CN112126770B - Copper wire annealing device - Google Patents

Abstract

The invention discloses a copper wire annealing device which comprises a main body frame, wherein a first wire travelling wheel is welded on the upper portion of the outer side of the main body frame, and a second wire travelling wheel is welded on the inner wall of the left side of the main body frame. Compared with the existing common copper wire annealing device, the copper wire annealing device is provided with the lifting working box, when a copper wire is annealed, the cylinder drives the lifting block to move through the cylinder, the lifting block drives the first rotary rod to rotate through the first moving block in the pore plate, the first rotary rod drives the second rotary rod to rotate through the first kinematic pair, the rotating angle of the first rotary rod is 60 degrees, the first connecting rod drives the second rotary rod to rotate through the second lifting rod by 60 degrees, the length of the supporting column is equal to and parallel to that of the second lifting column, the length of the second lifting column is equal to and parallel to that of the first lifting rod, the annealing box at the top end of the lifting plate is stably driven to move through the first lifting rod, and the control of the annealing time of the copper wire is realized.

Description

Copper wire annealing device

Technical Field

The invention relates to the technical field of annealing, in particular to a copper wire annealing device.

Background

In the life, practical copper line is done the wire, and electric conductivity is fine, is used for making electric wire, cable, brush etc. in a large number, need carry out annealing back wire drawing operation with the copper line when processing the copper line.

Annealing is a metal heat treatment process, which refers to slowly heating metal to a certain temperature, keeping for a sufficient time, and then cooling at a proper speed in order to reduce hardness and improve machinability; the residual stress is reduced, the size is stabilized, and the deformation and crack tendency is reduced; the method has the advantages that crystal grains are refined, the structure is adjusted, the structure defects are eliminated, precisely, annealing is a heat treatment process for materials, the heat treatment process comprises metal materials and non-metal materials, and copper wires have better ductility and toughness after annealing and are more beneficial to wire drawing operation.

The problems that the annealing time cannot be adjusted and the annealed copper wire is subjected to pre-drawing operation appear when the current copper wire annealing and transferring device is used, the use requirements of people cannot be well met, and technical innovation is performed on the basis of the existing copper wire annealing device according to the situation.

Disclosure of Invention

The invention aims to provide a copper wire annealing device, which aims to solve the problems that the annealing time cannot be adjusted and the pre-drawing operation on the annealed copper wire cannot be performed in the prior art, and the using requirements of people cannot be met well.

In order to achieve the purpose, the invention provides the following technical scheme: a copper wire annealing device comprises a main body frame, wherein a first wire travelling wheel is welded above the outer side of the main body frame, a driven wheel is arranged on one side, close to the outer wall of the main body frame, below the first wire travelling wheel, a second wire travelling wheel is welded on the inner wall of the left side of the main body frame, a first eddy current heater is arranged below the second wire travelling wheel, an annealing box is arranged below the first eddy current heater, a third wire travelling wheel is arranged in the middle of the inside of the annealing box, a fourth wire travelling wheel is arranged on the right side of the third wire travelling wheel, a lifting plate is welded at the bottom of the annealing box, a lifting working box is arranged below the lifting plate, a pre-drawing working box is arranged in the middle of the upper part of the annealing box, a fifth wire travelling wheel is arranged right above the pre-drawing working box, and a second eddy current heater is arranged at one end, close to the right side of the pre-drawing working box, of the right end of the fifth wire travelling wheel, and a sixth wire-passing wheel is arranged on the right side of the second eddy current heater, a wire drawing module is arranged on the right side of the sixth wire-passing wheel, a seventh wire-passing wheel is welded in the middle of the right side of the outer wall of the main body frame, and a driving wheel is installed on one side, close to the outer wall of the main body frame, below the seventh wire-passing wheel.

Preferably, the inner wall welding of lift work box has the cylinder, and the output of cylinder installs the gas pole, the bottom welding of gas pole has the elevator, and one side welding of elevator has the orifice plate, and the position of being connected of orifice plate and elevator installs first motion piece, the orifice plate is kept away from one side welding of first motion piece has first rotary rod, and has connect the support column soon in the middle of the bottom of first rotary rod, the support column has first motion pair with the position of being connected of first rotary rod runs through, the one end that the orifice plate was kept away from to first rotary rod has the second rotary rod soon, and the position of being connected of first rotary rod and second rotary rod has run through the second motion pair, the bottom of second rotary rod has first connecting rod soon, and the position of being connected of second rotary rod and first connecting rod has run through the third motion pair, the top of second rotary rod has first elevator soon, and second rotary rod and first lifter connection position run through there is the fourth motion vice, one side of support column has connect the second connecting rod soon, and support column and second connecting rod connection position run through there is the fifth motion vice, the one end that the fifth motion is kept away from to the second connecting rod has connect the second lift post soon, and the connection position of second lift post and second connecting rod has connect the sixth motion pair soon, the top that one side of the sixth motion pair is located the second connecting rod has connect the third connecting rod soon, and the one end that the sixth motion pair was kept away from to the third connecting rod has connect the seventh motion pair soon.

Preferably, the second rotating rod passes through a rotating structure formed between the supporting column and the pore plate, the rotating angle of the second rotating rod is 60 degrees, and the length of the supporting column is equal to and parallel to that of the second lifting column.

Preferably, the second rotating rod forms a rotating structure with the first connecting rod through the second lifting column, the rotating angle of the second rotating rod is 60 degrees, and the length of the second lifting column is equal to and parallel to that of the first lifting column.

Preferably, a motor is arranged at the edge of the bottom end inside the pre-wire drawing working box, a linear screw rod is arranged at the output end of the motor, a fixed plate is arranged at the outer side of one end, close to the motor, of the linear screw rod, a movable plate penetrates through one end, far away from the linear screw rod, of the fixed plate, a screw rod sliding block is welded at one end, far away from the fixed plate, of the movable plate, a fourth connecting rod is screwed in the middle of the top of the fixed plate, an eighth kinematic pair penetrates through the connecting part of the fourth connecting rod and the movable plate, a kinematic frame is screwed at one end, far away from the movable plate, of the bottom of the fourth connecting rod, a ninth kinematic pair penetrates through the connecting part of the kinematic frame and the fourth connecting rod, a kinematic plate is screwed on the inner wall of the kinematic frame, a tenth kinematic pair penetrates through the connecting part of the kinematic frame and the moving plate, a groove is formed in the side surface of the kinematic plate, a fixed frame is arranged on one side of the groove, and a second kinematic block is arranged at the connecting part of the fixed frame and the groove, the surface of the motion plate is provided with a sliding groove, the bottom end of the motion plate is connected with a motion sliding block in a rotating mode, and an eleventh kinematic pair penetrates through the connecting portion of the motion sliding block and the motion plate.

Preferably, the fourth connecting rod forms a telescopic structure by arranging a screw rod sliding block and a linear screw rod, the linear screw rod is a symmetrical screw rod, the screw rod sliding blocks are provided with two groups, and the two groups of screw rod sliding blocks are in a centrosymmetric relation with the center of the linear screw rod.

Preferably, the moving frame forms a rotating structure with the moving plate through the fourth link, and the rotating angle of the moving frame is 30 °.

Preferably, the moving plates are provided with three groups, and the positions of the three groups of moving plates are distributed in a manner of being centrosymmetric around the circle center of the fixing frame.

Preferably, the moving plate forms a rotating structure through the second moving block and the moving frame, the rotating angle of the moving plate is 30 °, and the ratio of the length of the moving plate to the length of the sliding groove is 2: 3.

compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, through the arrangement of the first vortex heater, the vortex heating belongs to a heat pipe type annealing mode, the heat pipe type annealing mode is that a hollow pipe is heated through the vortex, and a copper wire passes through the heated hollow pipe to achieve the purpose of annealing, and the mode has the main advantages that: the equipment is simple, the on-line continuous annealing can be realized, and the annealing period is relatively short.

2. According to the copper wire annealing device, the lifting block is driven to move by the air cylinder through the air rod when a copper wire is annealed by the arranged lifting working box, the lifting block drives the first rotary rod to rotate through the first moving block in the pore plate, the first rotary rod drives the second rotary rod to rotate through the first kinematic pair, the rotating angle of the first rotary rod is 60 degrees, the first rotary rod drives the second rotary rod to rotate through the second lifting rod by 60 degrees, the length of the support column is equal to and parallel to that of the second lifting column, the length of the second lifting column is equal to and parallel to that of the first lifting rod, the annealing box at the top end of the lifting plate is stably driven to move through the first lifting rod, and the copper wire annealing time is mastered.

3. According to the invention, the motor drives the linear screw rod to rotate through the arranged linear screw rod, the linear screw rod is a symmetrical screw rod, the linear screw rod drives the screw rod sliding blocks to move, two groups of screw rod sliding blocks are arranged, and the two groups of screw rod sliding blocks are in central symmetry relation with the center of the linear screw rod, so that the two groups of screw rod sliding blocks are conveniently driven to move along the linear screw rod in the reverse direction, the screw rod sliding blocks drive the moving frame to rotate through the fourth connecting rod, and the rotating angle of the moving frame is 30 degrees, so that the accurate control of the movement of the moving plate in the moving frame is realized.

4. Through the arranged moving plate, the moving frame rotates to drive the moving plate to rotate along the sliding groove by taking the second moving block in the groove as the center of a circle, the rotating angle of the moving plate is 30 degrees, the moving plate is provided with three groups, the positions of the three groups of moving plates are distributed to be centrosymmetric by taking the center of a circle of the fixed frame as the center, and the length ratio of the moving plate to the length of the sliding groove is 2: and 3, limiting the moving range of the moving plates, and realizing the pre-drawing operation of the copper wires through the movement of the three groups of moving plates.

Drawings

FIG. 1 is a schematic cross-sectional view of the present invention;

FIG. 2 is a schematic side view of the lifting box of the present invention;

FIG. 3 is a schematic sectional structure view of a pre-drawing work box according to the present invention;

FIG. 4 is a schematic top view of a pre-drawing box according to the present invention;

FIG. 5 is an enlarged view of FIG. 4A according to the present invention.

In the figure: 1. a main body frame; 2. a first routing wheel; 3. a driven wheel; 4. a second routing wheel; 5. a first vortex heater; 6. an annealing box; 7. a third wire-passing wheel; 8. a fourth routing wheel; 9. a lifting plate; 10. lifting the work box; 11. a pre-drawing working box; 12. a fifth wire carrier; 13. a second vortex heater; 14. a sixth wire carrier; 15. a wire drawing module; 16. a seventh wire carrier; 17. a driving wheel; 1001. a cylinder; 1002. a gas lever; 1003. a lifting block; 1004. an orifice plate; 1005. a first motion block; 1006. a first rotating rod; 1007. a support pillar; 1008. a first kinematic pair; 1009. a second rotating rod; 1010. a second kinematic pair; 1011. a first link; 1012. a third kinematic pair; 1013. a first lifting rod; 1014. a fourth kinematic pair; 1015. a second link; 1016. a fifth kinematic pair; 1017. a second lifting column; 1018. a sixth kinematic pair; 1019. a third link; 1020. a seventh kinematic pair; 1101. a motor; 1102. a linear screw rod; 1103. a fixing plate; 1104. moving the plate; 1105. a screw rod slide block; 1106. a fourth link; 1107. an eighth kinematic pair; 1108. a motion frame; 1109. a ninth kinematic pair; 1110. a motion plate; 1111. a tenth kinematic pair; 1112. a groove; 1113. a fixing frame; 1114. a second motion block; 1115. a sliding groove; 1116. a moving slide block; 1117. and an eleventh kinematic pair.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a copper wire annealing device comprises a main body frame 1, wherein a first wire travelling wheel 2 is welded on the upper portion of the outer side of the main body frame 1, a driven wheel 3 is arranged on one side, close to the outer wall of the main body frame 1, of the lower portion of the first wire travelling wheel 2, a second wire travelling wheel 4 is welded on the inner wall of the left side of the main body frame 1, a first eddy current heater 5 is arranged below the second wire travelling wheel 4, an annealing box 6 is arranged below the first eddy current heater 5, a third wire travelling wheel 7 is arranged in the middle of the inner portion of the annealing box 6, a fourth wire travelling wheel 8 is arranged on the right side of the third wire travelling wheel 7, a lifting plate 9 is welded at the bottom of the annealing box 6, a lifting working box 10 is arranged below the lifting plate 9, an air cylinder 1001 is welded on the inner wall of the lifting working box 10, an air rod 1002 is installed at the output end of the air cylinder 1001, a lifting block 1003 is welded at the bottom of the air rod 1002, a pore plate 1004 is welded on one side of the lifting block 1003, a first motion block 1005 is installed at the connection part of the pore plate 1004 and the lifting block 1003, a first rotating rod 1006 is welded at one side of the pore plate 1004 far away from the first motion block 1005, a supporting column 1007 is screwed in the middle of the bottom end of the first rotating rod 1006, a first kinematic pair 1008 penetrates through the connection part of the supporting column 1007 and the first rotating rod 1006, a second rotating rod 1009 is screwed at one end of the first rotating rod 1006 far away from the pore plate 1004, a second kinematic pair 1010 penetrates through the connection part of the first rotating rod 1006 and the second rotating rod, a first connecting rod 1011 penetrates through the bottom end of the second rotating rod 1009, a third kinematic pair 1012 penetrates through the connection part of the second rotating rod 1009 and the first connecting rod 1011, a first lifting rod 1013 is screwed at the top end of the second rotating rod 1009, a fourth kinematic pair 1014 penetrates through the connection part of the second rotating rod 1009 and the first lifting rod 1013, a second connecting rod 1015 is screwed at one side of the supporting column 1007, and a fifth kinematic pair 1016 penetrates through the connection part of the supporting column 1007 and the second connecting rod 1015, a second lifting column 1017 is screwed at one end of the second connecting rod 1015 far away from the fifth kinematic pair 1016, a second rotating rod 1009 forms a rotating structure through the supporting column 1007 and the orifice plate 1004, the rotating angle of the second rotating rod 1009 is 60 degrees, the length of the supporting column 1007 is equal to and parallel to the length of the second lifting column 1017, the lifting operation of the second lifting column 1017 is realized by driving the second rotating rod 1009 to rotate 60 degrees, the rotating structure of the second rotating rod 1009 is formed through the second lifting column 1017 and the first connecting rod 1011, the rotating angle of the second rotating rod 1009 is 60 degrees, the length of the second lifting column 1017 is equal to and parallel to the length of the first lifting rod 1013, the first lifting rod 1013 is driven by the second lifting column 1017 to move, the stable lifting operation of the lifting plate 9 is realized, the control of the annealing time of a copper wire is facilitated, and a sixth kinematic pair 1018 is screwed at the connection 1015 of the second lifting column 1017 and the second connecting rod 1016, a third connecting rod 1019 is screwed on one side of the sixth kinematic pair 1018 above the second connecting rod 1015, a seventh kinematic pair 1020 is screwed on one end of the third connecting rod 1019 far away from the sixth kinematic pair 1018, a lifting working box 10 is arranged to realize smooth operation for adjusting annealing time, a pre-drawing working box 11 is arranged in the middle of the upper part of the annealing box 6, a motor 1101 is arranged at the bottom edge of the inner part of the pre-drawing working box 11, a linear lead screw 1102 is arranged at the output end of the motor 1101, a fixed plate 1103 is arranged on the outer side of one end of the linear lead screw 1102 close to the motor 1101, a moving plate 1104 penetrates through one end of the fixed plate 1103 far away from the linear lead screw 1102, a lead screw slider 1105 is welded at one end of the moving plate 1104 far away from the fixed plate 1103, a telescopic structure is formed between the fourth connecting rod 1105 and the linear lead screw 1102 by arranging two symmetrical lead screw sliders 1105, and two lead screw sliders 1105 are arranged, and the two groups of screw rod sliding blocks 1105 are in central symmetry relation with the center of the linear screw rod 1102, the control of the opposite movement of the two groups of fourth connecting rods 1106 is realized through the opposite movement of the two groups of screw rod sliding blocks 1105, the rotation angle of the movement frame 1108 is convenient to adjust, the fourth connecting rod 1106 is screwed in the middle of the top of the fixed plate 1103, the eighth movement pair 1107 penetrates through the connection part of the fourth connecting rod 1106 and the moving plate 1104, the movement frame 1108 is screwed in one end of the bottom of the fourth connecting rod 1106 far away from the moving plate 1104, the rotation structure is formed by the movement frame 1108 passing through the fourth connecting rod 1106 and the moving plate 1104, the rotation angle of the movement frame 1108 is 30 degrees, the movement frame 1108 is driven to rotate through the fourth connecting rod 1106, the control of the movement plate 1110 is realized, the ninth movement pair 1109 penetrates through the connection part of the movement frame 1108 and the fourth connecting rod 1106, the movement plate 1110 is screwed in the inner wall of the movement frame 1108, and the tenth movement pair 1111 penetrates through the connection part of the movement plate 1110 and the movement frame 1108, the side of moving plate 1110 is seted up recess 1112, and one side of recess 1112 is provided with fixed frame 1113, moving plate 1110 is provided with three groups, and the position distribution of three groups moving plate 1110 is central symmetry for the center of a circle about fixed frame 1113, through setting up three groups moving plate 1110, three groups moving plate 1110 motion, it prestretches the silk operation to the copper line to realize moving plate 1110, fixed frame 1113 is provided with second motion piece 1114 with recess 1112 junction, sliding tray 1115 is seted up on the surface of moving plate 1110, moving plate 1110 passes through second motion piece 1114 and constitutes revolution mechanic between motion frame 1108, and the rotation angle of moving plate 1110 is 30, the length of moving plate 1110 and sliding tray 1115 length ratio are 2: and √ 3, by controlling the length of the sliding groove 1115, the sliding length of the moving plate 1110 is controlled, and accurate pre-drawing operation is realized, the bottom end of the moving plate 1110 is rotatably connected with a moving slide 1116, an eleventh kinematic pair 1117 penetrates through the connecting part of the moving slide 1116 and the moving plate 1110, a fifth wire traveling wheel 12 is arranged right above the pre-drawing working box 11, one end of the right end of the fifth wire traveling wheel 12 close to the right side of the pre-drawing working box 11 is provided with a second eddy current heater 13, a sixth wire traveling wheel 14 is arranged on the right side of the second eddy current heater 13, a wire drawing module 15 is arranged on the right side of the sixth wire traveling wheel 14, a seventh wire traveling wheel 16 is welded in the middle of the right side of the outer wall of the main body frame 1, and a driving wheel 17 is arranged on one side of the lower part of the seventh wire traveling wheel 16 close to the outer wall of the main body frame 1.

The working principle is as follows: when the copper wire annealing device is used, firstly, a copper wire is led out from a driven wheel 3, then enters a groove of a first routing wheel 2, then enters a groove of a second routing wheel 4, then enters a first eddy current heater 5, then enters a groove of a third routing wheel 7 in an annealing box 6, copper wire annealing operation is carried out, then the copper wire annealing time operation is adjusted by adjusting the height of a lifting plate 9, in a lifting working box 10, a cylinder 1001 drives a lifting block 1003 to move through a gas rod 1002, the lifting block 1003 drives a first rotating rod 1006 to rotate through a first moving block 1005 in a pore plate 1004, the first rotating rod 1006 drives a second rotating rod 1009 to rotate through a first moving pair 1008, the rotating angle of the first rotating rod 1006 is 60 degrees, a first connecting rod 1011 drives a second rotating rod to rotate 60 degrees through a second lifting column 1017, and the length of a supporting column 1007 is equal to and parallel to the length of the second lifting column 1017, the length of the second lifting column 1017 is equal to and parallel to the length of the first lifting rod 1013, the annealing box 6 at the top end of the lifting plate 9 is stably driven by the first lifting rod 1013 to move, so as to control the annealing time of the copper wire, then the copper wire enters the pre-drawing working box 11, the motor 1101 drives the linear lead screw 1102 to rotate, the linear lead screw 1102 is a symmetrical lead screw, the linear lead screw 1102 rotates to drive the lead screw slider 1105 to move reversely along the linear lead screw 1102, the lead screw slider 1105 drives the moving frame 1108 to rotate through the fourth connecting rod 1106, the moving frame 1108 rotates to drive the moving plate 1110 to rotate around the second moving block 1114 in the groove 1112, the moving slider 1116 below the moving plate 1110 rotates along the sliding groove 1115, through the movement of the three groups of moving plates 1110, the pre-drawing operation of the copper wire is realized, then the copper wire enters the groove of the fifth wire traveling wheel 12, then the copper wire enters the second eddy current heater 13, carry out continuous annealing operation to the copper line, the copper line gets into the inslot of the fourth wire wheel 8 in the annealing case 6 after that, and the copper line gets into the inslot of sixth wire wheel 14 after that, carries out the wire drawing operation to the copper line through wire drawing module 15 after that, and the copper line gets into the inslot of seventh wire wheel 16 after that, and the copper line after will annealing the wire drawing through action wheel 17 at last receives the material operation, and this is exactly this copper line annealing device's theory of operation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. The utility model provides a copper line annealing device, includes main body frame (1), its characterized in that: the annealing device is characterized in that a first wire travelling wheel (2) is welded above the outer side of a main body frame (1), a driven wheel (3) is arranged on one side, close to the outer wall of the main body frame (1), below the first wire travelling wheel (2), of the outer wall of the main body frame (1), a second wire travelling wheel (4) is welded on the inner wall of the left side of the main body frame (1), a first eddy current heater (5) is arranged below the second wire travelling wheel (4), an annealing box (6) is arranged below the first eddy current heater (5), a third wire travelling wheel (7) is arranged in the middle of the inner part of the annealing box (6), a fourth wire travelling wheel (8) is arranged on the right side of the third wire travelling wheel (7), a lifting plate (9) is welded at the bottom of the annealing box (6), a lifting working box (10) is arranged below the lifting plate (9), and a pre-drawing working box (11) is arranged in the middle of the upper part of the annealing box (6), a fifth wire travelling wheel (12) is arranged right above the pre-wire drawing working box (11), a second eddy current heater (13) is arranged at one end, close to the right side of the pre-wire drawing working box (11), of the right end of the fifth wire travelling wheel (12), a sixth wire travelling wheel (14) is arranged at the right side of the second eddy current heater (13), a wire drawing module (15) is arranged at the right side of the sixth wire travelling wheel (14), a seventh wire travelling wheel (16) is welded in the middle of the right side of the outer wall of the main body frame (1), a driving wheel (17) is arranged on one side, close to the outer wall of the main body frame (1), of the lower portion of the seventh wire travelling wheel (16), a cylinder (1001) is welded on the inner wall of the lifting working box (10), a gas rod (1002) is installed at the output end of the cylinder (1001), a lifting block (1003) is welded at the bottom of the gas rod (1002), and a pore plate (1004) is welded on one side of the lifting block (1003), and the connection part of the pore plate (1004) and the lifting block (1003) is provided with a first motion block (1005), one side of the pore plate (1004) far away from the first motion block (1005) is welded with a first rotating rod (1006), the middle of the bottom end of the first rotating rod (1006) is screwed with a supporting column (1007), the connection part of the supporting column (1007) and the first rotating rod (1006) is penetrated with a first kinematic pair (1008), one end of the first rotating rod (1006) far away from the pore plate (1004) is screwed with a second rotating rod (1009), the connection part of the first rotating rod (1006) and the second rotating rod (1009) is penetrated with a second kinematic pair (1010), the bottom end of the second rotating rod (1009) is screwed with a first connecting rod (1011), the connection part of the second rotating rod (1009) and the first connecting rod (1011) is penetrated with a third kinematic pair (1012), the top end of the second rotating rod (1009) is screwed with a first lifting rod (1013), a fourth kinematic pair (1014) penetrates through the connecting part of the second rotating rod (1009) and the first lifting rod (1013), a second connecting rod (1015) is screwed at one side of the supporting column (1007), a fifth kinematic pair (1016) penetrates through the connecting part of the supporting column (1007) and the second connecting rod (1015), a second lifting column (1017) is screwed at one end of the second connecting rod (1015) far away from the fifth kinematic pair (1016), a sixth kinematic pair (1018) is screwed at the connecting part of the second lifting column (1017) and the second connecting rod (1015), a third connecting rod (1019) is screwed at one side of the sixth kinematic pair (1018) above the second connecting rod (1015), a seventh kinematic pair (1020) is screwed at one end of the third connecting rod (1019) far away from the sixth kinematic pair (1018), and the second rotating rod (1009) and the pore plate (1004) form a rotating structure through the supporting column (1007), the rotating angle of the second rotating rod (1009) is 60 degrees, the length of the supporting column (1007) is equal to and parallel to the length of the second lifting column (1017), the second rotating rod (1009) passes through the second lifting column (1017) and the first connecting rod (1011) to form a rotating structure, the rotating angle of the second rotating rod (1009) is 60 degrees, the length of the second lifting column (1017) is equal to and parallel to the length of the first lifting rod (1013), the edge of the bottom end inside the pre-drawing working box (11) is provided with a motor (1101), the output end of the motor (1101) is provided with a linear lead screw (1102), the outer side of one end, close to the motor (1101), of the linear lead screw (1102) is provided with a fixing plate (1103), one end, far away from the linear lead screw (1102), of the fixing plate (1103) penetrates through a moving plate (1104), one end, far away from the fixing plate (1103), of the moving plate (1104) is welded with a lead screw (1105), the middle of the top of the fixed plate (1103) is screwed with a fourth connecting rod (1106), the connecting part of the fourth connecting rod (1106) and the movable plate (1104) is penetrated with an eighth kinematic pair (1107), one end of the bottom of the fourth connecting rod (1106), which is far away from the movable plate (1104), is screwed with a kinematic frame (1108), the connecting part of the kinematic frame (1108) and the fourth connecting rod (1106 is penetrated with a ninth kinematic pair (1109), the inner wall of the kinematic frame (1108) is screwed with a kinematic plate (1110), the connecting part of the kinematic plate (1110) and the kinematic frame (1108) is penetrated with a tenth kinematic pair (1111), the side surface of the kinematic plate (1110) is provided with a groove (1112), one side of the groove (1112) is provided with a fixed frame (1113), the connecting part of the fixed frame (1113) and the groove (1112) is provided with a second kinematic block (1114), the surface of the kinematic plate (1110) is provided with a sliding groove (1115), the bottom end of the moving plate (1110) is screwed with a moving sliding block (1116), an eleventh moving pair (1117) penetrates through the connecting part of the moving sliding block (1116) and the moving plate (1110), the fourth connecting rod (1106) forms a telescopic structure by arranging a screw rod sliding block (1105) and a linear screw rod (1102), the linear screw rod (1102) is a symmetrical screw rod, the screw rod sliding blocks (1105) are provided with two groups, the two groups of screw rod sliding blocks (1105) are in central symmetry relation with the center of the linear screw rod (1102), the moving frame (1108) forms a rotating structure by passing through the fourth connecting rod (1106) and the moving plate (1104), the rotating angle of the moving frame (1108) is 30 degrees, the moving plate (1110) is provided with three groups, the positions of the three groups of moving plates (1110) are distributed to be central symmetry with the center of the fixed frame (1113), and the moving plate (1110) forms a rotating structure by passing through the second moving block (1114) and the moving frame (1108), the rotation angle of the moving plate (1110) is 30 degrees, the length ratio of the moving plate (1110) to the sliding groove (1115) is 2: 3.

Images