CN210314399U - Feeding mechanism for non-oxidation furnace - Google Patents

Abstract

The utility model relates to the technical field of steel pipe processing equipment, in particular to a feeding mechanism for a non-oxidation furnace, which comprises a linear guide rail, wherein the top surface of the linear guide rail is slidably connected with a sliding seat through a sliding block, a steel pipe blanking hopper is welded on the top surface of a stand column, a discharge port is welded at the bottom of the left side surface of the steel pipe blanking hopper, the left side surface and the right side surface of the discharge port are respectively provided with an opening, a first rectangular through hole is arranged at the bottom surface of the joint of the discharge port and the steel pipe blanking hopper, and a second rectangular through hole is arranged at the bottom of one end of the discharge port, which is far away from the steel pipe blanking hopper, the utility model has simple structure and strong practicability, and can effectively change the defect that the steel pipe is manually placed in the prior art, avoid the standing waiting of workers, consume time and effectively reduce the labor, thereby effectively reducing the production cost of enterprises.

Description

Feeding mechanism for non-oxidation furnace

Technical Field

The utility model belongs to the technical field of steel pipe processing equipment technique and specifically relates to a feeding mechanism for an oxidation-free furnace.

Background

At present, the heat treatment of the stainless steel pipe is a non-oxidation heat treatment process with protective gas which is generally adopted in China. The process can obtain bright surface without oxidation, thereby eliminating the traditional pickling process. The heat treatment process improves the quality of the steel pipe and overcomes the pollution of acid washing to the environment.

The steel pipe generally can carry through the conveyer belt before getting into non-oxidation furnace, because the steel pipe needs certain time when getting into non-oxidation furnace and smelting, and, the staff need the manual work place the steel pipe after on the conveyer belt, wait for the steel pipe to get into non-oxidation furnace and smelt, can continue to put in the steel pipe after finishing smelting, in this process, the workman not only need wait for the time that the steel pipe was smelted, lead to workman's latency to consume more, and, because steel pipe weight is heavier, every steel pipe all needs the manual work to be placed on the conveyer belt, lead to workman's labour expenditure great, make manufacturing cost improve.

Disclosure of Invention

The utility model provides a to the not enough of prior art, the utility model provides a no oxidation furnace goes into stove feeding mechanism, this feeding mechanism can effectively solve the problem that above-mentioned background art provided through simple structural design.

The technical scheme of the utility model is that:

the feeding mechanism for the non-oxidation furnace is characterized in that: the steel pipe blanking device comprises a linear guide rail, wherein the top surface of the linear guide rail is connected with a sliding seat in a sliding manner through a sliding block, two upright posts are welded on the right side of the top surface of the sliding seat, a steel pipe blanking hopper is welded on the top surface of the upright posts, the section of the steel pipe blanking hopper is in a quarter circle, a discharge port is welded on the bottom of the left side surface of the steel pipe blanking hopper, openings are formed in the left side surface and the right side surface of the discharge port, a first rectangular through hole is formed in the bottom of the joint of the discharge port and the steel pipe blanking hopper, a second rectangular through hole is formed in the bottom of one end, away from the steel pipe blanking hopper, of the discharge port, a first air cylinder and a second air cylinder are sequentially arranged under the discharge port, a first partition plate matched with the first rectangular through hole is welded at the push rod end of the first air cylinder, a second partition plate matched with the second rectangular through, the right side of linear guide is provided with the fixing base, the top surface middle part of fixing base promotes the cylinder through support column fixedly connected with, the push rod end welding of promotion cylinder has the promotion piece, the one end that the push rod was kept away from to the promotion piece is provided with the arc wall, promote the piece and pass through the arc wall and steel pipe hopper welding down, linear guide's left side is provided with conveying mechanism.

Further, conveying mechanism includes mount, initiative running roller, driving motor and driven running roller, mount parallel arrangement is subaerial, the initiative running roller is all installed to the front and back end at mount top, the one end of initiative running roller is connected with driving motor, the driving motor rigid coupling is on the outer wall of mount, the top of mount just is located equidistant a plurality of driven running rollers of installing between two initiative running rollers.

Furthermore, a vibration disc is fixedly mounted on the outer wall of the bottom of the steel pipe discharging hopper and on one side close to the discharging port.

Furthermore, the tops of the first partition plate and the second partition plate are respectively wrapped with a layer of buffer rubber mat; the function is as follows: the steel pipe is prevented from being damaged when the first partition plate is inserted into the first through hole to separate the steel pipe.

Furthermore, a baffle is welded on the top surface of the fixing frame and on one side close to the driving motor, and the height of the baffle is higher than that of the steel pipe.

Furthermore, the bottom height of the discharge hole is higher than the top height of the fixing frame.

The utility model discloses a theory of operation does: before working, a plurality of steel pipes are placed on the steel pipe blanking hopper, when the working, the second air cylinder is started, the second air cylinder pushes the second partition plate to be inserted into the second rectangular through hole, after the second partition plate blocks the second rectangular through hole, the first air cylinder resets to retract the first partition plate from the first rectangular through hole, at the moment, the steel pipe at the bottommost part of the steel pipe blanking hopper slides into the discharge hole and is blocked by the second partition plate, the discharge hole just can only contain one steel pipe, the following steel pipe is propped against the right side of the steel pipe in the sliding to the discharge hole, if the steel pipe slides into the discharge hole, the vibration disc can be started, the steel pipe can smoothly enter the discharge hole through the vibration of the vibration disc, at the moment, the first air cylinder continues to be started, the first air cylinder pushes the first partition plate to be inserted into the first rectangular through hole to block the following steel pipe, then, the pushing air cylinder is started to push the steel pipe blanking hopper, stop when the discharge gate reachs the mount forward position, at this moment, the second cylinder resets, and the second baffle contracts out the second rectangle through-hole, continues to start the vibration dish, makes the steel pipe in the discharge gate flow from the discharge gate through the vibration of vibration dish, and the landing is blocked on the running roller, is stopped by the baffle, at this moment, promotes the cylinder and resets, and at last, carries the steel pipe through the running roller, and until the steel pipe enters into no oxidation furnace, thereby accomplish the transport of a steel pipe, subsequent steel pipe continues to carry according to this operation.

It should be noted that: the utility model discloses well first cylinder, second cylinder, promotion cylinder, driving motor and vibration dish are prior art, and its control technology and computer program are obviously also prior art, the utility model discloses an use and must apply the hardware structure and the control software of above-mentioned each equipment, nevertheless be the ready-made product that has sold on the market, to this technical field's ordinary technical personnel, can implement this technical scheme smoothly according to this writing and prior art.

The utility model has the advantages that: the utility model discloses simple structure, the practicality is strong, through being equipped with hopper, discharge gate, first cylinder, second cylinder, linear guide and push cylinder under the steel pipe, can effectively change prior art and adopt the manual work to place the not enough of steel pipe, avoids the workman to wait that stews, expends time, moreover, effectively reduces workman's labour expenditure, and then effectively reduces the manufacturing cost of enterprise.

Drawings

FIG. 1 is a schematic structural view (front sectional view) of the present invention;

fig. 2 is a top view of the conveying mechanism of the present invention.

In the figure, 1, a linear guide rail; 2. a sliding seat; 3. a column; 4. a steel pipe discharging hopper; 5. a discharge port; 6. a first cylinder; 7. a second cylinder; 8. a first separator; 9. a second separator; 10. a fixed seat; 11. a support pillar; 12. a push cylinder; 13. a pushing block; 14. an arc-shaped slot; 15. a conveying mechanism; 16. a fixed mount; 17. a driving roller; 18. a drive motor; 19. a driven roller; 20. a vibrating pan; 21. and a baffle plate.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings:

as shown in fig. 1-2, the feeding mechanism for feeding a non-oxidation furnace comprises a linear guide rail 1, wherein the top surface of the linear guide rail 1 is slidably connected with a sliding seat 2 through a sliding block, two upright posts 3 are welded on the right side of the top surface of the sliding seat 2, a steel pipe discharging hopper 4 is welded on the top surface of each upright post 3, the section of the steel pipe discharging hopper 4 is a quarter circle, a discharging port 5 is welded on the bottom of the left side surface of the steel pipe discharging hopper 4, openings are formed in the left side surface and the right side surface of the discharging port 5, a first rectangular through hole is formed in the bottom of the joint of the discharging port 5 and the steel pipe discharging hopper 4, a second rectangular through hole is formed in the bottom of one end, away from the steel pipe discharging hopper 4, a first air cylinder 6 and a second air cylinder 7 are sequentially arranged under the discharging port 5, a first partition plate 8 matched with the first rectangular through hole, the welding of the push rod end of second cylinder 7 has the second baffle 9 with second rectangle through-hole looks adaptation, the top surface at sliding seat 2 is all installed to first cylinder 6 and second cylinder 7, linear guide 1's right side is provided with fixing base 10, support column 11 fixedly connected with promotion cylinder 12 is passed through at the top surface middle part of fixing base 10, the welding of the push rod end of promotion cylinder 12 has and promotes piece 13, the one end that promotes piece 13 and keep away from the push rod is provided with arc wall 14, it welds through hopper 4 under arc wall 14 and the steel pipe to promote piece 13, linear guide 1's left side is provided with conveying mechanism 15.

Conveying mechanism 15 includes mount 16, initiative running roller 17, driving motor 18 and driven running roller 19, mount 16 parallel arrangement is subaerial, initiative running roller 17 is all installed to the front and back end at mount 16 top, the one end of initiative running roller 17 is connected with driving motor 18, driving motor 18 rigid coupling is on the outer wall of mount 16, the top of mount 16 just is located equidistant a plurality of driven running rollers 19 of installing between two initiative running rollers 17.

And a vibrating disc 20 is fixedly arranged on the outer wall of the bottom of the steel pipe discharging hopper 4 and on one side close to the discharging hole 5.

The tops of the first partition plate 8 and the second partition plate 9 are wrapped by a layer of buffer rubber mat.

A baffle 21 is welded on one side of the top surface of the fixed frame 16, which is close to the driving motor 18, and the height of the baffle 21 is higher than that of the steel pipe.

The bottom height of the discharge hole 5 is higher than the top height of the fixed frame 16.

In the embodiment, the pushing cylinder is a double-stroke single-rod cylinder which is produced by long-credit pneumatic equipment limited company in Dongguan city and has the model of L-CDQ2B32-25+25DZ-XC 11.

The driving motor in the embodiment is a high-efficiency energy-saving motor which is manufactured by Nanjing Suma motor Co.Ltd and has the model number of YE 2315S-4.

In the embodiment, the first cylinder and the second cylinder are both made of a freely-installed cylinder with the model number of CDU 20-30, which is manufactured by Liyang pneumatic Co.

The vibration plate in this embodiment is an AR3 high-frequency external vibrator manufactured by city railway machinery limited, guangzhou.

The foregoing embodiments and description have been provided to illustrate the principles and preferred embodiments of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed.

Claims (6)

1. The feeding mechanism for the non-oxidation furnace is characterized in that: the steel pipe blanking device comprises a linear guide rail (1), the top surface of the linear guide rail (1) is connected with a sliding seat (2) in a sliding mode through a sliding block, two stand columns (3) are welded on the right side of the top surface of the sliding seat (2), a steel pipe blanking hopper (4) is welded on the top surface of each stand column (3), the cross section of the steel pipe blanking hopper (4) is in a quarter circle shape, a discharge port (5) is welded on the bottom of the left side surface of the steel pipe blanking hopper (4), openings are formed in the left side surface and the right side surface of the discharge port (5), a first rectangular through hole is formed in the bottom of the joint of the discharge port (5) and the steel pipe blanking hopper (4), a second rectangular through hole is formed in the bottom of one end, away from the steel pipe blanking hopper (4), of the discharge port (5), a first air cylinder (6) and a second air cylinder (7) are sequentially arranged under the discharge port (5), a first partition plate (, the welding of the push rod end of second cylinder (7) has second baffle (9) with second rectangle through-hole looks adaptation, the top surface at sliding seat (2) is all installed in first cylinder (6) and second cylinder (7), the right side of linear guide (1) is provided with fixing base (10), the top surface middle part of fixing base (10) is through support column (11) fixedly connected with promotion cylinder (12), the welding of the push rod end of promotion cylinder (12) has and promotes piece (13), the one end that promotes piece (13) and keep away from the push rod is provided with arc wall (14), it welds with hopper (4) under the steel pipe through arc wall (14) to promote piece (13), the left side of linear guide (1) is provided with conveying mechanism (15).

2. The charging and feeding mechanism of the non-oxidation furnace as set forth in claim 1, wherein: conveying mechanism (15) are including mount (16), initiative running roller (17), driving motor (18) and driven running roller (19), mount (16) parallel arrangement is subaerial, initiative running roller (17) are all installed to the front and back end at mount (16) top, the one end of initiative running roller (17) is connected with driving motor (18), driving motor (18) rigid coupling is on the outer wall of mount (16), the top of mount (16) just is located equidistant a plurality of driven running roller (19) of installing between two initiative running roller (17).

3. The charging and feeding mechanism of the non-oxidation furnace as set forth in claim 2, wherein: and a vibration disc (20) is fixedly arranged on the outer wall of the bottom of the steel pipe discharging hopper (4) and on one side close to the discharging hole (5).

4. The charging and feeding mechanism of the non-oxidation furnace as set forth in claim 3, wherein: the top parts of the first partition plate (8) and the second partition plate (9) are wrapped by a layer of buffer rubber mat.

5. The charging and feeding mechanism of the non-oxidation furnace as set forth in claim 4, wherein: the top surface of the fixed frame (16) and one side close to the driving motor (18) are welded with a baffle (21), and the height of the baffle (21) is higher than that of the steel pipe.

6. The charging and feeding mechanism of an oxidation-free furnace according to claim 5, wherein: the bottom height of the discharge hole (5) is higher than the top height of the fixed frame (16).

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