CN213036952U - Silkworm dish tray separator for young silkworm breeding assembly line - Google Patents

Abstract

The utility model discloses a silkworm tray separator for a young silkworm breeding assembly line, which comprises a tray separating frame and a belt frame arranged at the inner side of the tray separating frame, wherein a pair of parallel tray separating conveyor belts arranged at intervals are arranged at the top of the belt frame in a rotating way, a material ejecting component positioned between the two tray separating conveyor belts is also arranged at the top of the belt frame, two material supporting components arranged in opposite directions are arranged on the tray separating frame, and the two material supporting components are positioned above two sides of the conveying line of the two tray separating conveyor belts and move in opposite directions or in a separated direction; the lifting adjustment of the material ejecting component is matched with the opposite or separated movement of the two material supporting components to sequentially separate a plurality of silkworm trays in a silkworm tray stack on the two tray conveyor belts from bottom to top and then convey the silkworm trays away through the two tray conveyor belts; compared with the prior art, the utility model, realized automation mechanized operation, improved work efficiency, the cost is reduced.

Description

Silkworm dish tray separator for young silkworm breeding assembly line

Technical Field

The utility model relates to a sericulture equipment technical field, concretely relates to little silkworm is bred for assembly line silkworm dish tray separator.

Background

Silkworm is a completely metamorphotic insect and passes through four development stages which are completely different in morphology and physiology, such as eggs, larvae, pupae, imagoes and the like in life. The eggs are the stages of embryogenesis, development and formation of larvae, the larvae are the growth stages for taking in food nutrition, the pupae are the metamorphosis stages for transition from larvae to adults, and the adults are the reproduction stages for mating, oviposition and reproduction of offspring.

The silkworm shell formed in the silkworm pupating process has a certain medicinal value, and is widely applied to the traditional Chinese medicine, so that the silkworm breeding can obtain a higher economic value; at present, silkworm trays are generally used as a silkworm breeding container, when workers transfer a plurality of silkworm trays from one area to another area to feed each silkworm tray, the silkworm trays are overlapped together to form a silkworm tray stack and then are placed on a trolley, then the trolley is moved to transfer the silkworm trays to a required area, the silkworm trays are sequentially separated from the top down, and then the silkworm trays are fed; in order to facilitate the taking of the silkworm tray by the workers, the four included angles at the bottom of the silkworm tray are fixedly connected with supporting legs, and an insertion interval which is convenient for taking the silkworm tray is formed between every two adjacent supporting legs.

At present, a plurality of silkworm trays in a silkworm tray stack are separated one by one in a manual mode, and the problems of low automation degree, low working efficiency and high labor cost are solved.

SUMMERY OF THE UTILITY MODEL

To the not enough that exists among the prior art, the utility model aims to provide a little silkworm is bred for assembly line silkworm dish tray separator to solve among the prior art, adopt artificial mode to separate a plurality of silkworm dishes in the silkworm dish stack, degree of automation is low, work efficiency is low and the cost of labor is high problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a silkworm tray separator for a young silkworm breeding assembly line comprises a tray separating frame and a belt frame arranged on the inner side of the tray separating frame, wherein a pair of parallel tray separating conveyor belts arranged at intervals are rotatably arranged at the top of the belt frame, a material ejecting assembly positioned between the two tray separating conveyor belts is further arranged at the top of the belt frame, two material supporting assemblies arranged in opposite directions are arranged on the tray separating frame, and the two material supporting assemblies are positioned above two sides of a conveying line of the two tray separating conveyor belts and move in opposite directions or in a separated direction; the lifting adjustment of the material ejecting component is matched with the opposite or separated movement of the two material supporting components to sequentially separate a plurality of silkworm trays in a silkworm tray stack on the two tray conveying belts from bottom to top and then convey the silkworm trays away through the two tray conveying belts.

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

placing the silkworm tray stack at the feeding end of two tray conveyor belts, operating the two tray conveyor belts, when conveying the silkworm tray stack to the upper part of a material ejecting component, operating the material ejecting component to eject the silkworm tray stack upwards to a certain height, moving the two material supporting components in opposite directions, inserting the lifting end parts of the two material supporting components below a penultimate silkworm tray at the bottom, so that the silkworm trays above the bottommost silkworm tray are all supported and supported, and descending the material ejecting component to place the silkworm tray at the bottommost part on the two tray conveyor belts for conveying away; the rear material ejecting component rises to a certain height again, the two material supporting components move away from each other, the supported silkworm trays are stacked and placed on the material ejecting component, the rear material ejecting component descends to a certain height, the two material supporting components move in opposite directions again, the supporting end parts of the two material supporting components are inserted below the penultimate silkworm tray at the bottom again, the silkworm trays above the bottommost silkworm tray are supported and supported, and the material ejecting component descends again to place the bottommost silkworm tray on the two branch tray conveying belts for carrying away; the liftout subassembly and two support material subassemblies above-mentioned motions of repetition then transport to required place on two minutes dish conveyer belts with a plurality of silkworm dishes one-to-one in the silkworm dish stack, and convenient and quick separates a plurality of silkworm dishes in the silkworm dish stack, has realized automation mechanized operation, has improved work efficiency, the cost is reduced.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

fig. 3 is a schematic structural diagram of the ejection assembly in fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments:

reference numerals in the drawings of the specification include: the automatic tray dividing device comprises a tray dividing rack 1, a belt rack 2, a tray dividing conveyor belt 3, a pneumatic bracket shield 4, a linear guide rail supporting plate 5, a linear slide rail 6, a supporting roller 7, a lifting cylinder 8, a lifting cylinder panel 9, a lifting cylinder bottom plate 10, a linear shaft 11, a left rack body 101, a right rack body 102, a top cross brace 103 and a lightening hole 12.

As shown in fig. 1, the embodiment of the utility model provides a silkworm tray separator for young silkworm breeding assembly line, including tray separator frame 1 and belt frame 2 that sets up at tray separator frame 1 inboard, belt frame 2 top is rotated and is provided with a pair of parallel and interval arrangement's tray separator belt 3, belt frame 2 top still is provided with the liftout subassembly that is located between two tray separator belt 3, be provided with the material supporting subassembly that two opposite directions were arranged on tray separator frame 1, two material supporting subassemblies are located the both sides top of the transport route of two tray separator belt 3 and carry out opposite direction or the motion that separates from each other; the lifting adjustment of the material ejecting component is matched with the opposite or separated movement of the two material supporting components to sequentially separate a plurality of silkworm trays in a silkworm tray stack on the two tray conveyor belts 3 from bottom to top and then convey the silkworm trays away through the two tray conveyor belts 3.

Placing a silkworm tray stack at the feeding end of the two-tray conveyor belt 3, operating the two-tray conveyor belt 3, when the silkworm tray stack is conveyed to the position above the material ejecting assembly, operating the material ejecting assembly to eject the silkworm tray stack upwards to a certain height, moving the two material supporting assemblies in opposite directions, inserting the lifting end parts of the two material supporting assemblies below a penultimate silkworm tray at the bottom, so that the silkworm trays above the bottommost silkworm tray are all supported and supported, and descending the material ejecting assembly to place the bottommost silkworm tray on the two-tray conveyor belt 3 for conveying; the rear liftout component rises to a certain height again, the two material supporting components move away from each other, the supported silkworm trays are stacked and placed on the liftout component, the rear liftout component descends to a certain height, the two material supporting components move in opposite directions again, the supporting end parts of the two material supporting components are inserted below the penultimate silkworm tray at the bottom again, the silkworm trays above the bottommost silkworm tray are supported and supported, and the liftout component descends to place the bottommost silkworm tray on the two branch tray conveyor belts 3 again for transportation; the repeated above-mentioned motion of liftout subassembly and two support material subassemblies then place a plurality of silkworm dishes one-by-one in the silkworm dish stack and transport to required place on two minutes dish conveyer belts 3, convenient and quick a plurality of silkworm dishes with in the silkworm dish stack separate.

Fig. 1 combines fig. 2 to show, according to the utility model discloses an another embodiment, a little silkworm is bred silkworm dish tray separator for assembly line, still include to holding in the palm the structural optimization of material subassembly, the same and symmetrical arrangement of two support material subassembly structures of adoption, every holds in the palm the material subassembly and all includes the fixed pneumatic bracket guard shield 4 that sets up in tray separator frame 1, and pneumatic bracket guard shield 4 is close to one side of two tray conveyer belts 3 and is the opening, slides in the pneumatic bracket guard shield 4 and is provided with linear guide layer board 5, and linear guide layer board 5 in the two support material subassemblies slides in opposite directions or from each other.

The linear guide rail supporting plate 5 is protected and supported by a pneumatic bracket shield 4, and the linear guide rail supporting plate 5 can be driven to move by an air cylinder; the two linear guide rail supporting plates 5 move oppositely to enable the supporting end parts of the two linear guide rail supporting plates 5 to be inserted into the insertion interval at the bottom of the silkworm tray, so that the silkworm tray can be supported, and the two material supporting assemblies move away from each other to support the silkworm tray and place the silkworm tray on the material ejecting assembly.

Wherein, the pneumatic bracket guard shield 4 internal fixation that adopts is provided with a pair of linear slide rail 6 of arranging perpendicularly with two pallet conveyor 3's transfer chain direction, and the joint that all slides on every linear slide rail 6 has the linear bearing who links to each other with linear guide layer board 5 bottom is fixed, rotates on the pallet frame 1 and is provided with a plurality of supporting rollers 7, and a plurality of supporting rollers 7 all slide with linear guide layer board 5 bottom that is close to pallet conveyor 3 one side and offset.

The linear guide rail and the linear bearing are matched to further support the movement of the linear guide rail supporting plate 5, and meanwhile, the movement of the linear guide rail supporting plate 5 is guided; and the arrangement of a plurality of supporting rollers 7 is used for improving the supporting strength of the linear guide rail supporting plate 5 when the silkworm tray is supported.

With reference to fig. 1 and 3, according to another embodiment of the present invention, the silkworm tray separating machine for the young silkworm breeding assembly line further comprises structure optimization of the liftout assembly, the adopted liftout assembly comprises a lifting cylinder 8 fixedly arranged on the tray separating frame 1 and a lifting cylinder panel 9 connected to a piston rod at the top of the lifting cylinder 8, and the lifting cylinder panel 9 is positioned between the two tray conveying belts 3 for lifting; the lifting cylinder panel 9 is adjusted in the tray dividing rack 1 through the telescopic adjustment of the lifting cylinder 8, the lifting cylinder panel 9 jacks up the silkworm tray stacks on the two tray conveying belts 3, so that the silkworm tray stacks are adjusted in a lifting mode along with the lifting cylinder panel 9, and a plurality of silkworm trays in the silkworm tray stacks are sequentially separated from bottom to top through the two tray conveying belts 3 by matching with the opposite or separated movement of the two linear guide rail supporting plates 5.

In order to improve the stability and the moving accuracy of the lifting cylinder panel 9 in the lifting adjusting process, a lifting cylinder bottom plate 10 located below the lifting cylinder panel 9 is fixedly sleeved on the outer wall of the lifting cylinder 8, a plurality of linear shafts 11 connected with the lifting cylinder bottom plate 10 in a sliding mode are fixedly connected to the bottom surface of the lifting cylinder panel 9, the plurality of linear shafts 11 are circumferentially and uniformly distributed on the outer side of the lifting cylinder 8, and the moving directions of the plurality of linear shafts 11 are consistent with the extending and retracting directions of piston rods of the lifting cylinder 8.

The stability of the lifting cylinder panel 9 in the lifting process is improved through the matching of the lifting cylinder bottom plate 10 and the plurality of linear shafts 11, and meanwhile, the lifting adjustment of the lifting cylinder panel 9 is guided through the movement of the plurality of linear shafts 11, so that the movement precision of the lifting cylinder panel 9 in the lifting process is improved.

As shown in figure 1, according to the utility model discloses a another embodiment, a little silkworm is bred for assembly line silkworm dish machine of dividing dish, still include to link to each other through belt drive main shaft between two set of conveyer belts 3, belt drive main shaft is located the below position between two set of conveyer belts 3 and belt drive main shaft and belt frame 2 rotate and link to each other.

The belt driving main shaft can be driven by a motor to rotate so as to enable the two tray conveyor belts 3 to run synchronously, and the two tray conveyor belts 3 can stably transport silkworm trays.

As shown in fig. 1, according to the utility model discloses a another embodiment, a little silkworm is bred for assembly line silkworm dish and divides dish machine, still include to the configuration optimization of minute dish frame 1, the minute dish frame 1 of adoption includes left support body 101 and right support body 102 of arranging in two minute dish conveyer belt 3's conveying route both sides, and left support body 101 and right support body 102 top link to each other through many top stulls 103, and the downside of left support body 101 and right support body 102 links to each other through many bottom stulls, and many bottom stulls are located two minute dish conveyer belts 3 below.

The arrangement mode of the left frame body 101 and the right frame body 102 leaves a space for installing structures such as two-pallet conveyor belt 3, and the plurality of top cross braces 103 and the plurality of bottom cross braces connect the left frame body 101 and the right frame body 102 into a whole, so that the structural strength of the pallet separating frame 1 is improved.

As shown in fig. 3, according to the utility model discloses a another embodiment, a little silkworm is bred for assembly line silkworm dish pallet splitter still includes and has seted up a plurality of lightening holes 12 on lift cylinder panel 9, comes the weight that alleviates lift cylinder panel 9 through lightening hole 12 and does not influence the support intensity of lift cylinder panel 9 in the jacking.

When the device is operated, a silkworm tray stack is placed at the feeding end of the two-tray conveyor belt 3, the two-tray conveyor belt 3 operates, when the silkworm tray stack is conveyed to the position above the lifting cylinder panel 9, the lifting cylinder 8 operates to jack the silkworm tray stack upwards to a certain height, the two linear guide rail support plates 5 move oppositely, the lifting end parts of the two linear guide rail support plates 5 are inserted into the position below the penultimate silkworm tray at the bottom, so that the silkworm trays above the bottommost silkworm tray are all supported, and the lifting cylinder 8 contracts to enable the bottommost silkworm tray to be placed on the two-tray conveyor belt 3 for conveying; the rear lifting cylinder 8 extends again to enable the lifting cylinder panel 9 to rise to a certain height again to be in contact with the bottom of the silkworm plate stack, the two linear guide rail support plates 5 move away from each other, the supported silkworm plate stack is placed on the lifting cylinder panel 9, the rear lifting cylinder 8 contracts to a certain length, the lifting cylinder panel 9 drives the silkworm plate stack to fall to a certain height, the two linear guide rail support plates 5 move in opposite directions again, the lifting end portions of the two linear guide rail support plates 5 are inserted below the penultimate silkworm plate at the bottom again, then the silkworm plates above the bottommost silkworm plate are all supported and supported, and the lifting cylinder 8 contracts again to enable the lifting cylinder panel 9 to drive the bottommost silkworm plate to move downwards and then to be placed on the two tray conveyor belts 3 to be transported away; the lifting cylinder 8 and the two linear guide supporting plates 5 repeat the above movement, and then a plurality of silkworm trays in the silkworm tray stack are orderly placed on the two branch disc conveying belts 3 one by one to be conveyed to a required place, so that the silkworm trays in the silkworm tray stack can be conveniently and quickly separated.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (8)

1. A silkworm tray dividing machine for a young silkworm breeding assembly line is characterized by comprising a tray dividing machine frame and a belt machine frame arranged on the inner side of the tray dividing machine frame, wherein a pair of parallel tray dividing conveyor belts arranged at intervals are rotatably arranged at the top of the belt machine frame, a material ejecting assembly positioned between the two tray dividing conveyor belts is further arranged at the top of the belt machine frame, two material supporting assemblies arranged in opposite directions are arranged on the tray dividing machine frame, and the two material supporting assemblies are positioned above two sides of a conveying line of the two tray dividing conveyor belts and move in opposite directions or in a separated direction; the lifting adjustment of the material ejecting component is matched with the opposite or separated movement of the two material supporting components to sequentially separate a plurality of silkworm trays in a silkworm tray stack on the two tray conveying belts from bottom to top and then convey the silkworm trays away through the two tray conveying belts.

2. The silkworm tray separator for the young silkworm breeding assembly line according to claim 1, wherein: the two material supporting assemblies are identical in structure and are symmetrically arranged, each material supporting assembly comprises a pneumatic bracket shield fixedly arranged on the tray dividing rack, one side, close to the two tray dividing conveyor belts, of each pneumatic bracket shield is provided with an opening, linear guide rail supporting plates are slidably arranged in the pneumatic bracket shields, and the linear guide rail supporting plates in the two material supporting assemblies slide in opposite directions or in a separated mode.

3. The silkworm tray separator for the young silkworm breeding assembly line according to claim 2, wherein: the pneumatic bracket guard shield internal fixation is provided with a pair of linear slide rail of arranging perpendicularly with the transfer chain direction of two minutes set conveyer belts, and the joint that all slides on every linear slide rail has the linear bearing who links to each other with linear guide layer board bottom is fixed, rotates in the minute set frame and is provided with a plurality of supporting rollers, and a plurality of supporting rollers all slide with the bottom that linear guide layer board is close to minute set conveyer belt one side and offset.

4. The silkworm tray dividing machine for the young silkworm breeding assembly line according to any one of claims 1 to 3, wherein: the liftout subassembly is including fixed the lift cylinder that sets up in the depiler frame and connect the lift cylinder panel on the piston rod at lift cylinder top, and the lift cylinder panel is located and goes up and down between the bipartition dish conveyer belt.

5. The silkworm tray separator for the young silkworm breeding assembly line according to claim 4, wherein: the fixed cover is equipped with the lift cylinder bottom plate that is located lift cylinder panel below on the lift cylinder outer wall, and lift cylinder panel bottom surface fixedly connected with a plurality of straight line axles that slide and link to each other with lift cylinder bottom plate, a plurality of straight line axle circumference equipartitions are in the outside of lift cylinder, and the moving direction of a plurality of straight line axles all is unanimous with the flexible direction of piston rod of lift cylinder.

6. The silkworm tray dividing machine for the young silkworm breeding assembly line according to any one of claims 1 to 3, wherein: the two branch plate conveyor belts are connected through a belt driving main shaft, the belt driving main shaft is located at the lower position between the two branch plate conveyor belts, and the belt driving main shaft is connected with the belt rack in a rotating mode.

7. The silkworm tray dividing machine for the young silkworm breeding assembly line according to any one of claims 1 to 3, wherein: the branch dish frame includes left support body and the right support body that arranges in the transfer line both sides of two branch dish conveyer belts, and left support body and right support body top link to each other through many top studdles, and the downside of left support body and right support body links to each other through many bottom studdles, and many bottom studdles are located two branch dish conveyer belts below.

8. The silkworm tray separator for the young silkworm breeding assembly line according to claim 4, wherein: a plurality of lightening holes are formed in the lifting cylinder panel.

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