CN114194700A - Chute device capable of accurately discharging - Google Patents

Abstract

The invention relates to a chute device capable of accurately discharging materials, which comprises a chute connecting section and a chute buffering steering section, wherein the chute connecting section comprises a chute connecting section front panel, a left panel, a rear panel and a right panel, the chute buffering steering section comprises a chute buffering steering section first panel, a chute buffering steering section second panel, a chute buffering steering section first panel and a chute buffering steering section second panel, the axis of the chute buffering steering section is intersected with the axis of the chute connecting section at an acute angle, and a feeding port and a discharging port of the chute buffering steering section are arranged in a twisting mode. The invention not only changes the connection angle of the chute buffer steering section and the chute connecting section, plays a role of buffering, and reduces the impact of materials caused by gravity, but also twists the discharge hole of the chute buffer steering section relative to the feed hole thereof, realizes accurate blanking, and effectively avoids the influence of material scattering on the normal operation of another line body.

Description

Chute device capable of accurately discharging

Technical Field

The invention relates to a chute device, in particular to a chute device capable of accurately discharging materials.

Background

Blast furnace sealing-tape machine has a lot of modes of unloading, it is the mode of unloading most commonly used to adopt head funnel feeding chute, adjusting plate in the head funnel not only plays the effect of buffering to the material, angle that can also be through operation manual push rod adjusting plate and then the blanking center of adjustment material, wherein the chute is responsible for the transportation, the control material turns to, it is sealed, from high altitude to the accurate blanking of another transfer chain etc. effect, the design of chute is directly influencing the unobstructed of the operation of whole line body in the space, in order to avoid causing the jam, the blanking does not accurately lead to the unable operation scheduling problem of another line body.

Disclosure of Invention

The chute device aims to overcome the defects in the prior art, and is simple in structure, capable of playing a role in buffering and capable of achieving accurate blanking.

According to the technical scheme provided by the invention, the chute device capable of accurately discharging materials comprises a chute connecting section and a chute buffering steering section, wherein the upper end part of the chute connecting section is provided with a connecting flange;

the chute connecting section comprises a chute connecting section front panel, a chute connecting section left panel, a chute connecting section rear panel and a chute connecting section right panel which are integrally connected, the chute connecting section front panel and the chute connecting section rear panel are right-angle trapezoidal plates with completely same external dimensions, the left vertical edge of the chute connecting section front panel is equal to the left vertical edge of the chute connecting section rear panel in length, the right vertical edge of the chute connecting section front panel is equal to the right vertical edge of the chute connecting section rear panel in length, the length of the chute connecting section front panel is smaller than that of the right vertical edge of the chute connecting section front panel, the length of the chute connecting section rear panel left vertical edge is smaller than that of the chute connecting section rear panel right vertical edge, the chute connecting section left panel and the chute connecting section right panel are rectangular with equal width, the outer vertical edge of the chute connecting section left panel is connected with the chute connecting section front panel left vertical edge and is equal in length, the chute connecting section front panel, the chute connecting section left panel, the chute connecting section rear panel and the chute connecting section right panel enclose a feed inlet of the chute connecting section;

the chute buffering steering section comprises a chute buffering steering section first front panel, a chute buffering steering section second front panel, a chute buffering steering section first left panel, a chute buffering steering section second left panel, a chute buffering steering section first rear panel, a chute buffering steering section second rear panel, a chute buffering steering section first right panel and a chute buffering steering section second right panel which are connected into a whole and are of a triangular structure, a first edge of the chute buffering steering section first front panel is connected with a bottom edge of the chute connecting section front panel, a second edge of the chute buffering steering section first front panel is connected with a first edge of the chute buffering steering section second front panel, a second edge of the chute buffering steering section second front panel is connected with a first edge of the chute buffering steering section first right panel, a second edge of the chute steering section first right panel is connected with a bottom edge of the chute connecting section right panel, the third edge of the first right panel of the chute buffering steering section is connected with the first edge of the second right panel of the chute buffering steering section, the second edge of the second right panel of the chute buffering steering section is connected with the first edge of the first back panel of the chute buffering steering section, the second edge of the first back panel of the chute buffering steering section is connected with the bottom edge of the back panel of the chute connecting section, the third edge of the first back panel of the chute buffering steering section is connected with the first edge of the second back panel of the chute buffering steering section, the second edge of the second back panel of the chute buffering steering section is connected with the first edge of the first left panel of the chute buffering steering section, the second edge of the first left panel of the chute buffering steering section is connected with the bottom edge of the left panel of the chute connecting section, the third edge of the first left panel of the chute buffering steering section is connected with the first edge of the second left panel of the chute steering section, the second edge of the second left panel of the chute buffering steering section is connected with the third edge of the first front panel of the chute buffering steering section, turn to the first side of the first front panel of section by the chute buffering, the chute buffering turns to the second limit of the first left panel of section, the chute buffering turns to the second limit of the first rear panel of section and the chute buffering turns to the rectangle feed inlet that the second limit of the first right panel of section encloses into the chute buffering turns to the section, turn to section second front panel by the chute buffering, the chute buffering turns to section second left panel, the chute buffering turns to the section second rear panel and the chute buffering turns to the rectangle discharge gate that the third edge of section second right panel encloses into the chute buffering turns to the section, and the feed inlet that the chute buffering turns to the section is to twist reverse the setting with the discharge gate.

Preferably, the intersection angle a between the axis of the chute buffering and turning section and the axis of the chute connecting section is 5-20 degrees.

Preferably, the torsion angle b between the feeding hole and the discharging hole of the chute buffer turning section is 5-90 degrees.

The invention not only changes the connection angle of the chute buffer steering section and the chute connecting section, plays a role of buffering, and reduces the impact of materials caused by gravity, but also twists the discharge hole of the chute buffer steering section relative to the feed hole thereof, realizes accurate blanking, and effectively avoids the influence of material scattering on the normal operation of another line body.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a left side view of the present invention.

Fig. 3 is a right side view of the present invention.

Fig. 4 is a top view of the present invention.

Fig. 5 is a top view of the present invention.

Fig. 6 is one of perspective views of the present invention.

Fig. 7 is a second perspective view of the present invention.

Fig. 8 is a third perspective view of the present invention.

Detailed Description

The present invention will be further described with reference to the following specific examples.

The chute device capable of accurately blanking is shown in figures 1-8 and comprises a chute connecting section 1 and a chute buffering steering section 2, wherein the upper end part of the chute connecting section 1 is provided with a connecting flange, the lower end part of the chute connecting section 1 is connected with the upper end part of the chute buffering steering section 2, and the axis of the chute buffering steering section 2 is intersected with the axis of the chute connecting section 1 at an acute angle;

the chute connecting section 1 comprises a chute connecting section front panel 1.1, a chute connecting section left panel 1.2, a chute connecting section rear panel 1.3 and a chute connecting section right panel 1.4 which are connected into a whole, the inner wall surfaces of the chute connecting section front panel 1.1, the chute connecting section left panel 1.2, the chute connecting section rear panel 1.3 and the chute connecting section right panel 1.4 are all fixed with anti-collision plates, the chute connecting section front panel 1.1 and the chute connecting section rear panel 1.3 are right-angled trapezoidal plates with the same appearance size, the left vertical edge of the chute connecting section front panel 1.1 is equal to the left vertical edge of the chute connecting section rear panel 1.3, the right vertical edge of the chute connecting section front panel 1.1 is equal to the right vertical edge of the chute connecting section rear panel 1.3, the length of the chute connecting section front panel 1.1 is less than the length of the right vertical edge of the chute connecting section front panel 1.1, the length of the right vertical edge of the chute connecting section rear panel 1.3 is less than the length of the chute connecting section rear panel 1.3, the chute connecting section left panel 1.2 and the chute connecting section right panel 1.4 are rectangles with equal width, the outside vertical edge of the chute connecting section left panel 1.2 is connected with and is equal to the left vertical edge of the chute connecting section front panel 1.1, the inside vertical edge of the chute connecting section left panel 1.2 is connected with and is equal to the left vertical edge of the chute connecting section rear panel 1.3, the outside vertical edge of the chute connecting section right panel 1.4 is connected with and is equal to the right vertical edge of the chute connecting section front panel 1.1, the inside vertical edge of the chute connecting section right panel 1.4 is connected with and is equal to the right vertical edge of the chute connecting section rear panel 1.3, a feed inlet of the chute connecting section 1 is enclosed by the chute connecting section front panel 1.1, the chute connecting section left panel 1.2, the chute connecting section rear panel 1.3 and the top edge of the chute connecting section right panel 1.4, a discharge hole of the chute connecting section 1 is enclosed by the front panel 1.1 of the chute connecting section, the left panel 1.2 of the chute connecting section, the rear panel 1.3 of the chute connecting section and the bottom edge of the right panel 1.4 of the chute connecting section;

the chute buffering steering section 2 comprises a chute buffering steering section first front panel 2.1, a chute buffering steering section second front panel 2.2, a chute buffering steering section first left panel 2.3, a chute buffering steering section second left panel 2.4, a chute buffering steering section first back panel 2.5, a chute buffering steering section second back panel 2.6, a chute buffering steering section first right panel 2.7 and a chute buffering steering section second right panel 2.8 which are connected into a whole and are of a triangular structure, and the inner wall surfaces of the chute buffering steering section first right panel 2.7 and the chute buffering steering section second right panel 2.8 are fixed with anti-collision plates, the first edge of the first front panel 2.1 of the chute buffer turning section is connected with the bottom edge of the front panel 1.1 of the chute connecting section, the second edge of the first front panel 2.1 of the chute buffer turning section is connected with the first edge of the second front panel 2.2 of the chute buffer turning section, the second edge of the second front panel 2.2 of the chute buffer turning section is connected with the first edge of the first right panel 2.7 of the chute buffer turning section, the second edge of the first right panel 2.7 of the chute buffer turning section is connected with the bottom edge of the right panel 1.4 of the chute connecting section, the third edge of the first right panel 2.7 of the chute buffer turning section is connected with the first edge of the second right panel 2.8 of the chute buffer turning section, the second edge of the second right panel 2.8 of the chute buffer turning section is connected with the first edge of the first rear panel 2.5 of the chute buffer turning section, the second edge of the first rear panel 2.5 of the chute buffer turning section is connected with the rear panel 1.3 of the bottom edge of the chute connecting section, and the first rear panel 2.5 of the chute turning section is connected with the first rear panel 6.5, the second edge of the second rear panel 2.6 of the chute buffer turning section is connected with the first edge of the first left panel 2.3 of the chute buffer turning section, the second edge of the first left panel 2.3 of the chute buffer turning section is connected with the bottom edge of the left panel 1.2 of the chute connecting section, the third edge of the first left panel 2.3 of the chute buffer turning section is connected with the first edge of the second left panel 2.4 of the chute buffer turning section, the second edge of the second left panel 2.4 of the chute buffer turning section is connected with the third edge of the first front panel 2.1 of the chute buffer turning section, the first edge of the first front panel 2.1 of the chute buffer turning section, the second edge of the first left panel 2.3 of the chute buffer turning section, the second edge of the first rear panel 2.5 of the chute buffer turning section and the second edge of the first right panel 2.7 of the chute buffer turning section form a rectangular feed inlet of the chute buffer turning section 2, the chute buffer turning section turns to the second front panel 2.2.2, the left turning section 2.4 of the chute buffer turning section, and the chute buffer turning section, The third edge of the chute buffer steering section second rear panel 2.6 and the chute buffer steering section second right panel 2.8 forms a rectangular discharge hole of the chute buffer steering section 2, and the feed inlet and the discharge hole of the chute buffer steering section 2 are in torsion arrangement.

The intersecting angle a of the axis of the chute buffer steering section 2 and the axis of the chute connecting section 1 is 5-20 degrees.

The torsion angle b between the feed inlet and the discharge outlet of the chute buffer steering section 2 is 5-90 degrees.

During operation, the upper end of chute linkage segment 1 passes through the flange with the lower tip of head funnel and links to each other, after chute linkage segment 1 is connected with the head funnel and accomplishes, chute linkage segment 1 is vertical setting, the material that comes from upper band conveyer transport falls into the head funnel, fall into chute linkage segment 1 after the effect buffering of the interior fender of head funnel, because the crossing angle an of axis of chute buffering turn to section 2 and the axis of chute linkage segment 1 is 5~20, make chute buffering turn to section 2 slightly to the left side deflection for chute linkage segment 1, and the torsion angle b between the feed inlet of chute buffering turn to section 2 and the discharge gate is 5~90, the material cushions through chute buffering turn to section 2, the accurate lower floor band conveyer in the back of turning to, avoided the material to scatter effectively.

The chute buffer steering section 2 changes the connection angle of the chute buffer steering section 2 and the chute connecting section 1, plays a role of buffering, reduces impact of materials caused by gravity, twists a discharge hole of the chute buffer steering section 2 relative to a feed hole of the chute buffer steering section, realizes accurate blanking, and effectively avoids the influence of material scattering on the normal operation of another line body.

Claims (3)

1. The utility model provides a chute device of accurate blanking of ability, characterized by: the chute buffer steering device comprises a chute connecting section (1) and a chute buffer steering section (2), wherein a connecting flange is arranged at the upper end part of the chute connecting section (1), the lower end part of the chute connecting section (1) is connected with the upper end part of the chute buffer steering section (2), and the axis of the chute buffer steering section (2) is intersected with the axis of the chute connecting section (1) in an acute angle;

the chute connecting section (1) comprises a chute connecting section front panel (1.1), a chute connecting section left panel (1.2), a chute connecting section rear panel (1.3) and a chute connecting section right panel (1.4) which are connected into a whole, the chute connecting section front panel (1.1) and the chute connecting section rear panel (1.3) are right-angle trapezoidal plates with the same overall dimension, the left vertical edge of the chute connecting section front panel (1.1) is equal to the left vertical edge of the chute connecting section rear panel (1.3), the right vertical edge of the chute connecting section front panel (1.1) is equal to the right vertical edge of the chute connecting section rear panel (1.3), the length of the chute connecting section front panel (1.1) is smaller than that of the right vertical edge of the chute connecting section front panel (1.1), the length of the left vertical edge of the chute connecting section rear panel (1.3) is smaller than that of the chute connecting section rear panel (1.3), the chute connecting section left panel (1.2) and the chute connecting section right panel (1.4) are rectangles with equal width, the outer vertical edge of the chute connecting section left panel (1.2) is connected with and is equal to the left vertical edge of the chute connecting section front panel (1.1), the inner vertical edge of the chute connecting section left panel (1.2) is connected with and is equal to the left vertical edge of the chute connecting section rear panel (1.3), the outer vertical edge of the chute connecting section right panel (1.4) is connected with and is equal to the right vertical edge of the chute connecting section front panel (1.1), the inner vertical edge of the chute connecting section right panel (1.4) is connected with and is equal to the right vertical edge of the chute connecting section rear panel (1.3), a feed inlet of the chute connecting section (1) is enclosed by the chute connecting section front panel (1.1), the chute connecting section left panel (1.2), the chute connecting section rear panel (1.3) and the chute connecting section right panel (1.4), the bottom edges of a chute connecting section front panel (1.1), a chute connecting section left panel (1.2), a chute connecting section rear panel (1.3) and a chute connecting section right panel (1.4) are enclosed to form a discharge hole of the chute connecting section (1);

the chute buffering steering section (2) comprises a chute buffering steering section first front panel (2.1), a chute buffering steering section second front panel (2.2), a chute buffering steering section first left panel (2.3), a chute buffering steering section second left panel (2.4), a chute buffering steering section first back panel (2.5), a chute buffering steering section second back panel (2.6), a chute buffering steering section first right panel (2.7) and a chute buffering steering section second right panel (2.8), wherein the chute buffering steering section first front panel (2.1) is connected with the bottom edge of the chute connecting section front panel (1.1), the chute buffering steering section first front panel (2.1) is connected with the chute buffering steering section second front panel (2.2) at the second edge, the chute buffering steering section second front panel (2.2) is connected with the chute buffering steering section first right panel (2.7), the second edge of the first right panel (2.7) of the chute buffer turning section is connected with the bottom edge of the right panel (1.4) of the chute connecting section, the third edge of the first right panel (2.7) of the chute buffer turning section is connected with the first edge of the second right panel (2.8) of the chute buffer turning section, the second edge of the second right panel (2.8) of the chute buffer turning section is connected with the first edge of the first back panel (2.5) of the chute buffer turning section, the second edge of the first back panel (2.5) of the chute buffer turning section is connected with the bottom edge of the back panel (1.3) of the chute connecting section, the third edge of the first back panel (2.5) of the chute buffer turning section is connected with the first edge of the second back panel (2.6) of the chute buffer turning section, the second edge of the second back panel (2.6) of the chute buffer turning section is connected with the first edge of the first left panel (2.3) of the chute buffer turning section, and the second edge of the first back panel (2.3) of the chute buffer turning section is connected with the bottom edge of the left panel (2.3) of the chute connecting section, the third edge of the first left panel (2.3) of the chute buffer turning section is connected with the first edge of the second left panel (2.4) of the chute buffer turning section, the second edge of the second left panel (2.4) of the chute buffer turning section is connected with the third edge of the first front panel (2.1) of the chute buffer turning section, the first edge of the first front panel (2.1) of the chute buffer turning section, the second edge of the first left panel (2.3) of the chute buffer turning section, the second edge of the first back panel (2.5) of the chute buffer turning section and the second edge of the first right panel (2.7) of the chute buffer turning section form a rectangular feed inlet of the chute buffer turning section (2), the rectangular left panel (2.4) of the chute buffer turning section, the third edge of the second back panel (2.6) of the chute buffer turning section and the third edge of the chute buffer turning section (2.8) form a rectangular feed outlet of the chute buffer turning section, and the feed inlet and the discharge outlet of the chute buffer steering section (2) are arranged in a twisting way.

2. The chute device capable of accurately blanking as claimed in claim 1, wherein: the intersecting angle a of the axis of the chute buffer steering section (2) and the axis of the chute connecting section (1) is 5-20 degrees.

3. The chute device capable of accurately blanking as claimed in claim 1, wherein: the torsion angle b between the feed inlet and the discharge outlet of the chute buffer steering section (2) is 5-90 degrees.

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