CN109208017B

CN109208017B - Stainless steel pipe processing machine

Info

Publication number: CN109208017B
Application number: CN201811263048.6A
Authority: CN
Inventors: 单士营
Original assignee: Foshan Yuanhongwang Metal Products Co Ltd
Current assignee: Foshan yuanhongwang metal products Co.,Ltd.
Priority date: 2018-10-27
Filing date: 2018-10-27
Publication date: 2020-07-24
Anticipated expiration: 2038-10-27
Also published as: CN109208017A

Abstract

The invention discloses a stainless steel pipe processing machine which comprises a machine body, wherein the machine body is of a quadrilateral structure with an opening at the upper end, a liquid inlet pipe is installed at the upper end of the machine body, a liquid outlet pipe is installed at the bottom end of the machine body, valves are installed on the liquid inlet pipe and the liquid outlet pipe, a feeding sliding plate and a discharging sliding plate which are obliquely arranged are installed in the machine body, the oblique directions of the feeding sliding plate and the discharging sliding plate are opposite, the feeding sliding plate and the discharging sliding plate are used for conveying stainless steel pipes, and one ends of the feeding sliding plate and one ends of the discharging sliding plate are lapped at the upper end. The invention adopts the slide plate type feeding and discharging mechanism, realizes the ordered feeding and discharging of the stainless steel pipes by utilizing the circular characteristic of the stainless steel pipes, and effectively solves the problem that the pickling device in the traditional technology generally adopts a pickling tank, all the stainless steel pipes are simultaneously fed into the pickling tank, all the stainless steel pipes are taken out after the pickling tank is pickled, and the inconvenience is caused to the processing because the pickling time of each steel pipe cannot be distinguished.

Description

Stainless steel pipe processing machine

Technical Field

The invention relates to the technical field of stainless steel pipe processing, in particular to a stainless steel pipe processing machine.

Background

Stainless steel has the excellent characteristics of unique strength, higher wear resistance, superior corrosion resistance, difficult rusting and the like, so the stainless steel is widely applied to other industries. The stainless steel pipe is subjected to a plurality of processes such as welding, cutting, acid washing and the like during processing, and the corrosion resistance of the stainless steel is mainly caused by the reaction of chromium element contained in the stainless steel and oxygen, so that a compact protective layer is formed on the surface of the stainless steel. The pickling has the function of enabling the stainless steel pipe to undergo the reaction in advance so as to improve the corrosion resistance of the stainless steel pipe. And the oil stain attached to the surface of the pipe and other matters contaminated in the production can be removed in the acid washing process.

However, the pickling apparatus in the conventional art usually employs a pickling tank, and the stainless steel tubes are sent into the pickling tank to be soaked and pickled, but in this way, unless the stainless steel tubes are simultaneously sent into the pickling tank and all the stainless steel tubes are taken out after pickling, the pickling time of each steel tube cannot be distinguished, which causes inconvenience to the processing.

Disclosure of Invention

The invention aims to solve the problems and provides a stainless steel pipe processing machine.

In order to achieve the purpose, the invention adopts the following technical scheme:

a stainless steel pipe processing machine comprises a machine body, wherein the machine body adopts a quadrilateral structure with an opening at the upper end, a liquid inlet pipe is arranged at the upper end of the machine body, a liquid outlet pipe is arranged at the bottom end of the machine body, valves are arranged on the liquid inlet pipe and the liquid outlet pipe, a feeding sliding plate and a discharging sliding plate which are obliquely arranged are arranged in the machine body, the inclination directions of the feeding sliding plate and the discharging sliding plate are opposite, the feeding sliding plate and the discharging sliding plate are used for conveying the stainless steel pipes, one end of the feeding sliding plate and one end of the discharging sliding plate are arranged at the upper end of the machine body, the other ends of the feeding sliding plate and the discharging sliding plate are arranged at the inner bottom end of the machine body, the inner bottom end of the discharging sliding plate positioned on the machine body is provided with a quantitative feeding device, the inner bottom end of the feeding sliding plate positioned on the machine body is provided with a material pushing mechanism, when the stainless steel pipe moves to the inner bottom end of the feeding sliding plate, the stainless steel pipe can be pushed into the quantitative feeding device through the material pushing mechanism.

Preferably, the feeding sliding plate and the discharging sliding plate are both composed of at least two strip-shaped plate bodies, and the quantitative feeding device is arranged at the gap between every two adjacent plate bodies.

Preferably, the pushing mechanism adopts an air cylinder.

Preferably, the quantitative feeding device is composed of a speed reduction driving mechanism and a plurality of progressive feeding mechanisms, and the progressive feeding mechanisms are connected with and powered by the output end of the speed reduction driving mechanism.

Preferably, the speed reduction driving mechanism comprises a servo motor, a driving gear, a middle shaft gear, a central rotating shaft, a driven gear and an output shaft, wherein the middle shaft gear is formed by coaxially and fixedly connecting a large gear and a small gear;

the servo motor is installed at the bottom of the outer surface of the machine body, the driving gear is in interference fit with an output shaft of the servo motor, the driving gear is meshed with one side of the middle shaft gear, the driven gear is meshed with the other side of the middle shaft gear, the middle of the middle shaft gear is in interference fit with the central rotating shaft, the central rotating shaft is in interference fit with the deep groove ball bearing, the central rotating shaft is rotatably connected to the outer surface of the machine body through the deep groove ball bearing, the output shaft is in interference fit with the driven gear, and the output shaft penetrates through the outer surface of the machine body and extends to the inner wall of the other side.

Preferably, the progressive feeding mechanism consists of a connecting piece at the bottom and a material ejecting piece at the top;

the connecting piece comprises two connecting blocks which are symmetrically arranged, and the two connecting blocks are fixedly connected with the output shaft;

the ejection part consists of an ejector rod and an ejector block, and the ejector rod is rotatably connected between the two connecting blocks through a pin shaft.

Preferably, the top of the ejector block is provided with a chamfer, and the chamfer and the discharging sliding plate are in the same inclination direction.

Compared with the prior art, the invention has the following advantages:

1. the invention adopts the slide plate type feeding and discharging mechanism, realizes the ordered feeding and discharging of the stainless steel pipes by utilizing the circular characteristic of the stainless steel pipes, and effectively solves the problem that the pickling device in the traditional technology generally adopts a pickling tank, all the stainless steel pipes are simultaneously fed into the pickling tank, all the stainless steel pipes are taken out after the pickling tank is pickled, and the inconvenience is caused to the processing because the pickling time of each steel pipe cannot be distinguished.

2. The invention adopts a plurality of progressive feeding mechanisms, the progressive feeding mechanisms are connected with the output end of the speed reduction driving mechanism and provide power by the output end, the ejector rods in the ejection pieces in the progressive feeding mechanisms are continuously increased in size, so that the plurality of ejection pieces alternately move up and down, when the ejection pieces are intersected, namely the tops of two ejection blocks are close to a plane, and the upper parts of the two ejection blocks are provided with inclined planes, so that a stainless light tube can slide into the next ejection piece and continuously transmit upwards until the stainless light tube is transmitted to the discharge sliding plate, and slides out through the discharge sliding plate, thereby realizing the alternately, orderly and quantitative discharge of the stainless light tube.

Drawings

FIG. 1 is a schematic structural diagram of a stainless steel tube processing machine according to the present invention;

FIG. 2 is a view taken along line A-A of FIG. 1 in accordance with the present invention;

fig. 3 is an enlarged schematic structural view of a progressive feeding mechanism of a stainless steel tube processing machine according to the present invention.

In the figure: 1 machine body, 2 pushing mechanisms, 3 feeding sliding plates, 4 discharging sliding plates, 5 quantitative feeding devices, 51 servo motors, 52 driving gears, 53 middle shaft gears, 54 central rotating shafts, 55 driven gears, 56 output shafts, 57 connecting pieces, 571 connecting blocks, 572 pin shafts, 58 pushing pieces, 581 ejector rods, 582 ejector blocks, 583 oblique planes and 6 stainless steel pipes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1 to 3, a stainless steel pipe processing machine comprises a machine body 1, wherein the machine body 1 is of a quadrilateral structure with an open upper end, a liquid inlet pipe is installed at the upper end of the machine body 1, a liquid outlet pipe is installed at the bottom end of the machine body 1, and valves (not shown) are installed on the liquid inlet pipe and the liquid outlet pipe.

Install the feeding slide 3 and the ejection of compact slide 4 that the slope set up in the organism 1, and the incline direction of feeding slide 3 and ejection of compact slide 4 is opposite, and feeding slide 3 and ejection of compact slide 4 are used for carrying stainless steel pipe 6.

Specifically, the feeding sliding plate 3 and the discharging sliding plate 4 are both composed of at least two strip-shaped plate bodies, and the quantitative feeding device 5 is arranged at the gap between the two adjacent plate bodies.

The one end of feeding slide 3 and ejection of compact slide 4 is taken in the upper end of organism 1, and the other end of feeding slide 3 and ejection of compact slide 4 is located the interior bottom of organism 1, and quantitative material feeding unit 5 is installed to the interior bottom that ejection of compact slide 4 is located organism 1, and feeding slide 3 is located the interior bottom of organism 1 and installs pushing equipment 2, and accessible pushing equipment 2 pushes into in quantitative material feeding unit 5 when stainless steel pipe 6 moves to the interior bottom of feeding slide 3. Specifically, the pushing mechanism 2 employs a cylinder.

Specifically, referring to fig. 2, the quantitative feeding device 5 is composed of a speed reduction driving mechanism and a plurality of progressive feeding mechanisms, and the progressive feeding mechanisms are connected with and powered by the output end of the speed reduction driving mechanism.

Further, the speed reduction driving mechanism comprises a servo motor 51, a driving gear 52, a middle shaft gear 53, a central rotating shaft 54, a driven gear 55 and an output shaft 56, wherein the middle shaft gear 53 is formed by coaxially and fixedly connecting a large gear and a small gear, the servo motor 51 adopts an SGMGH-13ACA61 servo motor, and the speed reduction driving mechanism has the functions of: the servo motor 51 can realize speed reduction output and provide power for the progressive feeding mechanism, and the specific connection mode is as follows:

the servo motor 51 is installed at the bottom of the outer surface of the machine body 1, the driving gear 52 is in interference fit with an output shaft of the servo motor 51, the driving gear 52 is meshed with one side of the middle shaft gear 53, the driven gear 55 is meshed with the other side of the middle shaft gear 53, the middle part of the middle shaft gear 53 is in interference fit with the central rotating shaft 54, the central rotating shaft 54 is provided with a deep groove ball bearing in interference fit, the central rotating shaft 54 is rotatably connected to the outer surface of the machine body 1 through the deep groove ball bearing, the output shaft 56 is in interference fit with the driven gear 55, and the output shaft 56 penetrates through the outer surface of the machine body 1.

Furthermore, the progressive feeding mechanism is composed of a connecting piece 57 at the bottom and a material ejecting piece 58 at the top; the connecting member 57 is mainly used for connecting the output shaft 56; the ejector 58 is used to achieve alternate feeding.

The connecting piece 57 comprises two connecting blocks 571 which are symmetrically arranged, and the two connecting blocks 571 are fixedly connected with the output shaft 56;

the ejector 58 is composed of two parts, namely an ejector rod 581 and an ejector block 582, and the ejector rod 581 is rotatably connected between two connecting blocks 571 through a pin shaft 572.

It should be noted that the length of the push rod 581 should be increased toward the side close to the discharging slide plate 4.

Preferably, the top of the top block 582 is provided with a chamfer 583, and the chamfer 583 and the discharging sliding plate 4 are inclined in the same direction, so that the stainless steel pipe 6 can slide to one side during transportation.

The operating principle of the present invention will now be described as follows:

before processing, acid washing is sent into the machine body 1 through the liquid inlet pipe, and the interior of the machine body is filled to 2/3, so that the preparation work before processing is completed.

During processing, firstly, the stainless steel tube 6 slides into the inner bottom end of the machine body 1 in sequence from the feeding sliding plate 3, after the stainless steel tube is fully contacted with the pickling solution, the cylinder is started, a push plate can be fixedly connected to a piston rod of the cylinder, the stainless steel tube 2 is pushed into the bottom end of the material ejecting and feeding device through the push plate, namely, the material ejecting part 58 at the bottommost part is arranged, as the ejector rods in the material ejecting part 58 are continuously increased in size, the material ejecting parts 58 move up and down alternately, and when the two parts are intersected, namely, the tops of the two ejector blocks 582 are close to a plane, and as the upper part is provided with the inclined cut surface 583, the stainless steel tube 6 can slide into the next material ejecting part 58 and continuously and upwards transmit until the stainless steel tube is transmitted to the discharging sliding plate.

Wherein the power source of the quantitative feeding device 5 is as follows: the servo motor 51 is started, the servo motor 51 further drives the driving gear 52 of the output shaft to rotate, the driving gear 52 drives the middle shaft gear 53 meshed with the driving gear to rotate, the middle shaft gear 53 further drives the driven gear 55 meshed with the middle shaft gear to rotate, and the driven gear 55 further drives the output shaft 56 in interference fit with the driven gear to rotate, so that power is provided for the ejecting and feeding device.

In the present invention, unless otherwise specifically stated or limited, the terms "sliding", "rotating", "fixed", "provided", and the like are to be understood broadly, and may be, for example, welded, bolted, or integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a nonrust steel pipe processing machine, includes organism (1), its characterized in that, organism (1) adopts upper end open-ended quadrangle structure, the feed liquor pipe is installed to the upper end of organism (1), the drain pipe is installed to the bottom of organism (1), all install the valve on feed liquor pipe and the drain pipe, install feeding slide (3) and ejection of compact slide (4) that the slope set up in organism (1), and the slope opposite direction of feeding slide (3) and ejection of compact slide (4), feeding slide (3) and ejection of compact slide (4) are used for carrying nonrust steel pipe (6), the one end of feeding slide (3) and ejection of compact slide (4) is taken in the upper end of organism (1), the feeding slide (3) other end is located the interior bottom of organism (1), quantitative material feeding device (5) is installed to the interior bottom end of organism (1), the quantitative feeding device (5) is connected with the other end of the discharging sliding plate (4), the feeding sliding plate (3) is positioned at the inner bottom end of the machine body (1) and is provided with a material pushing mechanism (2), and the stainless steel pipe (6) can be pushed into the quantitative feeding device (5) through the material pushing mechanism (2) when moving to the inner bottom end of the feeding sliding plate (3);

the quantitative feeding device (5) is composed of a speed reduction driving mechanism and a plurality of progressive feeding mechanisms, and the progressive feeding mechanisms are connected with the output end of the speed reduction driving mechanism and provide power by the output end;

the speed reduction driving mechanism comprises a servo motor (51), a driving gear (52), a middle shaft gear (53), a central rotating shaft (54), a driven gear (55) and an output shaft (56), wherein the middle shaft gear (53) is formed by coaxially and fixedly connecting a large gear and a small gear;

the servo motor (51) is installed at the bottom of the outer surface of the machine body (1), the driving gear (52) is in interference fit with an output shaft of the servo motor (51), the driving gear (52) is meshed with one side of the middle shaft gear (53), the driven gear (55) is meshed with the other side of the middle shaft gear (53), the middle of the middle shaft gear (53) is in interference fit with the central rotating shaft (54), a deep groove ball bearing is in interference fit on the central rotating shaft (54), the central rotating shaft (54) is rotatably connected to the outer surface of the machine body (1) through the deep groove ball bearing, the output shaft (56) is in interference fit with the driven gear (55), and the output shaft (56) penetrates through the outer surface of the machine body (1) and extends to the inner wall of the other side of the machine body (1) and is rotatably;

the progressive feeding mechanism consists of a connecting piece (57) at the bottom and a material ejecting piece (58) at the top;

the connecting piece (57) comprises two connecting blocks (571) which are symmetrically arranged, and the two connecting blocks (571) are fixedly connected with the output shaft (56);

the material ejection part (58) consists of two parts, namely an ejector rod (581) and an ejector block (582), wherein the ejector rod (581) is rotatably connected between the two connecting blocks (571) through a pin shaft (572);

chamfer (583) have been seted up at the top of kicking block (582), and chamfer (583) are the same with the incline direction of ejection of compact slide (4).

2. A machine according to claim 1, characterized in that said feed slide (3) and said discharge slide (4) are each formed by at least two elongated plates, said means (5) for quantitatively feeding being arranged in the gap between two adjacent plates.

3. A machine for processing stainless steel pipes according to claim 1, characterized in that the said pushing mechanism (2) is a pneumatic cylinder.