Five metals copper iron mixing separator
Technical Field
The invention relates to a separator, in particular to a hardware copper-iron mixed separator.
Background
When people need to separate the copper and the iron which are mixed together, the magnet rod can be generally manually held to stretch into the copper and iron mixture to adsorb the iron, then the magnet rod is taken out, the iron adsorbed on the magnet rod is taken down, the magnet rod is stretched into the copper and the iron, the iron is continuously adsorbed, and therefore people need to be consumed for a long time to separate the copper and the iron completely. And iron is adsorbed on the magnet rod, so that the weight is large, and a user needs to continuously hold the magnet rod adsorbed with the iron, so that great strength is needed for the arms of the user, and the arms of the user are very sore.
Disclosure of Invention
In order to overcome the defect that people need to hold the magnet rod manually to separate copper from iron and the double arms of people are very sore, the invention aims to provide the hardware copper-iron mixing separator which is used for separating copper from iron without holding the magnet rod manually.
The technical implementation scheme of the invention is as follows: the utility model provides a five metals copper iron mixing separator, including the mounting bracket, the bearing frame, first bull stick, the sliding sleeve, the lifter, elevating system, the handle, first spring and magnet stick, the bearing frame is all installed to the left and right sides at mounting bracket top, be connected with first bull stick between the bearing frame of the left and right sides, the middle part slidingtype of first bull stick is connected with the sliding sleeve, the rotation type is connected with the lifter on the sliding sleeve, be equipped with elevating system on the lifter, it has first through-hole to open in the middle of the upper portion of mounting bracket, the lifter passes first through-hole, the right side of first bull stick is connected with the handle, the equal rotary type in the left and right sides of lifter bottom is connected with the magnet stick, elevating system is connected with the magnet stick outside upper portion of the left and right sides, be.
As the improvement of the scheme, the lifting mechanism further comprises a sliding shaft, a hanging rope, a first baffle, a connecting plate and a guide sleeve, wherein a straight hole is formed in the middle of the lifting rod, the sliding shaft is connected in the straight hole in a sliding mode, the hanging rope is hung on the sliding shaft, the front side of the sliding shaft is connected with the first baffle, the first baffle is located at the front side of the hanging rope, the lower portions of the left side and the right side of the lifting rod are symmetrically connected with the connecting plate, the guide sleeve is connected to the outer sides of the connecting plates of the left side and the right side, the hanging ropes of the left side and the right side respectively penetrate through the guide sleeves of the left side and the right side, and the tail ends.
As the improvement of above-mentioned scheme, still including the bull stick, the inserted bar, the arc pole, the fixed pulley, the stay cord, the pull ring, second spring and branch, the left end of first bull stick is connected with the rotary rod, it has the cross hole to open on the rotary rod, the left side upper portion of mounting bracket is connected with the arc pole, the arc pole is located the below of rotary rod, the left side upper portion of mounting bracket is connected with branch, branch is located the below of arc pole, the front side of branch and the front side left part of arc pole all are connected with the fixed pulley, the bottom left side of arc pole is connected with two second springs, the lower extreme of second spring is connected with the inserted bar, the inserted bar passes the arc pole, the cross hole is passed on the upper portion of inserted bar, the bottom of inserted bar is connected with the stay cord, the fixed pulley of downside is walked around to the stay.
As an improvement of the scheme, the novel hanging rod device further comprises a hanging rod, a second baffle and a return spring, the hanging rod is arranged at the top of the supporting rod, the return spring is connected to the top of the supporting rod, the second baffle is connected to the other end of the return spring, and the rear side of the second baffle is in contact with the front end of the hanging rod.
As the improvement of above-mentioned scheme, still including the cylinder body, the piston, the push rod, the hose, the check valve, outlet pipe and valve, the cylinder body is installed to the front side lower part of lifter, the slidingtype piston that is equipped with in the cylinder body, the top of piston is connected with the push rod, the push rod passes the upper wall of cylinder body, the bottom at the smooth axle is connected to the upper end of push rod, the right wall sub-unit connection of cylinder body has the hose, be equipped with the check valve in the hose, the right wall of mounting bracket is opened there is the second through-hole, the hose passes the second through-hole, the lower wall.
As an improvement of the scheme, the hose clamp comprises a third spring and arc-shaped clamping blocks, wherein inner cavities are formed in the mounting frames on the upper side and the lower side of the second through hole, the third spring is connected to the mounting frame on the outer side of the inner cavity, the inner end of the third spring is connected with the arc-shaped clamping blocks, and the arc-shaped clamping blocks on the upper side and the lower side are in contact with the upper side and the lower side of the hose.
When a user needs to use the separator to separate copper and iron, the separator is moved to a region where the copper and the iron are mixed, then the user holds the handle to rotate 180 degrees, the handle drives the sliding sleeve to move downwards through the first rotating rod, the sliding sleeve drives the magnet rod to move downwards through the lifting rod, the magnet rod can be inserted into the copper and the iron which are mixed together, the magnet rods on the left side and the right side can adsorb the iron, the user pulls the lifting mechanism to move upwards, the lifting mechanism can drive the magnet rods on the left side and the right side to rotate outwards, the first spring is stretched, the magnet rods on the left side and the right side can contact the copper and the iron in a larger range, further more iron is adsorbed, then the user continues to hold the handle to rotate 180 degrees, the handle can drive the sliding sleeve to move upwards through the first rotating rod, the sliding sleeve can drive the magnet rod to move upwards through the lifting rod, when the magnet rod moves upwards to return to the original position, the, the first spring can resume the normal position, and then drives the magnet stick of the left and right sides and rotate to the inboard, and the user can have separated the copper iron with light like this.
When the magnet rod's that the user need enlarge the magnet rod inhale the iron scope, hold the sliding shaft upward movement, the sliding shaft can drive the magnet rod of the left and right sides to rotate to the outside through hanging the rope, first spring can be stretched, the uide bushing plays the guide effect to hanging the rope, when the magnet rod needs the downward movement to go back to the normal position, the user loosens the sliding shaft, first spring can resume the normal position, and then hold the magnet rod of the left and right sides and rotate to the inboard, hang the rope and can drive the sliding shaft and go back to the normal position that moves down.
When a user needs to hold the handle to rotate, the pull ring is held to move downwards, the pull ring can drive the inserted link to move downwards through the pull rope, the inserted link can leave the cross hole, the second spring is stretched, when the user does not need to hold the handle to rotate, the pull ring is loosened, the second spring can restore to the original position, the inserted link is further pulled to move upwards, the inserted link can penetrate through the cross hole, the first rotating rod is further fixed, and the user does not need to hold the handle by hands all the time.
When a user holds the pull ring to move downwards, the user holds the second baffle to move forwards, the return spring is stretched, the user can hang the pull ring on the hanging rod, then the user loosens the second baffle, the return spring can restore to the original position to drive the second baffle to move backwards, the rear side of the second baffle is in contact with the front end of the hanging rod, and therefore the user does not need to hold the handle to rotate while holding the pull ring.
When the user need enlarge the scope of the magnet stick magnet of the left and right sides, put through hose and water source, can constantly pour into water in the cylinder body, and then promote piston upward movement, the piston can drive the slide-spindle upward movement through the push rod, the slide-spindle can drive the magnet stick of the left and right sides to the outside rotation through hanging the rope, first spring is stretched, when the magnet stick needs the downstream return normal position, the valve is opened to the user, water in the cylinder body can be discharged through the outlet pipe, the piston can drive the slide-spindle downward movement through the push rod, first spring can resume the normal position, the magnet stick that drives the left and right sides rotates to the inboard, the user need not to manually hold the slide-spindle upward movement like this.
Under the action of the third springs on the upper side and the lower side, the arc-shaped clamping blocks on the upper side and the lower side are matched with and clamp the hose, and the hose is prevented from moving forwards and separating from the second through hole.
The beneficial effects are that: according to the invention, the handle is held by a user to rotate 180 degrees, the magnet rod can move downwards and extend into copper and iron, the user pulls the sliding shaft to move upwards, the sliding shaft can drive the magnet rods on the left side and the right side to rotate outwards through the hanging rope, so that the iron absorption range of the magnet rod can be enlarged, then the handle is held by the user again to rotate 180 degrees, the magnet rod can move upwards and return to the original position, and the user can take down the iron on the magnet rod. When a user needs to hold the handle to rotate, the user can pull the pull ring to move downwards, then the user hangs the pull ring on the hanging rod, when the user does not need to hold the handle to rotate, the pull ring can be loosened, the inserted link can be inserted into the cross-shaped hole, and therefore the user can fix the position of the magnet rod without holding the handle all the time. The user can switch on hose and water source, and water promotes piston upward movement, and the piston can drive the sliding shaft upward movement through the push rod, and the magnet stick of the left and right sides also can rotate to the outside, and the user need not manually to hold the sliding shaft upward movement like this.
Drawings
Fig. 1 is a schematic front view of the present invention.
Fig. 2 is a partially enlarged schematic structural diagram of the lifting mechanism of the present invention.
Fig. 3 is an enlarged schematic view of the structure of the present invention a.
Fig. 4 is a partially enlarged schematic view of the present invention.
FIG. 5 is an enlarged schematic view of the present invention B.
FIG. 6 is an enlarged schematic view of the present invention C.
Number designation in the figures: 1. the lifting mechanism comprises a mounting frame, 2. a bearing seat, 3. a first rotating rod, 4. a sliding sleeve, 5. a lifting rod, 6. a lifting mechanism, 601. a straight hole, 602. a sliding shaft, 603. a hanging rope, 604. a first baffle, 7. a first through hole, 8. a connecting plate, 9. a guide sleeve, 10. a handle, 11. a first spring, 12. a magnet rod, 13. a rotating rod, 14. a cross hole, 15. an inserting rod, 16. an arc rod, 17. a fixed pulley, 18. a pull rope, 19. a pull ring, 20. a second spring, 21. a support rod, 22. a hanging rod, 23. a second baffle, 24. a return spring, 241. a cylinder body, 25. a piston, 26. a push rod, 27. a hose, 28. a one-way valve, 29. a water outlet pipe, 30. a valve, 31. a second through hole, 32. a third spring, 33. an arc clamping block, 34. an inner cavity.
Detailed Description
Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
Example 1
A hardware copper-iron mixing separator is shown in figures 1-6 and comprises a mounting frame 1, a bearing seat 2, a first rotating rod 3 and a sliding sleeve 4, lifter 5, elevating system 6, handle 10, first spring 11 and magnet stick 12, bearing frame 2 is all installed to the left and right sides at 1 top of mounting bracket, be connected with first bull stick 3 between the bearing frame 2 of the left and right sides, the middle part sliding connection of first bull stick 3 has sliding sleeve 4, the last rotation type of sliding sleeve 4 is connected with lifter 5, be equipped with elevating system 6 on lifter 5, it has first through-hole 7 to open in the middle of the upper portion of mounting bracket 1, lifter 5 passes first through-hole 7, the right side of first bull stick 3 is connected with handle 10, the equal rotation type in the left and right sides of 5 bottoms of lifter is connected with magnet stick 12, elevating system 6 is connected with the 12 outside upper portions of the magnet stick of the left and right sides, be connected with two first springs 11 between the 12 inboard upper portions of the magnet.
Example 2
A hardware copper-iron mixing separator is shown in figures 1-6 and comprises a mounting frame 1, a bearing seat 2, a first rotating rod 3 and a sliding sleeve 4, lifter 5, elevating system 6, handle 10, first spring 11 and magnet stick 12, bearing frame 2 is all installed to the left and right sides at 1 top of mounting bracket, be connected with first bull stick 3 between the bearing frame 2 of the left and right sides, the middle part sliding connection of first bull stick 3 has sliding sleeve 4, the last rotation type of sliding sleeve 4 is connected with lifter 5, be equipped with elevating system 6 on lifter 5, it has first through-hole 7 to open in the middle of the upper portion of mounting bracket 1, lifter 5 passes first through-hole 7, the right side of first bull stick 3 is connected with handle 10, the equal rotation type in the left and right sides of 5 bottoms of lifter is connected with magnet stick 12, elevating system 6 is connected with the 12 outside upper portions of the magnet stick of the left and right sides, be connected with two first springs 11 between the 12 inboard upper portions of the magnet.
The lifting mechanism 6 further comprises a sliding shaft 602, a hanging rope 603, a first baffle 604, a connecting plate 8 and a guide sleeve 9, a straight hole 601 is formed in the middle of the lifting rod 5, the sliding shaft 602 is connected in the straight hole 601 in a sliding manner, the hanging rope 603 is hung on the sliding shaft 602, the first baffle 604 is connected to the front side of the sliding shaft 602, the first baffle 604 is located at the front side of the hanging rope 603, the connecting plates 8 are symmetrically connected to the lower portions of the left side and the right side of the lifting rod 5, the guide sleeves 9 are connected to the outer sides of the connecting plates 8 of the left side and the right side, the hanging ropes 603 of the left side and the right side respectively penetrate through the guide sleeves 9 of the left side and the right side, and the tail ends of the.
Example 3
A hardware copper-iron mixing separator is shown in figures 1-6 and comprises a mounting frame 1, a bearing seat 2, a first rotating rod 3 and a sliding sleeve 4, lifter 5, elevating system 6, handle 10, first spring 11 and magnet stick 12, bearing frame 2 is all installed to the left and right sides at 1 top of mounting bracket, be connected with first bull stick 3 between the bearing frame 2 of the left and right sides, the middle part sliding connection of first bull stick 3 has sliding sleeve 4, the last rotation type of sliding sleeve 4 is connected with lifter 5, be equipped with elevating system 6 on lifter 5, it has first through-hole 7 to open in the middle of the upper portion of mounting bracket 1, lifter 5 passes first through-hole 7, the right side of first bull stick 3 is connected with handle 10, the equal rotation type in the left and right sides of 5 bottoms of lifter is connected with magnet stick 12, elevating system 6 is connected with the 12 outside upper portions of the magnet stick of the left and right sides, be connected with two first springs 11 between the 12 inboard upper portions of the magnet.
The lifting mechanism 6 further comprises a sliding shaft 602, a hanging rope 603, a first baffle 604, a connecting plate 8 and a guide sleeve 9, a straight hole 601 is formed in the middle of the lifting rod 5, the sliding shaft 602 is connected in the straight hole 601 in a sliding manner, the hanging rope 603 is hung on the sliding shaft 602, the first baffle 604 is connected to the front side of the sliding shaft 602, the first baffle 604 is located at the front side of the hanging rope 603, the connecting plates 8 are symmetrically connected to the lower portions of the left side and the right side of the lifting rod 5, the guide sleeves 9 are connected to the outer sides of the connecting plates 8 of the left side and the right side, the hanging ropes 603 of the left side and the right side respectively penetrate through the guide sleeves 9 of the left side and the right side, and the tail ends of the.
Also comprises a rotating rod 13, an inserting rod 15, an arc-shaped rod 16 and a fixed pulley 17, stay cord 18, pull ring 19, second spring 20 and branch 21, the left end of first branch 3 is connected with rotary rod 13, it has cross hole 14 to open on the rotary rod 13, the left side upper portion of mounting bracket 1 is connected with arc pole 16, arc pole 16 is located the below of rotary rod 13, the left side upper portion of mounting bracket 1 is connected with branch 21, branch 21 is located the below of arc pole 16, the front side of branch 21 and the front side left part of arc pole 16 all are connected with fixed pulley 17, the bottom left side of arc pole 16 is connected with two second springs 20, the lower extreme of second spring 20 is connected with inserted bar 15, inserted bar 15 passes arc pole 16, cross hole 14 is passed on the upper portion of inserted bar 15, the bottom of inserted bar 15 is connected with pull cord 18 of downside, pull cord 18 walks around fixed pulley 17, pull cord 18 walks around the fixed pulley 17 of upside, the end-to-end connection of pull cord 18 has.
Example 4
A hardware copper-iron mixing separator is shown in figures 1-6 and comprises a mounting frame 1, a bearing seat 2, a first rotating rod 3 and a sliding sleeve 4, lifter 5, elevating system 6, handle 10, first spring 11 and magnet stick 12, bearing frame 2 is all installed to the left and right sides at 1 top of mounting bracket, be connected with first bull stick 3 between the bearing frame 2 of the left and right sides, the middle part sliding connection of first bull stick 3 has sliding sleeve 4, the last rotation type of sliding sleeve 4 is connected with lifter 5, be equipped with elevating system 6 on lifter 5, it has first through-hole 7 to open in the middle of the upper portion of mounting bracket 1, lifter 5 passes first through-hole 7, the right side of first bull stick 3 is connected with handle 10, the equal rotation type in the left and right sides of 5 bottoms of lifter is connected with magnet stick 12, elevating system 6 is connected with the 12 outside upper portions of the magnet stick of the left and right sides, be connected with two first springs 11 between the 12 inboard upper portions of the magnet.
The lifting mechanism 6 further comprises a sliding shaft 602, a hanging rope 603, a first baffle 604, a connecting plate 8 and a guide sleeve 9, a straight hole 601 is formed in the middle of the lifting rod 5, the sliding shaft 602 is connected in the straight hole 601 in a sliding manner, the hanging rope 603 is hung on the sliding shaft 602, the first baffle 604 is connected to the front side of the sliding shaft 602, the first baffle 604 is located at the front side of the hanging rope 603, the connecting plates 8 are symmetrically connected to the lower portions of the left side and the right side of the lifting rod 5, the guide sleeves 9 are connected to the outer sides of the connecting plates 8 of the left side and the right side, the hanging ropes 603 of the left side and the right side respectively penetrate through the guide sleeves 9 of the left side and the right side, and the tail ends of the.
Also comprises a rotating rod 13, an inserting rod 15, an arc-shaped rod 16 and a fixed pulley 17, stay cord 18, pull ring 19, second spring 20 and branch 21, the left end of first branch 3 is connected with rotary rod 13, it has cross hole 14 to open on the rotary rod 13, the left side upper portion of mounting bracket 1 is connected with arc pole 16, arc pole 16 is located the below of rotary rod 13, the left side upper portion of mounting bracket 1 is connected with branch 21, branch 21 is located the below of arc pole 16, the front side of branch 21 and the front side left part of arc pole 16 all are connected with fixed pulley 17, the bottom left side of arc pole 16 is connected with two second springs 20, the lower extreme of second spring 20 is connected with inserted bar 15, inserted bar 15 passes arc pole 16, cross hole 14 is passed on the upper portion of inserted bar 15, the bottom of inserted bar 15 is connected with pull cord 18 of downside, pull cord 18 walks around fixed pulley 17, pull cord 18 walks around the fixed pulley 17 of upside, the end-to-end connection of pull cord 18 has.
The hanging rod 22 is arranged at the top of the supporting rod 21, the return spring 24 is connected to the top of the supporting rod 21, the second baffle 23 is connected to the other end of the return spring 24, and the rear side of the second baffle 23 is in contact with the front end of the hanging rod 22.
Example 5
A hardware copper-iron mixing separator is shown in figures 1-6 and comprises a mounting frame 1, a bearing seat 2, a first rotating rod 3 and a sliding sleeve 4, lifter 5, elevating system 6, handle 10, first spring 11 and magnet stick 12, bearing frame 2 is all installed to the left and right sides at 1 top of mounting bracket, be connected with first bull stick 3 between the bearing frame 2 of the left and right sides, the middle part sliding connection of first bull stick 3 has sliding sleeve 4, the last rotation type of sliding sleeve 4 is connected with lifter 5, be equipped with elevating system 6 on lifter 5, it has first through-hole 7 to open in the middle of the upper portion of mounting bracket 1, lifter 5 passes first through-hole 7, the right side of first bull stick 3 is connected with handle 10, the equal rotation type in the left and right sides of 5 bottoms of lifter is connected with magnet stick 12, elevating system 6 is connected with the 12 outside upper portions of the magnet stick of the left and right sides, be connected with two first springs 11 between the 12 inboard upper portions of the magnet.
The lifting mechanism 6 further comprises a sliding shaft 602, a hanging rope 603, a first baffle 604, a connecting plate 8 and a guide sleeve 9, a straight hole 601 is formed in the middle of the lifting rod 5, the sliding shaft 602 is connected in the straight hole 601 in a sliding manner, the hanging rope 603 is hung on the sliding shaft 602, the first baffle 604 is connected to the front side of the sliding shaft 602, the first baffle 604 is located at the front side of the hanging rope 603, the connecting plates 8 are symmetrically connected to the lower portions of the left side and the right side of the lifting rod 5, the guide sleeves 9 are connected to the outer sides of the connecting plates 8 of the left side and the right side, the hanging ropes 603 of the left side and the right side respectively penetrate through the guide sleeves 9 of the left side and the right side, and the tail ends of the.
Also comprises a rotating rod 13, an inserting rod 15, an arc-shaped rod 16 and a fixed pulley 17, stay cord 18, pull ring 19, second spring 20 and branch 21, the left end of first branch 3 is connected with rotary rod 13, it has cross hole 14 to open on the rotary rod 13, the left side upper portion of mounting bracket 1 is connected with arc pole 16, arc pole 16 is located the below of rotary rod 13, the left side upper portion of mounting bracket 1 is connected with branch 21, branch 21 is located the below of arc pole 16, the front side of branch 21 and the front side left part of arc pole 16 all are connected with fixed pulley 17, the bottom left side of arc pole 16 is connected with two second springs 20, the lower extreme of second spring 20 is connected with inserted bar 15, inserted bar 15 passes arc pole 16, cross hole 14 is passed on the upper portion of inserted bar 15, the bottom of inserted bar 15 is connected with pull cord 18 of downside, pull cord 18 walks around fixed pulley 17, pull cord 18 walks around the fixed pulley 17 of upside, the end-to-end connection of pull cord 18 has.
The hanging rod 22 is arranged at the top of the supporting rod 21, the return spring 24 is connected to the top of the supporting rod 21, the second baffle 23 is connected to the other end of the return spring 24, and the rear side of the second baffle 23 is in contact with the front end of the hanging rod 22.
The lifting device is characterized by further comprising a cylinder body 241, a piston 25, a push rod 26, a hose 27, a one-way valve 28, a water outlet pipe 29 and a valve 30, the cylinder body 241 is installed on the lower portion of the front side of the lifting rod 5, the piston 25 is arranged in the cylinder body 241 in a sliding mode, the top of the piston 25 is connected with the push rod 26, the push rod 26 penetrates through the upper wall of the cylinder body 241, the upper end of the push rod 26 is connected to the bottom of the sliding shaft 602, the hose 27 is connected to the lower portion of the right wall of the cylinder body 241, the one-way valve 28 is arranged in the hose 27, the second through hole 31 is formed in the right wall of the mounting rack 1, the.
Still including third spring 32 and arc clamp 33, all opened inner chamber 34 on the mounting bracket 1 of both sides about the second through-hole 31, be connected with third spring 32 on the mounting bracket 1 in the inner chamber 34 outside, the inner of third spring 32 is connected with arc clamp 33, the upper and lower both sides contact of arc clamp 33 and hose 27 of both sides about the upper and lower both sides.
When a user needs to use the separator to separate copper and iron, the separator is moved to a region where the copper and the iron are mixed, then the user holds the handle 10 to rotate 180 degrees, the handle 10 drives the sliding sleeve 4 to move downwards through the first rotating rod 3, the sliding sleeve 4 drives the magnet rod 12 to move downwards through the lifting rod 5, the magnet rod 12 is inserted into the mixed copper and iron, the magnet rods 12 on the left side and the right side can adsorb the iron, the user pulls the lifting mechanism 6 to move upwards, the lifting mechanism 6 can drive the magnet rods 12 on the left side and the right side to rotate outwards, the first spring 11 is stretched, the magnet rods 12 on the left side and the right side can contact with the copper and iron in a larger range, further more iron is adsorbed, then the user continues to hold the handle 10 to rotate 180 degrees, the handle 10 can drive the sliding sleeve 4 to move upwards through the first rotating rod 3, the sliding sleeve 4 can drive the magnet rod 12 to move upwards through the lifting rod 5, when the magnet rods 12 move upwards to the original position, the user loosens the lifting mechanism 6, the first spring 11 can restore the original position, and then the magnet rods 12 on the left side and the right side are driven to rotate inwards, so that the user can easily separate the copper and the iron.
When a user needs to enlarge the iron absorption range of the magnet rod 12, the sliding shaft 602 is pulled to move upwards, the sliding shaft 602 can drive the magnet rods 12 on the left side and the right side to rotate outwards through the hanging rope 603, the first spring 11 can be stretched, the guide sleeve 9 plays a guiding role in the hanging rope 603, when the magnet rods 12 need to move downwards to return to the original position, the user loosens the sliding shaft 602, the first spring 11 can return to the original position, the magnet rods 12 on the left side and the right side are pulled to rotate inwards, and the hanging rope 603 can drive the sliding shaft 602 to move downwards to return to the original position.
When a user needs to hold the handle 10 to rotate, the pull ring 19 is held to move downwards, the pull ring 19 drives the insert rod 15 to move downwards through the pull rope 18, the insert rod 15 leaves the cross hole 14, the second spring 20 is stretched, when the user does not need to hold the handle 10 to rotate, the pull ring 19 is loosened, the second spring 20 returns to the original position, the insert rod 15 is further pulled to move upwards, the insert rod 15 penetrates through the cross hole 14, the first rotating rod 3 is further fixed, and therefore the user does not need to hold the handle 10 by hands all the time.
When a user pulls the pull ring 19 to move downwards, the user pulls the second baffle 23 to move forwards, the return spring 24 is stretched, the user can hang the pull ring 19 on the hanging rod 22, then the user loosens the second baffle 23, the return spring 24 can recover to the original position to drive the second baffle 23 to move backwards, the rear side of the second baffle 23 is in contact with the front end of the hanging rod 22, and therefore the user does not need to hold the pull ring 19 and hold the handle 10 to rotate.
When a user needs to enlarge the iron absorption range of the magnet bars 12 on the left side and the right side, the hose 27 is connected with a water source, water is continuously injected into the cylinder 241, the piston 25 is further pushed to move upwards, the piston 25 can drive the slide shaft 602 to move upwards through the push rod 26, the slide shaft 602 can drive the magnet bars 12 on the left side and the right side to rotate outwards through the hanging rope 603, the first spring 11 is stretched, when the magnet bars 12 need to move downwards to the original position, the user opens the valve 30, the water in the cylinder 241 can be discharged through the water outlet pipe 29, the piston 25 can drive the slide shaft 602 to move downwards through the push rod 26, the first spring 11 can restore the original position, the magnet bars 12 on the left side and the right side are driven to rotate inwards, and the user does not need to manually pull the slide shaft 602.
The upper and lower curved clamping blocks 33 cooperate to clamp the hose 27 under the action of the upper and lower third springs 32, thereby preventing the hose 27 from moving forward and disengaging from the second through hole 31.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.