阅读说明：本技术 一种石墨管加工设施 (Graphite pipe processing facility ) 是由 高建河 刘国琴 彭姣 于 2020-03-25 设计创作，主要内容包括：本发明一种石墨管加工设施属于加工设施领域,在底座的上面横向水平安装圆柱形的机体、机体左边的内部设置了中空圆筒状的压镗、压镗的右边设置了中空圆锥形的加压管、加压管的右边设置了中空圆柱形的出料管,在机体的左边安装圆柱形的轴承座、在轴承座的内部通过环形轴承安装圆柱形的推进器、推进器左边的顶端安装圆盘状的减速齿轮、推进器的右边延伸至压镗的内部,在机体左边的上面垂直安装了圆筒状的进料管、在进料管的上面安装了圆锥形的料斗、在料斗上面的中央水平安装了一块托板、在托板的中央安装了圆柱形的减速电机、在减速电机的下方安装了螺旋形的推板。(The invention relates to a graphite tube processing facility, belonging to the field of processing facilities, wherein a cylindrical machine body is transversely and horizontally arranged on a base, a hollow cylindrical press boring is arranged inside the left side of the machine body, a hollow conical pressurizing tube is arranged on the right side of the press boring, a hollow cylindrical discharging tube is arranged on the right side of the pressurizing tube, a cylindrical bearing seat is arranged on the left side of the machine body, a cylindrical propeller is arranged in the bearing seat through an annular bearing, a disc-shaped reduction gear is arranged at the top end of the left side of the propeller, the right side of the propeller extends to the inside of the pressure boring machine, a cylindrical feeding pipe is vertically arranged on the left side of the machine body, a conical hopper is arranged on the feeding pipe, a supporting plate is horizontally arranged in the center of the upper surface of the hopper, a cylindrical speed reducing motor is arranged in the center of the supporting plate, and a spiral push plate is arranged below the speed reducing motor.)

1. A graphite tube processing facility is characterized by comprising a base, a motor, a driving gear, a main reduction gear, a machine body, a press boring device, a compression tube, a discharge tube, a propeller, a cone, a central shaft, a discharge tube, a hopper, a supporting plate, a reduction motor, a discharge push plate, a bearing seat, a feed inlet, a push bar, a bearing, an air switch and a power line;

the base is in a hollow rectangle shape and is transversely and horizontally arranged on the ground, a semicircular groove is transversely and horizontally arranged in the center of the base, a machine body is transversely and horizontally arranged in the groove, a cylindrical motor is transversely and horizontally arranged on the left side of the interior of the machine body, and a disc-shaped driving gear is arranged on a middle shaft on the left side of the motor;

the machine body is cylindrical, a hollow cylindrical pressing bore is horizontally arranged in the right side of the machine body, a hollow conical compression pipe is arranged at the top end of the right side of the pressing bore, the taper of the inside of the compression pipe is 10-15 degrees, a hollow cylindrical discharge pipe is horizontally arranged in the right side of the machine body, the left side of the discharge pipe is connected with the small end of the compression pipe, and a hollow cylindrical feed inlet is vertically arranged above the left side;

the bearing seat is hollow conical, the right side surface of the bearing seat is connected with the left side surface of the machine body through a bolt, and a propeller is horizontally arranged in the bearing seat through two annular bearings;

the propeller is conical, the top end of the left side extends to the outside of the left side of the bearing seat, a disc-shaped main reduction gear is arranged on the left side of the bearing seat, the bottom of the main reduction gear is meshed with the upper part of the driving gear, the middle part extends rightwards to the inside of the pressure boring machine, a spiral pushing strip is arranged on the upper part of the pressure boring machine, a conical cone is arranged on the right side of the middle part, the external taper of the cone is 10-15 degrees, the cone extends to the inside of the compression pipe, a cylindrical central shaft is arranged on the right side of a small head of the cone, the central shaft extends to the inside of the discharge pipe, the right top end of the central shaft is level with the right top end of the discharge pipe, and the central lines of the propeller, the cone and the central shaft are on the same straight line;

the blanking pipe is hollow cylindrical and is vertically arranged above the feeding hole;

the hopper is hollow conical, the upper part and the lower part of the hopper are both provided with openings, the hopper is vertically arranged on the discharging pipe, the center of the upper part is longitudinally and horizontally provided with a rectangular supporting plate, the center of the upper part of the supporting plate is vertically provided with a cylindrical speed reducing motor, a cylindrical central shaft below the speed reducing motor penetrates through the supporting plate and extends into the discharging pipe, and a spiral discharging push plate is arranged on the central shaft below the speed reducing motor;

the air switch is rectangular and is arranged on a power distribution cabinet of the assembly line, and the bottom of the air switch is connected with the motor and the speed reducing motor through a circular power line.

Technical Field

The invention relates to a graphite tube processing facility, belongs to the field of processing facilities, and particularly relates to a facility used for processing a graphite tube.

Background

A graphite pipe, a tubular fitting processed using graphite powder as a raw material, is generally used for a pipe through which a high-temperature liquid flows. The existing enterprises for processing the graphite tube mostly adopt horizontal lathe processing or vertical lathe processing when processing the graphite tube, the advantage of using the lathe processing is that the diameter and the wall thickness of the graphite tube can be changed at will, the defects are that the processing length is limited, the efficiency is low, and the graphite tube is not suitable for large-scale processing. There is therefore a need for a facility that can be made in unlimited length and efficiently to replace existing lathing.

Disclosure of Invention

The invention relates to a graphite tube processing facility which overcomes the difficulties, and adopts a rectangular base, a cylindrical machine body is transversely and horizontally arranged on the upper surface of the base, a hollow cylindrical press boring is arranged inside the left side of the machine body, a hollow conical pressurizing tube is arranged on the right side of the press boring, a hollow cylindrical discharging tube is arranged on the right side of the pressurizing tube, a cylindrical bearing seat is arranged on the left side of the machine body, a cylindrical propeller is arranged inside the bearing seat through an annular bearing, a disc-shaped reduction gear is arranged at the top end of the left side of the propeller, the right side of the propeller extends to the inside of the press boring, a cylindrical feeding tube is vertically arranged on the left side of the machine body, a conical hopper is arranged on the feeding tube, a supporting plate is horizontally arranged in the center of the upper surface of the hopper, a cylindrical reduction motor is arranged in the center of the supporting plate, and a spiral push plate is arranged below the reduction motor, the graphite powder is pushed into the pressure bore through the push plate and then pushed into the pressure pipe by the pusher for pressure forming, and the extruded graphite pipe is extruded outside the machine body through the discharge pipe.

A graphite tube processing facility is characterized by comprising a base, a motor, a driving gear, a main reduction gear, a machine body, a press boring device, a compression tube, a discharge tube, a propeller, a cone, a central shaft, a discharge tube, a hopper, a supporting plate, a reduction motor, a discharge push plate, a bearing seat, a feed inlet, a push bar, a bearing, an air switch and a power line;

the base is in a hollow rectangle shape and is transversely and horizontally arranged on the ground, a semicircular groove is transversely and horizontally arranged in the center of the base, a machine body is transversely and horizontally arranged in the groove, a cylindrical motor is transversely and horizontally arranged on the left side of the interior of the machine body, and a disc-shaped driving gear is arranged on a middle shaft on the left side of the motor;

the machine body is cylindrical, a hollow cylindrical pressing bore is horizontally arranged in the right side of the machine body, a hollow conical compression pipe is arranged at the top end of the right side of the pressing bore, the taper of the inside of the compression pipe is 10-15 degrees, a hollow cylindrical discharge pipe is horizontally arranged in the right side of the machine body, the left side of the discharge pipe is connected with the small end of the compression pipe, and a hollow cylindrical feed inlet is vertically arranged above the left side;

the bearing seat is hollow conical, the right side surface of the bearing seat is connected with the left side surface of the machine body through a bolt, and a propeller is horizontally arranged in the bearing seat through two annular bearings;

the propeller is conical, the top end of the left side extends to the outside of the left side of the bearing seat, a disc-shaped main reduction gear is arranged on the left side of the bearing seat, the bottom of the main reduction gear is meshed with the upper part of the driving gear, the middle part extends rightwards to the inside of the pressure boring machine, a spiral pushing strip is arranged on the upper part of the pressure boring machine, a conical cone is arranged on the right side of the middle part, the external taper of the cone is 10-15 degrees, the cone extends to the inside of the compression pipe, a cylindrical central shaft is arranged on the right side of a small head of the cone, the central shaft extends to the inside of the discharge pipe, the right top end of the central shaft is level with the right top end of the discharge pipe, and the central lines of the propeller, the cone and the central shaft are on the same straight line;

the blanking pipe is hollow cylindrical and is vertically arranged above the feeding hole;

the hopper is hollow conical, the upper part and the lower part of the hopper are both provided with openings, the hopper is vertically arranged on the discharging pipe, the center of the upper part is longitudinally and horizontally provided with a rectangular supporting plate, the center of the upper part of the supporting plate is vertically provided with a cylindrical speed reducing motor, a cylindrical central shaft below the speed reducing motor penetrates through the supporting plate and extends into the discharging pipe, and a spiral discharging push plate is arranged on the central shaft below the speed reducing motor;

the air switch is rectangular and is arranged on a power distribution cabinet of the assembly line, and the bottom of the air switch is connected with the motor and the speed reducing motor through a circular power line.

Has the advantages that: the existing enterprises for processing the graphite tube mostly adopt horizontal lathe processing or vertical lathe processing when processing the graphite tube, the advantage of using the lathe processing is that the diameter and the wall thickness of the graphite tube can be changed at will, the defects are that the processing length is limited, the efficiency is low, and the graphite tube is not suitable for large-scale processing. A graphite tube processing facility adopts a rectangular base, a cylindrical machine body is transversely and horizontally arranged on the base, a hollow cylindrical press boring hole is arranged inside the left side of the machine body, a hollow conical pressurizing tube is arranged on the right side of the press boring hole, a hollow cylindrical discharging tube is arranged on the right side of the pressurizing tube, a cylindrical bearing seat is arranged on the left side of the machine body, a cylindrical propeller is arranged inside the bearing seat through an annular bearing, a disc-shaped reduction gear is arranged at the top end of the left side of the propeller, the right side of the propeller extends to the inside of the press boring hole, a cylindrical feeding tube is vertically arranged on the left side of the machine body, a conical hopper is arranged on the feeding tube, a supporting plate is horizontally arranged in the center of the upper surface of the hopper, a cylindrical reduction motor is arranged in the center of the supporting plate, and a spiral push plate is arranged below the reduction motor, graphite powder is pushed into the pressure boring through the push plate, then is pushed into the pressure pipe by the propeller to be subjected to pressure forming, and the extruded graphite pipe is extruded outside the extruder body through the discharge pipe, so that the graphite pipe processing facility which can be unlimited in length and high in efficiency can be manufactured.

Drawings

FIG. 1 is a schematic diagram of a graphite tube processing facility;

FIG. 2 is a schematic structural diagram of a machine body, a press boring machine, a compression pipe, a discharge pipe, a bearing seat and a feed inlet;

FIG. 3 is a schematic structural view of a main reduction gear, a propeller, a cone, a central shaft, a push bar and a bearing;

FIG. 4 is a schematic view of the air switch connected to the motor and the gear motor via power lines;

the marks in the above figures are base 1, motor 2, driving gear 3, main reduction gear 4, machine body 5, press boring 6, compression pipe 7, discharge pipe 8, propeller 9, cone 10, central shaft 11, blanking pipe 12, hopper 13, support plate 14, reduction motor 15, blanking push plate 16, bearing seat 17, feed inlet 18, push bar 19, bearing 20, air switch 21 and power cord 22.

Detailed Description

The shape and construction of the present invention will now be described in detail with reference to the accompanying drawings and reference numerals:

a graphite pipe processing facility is characterized by comprising a base 1, a motor (AC380V/20-30kw)2, a driving gear 3, a main reduction gear 4, a machine body 5, a pressure bore (60Mpa)6, a compression pipe (60Mpa)7, a discharge pipe (60Mpa)8, a propeller 9, a cone 10, a central shaft 11, a discharging pipe 12, a hopper 13, a supporting plate 14, a reduction motor (AC380V/3-5kw)15, a discharging push plate 16, a bearing seat 17, a feeding port 18, a push bar 19, a bearing 20, an air switch (AC380V/300A)21 and a power line (4x12 mm) 22;

the base 1 is a hollow rectangle and is horizontally arranged on the ground, a semicircular groove is horizontally arranged in the center of the upper side of the base, a machine body 5 is horizontally arranged in the groove, a cylindrical motor 2 is horizontally arranged on the left side of the inside of the base, and a disc-shaped driving gear 3 is arranged on a middle shaft on the left side of the motor 2;

the machine body 5 is cylindrical, a hollow cylindrical press boring 6 is horizontally arranged in the right side of the machine body, a hollow conical compression pipe 7 is arranged at the top end of the right side of the press boring 6, the taper of the inside of the compression pipe 7 is 10-15 degrees, a hollow cylindrical discharge pipe 8 is horizontally arranged in the right side of the machine body, the left side of the discharge pipe 8 is connected with the small end of the compression pipe 7, and a hollow cylindrical feed inlet 18 is vertically arranged above the left side;

the bearing seat 17 is in a hollow conical shape, the right side surface of the bearing seat is connected with the left side surface of the machine body 5 through a bolt, and the inside of the bearing seat is horizontally provided with a propeller 9 through two annular bearings 20;

the propeller 9 is conical, the top end of the left side extends to the outside of the left side of the bearing seat 17, the disc-shaped main reduction gear 4 is arranged on the propeller 9, the bottom of the main reduction gear 4 is meshed with the upper part of the driving gear 3, the middle part extends rightwards to the inside of the pressure boring machine 6, the spiral pushing strip 19 is arranged on the spiral pushing strip, the conical cone 10 is arranged on the right side of the middle part, the conicity of the outer part of the cone 10 is 10-15 degrees, the cone 10 extends to the inside of the compression pipe 7, the cylindrical central shaft 11 is arranged on the right side of the small head of the cone 10, the central shaft 11 extends to the inside of the discharge pipe 8, the right top end of the central shaft 11 is parallel to the right top end of the discharge pipe 8, and the central lines of the propeller 9, the cone 10 and the central shaft 11 are on the same straight line;

the blanking pipe 12 is hollow and cylindrical and is vertically arranged above the feeding hole 18;

the hopper 13 is hollow conical, is provided with openings at the upper part and the lower part, and is vertically arranged on the discharging pipe 12, a rectangular supporting plate 14 is longitudinally and horizontally arranged at the center of the upper part, a cylindrical speed reducing motor 15 is vertically arranged at the center of the upper part of the supporting plate 14, a cylindrical central shaft below the speed reducing motor 15 penetrates through the supporting plate 14 and extends into the discharging pipe 12, and a spiral discharging push plate 16 is arranged on the central shaft below the speed reducing motor 15;

the air switch 21 is rectangular and is arranged on a power distribution cabinet of the assembly line, and the bottom of the air switch is connected with the motor 2 and the speed reducing motor 15 through a circular power line 22.

When the graphite pipe processing facility is used, a worker firstly places a rectangular bracket on the right side of a machine body in sequence, the upper surface of the bracket is aligned and horizontal with the lower part of an outlet of a discharge pipe, then the worker starts a stirrer, a proper amount of screened graphite powder is added into the stirrer, a liquid adhesive accounting for 8% -10% of the weight of the graphite powder is added, the stirrer is carefully stirred, the worker starts an air switch, a motor drives a main speed reduction gear to drive a propeller, a cone and a central shaft to synchronously rotate through a driving gear, a speed reduction motor drives a discharging push plate to slowly rotate through a central shaft, the worker starts a discharging conveyer belt of the stirrer to slowly feed the stirred graphite powder into a hopper, the graphite powder is continuously and forcibly pushed into a compression bore through a discharge pipe after entering the hopper, the graphite powder entering the compression bore is forcibly pushed into the compression pipe by a rotating propeller push bar, and the graphite powder is compressed in a compressed state, Because the compression pipe is the toper, the volume that gets into the inside graphite powder of compression pipe can be dwindled by the compression pipe by force and become the anomalous densification, the new graphite powder that the compression graphite powder was pushed over by the propeller under the setoff of compression pipe and centrum extrudes into the discharging pipe, because the center pin is located the center of discharging pipe, the compression graphite powder that gets into the discharging pipe has become the graphite pipe under the setoff of center pin, then extrude the organism through the export on discharging pipe right, the graphite pipe of extruder organism is pushed above the bracket by the inside graphite pipe of organism, the workman uses the cutting machine to cut off fast to the graphite pipe according to required length this moment, the workman will be arranged in proper order on the bracket by the graphite pipe who cuts off, change the bracket rapidly after full, the workman will change and push into the baking house and toast by the bracket that is equipped with the graphite pipe.

The foregoing is merely a general disclosure of the invention and is not intended to limit the invention in any way; those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the scope of the invention as defined by the appended claims.