CN218931114U - Eccentric vibration reason material machine - Google Patents

Abstract

The utility model discloses an eccentric vibration material arranging machine, which comprises a frame, an eccentric mechanism, a guide trough and a differential mechanism, wherein the eccentric mechanism is arranged on the frame; the eccentric mechanism comprises a motor, a belt, an eccentric wheel and a pull rod, and is connected with the guide trough through the pull rod and drives the guide trough to do swinging motion through the eccentric wheel; the guide trough comprises a trough, a material blocking sweeping wheel, a guide trough and a guard plate, materials in the trough are paved through the material blocking sweeping wheel to avoid overlapping, and the materials are separated into a plurality of rows to be conveyed forwards through the guide trough and the guard plate; the differential mechanism receives the materials conveyed out from the guide trough and pulls the distance between the materials.

Description

Eccentric vibration reason material machine

Technical Field

The utility model belongs to the technical field of packaging mechanical equipment, and particularly relates to an eccentric vibration material arranging machine.

Background

The quality requirements of the current market on snacks are higher, and X-ray machine detection is needed to be carried out on each snack bag to detect whether the snack bags are clamped and leaked; it is necessary to ensure that each pack does not overlap when performing the X-ray detection.

The existing material arranging equipment can only arrange materials neatly, and cannot exclude the situation that the materials overlap. For example, the utility model patent (CN 202121811475.0 is a high-speed double-channel unordered material sorting machine) uses a plurality of motors to drive rollers to pull materials apart to sort materials, and the structure is complicated to control, the equipment is huge, the price is high, and the maintenance is inconvenient; and overlap of materials cannot be avoided.

Disclosure of Invention

The utility model aims to provide an eccentric vibration material arranging machine capable of enabling materials not to overlap.

The eccentric vibration material arranging machine comprises a frame, an eccentric mechanism, a guide trough and a differential mechanism; the eccentric mechanism and the guide trough are arranged on the frame; the eccentric mechanism comprises a motor, a belt, an eccentric wheel and a pull rod, and is connected with the guide trough through the pull rod and drives the guide trough to do swinging motion through the eccentric wheel; the guide trough comprises a trough, a material blocking sweeping wheel, a guide trough and a guard plate, materials in the trough are paved through the material blocking sweeping wheel to avoid overlapping, and the materials are separated into a plurality of rows to be conveyed forwards through the guide trough and the guard plate; the differential mechanism receives the materials conveyed out from the guide trough and pulls the distance between the materials.

In one embodiment of the above material arranging machine, the frame is a rectangular bracket and is divided into two layers up and down.

In one embodiment of the above material arranging machine, a motor and an eccentric wheel of the eccentric motor are fixed on the bottom layer of the frame, and an output end of the motor is connected with the eccentric wheel through a belt; the axle center of the eccentric wheel is fixed with a short rod and extends outwards, and the tail end of the short rod is hinged with one end of the pull rod.

In one embodiment of the above material arranging machine, an ear plate is disposed at the bottom end of the trough, and the other end of the pull rod is hinged with the ear plate.

In one embodiment of the above material sorting machine, the front surface of the material groove is a right trapezoid with a bevel edge obliquely upward, and the right-angle edge is open and provided with the material blocking and sweeping wheel.

In one embodiment of the above material arranging machine, the material blocking and sweeping wheel comprises blades, a connecting rod and a motor, wherein a plurality of blades are uniformly fixed with the connecting rod at the center of a circle along the circumferential direction, and two sides of the connecting rod are respectively hinged with two side plates of the trough; one side end of the connecting rod is connected with the output end of the motor.

In one embodiment of the material arranging machine, the guide groove is connected with the right-angle edge of the material groove, and a plurality of groove paths are arranged on the guide groove side by side; the front end of the guide groove is a special-shaped inclined plane, and the tail end of the special-shaped inclined plane is provided with a horizontal inclined poking plate; the tail end of the protective plate is also provided with the protective plate.

In one embodiment of the above material handling machine, the trough and the guide trough are connected to a top layer of the frame by a hinge.

In one embodiment of the above material arranging machine, the differential conveyer belt is divided into a plurality of rows by partition bars, and each row is in one-to-one butt joint with each groove path of the guide groove.

According to the utility model, the materials are paved through the material blocking sweeping wheel, so that the situation of overlapping of the materials is avoided; the automation degree is high, and the labor cost is saved; and the structure is simple, and the working efficiency is high.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present utility model.

Fig. 2 is a schematic structural view of the eccentric mechanism in fig. 1.

Fig. 3 is a schematic structural view of the guide chute in fig. 1.

Fig. 4 is a schematic view of the differential conveyer in fig. 1.

Detailed Description

As shown in fig. 1, the eccentric vibration material arranging machine disclosed in the embodiment comprises a frame 1, an eccentric mechanism 2, a guide trough 3 and a differential conveying belt 4.

The frame 1 is used for supporting the eccentric mechanism 2 and the guide trough 3; the eccentric mechanism provides power to enable the material in the guide trough to swing, and the material horizontally and longitudinally moves forwards through the trough with standard width; the differential conveyer belt 4 is used for longitudinally pulling the material spacing.

The frame 1 is a rectangular bracket and is divided into two layers up and down.

As shown in fig. 2, the eccentric mechanism 2 is arranged at the bottom layer of the frame and comprises a motor 21, a belt 22, an eccentric wheel 23 and a pull rod 24.

The motor 21 and the eccentric wheel 23 are fixed on the bottom layer of the frame, and the output end of the motor is connected with the eccentric wheel through a belt 22. The axle center of the eccentric wheel is fixed with a short rod and extends outwards, the tail end of the short rod is hinged with a pull rod 24, and the pull rod is hinged and fixed with a guide trough 3.

The eccentric wheel of the eccentric mechanism generates eccentric force and drives the guide trough to do swinging motion through the pull rod.

As shown in fig. 3, the guide chute 3 is arranged on the top layer of the frame and comprises a chute 31, a material blocking sweeping wheel 32, a guide chute 33 and a guard plate 34.

The front of the trough 31 is a right trapezoid with inclined edges obliquely upwards, and the bottom surface of the trough is provided with an ear plate which is hinged with the pull rod 24. The right-angle edge of the trough is open and provided with a material blocking sweeping wheel.

When the material is conveyed, the material is placed in the trough, and enters the material blocking sweeping wheel through swinging movement.

The material blocking sweeping wheel 32 comprises blades, connecting rods and a motor, wherein the three blades are uniformly fixed with the connecting rods at the circle center along the circumferential direction, and two sides of the connecting rods are respectively hinged with two side plates of the trough; one side end of the connecting rod is connected with the output end of the motor.

When the materials are conveyed, the materials entering the material conveying device are tiled and thinned through the material blocking sweeping wheels, and the materials are prevented from being overlapped.

The guide groove 33 is connected with the right-angle edge of the trough 31, and five channels are arranged on the guide groove side by side, and each channel is slightly wider than the width of the material by three to five millimeters; the front end of the guide groove is a special-shaped inclined plane, and the tail end of the special-shaped inclined plane is provided with a horizontal inclined poking plate; the end of which is also provided with a guard 34.

When the material is conveyed, the material is divided into five rows to enter each channel after passing through the material blocking sweeping wheel, and slides down along the special-shaped inclined plane to horizontally and longitudinally move; the poking sheets are kept neat and move horizontally and longitudinally along the guard board.

The trough 31 and the guide trough 33 of the guide trough are connected with the top layer of the frame 1 through hinges.

As shown in fig. 4, the differential conveyer 4 is divided into five rows by the parting bead 41, the five rows are in one-to-one butt joint with the five groove paths of the guide groove 33, and the parting bead can play a limiting role to ensure that the materials do not rotate when entering the belt.

The differential conveyer belt can be provided with multi-stage differential, and the speed of the differential conveyer belt is changed from slow speed to fast speed.

When the materials are conveyed, the materials in each row move onto the differential conveying belt along the guide grooves, and when the materials pass through, the distance between each row is pulled away because the speed of the conveying belt is gradually increased, so that the follow-up operation is convenient.

When the eccentric vibration material arranging machine works, materials fall into the guide trough from other conveying belts, and the guide trough is driven by the eccentric mechanism to do front-back swinging motion, so that the materials move forwards; tiling and thinning the entering materials through a material blocking sweeping wheel; the material is automatically guided into horizontal and longitudinal movement by utilizing the special-shaped inclined plane of the trough and the width limitation of the trough; when the material moves to the end of the guide trough, the material enters the differential conveying belt and the distance is pulled apart; and finally outputting non-overlapped materials to carry out the next process.

The eccentric vibration reason material machine has the advantages that:

1. the material is paved through the material blocking sweeping wheel, so that the condition of material overlapping is avoided.

2. The automation degree is high, and the labor cost is saved; and the structure is simple, and the working efficiency is high.

Claims (9)

1. An eccentric vibration reason material machine, its characterized in that: the device comprises a frame, an eccentric mechanism, a guide trough and a differential mechanism;

the eccentric mechanism and the guide trough are arranged on the frame;

the eccentric mechanism comprises a motor, a belt, an eccentric wheel and a pull rod, and is connected with the guide trough through the pull rod and drives the guide trough to do swinging motion through the eccentric wheel;

the guide trough comprises a trough, a material blocking sweeping wheel, a guide trough and a guard plate, materials in the trough are paved through the material blocking sweeping wheel to avoid overlapping, and the materials are separated into a plurality of rows to be conveyed forwards through the guide trough and the guard plate;

the differential mechanism receives the materials conveyed out from the guide trough and pulls the distance between the materials.

2. The eccentric vibratory finishing machine of claim 1, wherein: the frame is a rectangular bracket and is divided into two layers up and down.

3. The eccentric vibratory finishing machine of claim 2, wherein: the motor and the eccentric wheel are fixed on the bottom layer of the frame, and the output end of the motor is connected with the eccentric wheel through a belt; the axle center of the eccentric wheel is fixed with a short rod and extends outwards, and the tail end of the short rod is hinged with one end of the pull rod.

4. The eccentric vibratory finishing machine of claim 3, wherein: the bottom of the trough is provided with an ear plate, and the other end of the pull rod is hinged with the ear plate.

5. The eccentric vibratory finishing machine as claimed in claim 4, wherein: the front of the trough is a right trapezoid with inclined edges obliquely upwards, the right-angle edges of the trough are open, and the baffle sweeping wheels are arranged.

6. The eccentric vibratory finishing machine of claim 5, wherein: the material blocking sweeping wheel comprises blades, connecting rods and a motor, wherein a plurality of blades are uniformly fixed with the connecting rods at the circle center along the circumferential direction, and two sides of each connecting rod are respectively hinged with two side plates of the trough; one side end of the connecting rod is connected with the output end of the motor.

7. The eccentric vibratory finishing machine as claimed in claim 6, wherein: the guide groove is connected with the right-angle edge of the trough, and a plurality of trough paths are arranged on the guide groove side by side; the front end of the guide groove is a special-shaped inclined plane, and the tail end of the special-shaped inclined plane is provided with a horizontal inclined poking plate; the tail end of the protective plate is also provided with the protective plate.

8. The eccentric vibratory finishing machine as claimed in claim 7, wherein: the trough and the guide trough are connected with the top layer of the frame through hinges.

9. The eccentric vibratory finishing machine of claim 8, wherein: the differential mechanism is divided into a plurality of rows through parting strips, and each row is in butt joint with each groove way of the guide groove one by one.

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