CN105773682A

CN105773682A - Full-automatic vegetable cutting machine

Info

Publication number: CN105773682A
Application number: CN201610270156.0A
Authority: CN
Inventors: 高山; 覃强
Original assignee: SHENZHEN GLOBAL GENERAL MACHINERY Co Ltd
Current assignee: SHENZHEN NUMBER ONE EQUIPMENT EXPLOITATION CO., LTD.
Priority date: 2016-04-27
Filing date: 2016-04-27
Publication date: 2016-07-20
Anticipated expiration: 2036-04-27
Also published as: CN105773682B

Abstract

The invention provides a full-automatic vegetable cutting machine. The full-automatic vegetable cutting machine comprises a feeding mechanism, a cutting mechanism, a vegetable cutting thickness adjusting mechanism and a power driving mechanism. The feeding mechanism comprises a main conveying belt and an auxiliary conveying belt. The main conveying belt comprises a feeding end and a discharging end. The auxiliary conveying belt and the discharging end are arranged in an up-and-down opposite and spaced manner. The cutting mechanism is close to the discharging end. The power driving mechanism is in linkage driving connection with the cutting mechanism, the main conveying belt, the auxiliary conveying belt and the vegetable cutting thickness adjusting mechanism through cooperation of a plurality of transmission rods and a plurality of gears. The full-automatic vegetable cutting machine can full automatically complete cutting work of vegetable materials and further has the beneficial effects that the structure is simple, and the vegetable cutting thickness is adjustable.

Description

Full automatic vegetable cutter

Technical field

The present invention relates to vegetable-cutting equipment technical field for kitchen use, particularly relate to a kind of full automatic vegetable cutter.

Background technology

At present, dish is one of requisite food materials of people in life, and the cutting of dish sheet is for common cook, is a troublesome thing.The shortcomings such as now the most frequently used vegetable-chopper is the vegetable-choppers organizing disc type cutting knife more, and this type of loom has manual link many when cutting the dish, and thickness can not regulate, and purposes is single, and noise is big, and loom is dirty, and purposes is single, and structure is complicated.

Summary of the invention

Having it is an object of the invention to provide a kind of full automatic vegetable cutter, it not only can be automatically finished the cutting work of dish material, and also there is simple in construction, the advantage such as thickness of cutting the dish is adjustable.

The present invention is achieved in that

A kind of full automatic vegetable cutter, described full automatic vegetable cutter includes feed mechanism, cutting mechanism, cut the dish thickness adjusting mechanism and power-driven mechanism, described feed mechanism includes main drive belt and ancillary drive belt, described main drive belt includes feed end and discharge end, described ancillary drive belt is arranged with the upper and lower relative spacing of described discharge end, the contiguous described discharge end of described cutting mechanism is arranged, described power-driven mechanism is connected described cutting mechanism by some drive links with the cooperation of some gears linkage driving respectively, described main drive belt, described ancillary drive belt feed mechanism and described in cut the dish thickness adjusting mechanism.

Improvement as above-mentioned full automatic vegetable cutter, described power-driven mechanism includes the first drive link, the second drive link and drive motor, the described first drive link both sides of being located at described feed mechanism relative to described second drive link, described drive motor is in transmission connection described first drive link and described second drive link successively by the cooperation of chain and gear.

Improvement as above-mentioned full automatic vegetable cutter, described cutting mechanism includes the first runner, the second runner and cutter, described first runner is connected with described first drive link coaxial rotation, described second runner is connected with described second drive link coaxial rotation, and the two ends of described cutter are fixing with described first runner and described second runner respectively to be connected.

nullImprovement as above-mentioned full automatic vegetable cutter，Described power-driven mechanism also includes the 3rd drive link、Drive the 4th drive link connecting described main drive belt、Ancillary drive belt drive link and conveyer belt stepper drive structure，Described 3rd drive link and described first drive link are arranged in a mutually vertical manner，And engaged each other by two bevel gears between described 3rd drive link and described first drive link and be in transmission connection，One end coaxial rotation of described 3rd drive link is connected to a cam，Described conveyer belt stepper drive structure includes guide post、Gangbar、First tooth bar、Second tooth bar、Elastic force balance part、Resilient extrusion with stress inclined-plane and spring，Described guide post and described gangbar be parallel to each other interval arrange，Described first tooth bar、Described elastic force balance part and described second tooth bar are sheathed on described guide post successively，Described first tooth bar、Described resilient extrusion and described second tooth bar are fixedly connected sequentially in described gangbar，And described gangbar runs through described elastic force balance part and arranges，Described spring housing is located in described gangbar，And the two ends of described spring abut with described elastic force balance part and described resilient extrusion respectively and are connected，The stress inclined-plane of described resilient extrusion is positioned on the traveling stroke of the lobe of described cam，One end of described ancillary drive belt drive link carries out one-way synchronization by a unilateral bearing and the first gear and is rotationally connected，And described first gear engages each other with described first tooth bar and is connected，One end of described 4th drive link carries out one-way synchronization by a unilateral bearing and the second gear and is rotationally connected，And described second gear engages each other with described second tooth bar and is connected.

Improvement as above-mentioned full automatic vegetable cutter, described power-driven mechanism also includes the 5th drive link and drives the 6th drive link connecting described ancillary drive belt, and described ancillary drive belt drive link is in transmission connection described 5th drive link and described 6th drive link successively by the cooperation of chain and gear.

Improvement as above-mentioned full automatic vegetable cutter, described thickness adjusting mechanism of cutting the dish includes the first adjusting screw rod and drives the dish thickness that described first adjusting screw rod rotates to regulate handle, described first adjusting screw rod and described guide post be arranged in parallel, and described first adjusting screw rod is threadeded with described elastic force balance part.

As the improvement of above-mentioned full automatic vegetable cutter, described in thickness adjusting mechanism of cutting the dish include limiting the thick locked handle of dish of described elastic force balance part range of activity.

Improvement as above-mentioned full automatic vegetable cutter, described full automatic vegetable cutter also includes pressure dish elasticity adjusting mechanism, described pressure dish elasticity adjusting mechanism includes the second adjusting screw rod, drive the lifting body of rod and the two elastic bodies of rod that the compensating roller handle that described second adjusting screw rod rotates threadeds with described second adjusting screw rod, and the two ends of each described elastic body of rod connect the described lifting body of rod and described ancillary drive belt respectively.

As the improvement of above-mentioned full automatic vegetable cutter, described full automatic vegetable cutter is provided with device housings, and described device housings is formed over blowing cell body in described main drive belt.

As the improvement of above-mentioned full automatic vegetable cutter, described device housings forms dish delivery notch in the outside of described cutting mechanism, and the edge sidewall of described dish delivery notch is, and inclined-plane is arranged.

The invention has the beneficial effects as follows: full automatic vegetable cutter provided by the invention, it includes feed mechanism, cutting mechanism, cut the dish thickness adjusting mechanism and power-driven mechanism, during work, cooperated by feed mechanism and cutting mechanism, without artificial participation, just transmission and the cutting operation of dish material can be automatically completed, and its power-driven mechanism is connected its cutting mechanism by some drive links with the cooperation linkage driving respectively of some gears, main drive belt and the ancillary drive belt of its feed mechanism and thickness adjusting mechanism of cutting the dish, it is passed to a power-driven mechanism and just can realize the power drive of its various mechanisms, make its structure easier, additionally, its thickness adjusting mechanism of cutting the dish also can manually adjust thickness of cutting the dish according to actual needs.Visible, this full automatic vegetable cutter its not only can be automatically finished the cutting work of dish material, and also there is simple in construction, the advantage such as thickness of cutting the dish is adjustable.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the overall structure schematic diagram of a kind of preferred embodiment of full automatic vegetable cutter of the present invention.

Structural representation when Fig. 2 is that shown in Fig. 1, full automatic vegetable cutter is without device housings.

Another angled arrangement schematic diagram when Fig. 3 is that shown in Fig. 1, full automatic vegetable cutter is without device housings.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

Such as Fig. 1, shown in Fig. 2 and Fig. 3, the present embodiment also provides for a kind of full automatic vegetable cutter, full automatic vegetable cutter 1 includes feed mechanism 11, cutting mechanism 12, cut the dish thickness adjusting mechanism 13 and power-driven mechanism 14, feed mechanism 11 includes main drive belt 111 and ancillary drive belt 112, main drive belt 111 includes feed end and discharge end, ancillary drive belt 112 is arranged with the upper and lower relative spacing of discharge end, the contiguous discharge end of cutting mechanism 12 is arranged, power-driven mechanism 14 is connected cutting mechanism 12 by some drive links with the cooperation linkage driving respectively of some gears, main drive belt 111, ancillary drive belt 112 and thickness adjusting mechanism 13 of cutting the dish.

In the present embodiment, as shown in Figures 2 and 3, power-driven mechanism 14 includes the first drive link the 141, second drive link 142 and drive motor 143, first drive link 141 and the second relative both sides being located at feed mechanism 11 of drive link 142, drive motor 143 is in transmission connection the first drive link 141 and described second drive link 142 successively by the cooperation of chain (not shown) and gear.Cutting mechanism 12 includes the first runner 121, second runner 122 and cutter 123, first runner 121 is connected with the first drive link 141 coaxial rotation, second runner 122 is connected with the second drive link 142 coaxial rotation, the two ends of cutter 123 are fixed be connected with the first runners 141 and the second runner 142 respectively, during work, when the first drive link 141 and the second drive link 142 rotate respectively at drive motor 143, first runner 141 and the second runner 142 can respectively along with corresponding first drive link 141 and the second drive link 142 carry out coaxial rotation, concurrently, cutter 123 can complete incision operation along with the rotation of the first runner 141 and the second runner 142.

nullAs shown in Figures 2 and 3，Power-driven mechanism 14 also includes the 3rd drive link 144、Drive the 4th drive link 145 connecting main drive belt 111、Ancillary drive belt drive link 146 and conveyer belt stepper drive structure 147，3rd drive link 144 and the first drive link 141 are arranged in a mutually vertical manner，And the 3rd engaged each other by two bevel gears between drive link 144 and the first drive link 141 and be in transmission connection，One end coaxial rotation of the 3rd drive link 144 is connected to a cam 1441，Conveyer belt stepper drive structure 147 includes guide post 1471、Gangbar 1472、First tooth bar 1473、Second tooth bar 1474、Elastic force balance part 1475、Resilient extrusion 1476 with stress inclined-plane and spring 1477，Guide post 1471 and gangbar 1472 be parallel to each other interval arrange，First tooth bar 1473、Elastic force balance part 1475 and the second tooth bar 1474 are sheathed on guide post 1471 successively，First tooth bar 1473、Resilient extrusion 1476 and the second tooth bar 1474 are fixedly connected sequentially in gangbar 1472，And gangbar 1472 runs through elastic force balance part 1475 and arranges，Spring 1477 is set in gangbar 1472，And the two ends of spring 1477 abut with elastic force balance part 1475 and resilient extrusion 1476 respectively and are connected，The stress inclined-plane of resilient extrusion 1476 is positioned on the traveling stroke of the lobe of cam 1441，One end of ancillary drive belt drive link 146 is carried out one-way synchronization be rotationally connected by a unilateral bearing and the first gear 1461，And first gear 1461 engage each other with the first tooth bar 1473 and be connected，One end of 4th drive link 145 is carried out one-way synchronization be rotationally connected by a unilateral bearing and the second gear 1451，And second gear 1451 engage each other with the second tooth bar 1474 and be connected.Further, power-driven mechanism 14 also includes the 5th drive link 148 and drives the 6th drive link 149 of auxiliary connection driving belt 112, ancillary drive belt drive link 146 is in transmission connection the 5th drive link 148 and the 6th drive link 149 successively by the cooperation of chain (not shown) and gear, by the interference fits of the 5th drive link 148, the rotation direction that can make the 6th drive link 149 is contrary with the rotation direction of ancillary drive belt drive link 146.

nullDuring work，First drive link 141 drives the 3rd drive link 144 to rotate under the two intermeshing cooperations of bevel gear，Make cam 1441 coaxial rotation therewith，The lobe of cam 1441 can intermittent impact on the stress inclined-plane of resilient extrusion 1476 in rotation process，When the stress inclined-plane of resilient extrusion 1476 is subject to impacting，Resilient extrusion 1476 can produce forward certain displacement，So that the first tooth bar 1473 and the second tooth bar 1474 synchronize reach，And then drive the first gear 1461 and the second gear 1451 to rotate counterclockwise，Make ancillary drive belt drive link 146 and the 4th drive link 145 synchronous axial system，And then drive main drive belt 111 and ancillary drive belt 112 step-by-step movement to advance，So，Dish material to be cut just can send to the underface of the cutter 123 of cutting mechanism 12 respectively under the common extruding of main drive belt 111 and ancillary drive belt 112.And after the stress inclined-plane of resilient extrusion 1476 has been subject to impact, resilient extrusion 1476 resets under the elastic force effect of spring 1477, first tooth bar 1473 and the second tooth bar 1474 are moved after synchronizing, and then drive the first gear 1461 and the second gear 1451 to rotate clockwise, owing to the first gear 1461 is rotationally connected with ancillary drive belt drive link 146 one-way synchronization, second gear 1451 and the 4th drive link 145 one-way synchronization are rotationally connected, thus now, ancillary drive belt drive link 146 and the 4th drive link 145 will not and then rotate.

As shown in Figure 3, thickness adjusting mechanism 13 of cutting the dish includes the first adjusting screw rod 131 and the dish thickness adjustment handle 132 driving the first adjusting screw rod 131 to rotate, first adjusting screw rod 131 be arranged in parallel with guide post 1471, and the first adjusting screw rod 131 is threadeded with elastic force balance part 1475.During work, elastic force balance part 1475 can be driven to move forward by the first adjusting screw rod 131 or after move, owing to being abutted by spring 1477 elasticity between elastic force balance part 1475 with resilient extrusion 1476, thus elastic force balance part 1473 moves forward or rear shifting can cause that the displacement that the stress inclined-plane that the lobe of cam 1441 impacts resilient extrusion 1476 produces diminishes or becomes big every time, and then each feed distance of feed mechanism 11 is diminished or becomes big, and then reach to regulate the purpose that cutting dish is thick.Further, thickness adjusting mechanism 13 of cutting the dish includes the thick locked handle 133 of dish of restriction elastic force balance part 1475 range of activity.

Additionally, as shown in Figures 1 and 3, full automatic vegetable cutter 1 also includes pressure dish elasticity adjusting mechanism 15, the lifting body of rod 153 press dish elasticity adjusting mechanism 15 to include the second adjusting screw rod 151, driving the compensating roller handle 152 that the second adjusting screw rod 151 rotates to threaded with the second adjusting screw rod 151 and the two elastic bodies of rod 154, the two ends of each elastic body of rod 154 connect the lifting body of rod 153 and ancillary drive belt 112 respectively.The lifting body of rod 153 is driven to lift by the second adjusting screw rod 151, with change ancillary drive belt 112 discharge end with main drive belt 111 between the upper and lower from, and then reach to regulate the purpose of tightness during pressure dish, and the structure of the elasticity body of rod 154 is arranged, the effect of an elastic buffer can be provided when both extrude dish material.

Also have, full automatic vegetable cutter 1 is provided with device housings 10, and device housings 10 is formed over blowing cell body 101 in main drive belt 111, device housings 10 forms dish delivery notch 102 in the outside of cutting mechanism 12, and the edge sidewall of dish delivery notch 102 is that inclined-plane is arranged, during cleaning, directly rinse blowing cell body 101 from above and just may be used, very convenient, the filthy water cleaned can flow outwardly from dish delivery notch 102.

The full automatic vegetable cutter that the present embodiment provides, it includes feed mechanism, cutting mechanism, cut the dish thickness adjusting mechanism and power-driven mechanism, during work, cooperated by feed mechanism and cutting mechanism, without artificial participation, just transmission and the cutting operation of dish material can be automatically completed, and its power-driven mechanism is connected its cutting mechanism by some drive links with the cooperation linkage driving respectively of some gears, main drive belt and the ancillary drive belt of its feed mechanism and thickness adjusting mechanism of cutting the dish, it is passed to a power-driven mechanism and just can realize the power drive of its various mechanisms, make its structure easier, additionally, its thickness adjusting mechanism of cutting the dish also can manually adjust thickness of cutting the dish according to actual needs.Visible, this full automatic vegetable cutter its not only can be automatically finished the cutting work of dish material, and also there is simple in construction, the advantage such as thickness of cutting the dish is adjustable.

The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention, all within the spirit and principles in the present invention, any amendment of making, equivalent replacement, improvement etc., should be included within protection scope of the present invention.

Claims

1. a full automatic vegetable cutter, it is characterized in that, described full automatic vegetable cutter includes feed mechanism, cutting mechanism, cut the dish thickness adjusting mechanism and power-driven mechanism, described feed mechanism includes main drive belt and ancillary drive belt, described main drive belt includes feed end and discharge end, described ancillary drive belt is arranged with the upper and lower relative spacing of described discharge end, the contiguous described discharge end of described cutting mechanism is arranged, described power-driven mechanism is connected described cutting mechanism by some drive links with the cooperation of some gears linkage driving respectively, described main drive belt, described ancillary drive belt and described in cut the dish thickness adjusting mechanism.

2. full automatic vegetable cutter as claimed in claim 1, it is characterized in that, described power-driven mechanism includes the first drive link, the second drive link and drive motor, the described first drive link both sides of being located at described feed mechanism relative to described second drive link, described drive motor is in transmission connection described first drive link and described second drive link successively by the cooperation of chain and gear.

3. full automatic vegetable cutter as claimed in claim 2, it is characterized in that, described cutting mechanism includes the first runner, the second runner and cutter, described first runner is connected with described first drive link coaxial rotation, described second runner is connected with described second drive link coaxial rotation, and the two ends of described cutter are fixing with described first runner and described second runner respectively to be connected.

null4. full automatic vegetable cutter as claimed in claim 2，It is characterized in that，Described power-driven mechanism also includes the 3rd drive link、Drive the 4th drive link connecting described main drive belt、Ancillary drive belt drive link and conveyer belt stepper drive structure，Described 3rd drive link and described first drive link are arranged in a mutually vertical manner，And engaged each other by two bevel gears between described 3rd drive link and described first drive link and be in transmission connection，One end coaxial rotation of described 3rd drive link is connected to a cam，Described conveyer belt stepper drive structure includes guide post、Gangbar、First tooth bar、Second tooth bar、Elastic force balance part、Resilient extrusion with stress inclined-plane and spring，Described guide post and described gangbar be parallel to each other interval arrange，Described first tooth bar、Described elastic force balance part and described second tooth bar are sheathed on described guide post successively，Described first tooth bar、Described resilient extrusion and described second tooth bar are fixedly connected sequentially in described gangbar，And described gangbar runs through described elastic force balance part and arranges，Described spring housing is located in described gangbar，And the two ends of described spring abut with described elastic force balance part and described resilient extrusion respectively and are connected，The stress inclined-plane of described resilient extrusion is positioned on the traveling stroke of the lobe of described cam，One end of described ancillary drive belt drive link carries out one-way synchronization by a unilateral bearing and the first gear and is rotationally connected，And described first gear engages each other with described first tooth bar and is connected，One end of described 4th drive link carries out one-way synchronization by a unilateral bearing and the second gear and is rotationally connected，And described second gear engages each other with described second tooth bar and is connected.

5. full automatic vegetable cutter as claimed in claim 4, it is characterized in that, described power-driven mechanism also includes the 5th drive link and drives the 6th drive link connecting described ancillary drive belt, and described ancillary drive belt drive link is in transmission connection described 5th drive link and described 6th drive link successively by the cooperation of chain and gear.

6. full automatic vegetable cutter as claimed in claim 4, it is characterized in that, described thickness adjusting mechanism of cutting the dish includes the first adjusting screw rod and drives the dish thickness that described first adjusting screw rod rotates to regulate handle, described first adjusting screw rod and described guide post be arranged in parallel, and described first adjusting screw rod is threadeded with described elastic force balance part.

7. full automatic vegetable cutter as claimed in claim 6, it is characterised in that described in thickness adjusting mechanism of cutting the dish include limiting the thick locked handle of dish of described elastic force balance part range of activity.

8. the full automatic vegetable cutter as described in as arbitrary in claim 1-7, it is characterized in that, described full automatic vegetable cutter also includes pressure dish elasticity adjusting mechanism, described pressure dish elasticity adjusting mechanism includes the second adjusting screw rod, drive the lifting body of rod and the two elastic bodies of rod that the compensating roller handle that described second adjusting screw rod rotates threadeds with described second adjusting screw rod, and the two ends of each described elastic body of rod connect the described lifting body of rod and described ancillary drive belt respectively.

9. full automatic vegetable cutter as claimed in claim 8, it is characterised in that described full automatic vegetable cutter is provided with device housings, and described device housings is formed over blowing cell body in described main drive belt.

10. full automatic vegetable cutter as claimed in claim 9, it is characterised in that described device housings forms dish delivery notch in the outside of described cutting mechanism, and the edge sidewall of described dish delivery notch is, and inclined-plane is arranged.