CN214766766U - Multilayer filtering vibration screening machine for screening yellow mealworms - Google Patents

Abstract

The utility model relates to the field of screening machines, in particular to a multilayer filtering vibration screening machine for screening yellow mealworms, which comprises a frame, and further comprises a mounting frame, a filtering component, a screen, a discharge chute, a leak-proof plate and a baffle plate, wherein the two ends of the mounting frame are respectively provided with a feed end and a discharge end, the mounting frame is arranged on the frame in a downward inclined manner, and the filtering component is fixed on the mounting frame; the filter assembly comprises a screen mesh, a discharge chute, a leakage-proof plate, a first baffle plate, a second baffle plate, the screen mesh comprises an upper screen mesh, a middle screen mesh, a lower screen mesh, and parallel intervals are arranged on the mounting frame from top to bottom, the discharge chutes are connected with the screen meshes of all the layers, the first baffle plate is connected with the discharge chute and is connected with the mounting frame, the first baffle plate is connected with the discharge chute and is arranged on the upper screen mesh, the second baffle plate is connected with the discharge chute and is arranged on the middle screen mesh, the leakage-proof plate is arranged at the end part of the upper screen mesh, the edge of the leakage-proof plate corresponds to the baffle plate of the middle screen mesh, and the screening material is prevented from directly leaking into the lower screen mesh from the upper screen mesh.

Description

Multilayer filtering vibration screening machine for screening yellow mealworms

Technical Field

The utility model relates to a screening machine field, in particular to a multiple-layer filtering vibration screening machine for screening yellow mealworms.

Background

The prior quasipaa spinosa breeding method is to breed the quasipaa spinosa as the feed, but the space for cultivating the quasipaa spinosa contains the quasipaa spinosa, food for the quasipaa spinosa, excrement of the quasipaa spinosa and the like, when the quasipaa spinosa needs to be separately extracted, because the breeding space has a plurality of sundries and needs to be manually picked, the operation is very troublesome, the time is wasted, and the working efficiency is low, so that equipment capable of improving the efficiency of extracting the quasipaa spinosa needs to be designed.

SUMMERY OF THE UTILITY MODEL

For overcoming the defects in the prior art, the utility model provides a multi-layer filtering vibrating screen machine for screening yellow mealworms.

In order to achieve the above object, the utility model adopts the following technical scheme: a multilayer filtering vibration screening machine for screening yellow mealworms comprises a rack, a mounting frame, a filtering assembly, a screen, a discharge chute, a leakage-proof plate and a material baffle plate, wherein a feeding end and a discharge end are respectively arranged at two ends of the mounting frame; the filter assembly comprises a screen, a discharge chute, a leakage-proof plate, a first baffle plate and a second baffle plate, wherein the screen comprises an upper screen, a middle screen and a lower screen, the upper screen and the lower screen are arranged on a mounting frame at intervals parallel to each other from top to bottom, the discharge chutes are connected with the screen, the discharge chutes on different layers are arranged along different directions of the mounting frame, the first baffle plate is connected with the discharge chute and connected with the mounting frame, the first baffle plate is arranged on the upper screen, the second baffle plate is connected with the discharge chute and connected with the mounting frame, the second baffle plate is arranged on the middle screen, the leakage-proof plate is arranged at the end part of the upper screen and connected with the discharge chute, the edge of the leakage-proof plate corresponds to the baffle plate of the middle screen, a leakage-proof area is formed, and the screening material is prevented from directly leaking into the lower screen from the upper screen.

Further, the meshes are arranged on the screens, the meshes of the upper layer screen are larger than those of the middle layer screen, and the meshes of the middle layer screen are larger than those of the lower layer screen.

Further, the blown down tank is equipped with threely, including first blown down tank, second blown down tank, third blown down tank, the export direction of first blown down tank sets up towards mounting bracket one side, the export direction of second blown down tank sets up towards the mounting bracket opposite side, the export direction of third blown down tank sets up towards mounting bracket length direction.

Furthermore, a spring is arranged between the mounting rack and the rack.

Further, still include the funnel device, the funnel device includes funnel, a plurality of connecting rod, the connecting rod frame is fixed and is located the mounting bracket both sides, the feed end top is located through the connecting rod to the funnel.

Furthermore, the vibration motor is arranged on one side of the mounting frame and drives the mounting frame to vibrate.

Furthermore, the material receiving device also comprises material receiving barrels, and the material receiving barrels are arranged below the discharge chutes.

As can be seen from the above description of the present invention, compared with the prior art, the multi-layer filtering vibrating screen machine for screening yellow mealworms provided by the present invention has the function of facilitating the filtering screen to separate yellow mealworms; the discharge chutes are arranged and face different directions so as to prevent mutual influence when the screens discharge materials; the material baffle and the leakage-proof plate are arranged to prevent the screened material of each layer from leaking and leaking to other layers of screen meshes, so that the screening effect can be better ensured under the condition of distinguishing the discharge chutes; the spring is arranged to buffer the mounting frame when the mounting frame vibrates.

Drawings

Figure 1 is the utility model discloses a multilayer filters vibration screening machine for sieving yellow mealworm structural sketch map.

Figure 2 is the utility model discloses a half section structure sketch map of a multi-layer filtering vibration screening machine for sieving yellow mealworm.

Figure 3 is the utility model discloses a multilayer filters vibration screening machine screening material discharge structure sketch map for screening yellow mealworm.

The labels in the figure correspond to the following: 1. the automatic filter comprises a frame, 11 springs, 12 vibrating motors, 2 mounting frames, 21 feeding ends, 22 discharging ends, 3 filter assemblies, 31 screens, 311 upper screens, 312 middle screens, 313 lower screens, 32 discharging grooves, 321 first discharging grooves, 322 second discharging grooves, 323 third discharging grooves, 33 leakage-proof plates, 34 first material-blocking plates, 35 second material-blocking plates, 36 meshes, 4 funnel devices, 41 funnels, 42 connecting rods and 5 material-receiving buckets.

Detailed Description

The present invention will be further described with reference to the following detailed description.

Referring to fig. 1 to 3, the multi-layer filtering vibration screening machine for screening yellow mealworms comprises a frame 1, a mounting frame 2, a filtering assembly 3, a funnel 41 device 4 and a material receiving barrel 5.

2 both ends of mounting bracket are equipped with feed end 21 and discharge end 22 respectively, 2 downward sloping erects in the frame 1 on, forms feed end 21 and is higher than discharge end 22, filtering component 3 is fixed in on the mounting bracket 2, be equipped with spring 11 between mounting bracket 2 and the frame 1, the effect of buffering vibration.

The filtering component 3 comprises a screen 31, a discharge chute 32, a leakage-proof plate 33, a first material baffle plate 34 and a second material baffle plate 35, the screen comprises an upper screen 311, a middle screen 312 and a lower screen 313, the upper screen is arranged on the mounting frame 2 at intervals in parallel from top to bottom, the discharge chute 32 is connected with the screen 31, the discharge chutes 32 on different layers are arranged along different directions of the mounting frame 2, the first material baffle plate 34 is connected with the discharge chute and is arranged on the upper screen 311 and connected with the mounting frame 2, the second material baffle plate 35 is connected with the discharge chute and is arranged on the middle screen 312 and connected with the mounting frame 2, the leakage-proof plate 33 is arranged at the end part of the upper screen 311 and is connected with the discharge chute, the edge of the leakage-proof plate 33 corresponds to the material baffle plate of the middle screen 312 to form a leakage-proof area, and the screening material is prevented from directly leaking into the lower screen 313 from the upper screen 311. Because the second discharging chute 322 and the second baffle 35 provided by the middle screen 312 are provided, if the screened material of the upper screen 311 moves to the leakage-proof area without the leakage-proof plate 33, the screened material will directly fall into the lower screen 313 through the middle screen 312, and then fall into the third discharging chute 323, thereby affecting the screening effect; the installation of a leakage preventing plate 33 serves to prevent the screened material of the upper screen 311 from falling into the lower screen 313.

The meshes 36 are arranged on the screens, the meshes 36 of the upper screen 311 are larger than the meshes 36 of the middle screen 312, the meshes 36 of the middle screen 312 are larger than the meshes 36 of the lower screen 313, and the screens are arranged according to the thickness of the screened material; the blown down tank is equipped with threely, including first blown down tank 321, second blown down tank 322, third blown down tank 323, the export direction of first blown down tank 321 sets up towards mounting bracket 2 one side, the export direction of second blown down tank 322 sets up towards mounting bracket 2 opposite side, the export direction of third blown down tank 323 sets up towards mounting bracket 2 length direction, and through the cooperation with the screen cloth, upper screen cloth 311 sieves the material thickness degree and is greater than middle level screen cloth 312 and is greater than lower floor's screen cloth 313. The material receiving barrel is characterized by further comprising material receiving barrels 5, the material receiving barrels 5 are arranged below the discharge chutes, one discharge chute corresponds to one material receiving barrel 5, the screened materials of the lower-layer screen 313 are discharged into the material receiving barrel 5 through the third discharge chute 323, and the rest screened materials are discharged to the bottom of the rack 1.

Funnel 41 device 4, funnel 41 device 4 includes funnel 41, a plurality of connecting rod 42, connecting rod 42 erects the fixed mounting bracket 2 both sides of locating, funnel 41 locates feed end 21 top through connecting rod 42 for the material is thrown in the screening. The vibration motor 12 is arranged on one side of the mounting frame 2 and drives the mounting frame 2 to vibrate, and the material is sieved through vibration driving and moves forward to perform sieving action.

The multilayer filtering vibration screening machine for screening the yellow mealworms has the following working principle:

in the installation process, the installation frame 2 is obliquely and downwards erected on the rack 1, the three layers of screen meshes 31 are fixed on the installation frame 2 at intervals in an up-down parallel mode and are arranged downwards according to the mesh openings 36 from large to small; the first discharging chute 321 is arranged at the tail part of the upper-layer screen 311, the outlet of the first discharging chute 321 faces one side of the mounting frame 2, the outlet of the second discharging chute 322 faces one side of the mounting frame 2, an upper leakage-proof plate 33 is arranged at the position, close to the first discharging chute 321, of the upper-layer screen 311, a third discharging chute 323 is arranged at the tail part of the lower-layer screen 313, and the outlet direction of the third discharging chute 323 faces the length direction of the mounting frame 2; the hopper 41 device 4 is arranged for feeding materials;

in the using process, the vibration motor 12 is started, materials to be screened are put into the hopper 41, the materials enter the upper-layer screen 311 and are shaken towards the discharging groove direction through vibration once, the materials which can pass through the meshes 36 of the upper-layer screen 311 fall into the middle-layer screen 312 to be screened, then fall into the lower-layer screen 313 to be screened finally, the screened materials of the upper-layer screen 311 are discharged from the first discharging groove 321, the screened materials of the middle-layer screen 312 are discharged from the second discharging groove 322, one part of the screened materials of the lower-layer screen 313 are discharged from the third discharging groove 323, one part of the screened materials directly fall into the bottom of the rack 1 through the meshes 36, and the screened materials of each layer are respectively discharged into different material receiving buckets 5. The working efficiency is improved, and the problem of picking yellow mealworms by manual labor is solved.

The above-mentioned only be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and all utilize this design right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (7)

1. The utility model provides a multiple-deck filtration vibration screening machine for sieving yellow mealworm, includes the frame, its characterized in that: the filter also comprises a mounting rack and a filter assembly;

the two ends of the mounting frame are respectively provided with a feeding end and a discharging end, the mounting frame is arranged on the rack in a downward inclined mode to form a feeding end higher than the discharging end, and the filtering component is fixed on the mounting frame;

the filter assembly comprises a screen, a discharge chute, a leakage-proof plate, a first baffle plate and a second baffle plate, wherein the screen comprises an upper screen, a middle screen and a lower screen, the upper screen and the lower screen are arranged on a mounting frame at intervals parallel to each other from top to bottom, the discharge chutes are connected with the screen, the discharge chutes on different layers are arranged along different directions of the mounting frame, the first baffle plate is connected with the discharge chute and connected with the mounting frame, the first baffle plate is arranged on the upper screen, the second baffle plate is connected with the discharge chute and connected with the mounting frame, the second baffle plate is arranged on the middle screen, the leakage-proof plate is arranged at the end part of the upper screen and connected with the discharge chute, the edge of the leakage-proof plate corresponds to the baffle plate of the middle screen, a leakage-proof area is formed, and the screening material is prevented from directly leaking into the lower screen from the upper screen.

2. The multi-layered filtering vibratory screen machine for screening yellow mealworms as claimed in claim 1, wherein: the screen meshes are arranged on the screen meshes, the mesh of the upper layer screen mesh is larger than that of the middle layer screen mesh, and the mesh of the middle layer screen mesh is larger than that of the lower layer screen mesh.

3. The multi-layered filtering vibratory screen machine for screening yellow mealworms as claimed in claim 1, wherein: the blown down tank is equipped with threely, including first blown down tank, second blown down tank, third blown down tank, the export direction of first blown down tank sets up towards mounting bracket one side, the export direction of second blown down tank sets up towards the mounting bracket opposite side, the export direction of third blown down tank sets up towards mounting bracket length direction.

4. The multi-layered filtering vibratory screen machine for screening yellow mealworms as claimed in claim 1, wherein: and a spring is arranged between the mounting frame and the rack.

5. The multi-layered filtering vibratory screen machine for screening yellow mealworms as claimed in claim 1, wherein: still include funnel device, funnel device includes funnel, a plurality of connecting rod, the connecting rod erects the fixed mounting bracket both sides of locating, the feed end top is located through the connecting rod to the funnel.

6. The multi-layered filtering vibratory screen machine for screening yellow mealworms as claimed in claim 1, wherein: still include vibrating motor, vibrating motor locates mounting bracket one side drive mounting bracket and produces the vibration.

7. The multi-layered filtering vibratory screen machine for screening yellow mealworms as claimed in claim 1, wherein: the material receiving barrel is arranged below each discharge chute.

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