CN204587411U - Make a detour formula biscuit duct device in oblique angle - Google Patents

Abstract

The utility model relates to oblique angle and to make a detour formula biscuit duct device.The biscuit that the device that object is to provide can not produce the situation Xia Jiangduobing road of mutually interfering between biscuit is merged into together, can realize the automatic of double-layer biscuit and road, have structure simple, the feature that work efficiency is high.Technical scheme is: making a detour formula biscuit duct device in oblique angle, it is characterized in that: by feed mechanism, transition mechanism and and rail mechanism form; Feed mechanism comprises infeed conveyor, one group of guide groove and two control gate assemblies; Transition mechanism comprises transition belt and baffle plate, and the direction of transfer of transition belt is orthogonal with infeed conveyor; And rail mechanism comprises merger belt conveyor and side belt conveyor.

Description

Make a detour formula biscuit duct device in oblique angle

Technical field

The utility model relates to technical field of food machinery, specifically a kind of automatic also duct device being applicable to double layer sandwich biscuit.

Background technology

Along with the raising of production line for making biscuit degree of automation, people are to the expansion of the food demands such as biscuit, and the package speed for biscuit requires also improving constantly.But, in the production line for making biscuit field of China, due to the restriction of place or sealed in unit, usually need the biscuit in cake road multiple in travel line to be merged on a Ge Bing road to encapsulate, and road process relates to the problem of sequential, the bad meeting of time schedule control causes biscuit mutually to collide, cause sandwich biscuits two-layer between dislocation or separation, be unfavorable for encapsulation, also affect product design.Meanwhile, and because crowded between biscuit and biscuit touches in the process in road, very easily cause biscuit stifled stagnant in cake road.Under place and equipment restriction, can multiple tracks double-layer biscuit can be realized without interfering efficiently and road, be the key that improve production line for making biscuit packaging efficiency.

Utility model content

Technical problem to be solved in the utility model is the deficiency overcoming above-mentioned background technology, a kind of also duct device being applicable to double layer sandwich biscuit is provided, the biscuit that this device can not produce the situation Xia Jiangduobing road of mutually interfering between biscuit is merged into together, the automatic of double-layer biscuit can be realized and road, there is structure simple, the feature that work efficiency is high.

The utility model have employed following technical scheme:

Making a detour formula biscuit duct device in oblique angle, it is characterized in that: by feed mechanism, transition mechanism and and rail mechanism form;

Feed mechanism comprises infeed conveyor, is arranged on one group of guide groove of infeed conveyor end face and coordinates two control gate assemblies with guide groove, the rear end of rail groove mechanism extends to the rear end of infeed conveyor, two control gate assemblies are one in front and one in back arranged, keep the distance adapted with biscuit length between the two, the control gate of control gate assembly and guide groove one_to_one corresponding and liftably insert in guide groove;

Transition mechanism comprises the transition belt being arranged in infeed conveyor rear end and the baffle plate be arranged on rear side of transition belt, and the direction of transfer of transition belt is orthogonal with infeed conveyor;

And rail mechanism comprises merger belt conveyor and is arranged on the side belt conveyor of its end face, merger belt conveyor docks with transition belt, side belt conveyor is arranged in the inner side of merger belt conveyor and zone face is vertical with merger belt conveyor, the tail end of side belt conveyor and baffle plate are arranged in parallel and keep the distance that adapts with biscuit width between the two, and the head end of side belt conveyor is in tilted layout towards the front side of merger belt conveyor.

Described control gate assembly comprises the described control gate being fixed on cylinder above infeed conveyor, being connected guide frame, being horizontally fixed on the cross bar bottom guide frame and being evenly fixed on bottom cross bar with cylinder.

In described two control gate assemblies, the control gate of front side control gate assembly comprises at least one gear pin vertically arranged down; The control gate of rear side control gate assembly comprises at least one block vertically arranged down.

The front end of described guide groove is arranged along the direction of transfer of infeed conveyor, rear end along towards transition belt direction of transfer bending thus with formation oblique angle, front end.

The speed of described merger belt conveyor is higher than transition belt.

The principle of work of this patent is: double-layer biscuit enters the corresponding guide groove front end of feed mechanism, be initially line channel, what utilize control gate alternately opens the biscuit arrangement realizing many guide grooves, enter guide groove rear end afterwards, then leave guide groove rear end and enter transition mechanism, be sent to transition mechanism again, utilize the directional tagging of side belt conveyor to be ajusted by oblique single-row biscuit.

The beneficial effects of the utility model are: this device can realize the efficient of double layer sandwich biscuit and road, and nothing interference between biscuit in road process, thus biscuit can be avoided to block up stagnant in cake road or be scattered, enhance the degree of automation of production line for making biscuit, structure is simple, for the design of high-efficient production line is laid a good foundation.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model.

Fig. 2 is the perspective view of feed mechanism in the utility model.

Fig. 3 is in the utility model and the spatial structure exploded perspective view of rail mechanism.

Fig. 4 is the perspective view (omission cylinder) of rear side control gate assembly in the utility model.

Fig. 5 is the perspective view (omission cylinder) of front side control gate assembly in the utility model.

Fig. 6-Figure 11 is working state schematic representation of the present utility model.

Detailed description of the invention

Below in conjunction with Figure of description, the utility model is described in further detail, but the utility model is not limited to following examples.

As shown in Figure 1, make a detour formula biscuit duct device in oblique angle described in the utility model, comprise feed mechanism 1-1, be arranged in the transition mechanism 1-2 (direction of transfer is orthogonal to the direction of transfer of feed mechanism) of feed mechanism belt conveyor end, be arranged in the also rail mechanism 1-3 (direction of transfer is identical with the direction of transfer of transition mechanism) of transition mechanism end.

As shown in Figure 2, feed mechanism, comprise infeed conveyor 2-1 (direction of transfer is according to arrow), be screwed the guide rail beam 2-2 of crossbearer on infeed conveyor, the guide rail dividing plate being welded in guide rail transverse slat forms one group of guide groove, and (transmitting initial position part is guide groove front end 2-3-b, transmitting posterior part is guide groove rear end 2-3-a), width and the biscuit of guide groove adapt, guide groove front end 2-3-b arranges along the direction of transfer of infeed conveyor, rear end 2-3-a along towards transition belt direction of transfer bending thus with formation oblique angle, front end (this oblique angle is obtuse angle).Feed mechanism also comprises two the cantilever 2-4 (one in front and one in back arranging) be screwed in infeed conveyor one side plane.The control gate each cantilever is equipped with a control gate assembly, each control gate assembly comprises the cylinder 2-5 be fixed on feeding cantilever, is connected guide frame 2-7 with cylinder (all through two through holes of cantilever), being horizontally fixed on the cross bar 2-9 bottom guide frame and being evenly fixed on bottom cross bar.In described two control gate assemblies, the control gate of front side control gate assembly comprises at least one gear pin 2-10 vertically arranged (usually recommend 2 gear pins, be positioned at the both sides of guide groove) down; The control gate of rear side control gate assembly comprises at least one block 2-8 vertically arranged down.

Transition mechanism comprises the transition belt 1-2-1 being arranged in infeed conveyor rear end and the baffle plate 1-2-2 (extending to and rail mechanism) be arranged on rear side of transition belt, and the direction of transfer of transition belt is orthogonal with infeed conveyor.

As shown in Figure 3, and rail mechanism comprises merger belt conveyor 3-1, and (direction of transfer is according to arrow, speed is greater than transition belt, concrete speed is determined as required), be fixed on the transverse slat 3-2 of 1-2-3 on baffle plate on front side of merger belt conveyor, be arranged on side belt conveyor 3-3 below transverse slat (shown in arrow, direction of transfer is along merger belt conveyor, distance from bottom merger belt conveyor 3-1 is less than 3mm), be welded in single guide groove dividing plate 3-4 of transverse slat, single guide groove dividing plate 3-4 is positioned at the end of side belt conveyor and parallel with baffle plate 1-2-2, spacing and the biscuit width of single guide groove dividing plate 3-4 and baffle plate 1-2-2 adapt, the head end of side belt conveyor is in tilted layout towards the front side of merger belt conveyor.

Principle of work of the present utility model is:

As Fig. 6, the initial condition of this device work, double-layer biscuit is entered by the guide groove front end 2-3-b in feed mechanism 1-1, and now control gate assembly 2-6-2 in front side is in a high position, and rear side control gate assembly 2-6-1 is in low level.Subordinate phase, as Fig. 7, double-layer biscuit enters successively, front side control gate assembly and the non-change of rear side control gate component states, rear side control gate assembly stop double-layer biscuit continue move ahead.Phase III, as Fig. 8, front side control gate assembly 2-6-2 moves downward other biscuits stopped after first double-layer biscuit, open rear side control gate assembly 2-6-1, infeed conveyor motion followed by biscuit in the middle of front side control gate assembly and rear side control gate assembly, enters guide groove rear end 2-3-a after short range straight-line motion.In this one to three stage, the alternate cycles motion control double-layer biscuit four of front side control gate assembly and rear side control gate assembly is one group and enters oblique guide groove in order.

Fourth stage, as Fig. 9, first group of double-layer biscuit enters transition belt 1-2 by feed mechanism 1-1, the oblique tight low-speed motion of double-layer biscuit.Five-stage, as Figure 10, double-layer biscuit enters merger belt conveyor 1-3 at a high speed by transition belt 1-2, and the raising of transient process medium velocity causes double-layer biscuit spacing to be pulled open, first piece of biscuit contact side merger belt conveyor 3-1 causes its oblique Angulation changes, fits in side belt conveyor 3-3 zone face.In 6th stage, as Figure 11, follow merger belt conveyor 3-1 and side belt conveyor 3-3 and move, double-layer biscuit enters the single-row guide groove be made up of single guide groove dividing plate 3-4 and belt conveyor side plate, finishing device flow process.

Finally, it should be noted that above what enumerate is only specific embodiment of the utility model.Obviously, the utility model is not limited to above embodiment, can also have a lot of distortion.All distortion that those of ordinary skill in the art can directly derive or associate from content disclosed in the utility model, all should think protection domain of the present utility model.

Claims (5)

1. make a detour formula biscuit duct device in oblique angle, it is characterized in that: by feed mechanism (1-1), transition mechanism (1-2) and and rail mechanism (1-3) form;

Feed mechanism comprises infeed conveyor (2-1), is arranged on one group of guide groove of infeed conveyor end face and coordinates two control gate assemblies (2-6-1,2-6-2) with guide groove, the rear end of rail groove mechanism extends to the rear end of infeed conveyor, two control gate assemblies are one in front and one in back arranged, keep the distance adapted with biscuit (2-11) length between the two, the control gate of control gate assembly and guide groove one_to_one corresponding and liftably insert in guide groove;

Transition mechanism comprises the transition belt (1-2-1) being arranged in infeed conveyor rear end and the baffle plate (1-2-2) be arranged on rear side of transition belt, and the direction of transfer of transition belt is orthogonal with infeed conveyor;

And rail mechanism comprises merger belt conveyor (3-1) and is arranged on the side belt conveyor (3-3) of its end face, merger belt conveyor docks with transition belt, side belt conveyor is arranged in the inner side of merger belt conveyor and zone face is vertical with merger belt conveyor, the tail end of side belt conveyor and baffle plate are arranged in parallel and keep the distance that adapts with biscuit width between the two, and the head end of side belt conveyor is in tilted layout towards the front side of merger belt conveyor.

2. make a detour formula biscuit duct device in oblique angle according to claim 1, it is characterized in that: described control gate assembly comprises the described control gate being fixed on cylinder (2-5) above infeed conveyor, being connected guide frame (2-7), being horizontally fixed on the cross bar (2-9) bottom guide frame and being evenly fixed on bottom cross bar with cylinder.

3. make a detour formula biscuit duct device in oblique angle according to claim 2, and it is characterized in that: in described two control gate assemblies, the control gate of front side control gate assembly comprises at least one gear pin (2-10) vertically arranged down; The control gate of rear side control gate assembly comprises at least one block vertically arranged (2-8) down.

4. make a detour formula biscuit duct device in the oblique angle according to claim 1 or 2 or 3, it is characterized in that: the front end (2-3-b) of described guide groove is arranged along the direction of transfer of infeed conveyor, rear end (2-3-a) along towards transition belt direction of transfer bending thus with formation oblique angle, front end.

5. make a detour formula biscuit duct device in oblique angle according to claim 4, it is characterized in that: the speed of described merger belt conveyor is higher than transition belt.