CN215159385U - Steering device for driving conveyor belt to rotate in semicircular arc manner - Google Patents

Abstract

A steering device for driving a conveyor belt to rotate in a semicircular arc manner relates to the technical field of silica production and comprises a positioning part, a conveyor belt, a driving guide part, a distributing trough and a height adjusting part, wherein the positioning part is vertically and fixedly arranged on the ground, the inlet end of the conveyor belt is movably connected with the upper part of the positioning part, the conveyor belt can rotate along the axial direction of the positioning part, the driving guide part is arranged above the discharge end of the conveyor belt and comprises a semicircular arc guide rail, a rotating driving part and a connecting frame, the semicircular arc guide rail is fixedly arranged above the conveyor belt, the bottom of the connecting frame is fixedly arranged on the conveyor belt, the rotating driving part is fixedly arranged at the upper end of the connecting frame, the output end of the rotating driving part is in rolling connection with the semicircular arc guide rail, the distributing trough is arranged under the discharge end of the conveyor belt, the inlet end of the distributing trough is movably connected with the outlet end of the conveyor belt, and the height adjusting part is fixedly arranged on the conveyor belt, and the output end of the height adjusting part is movably connected with one end of the distributing groove far away from the feeding port.

Description

Steering device for driving conveyor belt to rotate in semicircular arc manner

Technical Field

The utility model relates to a silica production technical field, concretely relates to drive conveyer belt is semicircle pivoted and turns to device.

Background

Silica raw materials are in the process of transporting and distributing materials, the distribution is limited due to the fact that a distribution device is heavy and inflexible, the existing silica raw material distribution device can only be located at one position for distributing materials during working, the distribution in a blanking area is uneven, silica raw materials are accumulated at one position, the distribution is difficult to complete in other areas, and finally the silica raw materials accumulated at one position need to be manually distributed in each area, so that the production efficiency is reduced, the labor cost is increased, and potential safety hazards in production exist.

Disclosure of Invention

In view of the above, there is a need for an apparatus that can automatically distribute material to various areas flexibly.

A steering device for driving a conveyor belt to rotate in a semicircular arc manner comprises a positioning part, a conveyor belt, a driving guide part, a distributing trough and a height adjusting part, wherein the positioning part is vertically and fixedly arranged on the ground, the inlet end of the conveyor belt is movably connected with the upper part of the positioning part, the conveyor belt can rotate along the axial direction of the positioning part, the driving guide part is arranged above the discharge end of the conveyor belt and comprises a semicircular arc guide rail, a rotating driving part and a connecting frame, the semicircular arc guide rail is fixedly arranged above the conveyor belt, the bottom of the connecting frame is fixedly arranged on the conveyor belt, the connecting frame is vertical to the conveyor belt, the rotating driving part is fixedly arranged at the upper end of the connecting frame, the output end of the rotating driving part is in rolling connection with the semicircular arc guide rail, the distributing trough is arranged under the discharge end of the conveyor belt, and the inlet end of the distributing trough is movably connected with the outlet end of the conveyor belt, the height adjusting part is fixedly arranged on the conveying belt, and the output end of the height adjusting part is movably connected with one end, far away from the feeding port, of the distributing groove.

Preferably, the rotary driving part comprises a guide wheel frame, a guide wheel and a driving motor, the lower end of the guide wheel frame is fixedly arranged with the upper end of the connecting frame, a fixed shaft is arranged on one side of the upper end of the guide wheel frame, a connecting end part is arranged on the other side of the upper end of the guide wheel frame, the guide wheel is sleeved on the fixed shaft and the connecting end part, the driving motor is fixedly arranged on the side edge of the guide wheel frame, the output end of the driving motor and the connecting end part are fixedly arranged, and the driving motor drives the guide wheel through the connecting end part.

Preferably, the circumferential surface of the guide wheel is attached to the semicircular arc guide rail surface, and the guide wheel is positioned on two sides of the semicircular arc guide rail.

Preferably, the driving motor drives the guide wheel to rotate through the connecting end part, and the guide wheel rolls and advances along the semi-circular guide rail.

Preferably, the height adjusting part comprises a height adjusting part and a connecting rod, the height adjusting part is fixedly arranged on two sides of the conveying belt and is perpendicular to the conveying belt, the working direction is vertical and downward, one end of the connecting rod is fixedly arranged at the end part of the output end of the height adjusting part, and the other end of the connecting rod is movably connected with the distributing chute.

Preferably, the height adjusting part drives the distributing chute, and an included angle between the distributing chute and the conveyor belt is adjusted, so that a height difference exists between the discharging end and the feeding end of the distributing chute, and the direction of the distributing material is changed.

Preferably, the semicircular arc guide rail is horizontally arranged and is parallel to the conveyor belt.

Preferably, the axis of the positioning part coincides with the circle center of the semicircular arc guide rail, and the positioning part is perpendicular to the conveyor belt.

Preferably, vibration motors are fixedly arranged on two sides of the distributing trough.

The utility model adopts the above technical scheme, its beneficial effect lies in: above-mentioned drive conveyer belt is semicircle pivoted and turns to device at the during operation, the conveyer belt uses locating part as rotation center to use the semicircle arc guide rail to rotate as rotation path, during with the silica raw materials distribution on the conveyer belt in each region, avoid the silica raw materials to pile up an area, thereby improved production efficiency, reduced the cost of labor, ensured production safety.

Drawings

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

Fig. 2 is a partially enlarged view of fig. 1A.

Fig. 3 is a schematic structural view of the rotary driving member.

Fig. 4 is a partially enlarged view of fig. 1B.

In the figure: the device comprises a positioning component 1, a conveyor belt 2, a driving guide component 3, a semicircular guide rail 31, a rotary driving component 32, a guide wheel frame 321, a guide wheel 322, a driving motor 323, a connecting end 324, a fixed shaft 325, a connecting frame 33, a distributing trough 4, a height adjusting component 5, a height adjusting component 51, a connecting rod 52 and a vibrating motor 6.

Detailed Description

Referring to fig. 1 to 4, an embodiment of the present invention provides a steering apparatus for driving a conveyor belt 2 to perform a semi-circular rotation, including a positioning component 1, a conveyor belt 2, a driving guiding component 3, a material distribution chute 4, and a height adjusting component 5.

The positioning component 1 is vertically and fixedly arranged on the ground, the inlet end of the conveyor belt 2 is movably connected with the upper part of the positioning component 1, the conveyor belt 2 can axially rotate along the positioning part 1, the driving guide part 3 is arranged above the discharge end of the conveyor belt 2, the driving guide part 3 comprises a semicircular guide rail 31, a rotating driving part 32 and a connecting frame 33, the semicircular guide rail 31 is fixedly arranged above the conveyor belt 2, the bottom of the connecting frame 33 is fixedly arranged on the conveyor belt 2, the connecting frame 33 is vertical to the conveyor belt 2, the rotary driving piece 32 is fixedly arranged at the upper end of the connecting frame 33, the output end of the rotary driving piece 32 is connected with the semi-arc guide rail 31 in a rolling way, the distributing chute 4 is arranged right below the discharge end of the conveyor belt 2, and the inlet end of the distributing chute 4 is movably connected with the outlet end of the conveyor belt 2, the height adjusting part 5 is fixedly arranged on the conveyor belt 2, and the output end of the height adjusting part 5 is movably connected with one end of the distributing chute 4, which is far away from the feeding port.

In the device, a positioning part 1 is arranged below the feeding end of a conveyor belt 2, the conveyor belt 2 rotates in a semicircular arc mode by taking the positioning part 1 as an axis, and a driving guide part 3 is arranged above the conveyor belt 2 to drive, rotate and guide a rotating path.

Further, the rotary driving member 32 includes a wheel frame 321, a guide wheel 322, and a driving motor 323, wherein the lower end of the wheel frame 321 is fixedly disposed at the upper end of the connecting frame 33, a fixed shaft 325 is disposed at one side of the upper end of the wheel frame 321, a connecting end 324 is disposed at the other side of the upper end of the wheel frame 321, the guide wheel 322 is sleeved on the fixed shaft 325 and the connecting end 324, the driving motor 323 is fixedly disposed at the side of the wheel frame 321, the output end of the driving motor 323 is fixedly disposed at the connecting end 324, and the driving motor 323 drives the guide wheel 322 through the connecting end 324.

Further, the circumferential surface of the guide wheel 322 is attached to the surface of the semi-arc guide rail 31, and the guide wheel 322 is located on two sides of the semi-arc guide rail 31.

Further, the driving motor 323 drives the guide wheel 322 to rotate through the coupling end 324, and the guide wheel 322 rolls along the semi-arc guide rail 31.

Wherein, the rotation driving piece 32 is provided with two leading wheels 322, and the periphery of leading wheel 322 is tangent with the flange of semicircle guide rail 31, guarantees that the two contact and produces enough big friction, and two leading wheels 322 are half semicircle guide rail 31 clamp in the middle, prevents that the leading wheel 322 from taking place to derail at the during operation to leading wheel 322 rolls along the flange of semicircle guide rail 31 forward, thereby drives conveyer belt 2 and is rotary motion.

Further, the cross section of the semicircular arc guide rail 31 is designed to be I-shaped, and the I-shaped guide rail has the advantages of wide flange, high lateral rigidity and high bending resistance.

Further, the distribution chute 4 and the height adjusting part 5 arranged between the distribution chute and the distribution chute are additionally arranged below the discharge end of the conveyor belt 2, so that the functions of the device can be expanded, and the production efficiency is improved.

Further, height adjusting part 5 includes height adjusting part 51, connecting rod 52, and height adjusting part 51 is fixed to be set up in conveyer belt 2 both sides, and perpendicular to conveyer belt 2 to the working direction is vertical downwards, and the one end of connecting rod 52 is fixed to be set up in height adjusting part 51 output end portion, the other end and the cloth chute 4 swing joint of connecting rod 52.

Further, the height adjusting part 5 drives the distributing chute 4, and adjusts the included angle between the distributing chute 4 and the conveyor belt 2, so that the height difference exists between the discharging end and the feeding end of the distributing chute 4, and the direction of the distributing material is changed.

When the height adjusting part 5 works, the height adjusting part 51 extends or shortens and drives the connecting rod 52 connected to the distributing chute 4, so that the distributing chute 4 uses the movable connection position of the feeding end and the conveyor belt 2 as a rotation center to perform angle adjustment, namely, the height of the discharging end of the distributing chute 4 is adjusted, and the discharging end of the distributing chute 4 is higher than or lower than the feeding end so as to change the direction of the cloth.

Further, the semicircular guide rail 31 is horizontally disposed and parallel to the conveyor belt 2.

Further, the axis of the positioning component 1 coincides with the center of the circle of the semi-arc guide rail 31, and the positioning component 1 is perpendicular to the conveyor belt 2.

In order to prevent the guide wheel 322 from rolling on the semi-arc guide rail 31, the semi-arc guide rail 31 is parallel to the conveyor belt 2 and is horizontally arranged, and the conveyor belt 2 moves along the semi-arc guide rail 31 along with the rotation driving member 32 in a circular manner, so the positioning part 1 must be arranged at the position of the center of the semi-arc guide rail 31 and is perpendicular to the conveyor belt 2, that is, the center of the semi-arc guide rail 31 coincides with the rotation axis of the conveyor belt 2.

Further, vibration motors 6 are fixedly arranged on two sides of the distributing chute 4.

The vibrating motors 6 arranged at two sides of the distributing chute 4 can accelerate the distributing speed of the distributing chute 4, and the device is always arranged obliquely at the distributing chute 4 during working, so that the silica raw material can automatically slide down along the distributing chute 4, and the vibrating motors 6 generate vibration to accelerate the sliding of the material.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (9)

1. The utility model provides a drive conveyer belt and do semicircle pivoted and turn to device which characterized in that: the automatic distributing device comprises a positioning component, a conveyor belt, a driving guide component, a distributing chute and a height adjusting component, wherein the positioning component is vertically and fixedly arranged on the ground, the inlet end of the conveyor belt is movably connected with the upper part of the positioning component, the conveyor belt can axially rotate along the positioning component, the driving guide component is arranged above the discharge end of the conveyor belt and comprises a semicircular arc guide rail, a rotating driving part and a connecting frame, the semicircular arc guide rail is fixedly arranged above the conveyor belt, the bottom of the connecting frame is fixedly arranged on the conveyor belt, the connecting frame is vertical to the conveyor belt, the rotating driving part is fixedly arranged at the upper end of the connecting frame, the output end of the rotating driving part is in rolling connection with the semicircular arc guide rail, the distributing chute is arranged under the discharge end of the conveyor belt, the inlet end of the distributing chute is movably connected with the outlet end of the conveyor belt, the height adjusting component is fixedly arranged on the conveyor belt, and the output end of the height adjusting part is movably connected with one end of the distributing groove far away from the feeding port.

2. The steering device for driving the conveyor belt to rotate in a semicircular arc manner according to claim 1, is characterized in that: the rotary driving piece comprises a guide wheel frame, a guide wheel and a driving motor, the lower end of the guide wheel frame and the upper end of the connecting frame are fixedly arranged, a fixed shaft is arranged on one side of the upper end of the guide wheel frame, a connecting end portion is arranged on the other side of the upper end of the guide wheel frame, the guide wheel is sleeved on the fixed shaft and the connecting end portion, the driving motor is fixedly arranged on the side edge of the guide wheel frame, the output end of the driving motor and the connecting end portion are fixedly arranged, and the driving motor drives the guide wheel through the connecting end portion.

3. The steering device for driving the conveyor belt to rotate in a semicircular arc manner as claimed in claim 2, wherein: the circumferential surface of the guide wheel is attached to the surface of the semicircular arc guide rail, and the guide wheel is positioned on two sides of the semicircular arc guide rail.

4. The steering device for driving the conveyor belt to rotate in a semicircular arc manner as claimed in claim 3, wherein: the driving motor drives the guide wheel to rotate through the connecting end part, and the guide wheel rolls and advances along the semi-circular arc guide rail.

5. The steering device for driving the conveyor belt to rotate in a semicircular arc manner according to claim 1, is characterized in that: the height adjusting part comprises a height adjusting part and a connecting rod, the height adjusting part is fixedly arranged on two sides of the conveying belt and is perpendicular to the conveying belt, the working direction is vertical and downward, one end of the connecting rod is fixedly arranged at the end part of the output end of the height adjusting part, and the other end of the connecting rod is movably connected with the distributing chute.

6. The steering device for driving the conveyor belt to rotate in a semicircular arc manner according to claim 5, is characterized in that: the height adjusting part drives the distributing chute, and an included angle between the distributing chute and the conveyor belt is adjusted, so that the height difference exists between the discharging end and the feeding end of the distributing chute, and the direction of the distributing material is changed.

7. The steering device for driving the conveyor belt to rotate in a semicircular arc manner according to claim 1, is characterized in that: the semicircular arc guide rails are horizontally arranged and are parallel to the conveyor belt.

8. The steering device for driving the conveyor belt to rotate in a semicircular arc manner according to claim 1, is characterized in that: the axis of the positioning component coincides with the circle center of the semicircular arc guide rail, and the positioning component is perpendicular to the conveyor belt.

9. The steering device for driving the conveyor belt to rotate in a semicircular arc manner according to claim 1, is characterized in that: and vibration motors are fixedly arranged on two sides of the distributing trough.

Images