CN110026443B

CN110026443B - Equipment for preparing metal wire

Info

Publication number: CN110026443B
Application number: CN201910472497.XA
Authority: CN
Inventors: 王海; 郭成坤
Original assignee: Shenzhen Dianjing Precious Metals Refine Co ltd
Current assignee: SHENZHEN DIANJING PRECIOUS METALS REFINE Co.,Ltd.
Priority date: 2019-05-31
Filing date: 2019-05-31
Publication date: 2021-08-27
Anticipated expiration: 2039-05-31
Also published as: CN110026443A

Abstract

The invention discloses equipment for preparing metal wires, wherein a steam cavity is arranged in a rack, an extrusion device is arranged in the steam cavity, the extrusion device comprises an extrusion box, the extrusion box can melt metal particles, a transmission device is arranged on the upper side of the extrusion device, the transmission device comprises a piston plate and a horizontal rotating shaft, the piston plate can ascend and descend according to the change of heat, the device effectively utilizes the waste heat generated by heating the metal particles, the power consumption is reduced, meanwhile, the device uses a metal wire drawing and molding process with three steps, the first step is preliminary drawing and molding, the process aims at processing the metal wires with thicker radius, the second part is rotary extrusion molding, the process is used for manufacturing the metal wires with uniform radius, the third part is drawing and molding, and the step is used for drawing the metal wires with corresponding thickness.

Description

Equipment for preparing metal wire

Technical Field

The invention relates to the field of metal wire processing, in particular to a device for preparing a metal wire.

Background

When carrying out the production preparation of metal mesh piece, need arrange and weld the wire, consequently, when carrying out the preparation of metal mesh piece, the preparation of wire is first on the go, the wire is the metal product of current society common use, its pliability is high, the usage is widely used by numerous trades, but the wire course of working mostly uses thick silk to carry out the attenuate through multiple process, the required area of this process is great, and the course of working is consuming time longer, the cost of permanence has been increased to the mill, there is strict requirement to the rotational speed of control pivot in the cutting process, this process is difficult to control, to above problem, carry out the design of this device.

Disclosure of Invention

The present invention has been made to solve the above-mentioned problems occurring in the prior art, and an object of the present invention is to provide an apparatus for manufacturing a wire.

In order to achieve the purpose, the invention provides the following technical scheme: an apparatus for preparing metal wire, comprising a frame, wherein a steam chamber is arranged in the frame, an extrusion device is arranged in the steam chamber, the extrusion device comprises an extrusion box, the extrusion box can melt metal particles, a transmission device is arranged on the upper side of the extrusion device, the transmission device comprises a piston plate and a horizontal rotating shaft, the piston plate can ascend and descend according to the change of heat, a rotating chamber is arranged on the right side of the extrusion device, a vertical processing device is arranged in the rotating chamber, the vertical processing device comprises a cylinder gear, the cylinder gear is driven by the transmission device to rotate, a horizontal processing device is arranged on the right side of the vertical processing device, the horizontal processing device comprises a horizontal processing box, the horizontal processing box obtains power through the horizontal rotating shaft, and the rotating directions of the horizontal processing device and the vertical processing device are reverse, the wire winding device comprises a guide rod and a wire winding wheel, wherein the guide rod can move left and right, the wire winding wheel is a winding position after processing is finished, the guide rod obtains power from the horizontal rotating shaft, the wire winding wheel obtains power from the horizontal processing device, and the wire winding wheel controls the metal wire to be uniformly wound by the horizontal movement of the fixed pulley.

Preferably, the extrusion device comprises a steam cavity, the opening of the steam cavity faces to the left, a feeding cavity with an opening facing to the left is arranged below the steam cavity, an inlet pipe is arranged in the feeding cavity in a sliding manner, a feeding cavity is arranged in the inlet pipe, a rotating rod is arranged on the right side of the inlet pipe in a sliding manner, a spiral blade is fixedly arranged on the rotating rod, a centrifugal cavity with an opening facing to the left is arranged in the rotating rod, a discharge chute with an external opening is arranged above and below the centrifugal cavity, the discharge chute is communicated with the feeding cavity, an extrusion box is rotatably arranged on the rotating rod, a steam turbine blade is fixedly arranged on the rotating rod, an extrusion cavity is arranged in the extrusion box, a heating cavity on the right side of the steam cavity is arranged in the frame, the extrusion box is rotatably connected in the heating cavity, heating resistors are uniformly arranged in the heating cavity, and the extrusion box is fixedly connected with the heating resistors, the right side of the extrusion box is fixedly provided with a contraction block, a contraction cavity is arranged in the contraction block, and the upper end wall and the lower end wall of the contraction cavity are symmetrically and fixedly provided with limiting blocks.

Preferably, the transmission device comprises a coal oil cavity, kerosene is arranged in the coal oil cavity, a piston plate is arranged in the coal oil cavity in a sliding mode, a rack is fixedly arranged on the top end face of the piston plate, a rack cavity is arranged in the rack and located above the coal oil cavity, the upper end of the rack extends into the rack cavity, a rotating shaft is arranged on the front end wall and the rear end wall of the rack cavity in a rotating mode, a matched straight gear is fixedly arranged on the rotating shaft, the matched straight gear is meshed with the rack, a driving bevel gear located on the front side of the matched straight gear is fixedly arranged on the rotating shaft, a gear matching cavity is arranged on the right side of the rack cavity, a rotating cavity is arranged on the right side of the gear matching cavity, a bevel gear cavity is arranged on the right side of the rotating cavity, a horizontal rotating shaft is arranged between the bevel gear cavity and the gear matching cavity in a rotating mode, and a rotating round rod is arranged between the gear matching cavity and the rack cavity in a rotating mode, it is located to rotate the fixed driven bevel gear who is equipped with on the circle pole rack intracavity, driven bevel gear with the meshing of drive bevel gear, it is located to rotate the fixed transmission straight-teeth gear that is equipped with on the circle pole gear cooperation intracavity, the bevel gear chamber with be equipped with the gear rotation chamber between the gear cooperation chamber, gear cooperation chamber with rotate between the bevel gear chamber be equipped with run through in the horizontal rotating shaft in gear rotation chamber, the last fixed being equipped with of horizontal rotating shaft is located the rotation straight-teeth gear of gear cooperation intracavity, rotate the straight-teeth gear with the meshing of transmission straight-teeth gear, the last fixed being equipped with of horizontal rotating shaft is located the linkage straight-teeth gear of gear rotation intracavity, the last fixed perpendicular bevel gear that is located of horizontal rotating shaft in the bevel gear intracavity.

Preferably, the horizontal machining device comprises a horizontal machining box, the horizontal machining box is rotatably connected into the rotating cavity, a drum gear is fixedly arranged on the right end wall of the horizontal machining box, the drum gear is rotatably connected into the drum gear cavity, the drum gear is meshed with the linkage straight gear, a horizontal machining cavity is arranged in the horizontal machining box, parallel slider grooves are formed in the front side of the horizontal machining cavity, sliding rods which are symmetrical front and back are arranged between the slider grooves and the horizontal machining cavity in a sliding mode, a compression rotating wheel positioned in the horizontal machining cavity is rotatably arranged on each sliding rod, a slider positioned in each slider groove is fixedly arranged on each sliding rod, a belt cavity positioned on the upper side of the horizontal machining cavity is arranged in the horizontal machining box, a horizontal motor is fixedly arranged on the left end wall of the belt cavity, and a horizontal motor rotating shaft is rotatably arranged on the left end wall and the right end wall of the belt cavity, the horizontal motor is characterized in that a driving belt pulley is fixedly arranged on the rotating shaft of the horizontal motor, a threaded rod is connected between the sliding rods in a threaded mode, a driven belt pulley is fixedly arranged on the threaded rod, the driven belt pulley is connected with the driving belt pulley through a belt, and threads on the left side and the right side of the threaded rod turn to opposite directions.

Preferably, the vertical processing device comprises a vertical motor, a vertical belt cavity is arranged in the vertical processing box, a vertical motor rotating shaft is arranged on the front end wall and the rear end wall of the vertical belt cavity in a rotating manner, the vertical motor is fixedly arranged on the rear end wall of the vertical belt cavity, the rear section of the vertical motor rotating shaft is in power connection with the vertical motor, a main belt pulley positioned in the vertical belt cavity is fixedly arranged on the vertical motor rotating shaft, an auxiliary belt pulley is arranged in the vertical belt cavity in a sliding manner, a vertical processing cavity is arranged on the left side of the vertical belt cavity, a rod sliding cavity is arranged on the left side of the vertical processing cavity, a connecting rod cavity is arranged on the left side of the rod sliding cavity, control rods which are vertically symmetrical are arranged between the vertical belt cavity and the connecting rod cavity in a sliding manner, a rod sliding groove with an opening facing left is arranged on the right end wall of the vertical belt cavity, the pole sliding tray right-hand member is equipped with the opening towards the sliding tray of left side, the sliding tray with it is equipped with the slip square to slide in the pole sliding tray, slip square left end face and top control lever fixed connection, the fixed perpendicular runner that is located in the vertical processing intracavity that is equipped with on the control lever, it is equipped with to rotate on the control lever and is located the main connecting rod of connecting rod intracavity, connecting rod chamber front end wall rotates and is equipped with the connecting rod axle, it is equipped with the rotation connecting rod to rotate on the connecting rod axle, the rotation connecting rod with the main connecting rod is articulated, the fixed drum gear that is equipped with of vertical processing case left end wall, drum gear rotates in drum gear intracavity, drum gear chamber with transmission straight-teeth gear meshes.

Preferably, the winding device comprises the winding cavity, a vertical rotating shaft is rotatably arranged between the bevel gear cavity and the winding cavity, a horizontal bevel gear positioned in the bevel gear cavity is fixedly arranged on the vertical rotating shaft, the horizontal bevel gear is meshed with the vertical bevel gear, a rotary disc positioned in the winding cavity is fixedly arranged on the vertical rotating shaft, a connecting rod is rotatably arranged on the rotary disc, a sliding block is fixedly arranged on the connecting rod, limit cavities which are bilaterally symmetrical are arranged on the left and right end walls of the winding cavity, a limit block is slidably arranged in the limit cavities, a support rod is fixedly arranged on the left end surface of the limit block, a sliding box is fixedly arranged between the support rods, a sliding block sliding groove is arranged in the sliding box, the sliding block is slidably connected in the sliding block sliding groove, a guide rod is fixedly arranged on the lower end surface of the sliding box, and a pulley rod is rotatably arranged between the guide rods, a fixed pulley is fixedly arranged on the pulley rod, a winding shaft is arranged on the front end wall and the rear end wall of the winding cavity in a rotating manner, a winding wheel is fixedly arranged on the winding shaft, a rotating bevel gear positioned on the front side of the winding wheel is fixedly arranged on the winding shaft, a vertical gear cavity is arranged below the winding cavity, a rotating rod is arranged between the winding cavity and the vertical gear cavity in a rotating manner, a matching bevel gear positioned in the winding cavity is fixedly arranged on the rotating rod, the matching bevel gear is meshed with the rotating bevel gear, an auxiliary bevel gear positioned in the vertical bevel gear cavity is fixedly arranged on the rotating rod, a matching straight gear groove is arranged on the left side of the vertical gear cavity, a linkage rotating shaft is rotatably arranged between the matching straight gear groove and the vertical gear cavity, a main bevel gear positioned in the vertical bevel gear cavity is fixedly arranged on the linkage rotating shaft, and the main bevel gear is meshed with the auxiliary bevel gear, the last fixed linkage straight-tooth gear that is located of cooperation straight-tooth gear inslot that is equipped with of linkage pivot, the linkage straight-tooth gear with cask gear engagement, the wire winding intracavity is fixed to be equipped with the narrow piece of extruding, the narrow piece internal fixation of extruding is equipped with the narrow piece of extruding.

In conclusion, the beneficial effects of the invention are as follows: this device simple structure, and convenient for operation, this device uses steam to form power to the extruder, effectively utilized the waste heat that the heating metal granule produced, the power consumption has been reduced, this device has used the wire drawing of three steps simultaneously and has moulded the technology, first step is tentatively drawn and moulded, this process purpose is for processing out the thicker wire of radius, the second portion is for rotating the extrusion molding, this process is for producing the even wire of radius, the third portion is drawn and moulded, this step is for drawing out the wire of corresponding thickness, this device is accomplished one step with the course of working of wire, a large amount of area that needs consume in the middle of the reduction wire course of working that can be great, the preparation of the metal mesh in the later stage of also being convenient for, reduce mill's expenditure cost.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic front view of a whole apparatus for manufacturing a metal wire according to the present invention;

FIG. 2 is a schematic left side view of an apparatus A-A for manufacturing a metal wire according to the present invention;

FIG. 3 is a schematic top view of a wire manufacturing apparatus B-B according to the present invention;

FIG. 4 is a schematic left side view of the structure of FIG. 2 at C-C;

FIG. 5 is an enlarged view of the structure of FIG. 1 at D;

fig. 6 is an enlarged schematic view of the structure at E in fig. 1.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Referring to fig. 1-6, an embodiment of the present invention is shown: an apparatus for preparing metal wire, comprising a frame 10, wherein a steam chamber 60 is arranged in the frame 10, an extruding device 200 is arranged in the steam chamber 60, the extruding device 200 comprises an extruding box 55, the extruding box 55 can melt metal particles, a transmission 201 is arranged on the upper side of the extruding device 200, the transmission 201 comprises a piston plate 61 and a horizontal rotating shaft 20, the piston plate 61 can ascend and descend according to the change of heat, a rotating chamber 21 is arranged on the right side of the extruding device 200, a vertical processing device 202 is arranged in the rotating chamber 21, the vertical processing device 202 comprises a cylindrical gear 51, the cylindrical gear 51 is driven by the transmission 201 to rotate, a horizontal processing device 203 is arranged on the right side of the vertical processing device 202, the horizontal processing device 203 comprises a horizontal processing box 47, and the horizontal processing box 47 obtains power through the horizontal rotating shaft 20, the rotation directions of the horizontal processing device 203 and the vertical processing device 202 are reverse, a winding cavity 109 is arranged on the right side of the horizontal processing device 203, a winding device 204 is arranged in the winding cavity 109, the winding device 204 comprises a guide rod 31 and a winding wheel 34, the guide rod 31 can move left and right, the winding wheel 34 is a winding position after processing is completed, the guide rod 31 obtains power from the horizontal rotating shaft 20, the winding wheel 34 obtains power from the horizontal processing device 203, and the uniform winding of the metal wire is controlled through the horizontal movement of the fixed pulley 32.

Beneficially, the extrusion device 200 includes a steam chamber 60, the opening of the steam chamber 60 faces to the left, a feeding chamber 94 with an opening facing to the left is arranged below the steam chamber 60, a feeding pipe 95 is slidably arranged in the feeding chamber 94, a feeding chamber 96 is arranged in the feeding pipe 95, a rotating rod 53 is slidably arranged on the right side of the feeding pipe 95, a helical blade 54 is fixedly arranged on the rotating rod 53, a centrifugal chamber 59 with an opening facing to the left is arranged in the rotating rod 53, discharge chutes 58 with outward openings are arranged above and below the centrifugal chamber 59, the discharge chutes 58 are communicated with the feeding chamber 96, an extrusion box 55 is rotatably arranged on the rotating rod 53, a steam turbine blade 111 is fixedly arranged on the rotating rod 53, an extrusion chamber 108 is arranged in the extrusion box 55, a heating chamber 56 on the right side of the steam chamber 60 is arranged in the frame 10, and the extrusion box 55 is rotatably connected in the heating chamber 56, heating chamber 56 is interior evenly to be equipped with heating resistor 57, extrude the case 55 with heating resistor 57 fixed connection, extrusion case 55 right side is fixed to be equipped with shrink block 50, be equipped with shrink chamber 48 in the shrink block 50, shrink chamber 48 upper and lower end wall symmetry is fixed to be equipped with limiting block 49.

Beneficially, transmission 201 includes a coal oil chamber 62, kerosene is equipped with in the coal oil chamber 62, it is equipped with piston plate 61 to slide in the coal oil chamber 62, the fixed rack 63 that is equipped with of piston plate 61 top end face, be equipped with in the frame 10 and be located the rack chamber 11 of coal oil chamber 62 top, rack 63 upper end extends to in the rack chamber 11, the rotation of end wall is equipped with rotation axis 14 around the rack chamber 11, the fixed cooperation straight-teeth gear 12 that is equipped with on the rotation axis 14, cooperation straight-teeth gear 12 with the meshing of rack 63, the fixed initiative bevel gear 13 that is located cooperation straight-teeth gear 12 front side that is equipped with on the rotation axis 14, rack chamber 11 right side is equipped with gear cooperation chamber 110, gear cooperation chamber 110 right side is equipped with rotates chamber 21, it is equipped with bevel gear chamber 28 to rotate the chamber 21 right side, bevel gear chamber 28 with it is equipped with horizontal rotating shaft 20 to rotate between gear cooperation chamber 110, a rotating round rod 16 is rotatably arranged between the gear matching cavity 110 and the rack cavity 11, a driven bevel gear 15 positioned in the rack cavity 11 is fixedly arranged on the rotating round rod 16, the driven bevel gear 15 is engaged with the driving bevel gear 13, a transmission spur gear 19 positioned in the gear matching cavity 110 is fixedly arranged on the rotating round rod 16, a gear rotating cavity 26 is arranged between the bevel gear cavity 28 and the gear matching cavity 110, a horizontal rotating shaft 20 penetrating through the gear rotating cavity 26 is rotatably arranged between the gear matching cavity 110 and the bevel gear cavity 28, a rotating spur gear 18 positioned in the gear matching cavity 110 is fixedly arranged on the horizontal rotating shaft 20, the rotating straight gear 18 is meshed with the transmission straight gear 19, a linkage straight gear 25 positioned in the gear rotating cavity 26 is fixedly arranged on the horizontal rotating shaft 20, a vertical bevel gear 27 positioned in the bevel gear cavity 28 is fixedly arranged on the horizontal rotating shaft 20.

Beneficially, the horizontal machining device 203 includes a horizontal machining box 47, the horizontal machining box 47 is rotatably connected to the inside of the rotating cavity 21, a drum gear 46 is fixedly arranged on the right end wall of the horizontal machining box 47, the drum gear 46 is rotatably connected to the inside of the drum gear cavity 45, the drum gear 46 is engaged with the linkage spur gear 25, a horizontal machining cavity 22 is arranged in the horizontal machining box 47, parallel slider grooves 76 are arranged on the front side of the horizontal machining cavity 22, symmetrical slide rods 71 are slidably arranged between the slider grooves 76 and the horizontal machining cavity 22, a compression rotating wheel 73 located in the horizontal machining cavity 22 is rotatably arranged on the slide rods 71, sliders 75 located in the slider grooves 76 are fixedly arranged on the slide rods 71, a belt cavity 68 located on the upper side of the horizontal machining cavity 22 is arranged in the horizontal machining box 47, a horizontal motor 64 is fixedly arranged on the left end wall of the belt cavity 68, end wall rotates about belt cavity 68 and is equipped with horizontal motor shaft 66, the fixed driving pulley 65 that is equipped with on horizontal motor shaft 66, threaded connection has threaded rod 72 between the litter 71, the fixed driven pulley 70 that is equipped with on the threaded rod 72, driven pulley 70 with driving pulley 65 passes through the belt and connects, the side screw thread turns to on the left and right sides opposite about threaded rod 72.

Beneficially, the vertical processing device 202 includes a vertical motor 84, a vertical belt cavity 85 is arranged in the vertical processing box 69, a vertical motor rotating shaft 83 is arranged on the front end wall and the rear end wall of the vertical belt cavity 85 in a rotating manner, a vertical motor 84 is fixedly arranged on the rear end wall of the vertical belt cavity 85, an extending portion of the rear end of the vertical motor rotating shaft 83 is in power connection with the vertical motor 84, a main belt pulley 82 located in the vertical belt cavity 85 is fixedly arranged on the vertical motor rotating shaft 83, an auxiliary belt pulley 86 is slidably arranged in the vertical belt cavity 85, a vertical processing cavity 80 is arranged on the left side of the vertical belt cavity 85, a rod sliding cavity 93 is arranged on the left side of the vertical processing cavity 80, a connecting rod cavity 78 is arranged on the left side of the rod sliding cavity 93, and a control rod 79 which is symmetrical up and down is slidably arranged between the vertical belt cavity 85 and the connecting rod sliding cavity 78 and between the rod sliding cavity 93 and the vertical processing cavity 80, the right end wall of the vertical belt cavity 85 is provided with a rod sliding groove 88 with an opening facing to the left, the right end of the rod sliding groove 88 is provided with a sliding groove 87 with an opening facing to the left, a sliding block 90 is arranged in the sliding groove 87 and the rod sliding groove 88 in a sliding way, the left end surface of the sliding block 90 is fixedly connected with the control rod 79 above, a vertical rotating wheel 81 positioned in the vertical processing cavity 80 is fixedly arranged on the control rod 79, the control rod 79 is provided with a main connecting rod 77 which is positioned in the connecting rod cavity 78 in a rotating way, the front end wall of the connecting rod cavity 78 is provided with a connecting rod shaft 92 in a rotating way, a rotating connecting rod 91 is rotatably arranged on the connecting rod shaft 92, the rotating connecting rod 91 is hinged with the main connecting rod 77, the left end wall of the vertical processing box 69 is fixedly provided with a cylindrical gear 51, the cylindrical gear 51 rotates in a cylindrical gear cavity 52, and the cylindrical gear cavity 52 is meshed with the transmission straight gear 19.

Beneficially, the winding device 204 includes the winding cavity 109, a vertical rotating shaft 30 is rotatably disposed between the bevel gear cavity 28 and the winding cavity 109, a horizontal bevel gear 29 located in the bevel gear cavity 28 is fixedly disposed on the vertical rotating shaft 30, the horizontal bevel gear 29 is engaged with the vertical bevel gear 27, a rotating disc 98 located in the winding cavity 109 is fixedly disposed on the vertical rotating shaft 30, a connecting rod 99 is rotatably disposed on the rotating disc 98, a sliding block 100 is fixedly disposed on the connecting rod 99, a left end wall and a right end wall of the winding cavity 109 are provided with bilaterally symmetrical limiting cavities 105, a limiting block 104 is slidably disposed in the limiting cavities 105, a supporting rod 103 is fixedly disposed on a left end face of the limiting block 104, a sliding box 102 is fixedly disposed between the supporting rods 103, a sliding block sliding groove 101 is disposed in the sliding box 102, and the sliding block 100 is slidably connected in the sliding block sliding groove 101, the lower end face of the sliding box 102 is fixedly provided with guide rods 31, pulley rods 33 are rotatably arranged between the guide rods 31, fixed pulleys 32 are fixedly arranged on the pulley rods 33, the front end wall and the rear end wall of the winding cavity 109 are rotatably provided with winding shafts 36, winding wheels 34 are fixedly arranged on the winding shafts 36, rotating bevel gears 35 positioned on the front sides of the winding wheels 34 are fixedly arranged on the winding shafts 36, a vertical gear cavity 40 is arranged below the winding cavity 109, a rotating rod 38 is rotatably arranged between the winding cavity 109 and the vertical gear cavity 40, a matching bevel gear 37 positioned in the winding cavity 109 is fixedly arranged on the rotating rod 38, the matching bevel gear 37 is meshed with the rotating bevel gears 35, an auxiliary bevel gear 39 positioned in the vertical gear cavity 40 is fixedly arranged on the rotating rod 38, a matching straight gear groove 43 is arranged on the left side of the vertical gear cavity 40, and a linkage rotating shaft 42 is rotatably arranged between the matching straight gear groove 43 and the vertical gear cavity 40, fixed being equipped with in the linkage pivot 42 is located main bevel gear 41 in the vertical gear chamber 40, main bevel gear 41 with vice bevel gear 39 meshes, fixed being equipped with in the linkage pivot 42 is located linkage straight-teeth gear 44 in the cooperation straight-teeth gear groove 43, linkage straight-teeth gear 44 with cask gear 46 meshes, winding chamber 109 internal fixation is equipped with the narrow round piece 107 of extruding, the narrow round piece 107 internal fixation of extruding is equipped with the narrow piece 106 of extruding.

The applicant will now describe in detail the method of use of the structure of an apparatus for manufacturing metal wires according to the present application with reference to the accompanying figures 1 to 6 and the specific composition of the apparatus for manufacturing metal wires according to the present application described above:

in the work of the invention, a user firstly puts metal raw materials into the feeding cavity 96, the feeding pipe 95 can be replaced according to requirements, metal particles enter the centrifugal cavity 59, at the moment, the heating resistor 57 is opened to heat water in the steam cavity 60, the heated water is changed into steam to drive the steam turbine blade 111 to rotate, the steam turbine blade 111 drives the rotating rod 53 to rotate, the metal particles fall into the extrusion cavity 108 to be heated and melted due to the centrifugal action, the spiral blade 54 extrudes melted metal liquid, the melted metal liquid passes through the contraction cavity 48 to be subjected to primary extrusion molding, at the moment, kerosene in the coal oil cavity 62 is heated and expanded to drive the piston plate 61 to move upwards, the piston plate 61 drives the rack 63 to move upwards, the rack 63 drives the matched straight gear 12 to rotate, and the matched straight gear 12 drives the rotating shaft 14 to rotate, the rotating shaft 14 drives the driving bevel gear 13 to rotate, the driving bevel gear 13 drives the driven bevel gear 15 to rotate, the driven bevel gear 15 drives the rotating round bar 16 to rotate, the rotating round bar 16 drives the transmission spur gear 19 to rotate, the transmission spur gear 19 drives the cylinder gear 51 and the rotation spur gear 18 to rotate, the rotation spur gear 18 drives the horizontal rotating shaft 20 to rotate, the horizontal rotating shaft 20 drives the linkage spur gear 25 to rotate, and the linkage spur gear 25 drives the cylinder gear 46 to rotate, so that the horizontal processing box 47 and the vertical processing box 69 reversely rotate, and meanwhile, the vertical motor 84 and the horizontal motor 64 perform secondary extrusion on the metal wire by respectively adjusting the distance between the vertical rotating wheel 81 and the compression rotating wheel 73;

wherein, the thickness of wire carries out accurate control, later the iron wire gets into between the piece 106 is extruded to the narrowness, carries out final drawing of plastics shaping, and the user walks around the wire on the fixed pulley 32, and is fixed in on the take-up pulley 34, at this moment horizontal rotating shaft 20 drives perpendicular bevel gear 27 rotates, perpendicular bevel gear 27 drives horizontal bevel gear 29 rotates, horizontal bevel gear 29 drives perpendicular rotating shaft 30 rotates, perpendicular rotating shaft 30 drives carousel 98 rotates, carousel 98 drives connecting rod 99 rotates, connecting rod 99 drives slider 100 slides, the slip of slider 100 drives the slip of slip case 102 fore-and-aft direction, drive the even winding of wire around take-up pulley 34 surface, simultaneously straight gear 46 drives linkage straight gear 44 rotates, straight gear 44 drives linkage cask 42 rotates, linkage pivot 42 drives main bevel gear 41 rotates, main bevel gear 41 drives vice bevel gear 39 rotates, vice bevel gear 39 drives dwang 38 rotates, dwang 38 area cooperation bevel gear 37 rotates, cooperation bevel gear 37 drives it rotates to rotate bevel gear 35, it drives to rotate bevel gear 35 the spool 36 rotates, spool 36 drives the spiral wheel 34 rotates, receives the line.

The invention has the beneficial effects that: this device simple structure, and convenient for operation, this device uses steam to form power to the extruder, effectively utilized the waste heat that the heating metal granule produced, the power consumption has been reduced, this device has used the wire drawing of three steps simultaneously and has moulded the technology, first step is tentatively drawn and moulded, this process purpose is for processing out the thicker wire of radius, the second portion is for rotating the extrusion molding, this process is for producing the even wire of radius, the third portion is drawn and moulded, this step is for drawing out the wire of corresponding thickness, this device is accomplished one step with the course of working of wire, a large amount of area that needs consume in the middle of the reduction wire course of working that can be great, the preparation of the metal mesh in the later stage of also being convenient for, reduce mill's expenditure cost.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The equipment for preparing the metal wire comprises a machine frame and is characterized in that: the machine frame is internally provided with a steam cavity, the steam cavity is internally provided with an extrusion device, the extrusion device comprises an extrusion box, the extrusion box can melt metal particles, the upper side of the extrusion device is provided with a transmission device, the transmission device comprises a piston plate and a horizontal rotating shaft, the piston plate can ascend and descend according to the change of heat, the right side of the extrusion device is provided with a rotating cavity, a vertical processing device is arranged in the rotating cavity, the vertical processing device comprises a cylinder gear, the cylinder gear is powered by the transmission device to rotate, the right side of the vertical processing device is provided with a horizontal processing device, the horizontal processing device comprises a horizontal processing box, the horizontal processing box obtains power through the horizontal rotating shaft, the rotating directions of the horizontal processing device and the vertical processing device are reverse, and the right side of the horizontal processing device is provided with a winding cavity, a winding device is arranged in the winding cavity, the winding device comprises a guide rod and a winding wheel, the guide rod can move left and right, the winding wheel is a winding position after processing is finished, the guide rod obtains power from the horizontal rotating shaft, the winding wheel obtains power from the horizontal processing device, and the uniform winding of the metal wire is controlled through the horizontal movement of a fixed pulley; the extrusion device comprises a steam cavity, the opening of the steam cavity faces to the left, a feeding cavity with the opening facing to the left is arranged below the steam cavity, an inlet pipe is arranged in the feeding cavity in a sliding manner, a feeding cavity is arranged in the inlet pipe, a rotating rod is arranged on the right side of the inlet pipe in a sliding manner, a spiral blade is fixedly arranged on the rotating rod, a centrifugal cavity with the opening facing to the left is arranged in the rotating rod, a discharge chute with an external opening is arranged above and below the centrifugal cavity, the discharge chute is communicated with the feeding cavity, an extrusion box is rotatably arranged on the rotating rod, a steam turbine blade is fixedly arranged on the rotating rod, an extrusion cavity is arranged in the extrusion box, a heating cavity positioned on the right side of the steam cavity is arranged in the frame, the extrusion box is rotatably connected in the heating cavity, heating resistors are uniformly arranged in the heating cavity, and the extrusion box is fixedly connected with the heating resistors, a contraction block is fixedly arranged on the right side of the extrusion box, a contraction cavity is arranged in the contraction block, and limiting blocks are symmetrically and fixedly arranged on the upper end wall and the lower end wall of the contraction cavity; the transmission device comprises a coal oil cavity, kerosene is arranged in the coal oil cavity, a piston plate is arranged in the coal oil cavity in a sliding mode, a rack is fixedly arranged on the top end face of the piston plate, a rack cavity is arranged in the rack and located above the coal oil cavity, the upper end of the rack extends into the rack cavity, a rotating shaft is arranged on the front end wall and the rear end wall of the rack cavity in a rotating mode, a matched straight gear is fixedly arranged on the rotating shaft and meshed with the rack, a driving bevel gear located on the front side of the matched straight gear is fixedly arranged on the rotating shaft, a gear matching cavity is arranged on the right side of the rack cavity, a rotating cavity is arranged on the right side of the gear matching cavity, a bevel gear cavity is arranged on the right side of the rotating cavity, a horizontal rotating shaft is arranged between the bevel gear cavity and the gear matching cavity in a rotating mode, and a rotating round rod is arranged between the gear matching cavity and the rack cavity in a rotating mode, the rotary round bar is fixedly provided with a driven bevel gear positioned in the rack cavity, the driven bevel gear is meshed with the drive bevel gear, the rotary round bar is fixedly provided with a transmission straight gear positioned in the gear matching cavity, a gear rotating cavity is arranged between the bevel gear cavity and the gear matching cavity, a horizontal rotating shaft penetrating through the gear rotating cavity is rotatably arranged between the gear matching cavity and the bevel gear cavity, a rotating straight gear positioned in the gear matching cavity is fixedly arranged on the horizontal rotating shaft, the rotating straight gear is meshed with the transmission straight gear, a linkage straight gear positioned in the gear rotating cavity is fixedly arranged on the horizontal rotating shaft, and a vertical bevel gear positioned in the bevel gear cavity is fixedly arranged on the horizontal rotating shaft; the horizontal machining device comprises a horizontal machining box, the horizontal machining box is rotationally connected into the rotating cavity, a barrel gear is fixedly arranged on the right end wall of the horizontal machining box, the barrel gear is rotationally connected into the barrel gear cavity, the barrel gear is meshed with the linkage straight gear, a horizontal machining cavity is arranged in the horizontal machining box, parallel slider grooves are formed in the front side of the horizontal machining cavity, sliding rods which are symmetrical front and back are arranged between the slider grooves and the horizontal machining cavity in a sliding mode, a compression rotating wheel located in the horizontal machining cavity is rotationally arranged on each sliding rod, a slider located in each slider groove is fixedly arranged on each sliding rod, a belt cavity located on the upper side of the horizontal machining cavity is arranged in the horizontal machining box, a horizontal motor is fixedly arranged on the left end wall of the belt cavity, and a horizontal motor rotating shaft is rotationally arranged on the left end wall and the right end wall of the belt cavity, a driving belt pulley is fixedly arranged on the rotating shaft of the horizontal motor, a threaded rod is connected between the sliding rods in a threaded manner, a driven belt pulley is fixedly arranged on the threaded rod, the driven belt pulley is connected with the driving belt pulley through a belt, and the left and right threads of the threaded rod are opposite in direction of rotation; the vertical processing device comprises a vertical motor, a vertical belt cavity is arranged in the vertical processing box, a vertical motor rotating shaft is arranged on the front end wall and the rear end wall of the vertical belt cavity in a rotating mode, the rear end wall of the vertical belt cavity is fixedly provided with the vertical motor, the rear section of the vertical motor rotating shaft extends to be in power connection with the vertical motor, a main belt pulley positioned in the vertical belt cavity is fixedly arranged on the vertical motor rotating shaft, an auxiliary belt pulley is arranged in the vertical belt cavity in a sliding mode, a vertical processing cavity is arranged on the left side of the vertical belt cavity, a rod sliding cavity is arranged on the left side of the vertical processing cavity, a connecting rod cavity is arranged on the left side of the rod sliding cavity, a control rod which is vertically symmetrical is arranged between the vertical belt cavity and the connecting rod cavity in a penetrating mode and the rod sliding cavity are arranged in the vertical processing cavity in a sliding mode, a rod sliding groove with an opening facing left is arranged on the right end wall of the vertical belt cavity, the right end of the rod sliding groove is provided with a sliding groove with an opening facing to the left, the sliding groove and the rod sliding groove are internally provided with sliding squares in a sliding manner, the left end face of each sliding square is fixedly connected with the control rod above the control rod, the control rod is fixedly provided with a vertical rotating wheel positioned in the vertical processing cavity, the control rod is rotatably provided with a main connecting rod positioned in the connecting rod cavity, the front end wall of the connecting rod cavity is rotatably provided with a connecting rod shaft, the connecting rod shaft is rotatably provided with a rotating connecting rod, the rotating connecting rod is hinged with the main connecting rod, the left end wall of the vertical processing box is fixedly provided with a cylindrical gear, the cylindrical gear rotates in a cylindrical gear cavity, and the cylindrical gear cavity is meshed with the transmission straight gear; the winding device comprises the winding cavity, a vertical rotating shaft is rotatably arranged between the bevel gear cavity and the winding cavity, a horizontal bevel gear positioned in the bevel gear cavity is fixedly arranged on the vertical rotating shaft, the horizontal bevel gear is meshed with the vertical bevel gear, a rotary disc positioned in the winding cavity is fixedly arranged on the vertical rotating shaft, a connecting rod is rotatably arranged on the rotary disc, a sliding block is fixedly arranged on the connecting rod, limit cavities which are bilaterally symmetrical are arranged on the left end wall and the right end wall of the winding cavity, limit blocks are slidably arranged in the limit cavities, supporting rods are fixedly arranged on the left end surfaces of the limit blocks, a sliding box is fixedly arranged between the supporting rods, a sliding block sliding groove is arranged in the sliding box, the sliding block is slidably connected in the sliding block sliding groove, guide rods are fixedly arranged on the lower end surface of the sliding box, and pulley rods are rotatably arranged between the guide rods, a fixed pulley is fixedly arranged on the pulley rod, a winding shaft is arranged on the front end wall and the rear end wall of the winding cavity in a rotating manner, a winding wheel is fixedly arranged on the winding shaft, a rotating bevel gear positioned on the front side of the winding wheel is fixedly arranged on the winding shaft, a vertical gear cavity is arranged below the winding cavity, a rotating rod is arranged between the winding cavity and the vertical gear cavity in a rotating manner, a matching bevel gear positioned in the winding cavity is fixedly arranged on the rotating rod, the matching bevel gear is meshed with the rotating bevel gear, an auxiliary bevel gear positioned in the vertical bevel gear cavity is fixedly arranged on the rotating rod, a matching straight gear groove is arranged on the left side of the vertical gear cavity, a linkage rotating shaft is rotatably arranged between the matching straight gear groove and the vertical gear cavity, a main bevel gear positioned in the vertical bevel gear cavity is fixedly arranged on the linkage rotating shaft, and the main bevel gear is meshed with the auxiliary bevel gear, the last fixed linkage straight-tooth gear that is located of cooperation straight-tooth gear inslot that is equipped with of linkage pivot, the linkage straight-tooth gear with cask gear engagement, the wire winding intracavity is fixed to be equipped with the narrow piece of extruding, the narrow piece internal fixation of extruding is equipped with the narrow piece of extruding.