CN110745501A - Material flow separating device for sealing-tape machine - Google Patents

Abstract

The invention discloses a material flow separating device and method for an adhesive tape machine, which relate to the technical field of material conveying and separation and comprise an electro-hydraulic push rod, a connecting rod mechanism, a tilting carrier roller group, a separating scraper, an adhesive tape machine adhesive tape and a bearing chute, wherein the electro-hydraulic push rod, the connecting rod mechanism, the tilting carrier roller group, the separating scraper and the adhesive tape machine adhesive tape are of upper structures, and the bearing chute is of a lower structure; the electro-hydraulic push rod is respectively connected with the tilting carrier roller group and the separation scraper through a connecting rod mechanism, a rubber belt of the rubber belt machine is arranged above the tilting carrier roller group, and the separation scraper is arranged above the rubber belt of the rubber belt machine and is fixedly connected with the electro-hydraulic push rod; and a bearing chute is arranged below one side of the separation scraper and is connected with a downstream belt. The device can effectively separate materials conveyed on the adhesive tape machine, and the device can increase the required new operation flow without changing the original mechanism of the adhesive tape machine, has less investment and short reconstruction time, and can be repeatedly used.

Description

Material flow separating device for sealing-tape machine

Technical Field

The invention relates to the technical field of material conveying and separating, in particular to a material flow separating device for an adhesive tape machine.

Background

In the steel industry, the rubber belt conveyor of a stock yard has the characteristics of wide belt width, high speed, large conveying capacity and the like. The conveying system adopts the computer automatic operation control technology, wherein 70 percent of the adhesive tape machines are oriented fixed-point adhesive tape machines, the rest adhesive tape machines are oriented non-fixed-point, fixed-point non-oriented and non-fixed-point non-oriented adhesive tape machines, and a small part of turning plates and rotating chutes are added, so that the operation flows of a raw material yard are diversified, and different varieties of raw fuels can be conveyed to different users by using a part of the same adhesive tape machines due to the change of the operation flows. The use of the directional non-fixed point, fixed point non-directional, non-fixed point non-directional tape machine, the turning plate and the rotating chute can save a large amount of investment and production construction land, and is a common construction mode of the crude fuel distribution center in the world at present.

The diversification of the operation flows of the adhesive tape machine is increased by utilizing the directional non-fixed point, the fixed point non-directional and non-fixed point non-directional adhesive tape machine, the turning plate and the rotating chute, the method for reducing the investment cost and the construction land is good, but a potential problem also exists, once the operation flow needs to be newly added on the original equipment, the existing equipment needs to be transformed on a large scale, the investment is large, the transformation time is long, and the normal original fuel conveying is influenced. Especially, temporary or short-term process reconstruction, the invested equipment capital is basically disposable, and the original process needs to be reconstructed from a new process after the use is finished, so that further waste is caused.

Disclosure of Invention

Technical problem to be solved

The invention aims to provide a material flow separating device for an adhesive tape machine under the condition of not changing the original equipment structure of an operation process, the purpose of process reconstruction is achieved by installing the material flow separating device, and the original equipment is not influenced no matter permanent or temporary process reconstruction is carried out.

(II) technical scheme

A material flow separating device for an adhesive tape machine comprises an electro-hydraulic push rod, a connecting rod mechanism, a tilting carrier roller group, a separating scraper, an adhesive tape of the adhesive tape machine and a bearing chute, wherein the electro-hydraulic push rod, the connecting rod mechanism, the tilting carrier roller group, the separating scraper and the adhesive tape of the adhesive tape machine are of upper structures, and the bearing chute is of a lower structure; the electro-hydraulic push rod is respectively connected with the tilting carrier roller group and the separation scraper through a connecting rod mechanism, a rubber belt of the rubber belt machine is arranged above the tilting carrier roller group, and the separation scraper is arranged above the rubber belt of the rubber belt machine and is fixedly connected with the electro-hydraulic push rod; and a bearing chute is arranged below one side of the separation scraper and is connected with a downstream belt.

According to one embodiment of the invention, the electro-hydraulic push rod consists of an electro-hydraulic push rod shell, a lower limit pressing plate, a lower limit, an upper limit pressing plate, a rod end connecting piece, an electro-hydraulic push rod body and an electro-hydraulic push rod truss, wherein the upper limit and the lower limit are arranged on the electro-hydraulic push rod shell, and the upper limit pressing plate and the lower limit pressing plate are respectively arranged on the rod end connecting piece; the rod body of the electro-hydraulic push rod is arranged in the shell of the electro-hydraulic push rod, and the connecting piece at the end part of the rod body is arranged at the lower end of the rod body of the electro-hydraulic push rod; the electro-hydraulic push rod shell is connected with the connecting rod mechanism through an electro-hydraulic push rod truss.

According to one embodiment of the invention, the link mechanism consists of an L-shaped connecting plate, a fixed connecting rod, a first movable connecting plate, a fixed bolt, a first movable connecting pin and a second movable connecting pin, wherein the left side and the right side of the link mechanism are respectively provided with one group; the L-shaped connecting plate is connected with the separating scraper through 3 fixing bolts, and the rear ends of the fastening bolts are connected with the electro-hydraulic push rod truss through first loose joint pins; the lower parts of the L-shaped connecting plates on the two sides are connected with the first loose connecting plates through fixed connecting rods, and the other ends of the first loose connecting plates on the two sides are connected with the frame of the tilting carrier roller group through second loose connecting pins.

According to an embodiment of the invention, the tilting carrier roller group consists of a tilting carrier roller group frame, 7 groups of flat rollers, a second loose connecting plate, a third loose connecting pin and a flat roller, wherein the 7 groups of flat rollers are fixedly arranged above the tilting carrier roller group frame, two sides of the tilting carrier roller group are respectively provided with 3 second loose connecting plates, and the second loose connecting plates are fixedly connected with the tilting carrier roller group frame through the third loose connecting pin.

According to one embodiment of the invention, the separation scraper consists of a scraper frame, a scraper and a fourth loose joint pin, the separation scraper frame is connected with the end part of the electro-hydraulic push rod through the fourth loose joint pin, and the scraper fixes the scraper frame through a fixing bolt.

According to an embodiment of the invention, the screed frame is a steel structural frame.

According to an embodiment of the invention, the electro-hydraulic push rod truss is a steel structure frame.

(III) advantageous effects

By adopting the technical scheme, the material flow separating device for the belt conveyor can effectively separate materials conveyed on the belt conveyor; by installing the device on the adhesive tape machine, the required new operation flow can be added under the condition of not changing the original mechanism of the adhesive tape machine, and the original equipment cannot be influenced no matter the flow is permanently or temporarily modified; the device can be repeatedly used, the transformation cost is saved to the greatest extent, and the cost investment of enterprises is reduced.

Drawings

In the present invention, like reference numerals refer to like features throughout, wherein:

FIG. 1 is a schematic view of the structure of the apparatus of the present invention 1.

FIG. 2 is a schematic diagram of the apparatus of the present invention 2.

Fig. 3 is a schematic diagram of the structure of the electro-hydraulic push rod.

Fig. 4 is a schematic view of the linkage mechanism, the tilting carrier roller group and the separation blade.

Description of reference numerals:

1. an electro-hydraulic push rod; 2. a link mechanism; 3. a tilting carrier roller set; 4. separating the scraper; 5. a rubber belt of a rubber belt machine; 6. a carrying chute; 11. an electro-hydraulic push rod shell; 12. a lower limiting pressure plate; 13. lower limiting; 14. upper limiting; 15. an upper limiting pressure plate; 16. a rod end connector; 17. an electro-hydraulic push rod body; 18. an electro-hydraulic push rod truss; 21. an L-shaped connecting plate; 22. fixing the connecting rod; 23. a first flexible connecting plate; 24. fixing the bolt; 25. a first loose joint pin; 26. a second loose joint pin; 31. tilting the idler group frame; 32. a second flexible connecting plate; 33. a third loose joint pin; 34. a flat roll; 41. a squeegee frame; 42. a squeegee; 43. and the fourth loose joint pin.

Detailed Description

The technical scheme of the invention is further explained by combining the drawings and the embodiment.

With reference to fig. 1 and 2, a material flow separating device for a belt sealing machine comprises an electro-hydraulic push rod 1, a link mechanism 2, a tilting carrier roller group 3, a separating scraper 4, a rubber belt 5 of the belt sealing machine and a bearing chute 6. The electro-hydraulic push rod 1, the link mechanism 2, the tilting carrier roller group 3, the separating scraper 4 and the adhesive tape 5 of the adhesive tape machine are of an upper structure, and the bearing chute 6 is of a lower structure. The electro-hydraulic push rod 1 is respectively connected with the tilting carrier roller group 3 and the separating scraper 4 through the link mechanism 2, a rubber belt machine rubber belt 5 is arranged above the tilting carrier roller group 3, and the separating scraper 4 is arranged above the rubber belt machine rubber belt 5 and is fixedly connected with the electro-hydraulic push rod 1. A bearing chute 6 is arranged below one side of the separation scraper 4, and the bearing chute 6 is connected with a downstream belt.

When the material separating device is used for separating materials on the adhesive tape machine, a descending button in a control box of the material separating device for the adhesive tape machine is pressed, the electro-hydraulic push rod 1 is ejected out to drive the separating scraper 4 to descend, the fixing frame of the separating scraper 4 drives the upper part of the connecting rod mechanism 2 to move backwards and the lower part of the connecting rod mechanism 2 to move forwards in the descending process of the separating scraper 4, and the tilting carrier roller group 3 is pushed to ascend; in the ejection process of the electro-hydraulic push rod 1, a pressure plate arranged on the push rod touches a lower limit, the electro-hydraulic push rod stops acting, and at the moment, the shunt scraper descends to the right position. When the material passes, it is carried from one side of the separating scraper 4 into the carrying chute 6, falling onto the downstream belt, due to the blocking action of the separating scraper. After the operation is finished, a lifting button in a control box of a material flow separating device for the adhesive tape machine is pressed, an electro-hydraulic push rod 1 is recovered to drive a separating scraper 4 to lift, the separating scraper 4 drives the upper part of a connecting rod mechanism 2 to move forwards through a fixing frame of the separating scraper 4 in the lifting process, the lower part of the connecting rod mechanism 2 moves backwards to push a tilting carrier roller group 3 to tilt, the pressing plate arranged on the push rod touches an upper limit position through the electro-hydraulic push rod 1 in the recovery process, the electro-hydraulic push rod stops acting, and the separating scraper lifts in place at the moment.

Referring to fig. 3, the electro-hydraulic push rod 1 is composed of an electro-hydraulic push rod shell 11, a lower limit pressing plate 12, a lower limit 13, an upper limit 14, an upper limit pressing plate 15, a rod end connecting piece 16, an electro-hydraulic push rod body 17 and an electro-hydraulic push rod truss 18. The upper limit 14 and the lower limit 13 are arranged on the electro-hydraulic push rod shell 11, and the upper limit pressing plate 15 and the lower limit pressing plate 12 are respectively arranged on a rod body end connecting piece 16; an electro-hydraulic push rod body 17 is arranged inside the electro-hydraulic push rod shell 11, and a rod body end connecting piece 16 is arranged at the lower end of the electro-hydraulic push rod body 17; the electro-hydraulic push rod shell 11 is connected with the link mechanism 2 through an electro-hydraulic push rod truss 18. When the electro-hydraulic push rod works specifically, when the rod body 17 of the electro-hydraulic push rod is ejected, the upper limiting pressing plate 15 and the lower limiting pressing plate 12 fixed on the connecting piece 16 at the end part of the rod body at the lower end of the rod body 17 of the electro-hydraulic push rod move downwards along with the rod body, the lower limiting pressing plate 12 touches the lower limiting 13, and the rod body 17 of the electro-hydraulic push rod stops moving. When the electro-hydraulic push rod body 17 is recovered, the upper limiting pressing plate 15 and the lower limiting pressing plate 12 fixed on the rod body end connecting piece 16 at the lower end of the electro-hydraulic push rod body 17 move upwards, the upper limiting pressing plate 15 touches the upper limiting 14, and the electro-hydraulic push rod body 17 stops moving.

Referring to fig. 4, the link mechanism 2 is composed of an L-shaped connecting plate 21, a fixed link 22, a first loose connecting plate 23, a fixed bolt 24, a first loose connecting pin 25 and a second loose connecting pin 26, and the left side and the right side of the link mechanism are respectively provided with a group; the L-shaped connecting plate 21 is connected with a frame structure of the separation scraper through 3 fixing bolts 24, and the rear ends of the fixing bolts 24 are connected with the electro-hydraulic push rod truss 18 through first loose joint pins 25. The lower parts of the L-shaped connecting plates 21 on the two sides are connected with the first flexible connecting plate 23 through the fixed connecting rod 22, and the other ends of the first flexible connecting plates 23 on the two sides are connected with the frame of the tilting carrier roller group through the second flexible connecting pin 26.

The tilting carrier roller group 3 consists of a tilting carrier roller group frame 31, a second loose connecting plate 32, a third loose connecting pin 33 and a flat roller 34, wherein 7 groups of flat rollers 34 are fixedly arranged above the tilting carrier roller group frame 31, 3 second loose connecting plates 32 and 6 second loose connecting plates 32 are respectively arranged at two sides of the tilting carrier roller group 3, and the second loose connecting plates 32 are fixedly connected with the tilting carrier roller group frame 31 through the third loose connecting pin 33.

The separation scraper 4 consists of a scraper frame 41, a scraper 42 and a fourth loose joint pin 43, the separation scraper frame 41 is connected with the end part of the electro-hydraulic push rod through the fourth loose joint pin 43, and the scraper 42 fixes the scraper frame 41 through a fixing bolt. The squeegee frame 41 is a steel structure frame. The scraper frame is a steel structure frame. The electro-hydraulic push rod truss is a steel structure frame.

After the K408BC of the raw material crushing system is applied, the practical application effect is good, about 30 ten thousand tons of pellet ore are sieved through the newly added operation flow operation after the device is installed, the outsourcing sieving treatment cost of the pellet ore is saved by about 500 ten thousand yuan, and the expected invention effect is achieved. The device can effectively separate materials conveyed on the adhesive tape machine, and the device can increase the required new operation flow without changing the original mechanism of the adhesive tape machine, has less investment and short reconstruction time, and can be repeatedly used.

In conclusion, by adopting the technical scheme of the invention, the material flow separating device for the adhesive tape machine can effectively separate materials conveyed on the adhesive tape machine; by installing the device on the adhesive tape machine, the required new operation flow can be added under the condition of not changing the original mechanism of the adhesive tape machine, and the original equipment cannot be influenced no matter the flow is permanently or temporarily modified; the device can be repeatedly used, the transformation cost is saved to the greatest extent, and the cost investment of enterprises is reduced.

Claims (8)

1. The utility model provides a material flow separator for sealing-tape machine which characterized in that: the device comprises an electro-hydraulic push rod, a connecting rod mechanism, a tilting carrier roller group, a separating scraper, an adhesive tape of an adhesive tape machine and a bearing chute, wherein the electro-hydraulic push rod, the connecting rod mechanism, the tilting carrier roller group, the separating scraper and the adhesive tape of the adhesive tape machine are of an upper structure, and the bearing chute is of a lower structure; the electro-hydraulic push rod is respectively connected with the tilting carrier roller group and the separation scraper through a connecting rod mechanism, a rubber belt of the rubber belt machine is arranged above the tilting carrier roller group, and the separation scraper is arranged above the rubber belt of the rubber belt machine and is fixedly connected with the electro-hydraulic push rod; and a bearing chute is arranged below one side of the separation scraper and is connected with a downstream belt.

2. The material flow separating device for the belt sealing machine as claimed in claim 1, wherein the electro-hydraulic push rod is composed of an electro-hydraulic push rod shell, a lower limit pressing plate, a lower limit, an upper limit pressing plate, a rod end connecting piece, an electro-hydraulic push rod body and an electro-hydraulic push rod truss, the upper limit and the lower limit are installed on the electro-hydraulic push rod shell, and the upper limit pressing plate and the lower limit pressing plate are respectively installed on the rod end connecting piece; the rod body of the electro-hydraulic push rod is arranged in the shell of the electro-hydraulic push rod, and the connecting piece at the end part of the rod body is arranged at the lower end of the rod body of the electro-hydraulic push rod; the electro-hydraulic push rod shell is connected with the connecting rod mechanism through an electro-hydraulic push rod truss.

3. The material flow separating device for the belt sealing machine as claimed in claim 2, wherein the link mechanism is composed of an L-shaped connecting plate, a fixed connecting rod, a first loose connecting plate, a fixed bolt, a first loose connecting pin and a second loose connecting pin, and the left side and the right side of the link mechanism are respectively provided with one group; the L-shaped connecting plate is connected with the separating scraper through 3 fixing bolts, and the rear ends of the fastening bolts are connected with the electro-hydraulic push rod truss through first loose joint pins; the lower parts of the L-shaped connecting plates on the two sides are connected with the first loose connecting plates through fixed connecting rods, and the other ends of the first loose connecting plates on the two sides are connected with the frame of the tilting carrier roller group through second loose connecting pins.

4. The material flow separating device for the belt sealing machine as claimed in claim 3, wherein the tilting carrier roller group consists of a tilting carrier roller group frame, a second loose connecting plate, a third loose connecting pin and a flat roller, wherein 7 groups of the flat rollers are fixedly arranged above the tilting carrier roller group frame, 3 second loose connecting plates are respectively arranged at two sides of the tilting carrier roller group, and the second loose connecting plates are fixedly connected with the tilting carrier roller group frame through the third loose connecting pin.

5. The material flow separating device for the belt sealing machine as claimed in claim 4, wherein the separating scraper consists of a scraper frame, a scraper and a fourth loose joint pin, the separating scraper frame is connected with the end of the electro-hydraulic push rod through the fourth loose joint pin, and the scraper is fixed on the scraper frame through a fixing bolt.

6. The flow separator for belt conveyors as claimed in claim 5 wherein the scraper frame is a steel frame.

7. The material flow separating device for the belt sealing machine as claimed in claim 2, wherein the electro-hydraulic push rod truss is a steel structure frame.

8. The flow separator for a belt sealing machine as claimed in claim 4, wherein said tilting idler frame is a steel frame.

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