CN216004105U - Material conveying device between production equipment - Google Patents

Abstract

The utility model discloses a material conveying device between production equipment, wherein a second steel pipe (2) of a main body frame (21) and a horizontal ground have an inclination angle of 25 degrees, a variable speed motor (15) is installed below a driving roller (3), the output end of the variable speed motor (15) is connected with a speed regulator (16), a main shaft of a chain wheel (17) is connected with a motor shaft, one end of a rotating shaft of the driving roller (3) is provided with a coaxial chain wheel (17), and the chain wheel (17) is meshed with a chain (18); a belt (9) is installed on a main body frame (21), a driving roller (3) is assembled at the front end of the belt (9), and a guide roller (14) is installed at the rear end of the belt (9). The utility model has simple structure, convenient installation and movement and low manufacturing cost, effectively solves the problem of more operators in narrow space, reduces cross contamination and material loss and greatly improves the working efficiency.

Description

Material conveying device between production equipment

Technical Field

The utility model relates to a material conveying device between production equipment.

Background

At present, for guaranteeing the integrity of the form of an intermediate product of the wet granules which are easy to deform and lump, the manual material receiving disc is adopted, the thickness of the material spreading disc is limited, material receiving and equipment transfer are carried out, the mode needs a large number of personnel, material receiving discs and material receiving frames, the labor cost is increased, the occupied space is large, and the hidden danger of cross contamination exists. And conventional conveyer belt does not have take-up (stock) pan, safety cover and vibratory hammer again, causes a large amount of materials loss in the transportation, diffusion and the phenomenon that sticks together.

Disclosure of Invention

The utility model relates to a material conveying device between production equipment, which effectively solves the problem that wet particles are easy to deform and lump during transportation between the production equipment, directly conveys materials falling in a receiving hopper to next production equipment through a conveying belt with a certain angle by using a reasonable conveying speed, and has the advantages of simple structure, convenience in installation and movement and low manufacturing cost. The technical scheme adopted by the utility model is as follows: a material conveying device between production equipment is characterized in that a second steel pipe (2) of a main body rack (21) and a horizontal ground have an inclination angle of 25 degrees, a variable speed motor (15) is installed below a driving roller (3), the output end of the variable speed motor (15) is connected with a speed regulator (16), a main shaft of a chain wheel (17) is connected with a motor shaft, a coaxial chain wheel (17) is installed at one end of a rotating shaft of the driving roller (3), and the chain wheel (17) is meshed with a chain (18); a belt (9) is arranged on a main body frame (21), the front end of the belt (9) is provided with a driving roller (3), and the rear end of the belt (9) is provided with a guide roller (14); a stainless steel conical welding piece (4) is arranged at the upper end of the first steel pipe (1), a vibration hammer (5) is arranged on the outer wall of the stainless steel conical welding piece (4), a discharge hole (6) is arranged at the other end of the second steel pipe (2), and a first acrylic protective cover (7) is arranged on the discharge hole (6); the material receiving disc (10) is connected and fixed on a main body frame (21) at the bottom of the belt conveyor, and the second acrylic protective cover (20) is fixed on the main body frame (21) at the upper part of the belt conveyor.

The main body frame (21) is a stainless steel pipe welding part, the end faces of the first steel pipe (1) and the second steel pipe (2) are contacted to form a 25-degree angle and are welded together, and a movable support (8) with adjustable height is fixedly arranged below the main body frame (21); stainless steel supporting plates (11) are welded on a first steel pipe (1) and a second steel pipe (2) of a main body frame (21), a belt (9) is installed on the supporting plates (11), and a carrier roller (12) is fixed on the main body frame (21) below the middle position of the belt (9); a pressing wheel (13) of the belt (9) is fixed on the main body frame (21); the stainless steel conical welding piece (4) is a stainless steel conical welding piece; the discharge port (6) is a stainless steel arc-shaped welding piece, and the first acrylic protective cover (7) is fixedly connected with an arc-shaped stainless steel plate of the discharge port (6); the material receiving disc (10) is a stainless steel concave plate.

A guide roller (14) is arranged at the top end of the second steel pipe (2); the pinch rollers (13) are positioned at the included angle between the first steel pipe (1) and the second steel pipe (2), and the pinch rollers (13) are respectively arranged at two ends of the included angle; four support columns (19) are welded below the stainless steel conical welding piece (4) by stainless steel pipes, and the support columns (19) are connected to a main body frame (21); the stainless steel concave material receiving disc (10) is formed by combining and splicing four disc bodies.

The working principle of the utility model is as follows:

the utility model designs the material conveying device between the production equipment and the material production equipment by using the height angle and distance between the production equipment and the maximum receiving thickness data when the material falls off. Welding a steel pipe with an included angle of 25 degrees and a movable support with adjustable height to serve as a main body frame; a variable speed motor (15) and a speed regulator (16) are utilized, a chain wheel (17) and a chain (18) are connected with a driving roller (3) to drive a belt (9) to rotate by power, and a guide roller (14) is arranged at the other end of a main body frame to enable the belt (9) to turn; a supporting plate (11) and a carrier roller (12) are installed on a main body frame, an upper belt (9) and a lower belt (9) are lifted, a pressing wheel (13) is installed at a welding included angle on the belt (9) to enable the belt to be attached to the main body frame at an angle, a laminated material receiving disc (10) is installed below the belt, and a second acrylic protective cover (20) is installed on the belt (9) and the main body frame; a conical stainless steel conical welding part (4) is arranged at the connection part of the conical stainless steel conical welding part and the outlet of the blanking equipment, and a vibration hammer (5) is arranged at the position, outside the receiving hopper, where materials are easy to accumulate; an arc-shaped discharge hole (6) with a first acrylic protective cover (7) is arranged at the receiving position of the outlet of the material receiving equipment.

The utility model has the beneficial effects that:

according to the utility model, a steel pipe with an included angle of 25 degrees and a movable support (8) with adjustable height is welded to serve as a main body frame, so that the function of connecting high and low equipment is achieved; the belt conveyor comprises a variable speed motor (15) and a speed regulator (16), wherein a chain wheel (17) and a chain (18) are connected with a driving roller (3) to be used as power output, so that a belt (9) rotates to achieve the effect of material conveying; second acrylic protective covers (20) and a stainless steel receiving disc (10) are respectively arranged above and below the belt (9) and the main body frame, so that the materials are effectively protected from being interfered by the external environment, and the material loss is reduced; install the better material that breaks up of vibratory hammer on connecing the hopper, the effectual material that has prevented rises to stick together and warp.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a view of the variable speed motor and speed governor of the present invention with the sprocket and chain connected to the drive roll;

FIG. 3 is a layered elevational view of the inventive belt;

FIG. 4 is an elevational view of the take-up reel of the present invention;

FIG. 5 is a side view of the spout and shield of the present invention;

FIG. 6 is an elevation view of a receiving hopper of the present invention;

fig. 7 is a sequence diagram of the take-up tray of the present invention.

Detailed Description

As shown in fig. 2, in the material conveying device between production facilities, a second steel pipe 2 of a main body frame 21 has an inclination angle of 25 degrees with a horizontal ground, a variable speed motor 15 is installed below a drive roll 3, the output end of the variable speed motor 15 is connected with a speed regulator 16, the main shaft of a chain wheel 17 is connected with a motor shaft, one end of a rotating shaft of the drive roll 3 is provided with a coaxial chain wheel 17, and the chain wheel 17 is meshed with a chain 18; a belt 9 is arranged on the main body frame 21, the front end of the belt 9 is provided with a driving roller 3, and the rear end of the belt 9 is provided with a guide roller 14; as shown in fig. 1, a stainless steel conical welding piece 4 is installed at the upper end of a first steel pipe 1, a vibration hammer 5 is installed on the outer wall of the stainless steel conical welding piece 4, a discharge hole 6 is installed at the other end of a second steel pipe 2 as shown in fig. 5, and a first acrylic protective cover 7 is installed on the discharge hole 6; the take-up pan 10 is connected and fixed on belt feeder bottom main part frame 21, and second ya keli safety cover 20 is fixed on belt feeder upper portion main part frame 21.

As shown in fig. 1, the main body frame 21 is a stainless steel pipe welding part, the end faces of the first steel pipe 1 and the second steel pipe 2 are contacted to form a 25-degree angle and are welded together, and a height-adjustable movable support 8 is fixedly arranged below the main body frame 21; as shown in fig. 3, stainless steel support plates 11 are welded on the first steel pipe 1 and the second steel pipe 2 of the main body frame 21, a belt 9 is installed on the support plates 11, and a carrier roller 12 is fixed on the main body frame 21 below the middle position of the belt 9; a pressing wheel 13 of the belt 9 is fixed on the main body frame 5; the stainless steel conical welding part 4 is a stainless steel conical welding part; the discharge port 6 is a stainless steel arc-shaped welding piece, and the first acrylic protective cover 7 is fixedly connected with the arc-shaped stainless steel plate of the discharge port 6; the take-up pan 10 is a stainless steel concave plate as shown in figure 4.

As shown in fig. 1, a guide roller 14 is installed at the top end of the second steel pipe 2; the pinch rollers 13 are positioned at the included angle between the first steel pipe 1 and the second steel pipe 2, and two ends of each pinch roller 13 are positioned at the included angle; as shown in fig. 6, four support columns 19 are welded by stainless steel pipes under the stainless steel conical welding part 4, and the support columns 19 are connected to the main frame 5; as shown in fig. 7, the concave stainless steel receiving tray 10 is formed by combining and splicing four tray bodies.

The utility model relates to a material conveying device between production equipment, which effectively solves the problem that wet particles are easy to deform and lump during transportation between the production equipment, directly conveys materials falling in a receiving hopper to next production equipment through a conveying belt with a certain angle by using a reasonable conveying speed, and has the advantages of simple structure, convenience in installation and movement and low manufacturing cost.

Claims (3)

1. The utility model provides a material conveyor between production facility which characterized by: a second steel pipe (2) of the main body frame (21) has an inclination angle of 25 degrees with the horizontal ground, a variable speed motor (15) is installed below the driving roller (3), the output end of the variable speed motor (15) is connected with a speed regulator (16), the main shaft of a chain wheel (17) is connected with a motor shaft, one end of the rotating shaft of the driving roller (3) is provided with a coaxial chain wheel (17), and the chain wheel (17) is meshed with a chain (18); a belt (9) is arranged on a main body frame (21), the front end of the belt (9) is provided with a driving roller (3), and the rear end of the belt (9) is provided with a guide roller (14); a stainless steel conical welding piece (4) is arranged at the upper end of the first steel pipe (1), a vibration hammer (5) is arranged on the outer wall of the stainless steel conical welding piece (4), a discharge hole (6) is arranged at the other end of the second steel pipe (2), and a first acrylic protective cover (7) is arranged on the discharge hole (6); the material receiving disc (10) is connected and fixed on a main body frame (21) at the bottom of the belt conveyor, and the second acrylic protective cover (20) is fixed on the main body frame (21) at the upper part of the belt conveyor.

2. The material conveying device between the production facilities as claimed in claim 1, wherein: the main body frame (21) is a stainless steel pipe welding part, the end faces of the first steel pipe (1) and the second steel pipe (2) are contacted to form a 25-degree angle and are welded together, and a movable support (8) with adjustable height is fixedly arranged below the main body frame (21); stainless steel supporting plates (11) are welded on a first steel pipe (1) and a second steel pipe (2) of a main body frame (21), a belt (9) is installed on the supporting plates (11), and a carrier roller (12) is fixed on the main body frame (21) below the middle position of the belt (9); a pressing wheel (13) of the belt (9) is fixed on the main body frame (21); the stainless steel conical welding piece (4) is a stainless steel conical welding piece; the discharge port (6) is a stainless steel arc-shaped welding piece, and the first acrylic protective cover (7) is fixedly connected with an arc-shaped stainless steel plate of the discharge port (6); the material receiving disc (10) is a stainless steel concave plate.

3. The material conveying device between the production facilities as claimed in claim 1, wherein: a guide roller (14) is arranged at the top end of the second steel pipe (2); the pinch rollers (13) are positioned at the included angle between the first steel pipe (1) and the second steel pipe (2), and the pinch rollers (13) are respectively arranged at two ends of the included angle; four support columns (19) are welded below the stainless steel conical welding piece (4) by stainless steel pipes, and the support columns (19) are connected to a main body frame (21); the stainless steel concave material receiving disc (10) is formed by combining and splicing four disc bodies.

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