutting the dish is corresponding with one end of the stroke of connector 45 so, the other end of the stroke of link slot 711 in the box 2 of cutting the dish is corresponding with the other end of the stroke of connector 45, can be interpreted as in conjunction with Figure 14, the lower end of the stroke of link slot 711 with the lower end of the stroke of connector 45 all in the plane X of vertical both stroke directions, the upper end of the stroke of link slot 711 with the upper end of the stroke of connector 45 all on the plane Y of vertical both stroke directions.

In the utility model, rotary lifting mechanism, except adopting slider-crank mechanism, also can adopt other rotatablely moving of motor can be converted to the straight-line mechanism of knife rest, or can directly adopt linear electric motors.The definition of parts after last parts elasticity is connected in, refer to that front portion passes through the elastic components such as spring or silica gel or rubber and be connected with rear parts, elastic component can promote front portion to the direction away from rear parts, make to there is gap between front portion and rear parts, two ends due to elastic component are connected with rear parts with front portion respectively again, so last parts can not drop from rear parts again, accordingly, certain position limiting structure is set on rear parts and guarantees that last parts move along elastic force direction.Vegetable-chopper of the present utility model is generally that family expenses are cut the dish, also can be for cutting fruit, the food such as rice cake.Except above preferred embodiment, the utility model also has other embodiment, those skilled in the art can make various changes and distortion according to the utility model, only otherwise depart from spirit of the present utility model, all should belong to the defined scope of the utility model claims.

Claims (10)

1. a vegetable-chopper easy for installation, comprise main frame and the box of cutting the dish, in described main frame, be provided with motor and driving mechanism, driving mechanism is driven by motor, cut the dish in box and be provided with knife rest, knife rest is equipped with blade, described driving mechanism and knife rest connect and rotatablely moving of motor are converted to the reciprocating motion of the relative box of cutting the dish of knife rest, it is characterized in that: on described driving mechanism, be elasticly connected with connector, described knife rest is provided with contiguous block, the stroke of described connector and described contiguous block is overlapping, described vegetable-chopper also comprises automatic syndeton, described automatic syndeton is oppressed described connector makes described connector and described contiguous block from being dynamically connected.

2. vegetable-chopper easy for installation according to claim 1, it is characterized in that: contiguous block is provided with link slot, described connector is realized driving mechanism in can Snap joint groove and is connected with knife rest, described automatic syndeton comprises the inclined plane being arranged on described contiguous block, described inclined plane is arranged at the both ends of the surface of link slot, described driving mechanism is provided with chute and elastic component, described elastic component promotes described connector and slides in described chute, and described inclined plane is oppressed described connector and is convenient to connector Snap joint groove.

3. vegetable-chopper easy for installation according to claim 2, it is characterized in that: described in the box of cutting the dish erect and to be fixed on main frame, described chute comprises the guide pillar that is arranged at described driving mechanism and the guide through hole that is arranged at described connector, described connector is sheathed on described guide pillar and can slides along described guide pillar, described elastic component is spring, described spring one end contacts at the described driving mechanism other end and promotes described connector, described connector comprises the projection that can insert described link slot, the lower end of the lower end of the stroke of link slot in the box of cutting the dish and the stroke of connector is in same level, the upper end of the upper end of the stroke of link slot in the box of cutting the dish and the stroke of connector is in same level.

4. vegetable-chopper easy for installation according to claim 3, it is characterized in that: described in the box of cutting the dish be provided with into magazine and go out magazine, describedly enter magazine and go out the both sides that magazine is positioned at described knife rest, enter the top that magazine is positioned at main frame, the upper end that enters magazine has feeding mouth, the described box of cutting the dish is provided with the connected entrance being communicated with the upper end that goes out magazine, go out the lower end of magazine unsettled and be provided with discharging opening, the described box of cutting the dish is provided with rotating shaft, described main frame is provided with for placing the bayonet socket of rotating shaft, describedly enter magazine and be provided with main frame the buckle structure that cooperatively interacts and be connected, the described box of cutting the dish rotates around the axis and makes buckle structure coordinate realization and main frame to fix.

5. vegetable-chopper easy for installation according to claim 4, it is characterized in that: the lower end of the box of cutting the dish is located in described rotating shaft, described bayonet socket is located at the bottom of main frame, described buckle structure comprises the projection and the grab of being located at main frame top of being located at into magazine bottom, described projection is to downward-extension, described grab elasticity is connected in main frame, and described grab catches on projection and coordinates bayonet socket positioning rotating shaft to realize cut the dish box and main frame and fixes.

6. vegetable-chopper easy for installation according to claim 5, it is characterized in that: described rotating shaft is flat axle, all sides of rotating shaft are connected with two rotating shaft arc surface spaces by two rotating shaft planes, rotating shaft plane vertically arranges, the sidewall of described bayonet socket is by first paragraph inclined-plane, bayonet socket vertical plane, bayonet socket arc surface and second segment inclined-plane connect to form successively, two sections of inclined-planes are parallel to each other, when bayonet socket is inserted in rotating shaft, rotating shaft plane is being pasted inclined-plane and is being slipped into bayonet socket, after rotating shaft is placed in bayonet socket, rotation is cut the dish box when projection is moved to grab, rotating shaft arc surface is pasting bayonet socket arc surface and is sliding, rotating shaft plane is arrived on bayonet socket vertical plane, the angle of two sections of inclined-planes and vertical plane is β, 0 90 ° of ﹤ β ﹤.

7. vegetable-chopper easy for installation according to claim 4, it is characterized in that: the below that is positioned at described link slot on described contiguous block is provided with convex tendon, described convex tendon is positioned at the both sides on described inclined plane, described connector is provided with correspondence and is against the baffle plate on convex tendon, and the described convex tendon described baffle plate of conflicting when described connector and contiguous block rotating separation departs from described connector and described link slot.

8. vegetable-chopper easy for installation according to claim 3, it is characterized in that: the top of described main frame with enter magazine and be provided with the upper buckle structure that cooperatively interacts and be connected, the bottom of main frame is provided with the bottom of the box of cutting the dish the lower buckle structure that cooperatively interacts and be connected, described upper buckle structure comprises the upper protruding block and the upper grab of being located at main frame top of being located at into magazine bottom, upper protruding block is to downward-extension, described upper grab elasticity is connected in main frame, described upper grab catches on upper protruding block, described lower buckle structure comprises the lower protruding block of being located at the box bottom of cutting the dish and the lower grab of being located at main frame bottom, lower protruding block extends upward, described lower grab elasticity is connected in main frame, described lower grab catches on lower protruding block.

9. vegetable-chopper easy for installation according to claim 2, it is characterized in that: described in the box of cutting the dish be horizontally fixed on main frame, the left end of the left end of the stroke of link slot in the box of cutting the dish and the stroke of connector is on same vertical plane, and the right-hand member of the right-hand member of the stroke of link slot in the box of cutting the dish and the stroke of connector is on same vertical plane.

10. according to the vegetable-chopper easy for installation described in claim 1 or 2 or 9, it is characterized in that: described driving mechanism is slider-crank mechanism, crank is connected with the main shaft of motor and the main shaft around motor rotates by driven by motor, slide block connects with crank and relative main frame slides, described slide block is provided with linkage block, and described connector elasticity is connected in linkage block.