CN220641398U - Discharging mechanism of vibration feeder - Google Patents

Abstract

The utility model discloses a blanking mechanism of a vibrating feeder, which comprises a base; the base is used for supporting the mechanism element and is provided with a vibration assembly, a shunt blanking assembly and a receiving assembly; the utility model relates to the technical field of blanking of a vibration feeder, which has the following beneficial effects: the material that the present case can be with different granule sizes shunts through the unloading subassembly that falls, later carries the material that the granule size is unanimous to corresponding equipment in through receiving material subassembly respectively to guarantee the adaptability of receiving material equipment to the material, follow the assurance and utilize the stability of material.

Description

Discharging mechanism of vibration feeder

Technical Field

The utility model relates to the technical field of blanking of vibrating feeders, in particular to a blanking mechanism of a vibrating feeder.

Background

The vibration feeder is a device which can uniformly, regularly and continuously feed the block-shaped and granular materials into the receiving device from the storage bin, but the materials conveyed by the device are generally uneven in particle size, and the materials are easy to cause poor utilization rate of the corresponding devices to the materials after being added into the corresponding processing devices, so that the service life of the devices is influenced, and a novel vibration feeder blanking mechanism is designed for preventing the problems.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a blanking mechanism of a vibration feeder comprises a base; the base is used for supporting the device element and is provided with a vibration assembly, a shunt blanking assembly and a receiving assembly;

wherein, vibrations subassembly includes: the device comprises a telescopic rod, a supporting spring, a supporting plate, an equipment rack and a vibration motor;

the support plate is arranged at the bottom of the equipment rack, the telescopic rod is arranged between the base and the support plate, the support spring is sleeved on the telescopic rod, the vibration motor is arranged on the equipment rack, and vibration can be provided when the device is used for discharging.

Preferably, universal wheels are arranged below the base.

Preferably, the shunt blanking component comprises: screening plates, screen holes, upper sliding plates, lower sliding plates and a discharging hopper;

the screening board is installed on the equipment rack and is obliquely arranged, the upper sliding plate is installed on the equipment rack and is connected with the screening board and is obliquely arranged, the lower sliding plate is installed below the screening board on the equipment rack and is obliquely arranged, the lower hopper is installed on the equipment rack and is arranged at the front ends of the upper sliding plate and the lower sliding plate, and powdery and block-mounted materials can be respectively collected through the assembly.

Preferably, the material receiving assembly includes: the device comprises a slideway, a sliding rail, a movable frame, a limiting frame, a locking groove, an electric push rod and a clamping frame;

the slide way is arranged on the clamping plate, the slide rail is connected below the movable frame and inserted into the sliding, the limiting frame is arranged on the base, the locking groove is arranged in the base, the electric push rod is arranged in the locking groove, and the clamping frame is arranged in the locking groove and connected with the telescopic end of the electric push rod below the locking groove, so that materials can be conveniently and rapidly collected through the assembly.

Preferably, the equipment rack is provided with a controller.

Advantageous effects

This unloading mechanism of vibrations batcher possesses following beneficial effect:

the material that the present case can be with different granule sizes shunts through the unloading subassembly that falls, later carries the material that the granule size is unanimous to corresponding equipment in through receiving material subassembly respectively to guarantee the adaptability of receiving material equipment to the material, follow the assurance and utilize the stability of material.

Drawings

Fig. 1 is a schematic side view of a blanking mechanism of a vibratory feeder according to the present utility model.

Fig. 2 is a schematic side sectional structure of a blanking mechanism of a vibratory feeder according to the present utility model.

Fig. 3 is a schematic view of a three-dimensional appearance structure of a shunt blanking assembly of a blanking mechanism of a vibration feeder.

Fig. 4 is an enlarged schematic view of a part of a receiving component of a discharging mechanism of a vibratory feeder according to the present utility model.

In the figure: 1. a base; 2. a telescopic rod; 3. a support spring; 4. a support plate; 5. an equipment rack; 6. a vibration motor; 7. a screening plate; 8. a sieve pore; 9. an upper slide plate; 10. a lower slide plate; 11. discharging a hopper; 12. a slideway; 13. a slide rail; 14. a moving rack; 15. a limiting frame; 16. a locking groove; 17. an electric push rod; 18. a clamping frame;

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution.

A blanking mechanism of a vibration feeder comprises a base 1; the base 1 is used for supporting a mechanism element, and a vibration assembly, a shunt blanking assembly and a receiving assembly are arranged on the base 1;

wherein, vibrations subassembly includes: a telescopic rod 2, a supporting spring 3, a supporting plate 4, an equipment rack 5 and a vibration motor 6;

the support plate 4 is arranged at the bottom of the equipment frame 5, the telescopic rod 2 is arranged between the base 1 and the support plate 4, the support spring 3 is sleeved on the telescopic rod 2, and the vibration motor 6 is arranged on the equipment frame 5.

During the blanking operation, the vibration motor 6 starts vibrating, and then the telescopic rod 2 starts to move in a telescopic manner by the support of the support spring 3, so that the equipment rack 5 achieves a vibration effect.

Preferably, a universal wheel is arranged below the base 1.

It should be noted that the universal wheel is used for facilitating the moving mechanism.

Preferably, still further, the split-flow blanking assembly includes: screening plate 7, screen mesh 8, upper slide plate 9, lower slide plate 10 and lower hopper 11;

the screening plate 7 is installed on the equipment rack 5 and is obliquely arranged, the upper sliding plate 9 is installed on the equipment rack 5 and is connected with the screening plate 7 and is obliquely arranged, the lower sliding plate 10 is installed below the screening plate 7 on the equipment rack 5 and is obliquely arranged, and the lower hopper 11 is installed on the equipment rack 5 and is arranged at the front ends of the upper sliding plate 9 and the lower sliding plate 10.

After the material is poured into the equipment rack 5, the material is dropped onto the sieving plate 7, the small-particle material is sieved onto the inclined lower slide plate 10 through the sieve holes 8 on the sieving plate 7, the small-particle material is conveyed into the lower hopper 11 along with the vibration of the mechanism to be conveniently collected, and the large-block material left on the sieving plate 7 also slides into the corresponding lower hopper 11 along with the inclined upper slide plate 9, so that the classification conveying is completed.

Preferably, still further, the material receiving assembly includes: slide rail 12, slide rail 13, movable frame 14, limit frame 15, locking groove 16, electric push rod 17 and clamping frame 18;

the slide rail 12 is arranged on a clamping plate, the slide rail 13 is connected below the movable frame 14 and is inserted into the sliding, the limiting frame 15 is arranged on the base 1, the locking groove 16 is arranged in the base 1, the electric push rod 17 is arranged in the locking groove 16, and the clamping frame 18 is arranged in the locking groove 16 and is connected with the telescopic end of the electric push rod 17 below.

Before the material is received, the movable frame 14 is inserted into the slideway 12 through the bottom sliding rail 13, the material receiving device is placed on the movable frame 14, then the movable frame 14 and the upper material receiving device are clamped by starting the electric push rod 17 to push the clamping frame 18 to extend out of the locking groove 16, so that the movable frame 14 drives the upper material receiving device to shake during collection, then the upper material receiving device slides down the base 1 on the slideway 12, after the material falls out from the lower hopper 11 and enters the collection box, the clamping frame 18 can be retracted into the locking groove 16 through the electric push rod 17, and then the movable frame 14 can drive the upper device to be pulled out from the slideway 12 on the base 1.

Preferably, further, a controller is provided on the equipment rack 5.

It should be noted that the controller is used to facilitate the control of the electrically powered components within the mechanism.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. A blanking mechanism of a vibration feeder comprises a base; the base is used for supporting the mechanism element and is characterized in that a vibration assembly, a shunt blanking assembly and a receiving assembly are arranged on the base;

wherein, vibrations subassembly includes: the device comprises a telescopic rod, a supporting spring, a supporting plate, an equipment rack and a vibration motor;

the support plate is arranged at the bottom of the equipment frame, the telescopic rod is arranged between the base and the support plate, the support spring is sleeved on the telescopic rod, and the vibration motor is arranged on the equipment frame.

2. The blanking mechanism of a vibratory feeder of claim 1, wherein a universal wheel is provided below the base.

3. The blanking mechanism of a vibratory feeder of claim 1, wherein the split blanking assembly includes: screening plates, screen holes, upper sliding plates, lower sliding plates and a discharging hopper;

the screening plate is installed on the equipment rack and is obliquely arranged, the upper sliding plate is installed on the equipment rack and is connected with the screening plate and is obliquely arranged, the lower sliding plate is installed below the screening plate on the equipment rack and is obliquely arranged, and the lower hopper is installed on the equipment rack and is arranged at the front ends of the upper sliding plate and the lower sliding plate.

4. The blanking mechanism of a vibratory feeder of claim 1, wherein the receiving assembly includes: the device comprises a slideway, a sliding rail, a movable frame, a limiting frame, a locking groove, an electric push rod and a clamping frame;

the slide way is arranged on the clamping plate, the slide rail is connected below the movable frame and inserted into the sliding, the limiting frame is arranged on the base, the locking groove is arranged in the base, the electric push rod is arranged in the locking groove, and the clamping frame is arranged in the locking groove and connected with the telescopic end of the electric push rod below.

5. The blanking mechanism of a vibratory feeder of claim 1, wherein the equipment rack is provided with a controller.