CN217624569U - Bag breaking system for bagged raw materials suitable for feed mill - Google Patents

Abstract

The utility model discloses a broken bag system of bagged raw materials suitable for feed factory, including tray conveying mechanism, upset unstacking mechanism, broken bag mechanism and bulk cargo conveying mechanism, tray conveying mechanism one side is provided with empty tray and retrieves the mechanism, empty tray retrieves the mechanism top and is provided with upset unstacking mechanism. The beneficial effects are that: the utility model discloses a tray conveying mechanism, upset unstacking mechanism, first differential conveyer belt, second differential conveyer belt, bag breaking mechanism, rotary screen case and bulk cargo conveying mechanism's mutually supporting, realized on the one hand bagged raw feed material and carrying in man-hour automation, effectively avoided artifical manual loaded down with trivial details handling process who lifts the moving, on the other hand carries and automatic broken bag pay-off through the differential, the automation mechanized operation of carrying of the broken bag of bagged raw feed material has been realized, the labor intensity is effectively saved, the cost of labor has been reduced, the material speed of throwing of bagged raw feed material has been improved, the high-efficient processing of the fodder of being convenient for.

Description

Bag breaking system for bagged raw materials suitable for feed factory

Technical Field

The utility model relates to a broken bag technical field of bagged raw materials, concretely relates to broken bag system of bagged raw materials suitable for feed factory.

Background

In a feed factory, bagged raw materials are generally stacked on a tray and then stored in a raw material warehouse. When feeding is needed in production, a forklift worker carries the whole stack of bagged raw materials to the position near a feeding port in the raw material warehouse, the feeding worker uses a knife to cut the raw material bag, and then the raw material bag is manually dumped and shaken to completely feed the raw materials in the bag into the feeding port.

However, adopt artifical manual when throwing the material in the feed processing workshop at present, on the one hand because every bag of fodder raw materials in bags all has a basis weight, and need the manual operation that lasts of workman at whole operation process, long-time throw material work can make artifical intensity of labour greatly increased, the cost of labor is also higher simultaneously, the artifical manual broken bag of on the other hand is thrown the material and is still comparatively low for automatic material efficiency of throwing, the high-efficient processing of the fodder of being not convenient for, consequently, the urgent need for a neotype be applicable to the fodder factory broken bag system of the raw materials in bags and solve current problem.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome prior art not enough, the broken bag system of raw materials in bags suitable for feed factory has now been proposed, solved at present in the fodder processing workshop, mainly through artifical manual carrying fodder in bags to dog-house department, and put in behind adopting the knife cut with fodder raw materials in bags, on the one hand because every bag of fodder raw materials in bags all has a basis weight, and need the manual continuous operation of workman at whole operation process, long-time throw material work can make artifical intensity of labour greatly increased, the cost of labor is also higher simultaneously, on the other hand artifical manual broken bag throw material still comparatively low for automatic throw material efficiency, the high-efficient problem of processing of fodder is not convenient for.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a broken bag system of bagged raw materials suitable for feed factory, including tray conveying mechanism, upset unstacking mechanism, broken bag mechanism and bulk cargo conveying mechanism, tray conveying mechanism one side is provided with empty tray recovery mechanism, empty tray recovery mechanism top is provided with upset unstacking mechanism, upset unstacking mechanism bottom one side is provided with first differential conveyer belt, first differential conveyer belt is kept away from upset unstacking mechanism one side is installed the second differential conveyer belt, install second differential conveyer belt one side broken bag mechanism, broken bag mechanism bottom one side is installed the rotary screen case, install rotary screen case below bulk cargo conveying mechanism, a side wall mounting of rotary screen case has the waste bag to throw out the case.

Further, the tray conveying mechanism adopts a chain conveying structure, and the discharge end of the tray conveying mechanism is aligned with the feeding end of the overturning unstacking mechanism.

By adopting the technical scheme, the materials on the tray conveying mechanism can be conveyed smoothly to the overturning unstacking mechanism.

Furthermore, the conveying chain is installed to upset mechanism bottom of breaking a jam, install the hydraulic stem on upset mechanism's the digging arm, the conveyer belt of breaking a jam is installed to upset mechanism's fixed arm bottom.

By adopting the technical scheme, the automatic overturning and conveying of the materials by the overturning and unstacking mechanism can be ensured.

Furthermore, the speed of the first differential conveyer belt is greater than that of the destacking conveyer belt on the overturning destacking mechanism, and the speed of the second differential conveyer belt is greater than that of the first differential conveyer belt.

By adopting the technical scheme, the materials can be uniformly spread out due to different speeds of the transmission belts at all levels, so that the subsequent bag breaking is facilitated.

Furthermore, the bag breaking mechanism adopts a rotary cutting knife type structure, and the discharge end of the bag breaking mechanism is aligned with the feeding end of the rotary screening box.

Through adopting above-mentioned technical scheme, can ensure convenient the pricking and the transport of pocket.

Furthermore, bulk cargo conveying mechanism with rotary screening case bolted connection, bulk cargo conveying mechanism adopts spiral transport structure.

Through adopting above-mentioned technical scheme, can ensure the high-efficient transport of material after broken bag.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

in order to solve the problem that in the prior art, bagged feed is mainly manually conveyed to a feed inlet through manpower in a feed processing workshop and is put in after the bagged feed raw materials are cut by a knife, on one hand, each bag of the bagged feed raw materials has certain weight, and the whole operation process needs manual continuous operation of workers, so that the labor intensity can be greatly increased due to long-time feeding work, the labor cost is also high, on the other hand, the manual bag breaking feeding is still low relative to the automatic feeding efficiency, and the feed is not convenient for the efficient processing of the feed.

Drawings

Fig. 1 is a schematic structural view of a bagged raw material bag breaking system suitable for a feed factory.

The reference numerals are explained below:

1. a tray conveying mechanism; 2. a turnover unstacking mechanism; 3. a first differential conveyor belt; 4. a second differential conveyor belt; 5. a bag breaking mechanism; 6. rotating the screening box; 7. throwing the waste bag out of the box; 8. a bulk material conveying mechanism; 9. empty tray retrieves mechanism.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, a bagged raw material bag breaking system suitable for a feed factory in this embodiment includes a tray conveying mechanism 1, an overturning unstacking mechanism 2, a bag breaking mechanism 5 and a bulk material conveying mechanism 8, an empty tray recovery mechanism 9 is arranged on one side of the tray conveying mechanism 1, the tray conveying mechanism 1 can convey trays stacked with whole stacked bagged materials to the overturning unstacking mechanism 2, the overturning unstacking mechanism 2 resets to a horizontal position after unstacking of one tray is completed, a tray shifting-out conveying chain is installed at an intermediate position of the conveying chain, the tray shifting-out conveying chain is jacked up by a cylinder, a speed reducer drives the tray shifting-out chain to work, empty trays are conveyed to the empty tray recovery mechanism 9 to be stacked and stored, the empty trays are recovered to a certain amount and then are taken out by a forklift, the overturning unstacking mechanism 2 is arranged above the empty tray recovery mechanism 9, a first conveying belt 3 is arranged on one side of the bottom end of the overturning unstacking mechanism 2, a second conveying belt 4 is arranged on one side of the bottom end of the overturning unstacking mechanism 3, a first conveying belt 3 and a second conveying belt is arranged on one side of the rotating box with a rotating bag separating mechanism 7, a rotating screen 6 installed on one side of the rotating box for separating and separating mechanism 7 for separating the bag from the overturning bag 5, and separating mechanism for separating.

As shown in fig. 1, in this embodiment, a tray conveying mechanism 1 adopts a chain conveying structure, a discharging end of the tray conveying mechanism 1 is aligned with a feeding end of a turnover unstacking mechanism 2, a conveying chain is installed on the tray conveying mechanism 1, the chain is driven to move horizontally through a speed reducer, a tray filled with raw materials is conveyed forward, the conveying chain is installed at the bottom end of the turnover unstacking mechanism 2, a hydraulic rod is installed on a movable arm of the turnover unstacking mechanism 2, a unstacking conveying belt is installed at the bottom end of a fixed arm of the turnover unstacking mechanism 2, the conveying chain is also installed at the bottom of the turnover unstacking mechanism 2 and runs synchronously with the conveying chain on the tray conveying mechanism 1, two groups of conveying chains work cooperatively to convey the tray to the turnover unstacking mechanism 2, after the tray is conveyed to a designated position, the turnover unstacking mechanism 2 starts to turn over under the driving of a hydraulic cylinder, the raw material tray is turned over for 90 degrees integrally, a unstacking conveying belt is installed on a turnover arm of the turnover unstacking mechanism 2, the unstacking conveying belt is arranged perpendicular to the conveying chain at the bottom, after the turnover unstacking mechanism 2 turns over to 90 degrees, the raw materials are dumped onto a bag conveying belt by a bag conveying belt, and the bag conveying belt is started to convey the bag to the first conveying belt by a speed reducer.

As shown in fig. 1, in this embodiment, the speed of the first differential conveyor belt 3 is greater than the speed of the unstacking conveyor belt on the overturning unstacking mechanism 2, the speed of the second differential conveyor belt 4 is greater than the speed of the first differential conveyor belt 3, the first differential conveyor belt 3 is driven by a speed reducer, the conveying speed is faster than that of the unstacking conveyor belt, and in the process that bagged raw materials enter the first differential conveyor belt 3 from the unstacking conveyor belt, due to the speed difference, the bagged raw materials which are first entered are quickly conveyed away, so that the unstacking function is realized, and meanwhile, the bagged raw materials are continuously conveyed onto the second differential conveyor belt 4; second differential conveyer belt 3 adopts the speed reducer drive, it is higher than first differential conveyer belt 3 to set for speed, further realize spreading out bagged raw materials through the differential mode, bagged raw materials are put into bag breaking mechanism 5 through second differential conveyer belt 4, bag breaking mechanism 5 adopts rotatory cutter formula structure, bag breaking mechanism 5's discharge end aligns with the pan feeding end of rotary screening case 6, bag breaking mechanism 5 adopts a set of cutting knife rotation type, the cutting knife passes through the speed reducer drive, around the center pin fast revolution, bagged raw materials are put into the cutting knife top behind the entering of bag breaking mechanism 5, bagged raw materials landing is cut open by the cutting knife downwards under the dead weight effect, then in the rotary screening case 6 is gone into to the gliding under the action of gravity.

As shown in fig. 1, in this embodiment, the bulk material conveying mechanism 8 is bolted to the rotary screening box 6, the bulk material conveying mechanism 8 adopts a spiral conveying structure, the rotary screening box 6 adopts a drum screen structure, a driven gear is mounted on the screen barrel, a driving gear is mounted on a speed reducer, the screen barrel is driven to rotate by means of gear engagement, the bagged raw material and the packaging bag enter the screen barrel simultaneously after being cut, the raw material flowing out of the packaging bag leaks into the bulk material conveying mechanism 8 below through a hole in the screen barrel under the action of gravity, the packaging bag has a large area and cannot pass through the hole in the screen barrel, so that the raw material and the packaging bag rotate together with the screen barrel on the inner wall of the screen barrel, the raw material bag turns over under the action of gravity after rotating to an angle close to 70 degrees and is thrown to the lowest position of the screen barrel, the raw material and the packaging bag are separated finally through repeated turning and throwing, the bulk material leaking through the screen barrel enters the bulk material conveying mechanism 8, and the bulk material conveying mechanism 8 can adopt equipment suitable for conveying bulk material, such as a screw conveyor or a scraper, and convey the bulk material into a throwing port; the raw material packaging bags are conveyed to a waste bag throwing-out box 7 after being rolled for multiple times in the sieve barrel, thrown to the ground through an inclined sliding plate in the throwing-out box and manually cleaned and bundled.

The specific implementation process of this embodiment is as follows: when bagged feed raw materials for feed processing need to be broken and fed, firstly, trays stacked with the bagged feed raw materials are placed on a tray conveying mechanism 1, after the trays are conveyed by the tray conveying mechanism 1, the trays stacked with the bagged feed raw materials are conveyed to a turnover unstacking mechanism 2, after the trays stacked with the bagged feed raw materials are unstacked on the turnover unstacking mechanism 2, the bagged feed raw materials can be unfolded and conveyed to a bag breaking mechanism 5 under the action of a first differential conveying belt 3 and a second differential conveying belt 4, the bagged feed raw materials can be broken under the action of a cutting knife after entering the bag breaking mechanism 5, the broken feed raw materials can enter a rotary screening box 6 to be separated into bags, the separated waste bags are finally discharged from a waste bag feeding box 7, and the separated materials are finally conveyed to corresponding feed processing positions by a bulk material conveying mechanism 8, so that automatic bag breaking operation of the bagged feed raw materials is realized.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. The utility model provides a broken bag system of bagged raw materials suitable for feed factory which characterized in that: including tray conveying mechanism (1), upset mechanism of breaking a jam (2), broken bag mechanism (5) and bulk cargo conveying mechanism (8), tray conveying mechanism (1) one side is provided with empty tray recovery mechanism (9), empty tray recovery mechanism (9) top is provided with upset mechanism of breaking a jam (2), upset mechanism of breaking a jam (2) bottom one side is provided with first differential conveyer belt (3), first differential conveyer belt (3) are kept away from upset mechanism of breaking a jam (2) one side is installed second differential conveyer belt (4), install second differential conveyer belt (4) one side broken bag mechanism (5), broken bag mechanism of breaking a jam (5) bottom one side is installed rotary screen case (6), install rotary screen case (6) below bulk cargo conveying mechanism (8), a side wall mounting of rotary screen case (6) has the bag to throw out case (7).

2. The bagged raw material breaking system suitable for the feed mill as claimed in claim 1, wherein: tray conveying mechanism (1) adopts chain conveyor structure, tray conveying mechanism (1) discharge end with the pan feeding end alignment of upset mechanism of breaking a jam (2).

3. The bagged raw material breaking system suitable for the feed mill as claimed in claim 1, wherein: the conveying chain is installed to upset mechanism of breaking a jam (2) bottom, install the hydraulic stem on the digging arm of upset mechanism of breaking a jam (2), the conveyer belt of breaking a jam is installed to the fixed arm bottom of upset mechanism of breaking a jam (2).

4. The bagged raw material breaking system suitable for the feed mill as claimed in claim 3, wherein: the speed of the first differential conveyer belt (3) is greater than that of the overturning unstacking mechanism (2), and the speed of the second differential conveyer belt (4) is greater than that of the first differential conveyer belt (3).

5. The bagged raw material breaking system suitable for the feed mill as claimed in claim 1, wherein: the bag breaking mechanism (5) is of a rotary cutter type structure, and the discharge end of the bag breaking mechanism (5) is aligned with the feeding end of the rotary screening box (6).

6. The bagged raw material bag breaking system suitable for the feed mill as claimed in claim 1, wherein: the bulk conveying mechanism (8) is connected with the rotary screening box (6) through bolts, and the bulk conveying mechanism (8) adopts a spiral conveying structure.

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