CN110026859B - Multifunctional grinding machine device - Google Patents

Multifunctional grinding machine device Download PDF

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Publication number
CN110026859B
CN110026859B CN201910422645.7A CN201910422645A CN110026859B CN 110026859 B CN110026859 B CN 110026859B CN 201910422645 A CN201910422645 A CN 201910422645A CN 110026859 B CN110026859 B CN 110026859B
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China
Prior art keywords
support
ash
polishing
groove
wheel
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CN201910422645.7A
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Chinese (zh)
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CN110026859A (en
Inventor
纪素娟
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TAIZHOU WEILI HYDRAULIC MACHINERY MANUFACTURING Co.,Ltd.
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Taizhou Weili Hydraulic Machinery Manufacturing Co ltd
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Priority to CN201910422645.7A priority Critical patent/CN110026859B/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B19/00Single-purpose machines or devices for particular grinding operations not covered by any other main group
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B41/00Component parts such as frames, beds, carriages, headstocks
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B41/00Component parts such as frames, beds, carriages, headstocks
    • B24B41/06Work supports, e.g. adjustable steadies
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B47/00Drives or gearings; Equipment therefor
    • B24B47/10Drives or gearings; Equipment therefor for rotating or reciprocating working-spindles carrying grinding wheels or workpieces
    • B24B47/12Drives or gearings; Equipment therefor for rotating or reciprocating working-spindles carrying grinding wheels or workpieces by mechanical gearing or electric power
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B55/00Safety devices for grinding or polishing machines; Accessories fitted to grinding or polishing machines for keeping tools or parts of the machine in good working condition
    • B24B55/06Dust extraction equipment on grinding or polishing machines
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B55/00Safety devices for grinding or polishing machines; Accessories fitted to grinding or polishing machines for keeping tools or parts of the machine in good working condition
    • B24B55/12Devices for exhausting mist of oil or coolant; Devices for collecting or recovering materials resulting from grinding or polishing, e.g. of precious metals, precious stones, diamonds or the like

Abstract

The invention relates to a grinding machine device, in particular to a multifunctional grinding machine device, which comprises an iron scrap processing mechanism, an iron scrap collecting and conveying mechanism and a belt tensioning mechanism, grinding machanism, the support frame, dust removal mechanism, the device can press from both sides tight work piece, the device can be polished, the device can be automatically transported the sweeps downwards, the device can prevent that the sweeps from taking place to block up, the device can the tensioning belt, the device can remove dust, the device can automatic deashing, the device can be reprocessed the sweeps into the iron plate and recycle, iron fillings processing agency is located iron fillings and collects conveying mechanism's below, iron fillings are collected conveying mechanism and are linked to each other with grinding machanism, belt tensioning mechanism links to each other with iron fillings collection conveying mechanism, dust removal mechanism links to each other with the support frame, the support frame is located grinding machanism.

Description

Multifunctional grinding machine device
Technical Field
The invention relates to a grinding machine device, in particular to a multifunctional grinding machine device.
Background
The grinding machine is often used in machining, when the grinding machine works, more metal scraps can be generated, and the traditional grinding machine has no scrap treatment function, so that the multifunctional grinding machine device is designed.
Disclosure of Invention
The invention mainly solves the technical problem of providing a multifunctional grinding machine device, which can clamp a workpiece, can grind, can automatically convey scraps downwards, can prevent the scraps from being blocked, can tension a belt, can remove dust, can automatically remove ash, and can reprocess the scraps into iron blocks for recycling.
In order to solve the technical problem, the invention relates to a grinding machine device, in particular to a multifunctional grinding machine device which comprises an iron scrap processing mechanism, an iron scrap collecting and conveying mechanism, a belt tensioning mechanism, a grinding mechanism, a supporting frame and a dust removing mechanism, wherein the device can clamp a workpiece, can grind, can automatically convey waste scraps downwards, can prevent the waste scraps from being blocked, can tension a belt, can remove dust, can automatically remove dust, and can reprocess the waste scraps into iron blocks for recycling.
The scrap iron processing mechanism comprises a shell, a heating plate support, a heating plate, a flowing cavity, an inlet, a water cooling mechanism and a block breaking mechanism, wherein the heating plate support is arranged inside the shell, the heating plate is connected with the heating plate support, the flowing cavity is connected with the shell, the flowing cavity is connected with the block breaking mechanism, the block breaking mechanism is connected with the shell, and the water cooling mechanism is arranged inside the shell;
the water cooling mechanism comprises a water tank, a one-way valve mechanism, a circulating water pipe, a water pumping execution mechanism, a water pumping gear, a water pumping motor, a circulating water pipe support and a matching hole, wherein the water tank is connected with the circulating water pipe;
the one-way valve mechanism comprises a one-way valve support, a one-way valve body and a water permeable hole, the one-way valve support is connected with the one-way valve body, and the water permeable hole is formed in the one-way valve support;
the water pumping executing mechanism comprises a water pumping seat, a rack support, a rack hole and a limiting seat, wherein the water pumping seat is connected with the rack, the rack is matched with the rack hole, the rack hole is formed in the rack support, and the limiting seat is connected with the rack;
the broken block mechanism comprises a broken block pipe, a flow opening, a sliding block, a connecting rod, a disc and a disc motor, wherein the flow opening is formed in the broken block pipe, the sliding block is matched with the broken block pipe, the connecting rod is hinged with the sliding block, the connecting rod is hinged with the disc, and the disc is connected with the disc motor;
the scrap iron collecting and conveying mechanism comprises a conveying opening, a circular cavity, a rotary unloading mechanism, a material unloading disc, a bearing seat, a feed opening, a containing groove, a belt pulley and a belt pulley motor, wherein the conveying opening is connected with the circular cavity;
the rotary unloading mechanism comprises an unloading head, an unloading head support, a limiting block groove, a limiting block I, an unloading head groove, an unloading spring, a rotary support and a shaft, wherein the unloading head is connected with the limiting block I, the limiting block I is matched with the limiting block groove, the unloading head is matched with the unloading head groove, the unloading head groove is arranged on the unloading head support, the unloading spring is connected with the unloading head, the unloading spring is arranged in the unloading head groove, the unloading head support is connected with the rotary support, and the rotary support is connected with the shaft;
the belt tensioning mechanism comprises a tensioning wheel mechanism, a tensioning adjusting mechanism and a tensioning support, the tensioning wheel mechanism is meshed with the tensioning adjusting mechanism, the tensioning adjusting mechanism is matched with the tensioning support, and the tensioning support is connected with the tensioning wheel mechanism;
the tensioning wheel mechanism comprises a tensioning wheel body, a tensioning wheel seat, a tensioning wheel shaft and an in-band spiral seat, wherein the tensioning wheel body is connected with the tensioning wheel shaft, the tensioning wheel shaft is connected with the tensioning wheel seat, and the in-band spiral seat is connected with the tensioning wheel seat;
the tensioning adjusting mechanism comprises a screw shaft, a convex block and a screwing head, and the convex block is welded between the screw shaft and the screwing head;
the tensioning support comprises an adjusting spring, a tensioning seat I, a lug support and a lug groove, the adjusting spring is connected with the tensioning seat I, the lug support is connected with the tensioning seat I, and the lug groove is formed in the lug support;
the polishing mechanism comprises a polishing bottom supporting mechanism, a polishing executing mechanism, a polishing support and a workpiece clamping mechanism, the polishing bottom supporting mechanism is connected with the polishing executing mechanism, the polishing executing mechanism is connected with the polishing support, the polishing support is connected with the polishing bottom supporting mechanism, and the workpiece clamping mechanism is connected with the polishing bottom supporting mechanism;
the polishing bottom support mechanism comprises a bottom support body, a stepped groove, a reset spring, a sliding groove, a buffer spring, a buffer rod, a sliding block and a groove, wherein the stepped groove is formed in the bottom support body;
the polishing executing mechanism comprises a polishing sliding block, a polishing connecting rod, a polishing wheel support, a polishing wheel, a polishing motor, a hydraulic rod, a hydraulic spring, a piston and a hydraulic cylinder, the polishing sliding block is hinged to the polishing connecting rod, the polishing connecting rod is hinged to the polishing wheel support, the polishing wheel is connected with the polishing motor, the polishing motor is connected with the polishing wheel support, the hydraulic rod is connected with the piston, the piston is matched with the hydraulic cylinder, and the hydraulic spring is arranged inside the hydraulic cylinder;
the workpiece clamping mechanism comprises a workpiece clamping support, a clamping screw hole, a clamping screw support, a clamping execution seat and a leakage opening, wherein the clamping screw is connected with the clamping screw hole, the clamping screw hole is tapped on the clamping screw support, the clamping execution seat is connected with the clamping screw, the clamping screw support is connected with the workpiece clamping support, and the leakage opening is formed in the workpiece clamping support;
the dust removing mechanism comprises a dust removing mechanism, a dust removing box, an air inlet, fan blades, a fan blade motor, a filter screen groove, a dust removing wheel, a dust removing motor, a dust removing belt and an air outlet, the dust removing mechanism is connected with the dust removing box in a bearing mode, the air inlet is formed in the dust removing box, the fan blades are connected with the fan blade motor, the fan blade motor is connected with the dust removing box, the filter screen is connected with the filter screen groove, the filter screen groove is formed in the inner wall of the dust removing box, the dust removing wheel is connected with the dust removing motor, the dust removing motor is positioned above the dust removing box, the dust removing belt is connected with the dust removing wheel, the dust removing belt is connected with the;
the ash removal mechanism comprises an ash removal arm, an internal groove I, a damping wheel mechanism, an ash removal hammer rod groove, an ash removal shaft and an ash removal shaft wheel, wherein the internal groove I is formed in the ash removal arm;
the damping wheel mechanism comprises a damping wheel body, a damping wheel shaft, a damping wheel support, a resistance adjusting hole, a resistance adjusting screw with a lug, a limiting slide rod I hole, a resistance adjusting screw matching groove with the lug and an upper support, wherein the damping wheel body is connected with the damping wheel shaft;
scrap iron processing mechanism is located scrap iron collection conveying mechanism's below, and scrap iron collection conveying mechanism links to each other with grinding machanism, and belt tensioning mechanism links to each other with scrap iron collection conveying mechanism, and dust removal mechanism links to each other with the support frame, and the support frame is located grinding machanism's below, and scrap iron processing mechanism links to each other with the support frame.
As a further optimization of the technical scheme, the material of the discharge head of the multifunctional grinding machine device is high manganese steel.
The multifunctional grinding machine device has the beneficial effects that:
according to the multifunctional grinding machine device, a workpiece can be clamped, the device can be used for grinding, scraps can be automatically conveyed downwards, the device can prevent the scraps from being blocked, a belt can be tensioned, dust can be removed, ash can be automatically removed, and the scraps can be reprocessed into iron blocks for recycling.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic structural diagram of a multifunctional grinding machine device according to the present invention.
Fig. 2 is a schematic structural diagram of the iron scrap processing mechanism 1 of the multifunctional grinding machine device of the invention.
Fig. 3 is a schematic structural diagram of the water cooling mechanism 1-6 of the multifunctional grinding machine device of the invention.
Fig. 4 is a schematic structural diagram of a check valve mechanism 1-6-2 of a multifunctional grinding machine device of the invention.
Fig. 5 is a schematic structural diagram of the water pumping actuator 1-6-4 of the multifunctional grinding machine device of the invention.
Fig. 6 is a schematic structural diagram of the breaking block mechanism 1-7 of the multifunctional grinding machine device of the invention.
Fig. 7 is a schematic structural diagram of the scrap iron collecting and conveying mechanism 2 of the multifunctional grinding machine device.
Fig. 8 is a schematic structural diagram of a rotary discharging mechanism 2-3 of the multifunctional grinding machine device.
Fig. 9 is a schematic structural diagram of the belt tensioning mechanism 3 of the multifunctional grinding machine device of the invention.
Fig. 10 is a schematic structural diagram of a tensioning wheel mechanism 3-1 of the multifunctional grinding machine device.
Fig. 11 is a schematic structural view of a tension adjusting mechanism 3-2 of a multifunction grinding machine apparatus according to the present invention.
Fig. 12 is a schematic structural view of the tension support 3-3 of the multipurpose grinding machine apparatus of the present invention.
Fig. 13 is a schematic structural diagram of a grinding mechanism 4 of a multifunction grinding machine apparatus according to the present invention.
Fig. 14 is a schematic structural view of a grinding bottom support mechanism 4-1 of the multipurpose grinding machine apparatus of the present invention.
Fig. 15 is a schematic structural diagram of a grinding actuator 4-2 of the multipurpose grinding machine apparatus according to the present invention.
Fig. 16 is a schematic structural view of a workpiece clamping mechanism 4-4 of the multifunction grinding machine apparatus of the present invention.
Fig. 17 is a schematic structural view of the dust removing mechanism 6 of the multifunction grinding machine apparatus of the present invention.
FIG. 18 is a schematic structural view of an ash removal mechanism 6-1 of a multiple function grinding machine apparatus of the present invention.
Fig. 19 is a schematic structural diagram of a damping wheel mechanism 6-1-3 of the multifunctional grinding machine device.
In the figure: an iron scrap processing mechanism 1; a housing 1-1; heating plate support 1-2; 1-3 of a heating plate; 1-4 of a flowing cavity; 1-5 of an inlet; a water cooling mechanism 1-6; 1-6-1 of a water tank; 1-6-2 of a one-way valve mechanism; the one-way valve supports 1-6-2-1; 1-6-2-2 of the one-way valve body; 1-6-2-3 of water permeable holes; 1-6-3 of a circulating water pipe; 1-6-4 parts of a water pumping executing mechanism; 1-6-4-1 parts of a water pumping seat; 1-6-4-2 of a rack; 1-6-4-3 rack supports; 1-6-4-4 of rack holes; 1-6-4-5 of a limiting seat; 1-6-5 parts of a water pumping gear; 1-6-6 parts of a water pumping motor; 1-6-7 parts of circulating water pipe support; 1-6-8 of a matching hole; 1-7 of a breaking mechanism; 1-7-1 parts of a broken block pipe; flow ports 1-7-2; 1-7-3 of a sliding block; 1-7-4 of a connecting rod; 1-7-5 of a disc; 1-7-6 parts of a disc motor; the scrap iron collecting and conveying mechanism 2; a delivery port 2-1; 2-2 of a circular cavity; rotating the discharging mechanism 2-3; 2-3-1 of a discharging head; 2-3-2 parts of a discharging head support; 2-3-3 of a limiting block groove; a limiting block I2-3-4; 2-3-5 of a discharge head groove; 2-3-6 parts of a discharging spring; 2-3-7 of a rotary support; shaft 2-3-8; discharging discs 2-4; 2-5 of a bearing seat; 2-6 of a feed opening; 2-7 of a receiving groove; 2-8 parts of a belt; 2-9 of belt pulleys; 2-10 of a belt pulley motor; a belt tensioning mechanism 3; a tension pulley mechanism 3-1; a tension wheel body 3-1-1; a tension pulley seat 3-1-2; 3-1-3 of a tensioning wheel shaft; 3-1-4 of an internal spiral seat; a tension adjusting mechanism 3-2; 3-2-1 of a spiral shaft; bumps 3-2-2; screwing the head 3-2-3; 3-3 of a tensioning support; 3-3-1 of an adjusting spring; a tensioning seat I3-3-2; 3-3-3 of bump support; 3-3-4 parts of a bump groove; a polishing mechanism 4; polishing the bottom supporting mechanism 4-1; a bottom support body 4-1-1; a step groove 4-1-2; a return spring 4-1-3; 4-1-4 of a sliding groove; 4-1-5 of a buffer spring; 4-1-6 of a buffer rod; 4-1-7 of a sliding block; tanks 4-1-8; a polishing executing mechanism 4-2; polishing the sliding block 4-2-1; polishing the connecting rod 4-2-2; 4-2-3 of a grinding wheel support; grinding wheel 4-2-4; 4-2-5 of a polishing motor; 4-2-6 of a hydraulic rod; 4-2-7 of a hydraulic spring; 4-2-8 parts of a piston; 4-2-9 of a hydraulic cylinder; polishing the support 4-3; 4-4 parts of a workpiece clamping mechanism; 4-4-1 of workpiece clamping support; 4-4-2 of a clamping screw; 4-4-3 of a clamping screw hole; 4-4-4 of a clamping screw support; 4-4-5 of a clamping executing seat; 4-4-6 of leakage opening; a support frame 5; a dust removal mechanism 6; 6-1 of an ash removal mechanism; 6-1-1 part of ash removal arm; inner tank I6-1-2; 6-1-3 parts of a damping wheel mechanism; a damping wheel body 6-1-3-1; 6-1-3-2 damping wheel shafts; the damping wheel supports 6-1-3-3; resistance adjusting holes 6-1-3-4; 6-1-3-5 of a resistance-adjusting screw with a bump; a limiting slide bar I6-1-3-6; limiting a sliding rod I hole 6-1-3-7; the resistance-adjusting screw with the lug is matched with the groove 6-1-3-8; upper support 6-1-3-9; 6-1-4 parts of a deashing hammer; 6-1-5 parts of ash removal hammer rod; 6-1-6 parts of a dust removal hammer rod groove; 6-1-7 of ash removing shaft; 6-1-8 parts of ash removal shaft wheel; 6-2 of a dust removal box; 6-3 of an air inlet; 6-4 of fan blades; a fan blade motor 6-5; 6-6 parts of a filter screen; 6-7 of a filter screen groove; 6-8 parts of ash cleaning wheel; 6-9 parts of a deashing motor; 6-10 parts of ash removal belt; and air outlets 6-11.
Detailed Description
The first embodiment is as follows:
the following combines with fig. 1, fig. 2, fig. 3; fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19 illustrate the present embodiment, and the present invention relates to a grinding machine device, and more specifically, to a multifunctional grinding machine device, which includes an iron scrap handling mechanism 1, an iron scrap collecting and conveying mechanism 2, a belt tensioning mechanism 3, a grinding mechanism 4, a support frame 5, and a dust removing mechanism 6, and is capable of clamping a workpiece, grinding the device capable of automatically transporting the iron scraps downward, preventing the iron scraps from being blocked, tensioning the belt, removing dust, automatically removing ash, and re-processing the iron scraps into iron blocks for reuse.
The scrap iron processing mechanism 1 comprises a shell 1-1, a heating plate support 1-2, a heating plate 1-3, a flowing cavity 1-4, an inlet 1-5, a water cooling mechanism 1-6 and a block breaking mechanism 1-7, wherein the heating plate support 1-2 is arranged inside the shell 1-1, the heating plate 1-3 is connected with the heating plate support 1-2, the flowing cavity 1-4 is connected with the shell 1-1, the flowing cavity 1-4 is connected with the block breaking mechanism 1-7, the block breaking mechanism 1-7 is connected with the shell 1-1, and the water cooling mechanism 1-6 is arranged inside the shell 1-1;
the water cooling mechanism 1-6 comprises a water tank 1-6-1, a one-way valve mechanism 1-6-2, a circulating water pipe 1-6-3, a water pumping actuating mechanism 1-6-4, a water pumping gear 1-6-5, a water pumping motor 1-6-6, a circulating water pipe support 1-6-7 and a matching hole 1-6-8, wherein the water tank 1-6-1 is connected with the circulating water pipe 1-6-3, the one-way valve mechanism 1-6-2 is arranged inside the circulating water pipe 1-6-3, the water pumping actuating mechanism 1-6-4 is matched with the circulating water pipe 1-6-3, the water pumping gear 1-6-5 is meshed with the water pumping actuating mechanism 1-6-4, the water pumping gear 1-6-5 is connected with the water pumping motor 1-6-6, a water pumping motor 1-6-6 is connected with a water tank 1-6-1, a circulating water pipe support 1-6-7 is connected with the water tank 1-6-1, the circulating water pipe support 1-6-7 is connected with a circulating water pipe 1-6-3, and a matching hole 1-6-8 is formed in the circulating water pipe 1-6-3;
the one-way valve mechanism 1-6-2 comprises a one-way valve support 1-6-2-1, a one-way valve body 1-6-2-2 and a water permeable hole 1-6-2-3, wherein the one-way valve support 1-6-2-1 is connected with the one-way valve body 1-6-2-2, and the water permeable hole 1-6-2-3 is arranged on the one-way valve support 1-6-2-1;
the water pumping executing mechanism 1-6-4 comprises a water pumping seat 1-6-4-1, a rack 1-6-4-2, a rack support 1-6-4-3, a rack hole 1-6-4-4 and a limiting seat 1-6-4-5, wherein the water pumping seat 1-6-4-1 is connected with the rack 1-6-4-2, the rack 1-6-4-2 is matched with the rack hole 1-6-4-4, the rack hole 1-6-4-4 is arranged on the rack support 1-6-4-3, and the limiting seat 1-6-4-5 is connected with the rack 1-6-4-2;
the broken block mechanism 1-7 comprises a broken block pipe 1-7-1, a flowing port 1-7-2, a sliding block 1-7-3, a connecting rod 1-7-4, a disc 1-7-5 and a disc motor 1-7-6, wherein the flowing port 1-7-2 is arranged on the broken block pipe 1-7-1, the sliding block 1-7-3 is matched with the broken block pipe 1-7-1, the connecting rod 1-7-4 is hinged with the sliding block 1-7-3, the connecting rod 1-7-4 is hinged with the disc 1-7-5, the disc 1-7-5 is connected with the disc motor 1-7-6, when waste scraps fall into the flowing cavity 1-4, the waste scraps are heated into liquid by a heating plate 1-3, then the liquid flows along the flowing cavity 1-4, when the liquid flows through the water cooling mechanism 1-6, the water pumping motor 1-6-6 is operated to drive the water pumping gear 1-6-5 to rotate in a reciprocating way, the water pumping gear 1-6-5 drives the rack 1-6-4-2 to move in a reciprocating way, the rack 1-6-4-2 moves in a reciprocating way to drive the water pumping seat 1-6-4-1 to move in a reciprocating way, the water pumping seat 1-6-4-1 moves in a reciprocating way to repeatedly pump water from the water tank 1-6-1 into the cavity between the two one-way valve mechanisms 1-6-2, and then the water is pumped out from the cavity between the two one-way valve mechanisms 1-6-2, after water moves from the circulating water pipe 1-6-3, liquid flowing in the flowing cavity 1-4 is cooled, then the water finally flows back into the water tank 1-6-1, so that the cooled liquid flows through the flowing port 1-7-2 and is in a semi-solid state, then the disc motor 1-7-6 is operated, the disc motor 1-7-6 can drive the disc 1-7-5 to rotate, the disc 1-7-5 rotates and can drive the sliding block 1-7-3 to reciprocate through the connecting rod 1-7-4, the sliding block 1-7-3 reciprocates and can cut the semi-solid iron into a section, and then the iron is completely cooled, so that the iron blocks can be recycled;
the scrap iron collecting and conveying mechanism 2 comprises a conveying opening 2-1, a circular cavity 2-2, a rotary unloading mechanism 2-3, a material unloading disc 2-4, a bearing seat 2-5, a discharging opening 2-6, a containing groove 2-7, a belt 2-8, a belt pulley 2-9 and a belt pulley motor 2-10, wherein the conveying opening 2-1 is connected with the circular cavity 2-2, the discharging disc 2-4 is connected with the rotary unloading mechanism 2-3, the rotary unloading mechanism 2-3 is connected with the bearing seat 2-5 in a bearing manner, the bearing seat 2-5 is connected with the circular cavity 2-2, the discharging opening 2-6 is arranged on the circular cavity 2-2, the containing groove 2-7 is arranged on the circular cavity 2-2, the discharging disc 2-4 is in flexible connection with the belt 2-8, the belt 2-8 is flexibly connected with the belt pulley 2-9, the belt pulley 2-9 is connected with a belt pulley motor 2-10, the belt pulley 2-9 is driven to rotate by the operation of the belt pulley motor 2-10, the belt pulley 2-9 drives the belt 2-8 to move by the rotation of the belt pulley 2-8, the discharge tray 2-4 is driven to rotate by the movement of the belt pulley 2-8, the rotary discharge mechanism 2-4 is driven to rotate by the rotation of the discharge tray 2-3, the rotary discharge mechanism 2-3 rotates to drive the scraps falling from the discharge opening 2-6 to move circularly and then discharge the scraps from the conveying opening 2-1, and therefore, the automatic downward transportation of the scraps is realized;
the rotary unloading mechanism 2-3 comprises an unloading head 2-3-1, an unloading head support 2-3-2, a limit block groove 2-3-3, a limit block I2-3-4, an unloading head groove 2-3-5, an unloading spring 2-3-6, a rotary support 2-3-7 and a shaft 2-3-8, wherein the unloading head 2-3-1 is connected with the limit block I2-3-4, the limit block I2-3-4 is matched with the limit block groove 2-3-3, the unloading head 2-3-1 is matched with the unloading head groove 2-3-5, the unloading head groove 2-3-5 is arranged on the unloading head support 2-3-2, the unloading spring 2-3-6 is connected with the unloading head 2-3-1, the discharging spring 2-3-6 is arranged inside the discharging head groove 2-3-5, the discharging head support 2-3-2 is connected with the rotating support 2-3-7, the rotating support 2-3-7 is connected with the shaft 2-3-8, when the rotating discharging mechanism 2-3 rotates, when the discharging head 2-3-1 rotates to the conveying opening 2-1, the discharging head 2-3-1 can be popped downwards under the elastic force of the discharging spring 2-3-6, so that if the conveying opening 2-1 is blocked by scraps, the discharging head 2-3-1 can push the scraps because the head of the discharging head 2-3-1 is arc-shaped, and can reset because of the contact with the circular cavity 2-2 when the discharging head 2-3-1 continues to rotate, thus, the discharge head 2-3-1 can be popped up and reset once when passing through the conveying port 2-1 each time, so that the conveying port 2-1 can be prevented from being blocked;
the belt tensioning mechanism 3 comprises a tensioning wheel mechanism 3-1, a tensioning adjusting mechanism 3-2 and a tensioning support 3-3, wherein the tensioning wheel mechanism 3-1 is meshed with the tensioning adjusting mechanism 3-2, the tensioning adjusting mechanism 3-2 is matched with the tensioning support 3-3, and the tensioning support 3-3 is connected with the tensioning wheel mechanism 3-1;
the tensioning wheel mechanism 3-1 comprises a tensioning wheel body 3-1-1, a tensioning wheel seat 3-1-2, a tensioning wheel shaft 3-1-3 and an in-band spiral seat 3-1-4, the tensioning wheel body 3-1-1 is connected with the tensioning wheel shaft 3-1-3, the tensioning wheel shaft 3-1-3 is connected with the tensioning wheel seat 3-1-2, and the in-band spiral seat 3-1-4 is connected with the tensioning wheel seat 3-1-2;
the tension adjusting mechanism 3-2 comprises a screw shaft 3-2-1, a convex block 3-2-2 and a screwing head 3-2-3, the convex block 3-2-2 is welded between the screw shaft 3-2-1 and the screwing head 3-2-3, the screw shaft 3-2-1 is driven to rotate by rotating the screwing head 3-2-3, the tensioning wheel seat 3-1-2 is driven to move downwards by meshing the screw shaft 3-2-1-1 with the inner screw seat 3-1-4, the tensioning wheel seat 3-1-2 drives the tensioning wheel body 3-1-1 to move downwards by moving downwards, and the belt 2-8 is tensioned by the tensioning wheel body 3-1-1 moving downwards;
the tensioning support 3-3 comprises an adjusting spring 3-3-1, a tensioning seat I3-3-2, a bump support 3-3-3 and a bump groove 3-3-4, the adjusting spring 3-3-1 is connected with the tensioning seat I3-3-2, the bump support 3-3-3 is connected with the tensioning seat I3-3-2, and the bump groove 3-3-4 is formed in the bump support 3-3-3;
the polishing mechanism 4 comprises a polishing bottom supporting mechanism 4-1, a polishing executing mechanism 4-2, a polishing support 4-3 and a workpiece clamping mechanism 4-4, the polishing bottom supporting mechanism 4-1 is connected with the polishing executing mechanism 4-2, the polishing executing mechanism 4-2 is connected with the polishing support 4-3, the polishing support 4-3 is connected with the polishing bottom supporting mechanism 4-1, and the workpiece clamping mechanism 4-4 is connected with the polishing bottom supporting mechanism 4-1;
the polishing bottom supporting mechanism 4-1 comprises a bottom supporting body 4-1-1, a stepped groove 4-1-2, a reset spring 4-1-3, a sliding groove 4-1-4, a buffer spring 4-1-5, a buffer rod 4-1-6, a sliding block 4-1-7 and a groove 4-1-8, wherein the stepped groove 4-1-2 is arranged on the bottom supporting body 4-1-1, the reset spring 4-1-3 is arranged inside the stepped groove 4-1-2, the sliding groove 4-1-4 is arranged on the bottom supporting body 4-1-1, the buffer rod 4-1-6 is matched with the sliding block 4-1-7, the sliding block 4-1-7 is connected with the sliding block 4-1-7, the buffer spring 4-1-5 is connected with the bottom support body 4-1-1;
the polishing executing mechanism 4-2 comprises a polishing sliding block 4-2-1, a polishing connecting rod 4-2-2, a polishing wheel support 4-2-3, a polishing wheel 4-2-4, a polishing motor 4-2-5, a hydraulic rod 4-2-6, a hydraulic spring 4-2-7, a piston 4-2-8 and a hydraulic cylinder 4-2-9, wherein the polishing sliding block 4-2-1 is hinged with the polishing connecting rod 4-2-2, the polishing connecting rod 4-2-2 is hinged with the polishing wheel support 4-2-3, the polishing wheel 4-2-4 is connected with the polishing motor 4-2-5, the polishing motor 4-2-5 is connected with the polishing wheel support 4-2-3, the hydraulic rod 4-2-6 is connected with the grinding wheel support 4-2-3, the hydraulic rod 4-2-6 is connected with the piston 4-2-8, the piston 4-2-8 is matched with the hydraulic cylinder 4-2-9, the hydraulic spring 4-2-7 is arranged inside the hydraulic cylinder 4-2-9, the grinding wheel 4-2-4 is driven to rotate by the operation of the grinding motor 4-2-5, then hydraulic oil is injected into the hydraulic cylinder 4-2-9, the piston 4-2-8 moves downwards under the drive of the hydraulic oil pressure, the piston 4-2-8 moves downwards to drive the hydraulic rod 4-2-6 to move downwards, the hydraulic rod 4-2-6 moves downwards to drive the grinding wheel support 4-2-3 to move downwards, the grinding wheel support 4-2-3 moves downwards to drive the rotating grinding wheel 4-2-4 to move downwards, and the grinding wheel 4-2-4 moves downwards to clamp the clamped workpiece;
the workpiece clamping mechanism 4-4 comprises a workpiece clamping support 4-4-1, a clamping screw 4-4-2, a clamping screw hole 4-4-3, a clamping screw support 4-4-4, a clamping execution seat 4-4-5 and a leakage opening 4-4-6, wherein the clamping screw 4-4-2 is connected with the clamping screw hole 4-4-3, the clamping screw hole 4-4-3 is tapped on the clamping screw support 4-4-4, the clamping execution seat 4-4-5 is connected with the clamping screw 4-4-2, the clamping screw support 4-4-4 is connected with the workpiece clamping support 4-4-1, the leakage opening 4-4-6 is opened on the workpiece clamping support 4-4-1, a workpiece needing to be clamped is placed on the workpiece clamping support 4-4-1, then the clamping screw 4-4-2 is screwed, the clamping screw 4-4-2 is matched with the clamping screw hole 4-4-3 to drive the clamping execution seat 4-4-5 to move towards the middle, and the clamping execution seat 4-4-5 moves towards the middle to clamp and clamp the workpiece;
the dust removing mechanism 6 comprises an ash removing mechanism 6-1, a dust removing box 6-2, an air inlet 6-3, a fan blade 6-4, a fan blade motor 6-5, a filter screen 6-6, a filter screen groove 6-7, an ash removing wheel 6-8, an ash removing motor 6-9, an ash removing belt 6-10 and an air outlet 6-11, the connection mode of the ash removing mechanism 6-1 and the dust removing box 6-2 is that a bearing is connected, the air inlet 6-3 is arranged on the dust removing box 6-2, the fan blade 6-4 is connected with the fan blade motor 6-5, the fan blade motor 6-5 is connected with the dust removing box 6-2, the filter screen 6-6 is connected with the filter screen groove 6-7, the filter screen groove 6-7 is arranged on the inner wall of the dust removing box 6-2, the ash removing wheel 6-8 is connected with the ash, the ash removal motor 6-9 is positioned above the dust removal box 6-2, the ash removal belt 6-10 is connected with the ash removal wheel 6-8, the ash removal belt 6-10 is connected with the ash removal mechanism 6-1, the air outlet 6-11 is formed in the right side plate of the dust removal box 6-2, the fan blade 6-4 is driven to rotate through the operation of the fan blade motor 6-5, negative pressure wind power is formed when the fan blade 6-4 rotates, external air is sucked from the air inlet 6-3, the air is filtered when passing through the filter screen 6-6 and then is discharged from the air outlet 6-11, and air purification is realized;
the ash removing mechanism 6-1 comprises an ash removing arm 6-1-1, an internal groove I6-1-2, a damping wheel mechanism 6-1-3, an ash removing hammer 6-1-4, an ash removing hammer rod 6-1-5, an ash removing hammer rod groove 6-1-6, an ash removing shaft 6-1-7 and an ash removing shaft wheel 6-1-8, wherein the internal groove I6-1-2 is arranged on the ash removing arm 6-1-1, the damping wheel mechanism 6-1-3 is arranged in the internal groove I6-1-2, the ash removing hammer 6-1-4 is connected with the ash removing hammer rod 6-1-5, the ash removing hammer rod 6-1-5 is matched with the ash removing hammer rod groove 6-1-6, the ash removing hammer rod groove 6-1-6 is arranged on the ash removing arm 6-1-1, the ash removing shaft 6-1-7 is connected with the ash removing arm 6-1-1, and the ash removing shaft wheel 6-1-8 is connected with the ash removing shaft 6-1-7;
the damping wheel mechanism 6-1-3 comprises a damping wheel body 6-1-3-1, a damping wheel shaft 6-1-3-2, a damping wheel support 6-1-3-3, a resistance adjusting hole 6-1-3-4, a resistance adjusting screw with a lug 6-1-3-5, a limit slide bar I6-1-3-6, a limit slide bar I hole 6-1-3-7, a resistance adjusting screw matching groove with a lug 6-1-3-8 and an upper support 6-1-3-9, wherein the damping wheel body 6-1-3-1 is connected with the damping wheel shaft 6-1-3-2, the damping wheel shaft 6-1-3-2 is connected with the damping wheel support 6-1-3-3 in a bearing way, a resistance adjusting hole 6-1-3-4 is tapped on the damping wheel support 6-1-3-3, a resistance adjusting screw 6-1-3-5 with a bump is connected with the resistance adjusting hole 6-1-3-4, a resistance adjusting screw 6-1-3-5 with a bump is matched with a matching groove 6-1-3-8 of the resistance adjusting screw with a bump, a matching groove 6-1-3-8 of the resistance adjusting screw with a bump is arranged on the upper support 6-1-3-9, a limit slide bar I6-1-3-6 is connected with the damping wheel support 6-1-3-3, a limit slide bar I6-1-3-6 is matched with a limit slide bar I hole 6-1-3-7, a limit slide bar I hole 6-1-3-7 is arranged on the upper support 6-1-3-9, the ash cleaning motor 6-9 is operated to drive the ash cleaning wheel 6-8 to rotate in a reciprocating manner, the ash cleaning wheel 6-8 can drive the ash cleaning mechanism 6-1 to swing in a reciprocating manner through the ash cleaning belt 6-10, the ash cleaning hammer 6-1-4 can knock down dust on the filter screen 6-6 after impacting the filter screen 6-6 in the swinging process, meanwhile, the ash cleaning hammer 6-1-4 can slide in the ash cleaning hammer rod groove 6-1-6 in the impacting process, so that the impacting impact can be reduced, the ash cleaning hammer 6-1-4 can be prevented from crashing the filter screen 6-6, the impact can be adjusted by screwing the adjusting screw with the lug 6-1-3-5, and when the adjusting screw with the lug 6-1-3-5 is screwed, the resistance adjusting screw 6-1-3-5 with the bump drives the damping wheel support 6-1-3-3 to move through matching with the resistance adjusting hole 6-1-3-4, and the damping wheel support 6-1-3-3 to move drives the damping wheel body 6-1-3-1 to move, so that the compression degree of the damping wheel body 6-1-3-1 to the ash removing hammer rod 6-1-5 can be changed, and the sliding damping of the ash removing hammer rod 6-1-5 in the ash removing hammer rod groove 6-1-6 is changed;
scrap iron processing mechanism 1 is located scrap iron collection conveying mechanism 2's below, and scrap iron collection conveying mechanism 2 links to each other with grinding machanism 4, and belt tensioning mechanism 3 links to each other with scrap iron collection conveying mechanism 2, and dust removal mechanism 6 links to each other with support frame 5, and support frame 5 is located grinding machanism 4's below, and scrap iron processing mechanism 1 links to each other with support frame 5.
The second embodiment is as follows:
the following combines with fig. 1, fig. 2, fig. 3; fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19 illustrate the present embodiment, and the present embodiment further illustrates the first embodiment, in which the material of the discharge head 2-3-1 is high manganese steel.
The device can clamp a workpiece, the workpiece to be clamped is placed on the workpiece clamping support 4-4-1, then the clamping screw 4-4-2 is screwed, the clamping screw 4-4-2 is matched with the clamping screw hole 4-4-3 to drive the clamping execution seat 4-4-5 to move towards the middle, and the workpiece is clamped and clamped by the clamping execution seat 4-4-5 moving towards the middle; the device can carry out polishing, a polishing wheel 4-2-4 is driven to rotate by the operation of a polishing motor 4-2-5, then hydraulic oil is injected into a hydraulic cylinder 4-2-9, a piston 4-2-8 moves downwards under the drive of the hydraulic oil, the piston 4-2-8 moves downwards to drive a hydraulic rod 4-2-6 to move downwards, the hydraulic rod 4-2-6 moves downwards to drive a polishing wheel support 4-2-3 to move downwards, the polishing wheel support 4-2-3 moves downwards to drive a rotating polishing wheel 4-2-4 to move downwards, and the polishing wheel 4-2-4 moves downwards to clamp a clamped workpiece; the device can automatically convey the waste scraps downwards, the belt pulleys 2-9 are driven to rotate by the operation of the belt pulley motors 2-10, the belt pulleys 2-9 rotate to drive the belts 2-8 to move, the belts 2-8 move to drive the discharging discs 2-4 to rotate, the discharging discs 2-4 rotate to drive the rotary discharging mechanisms 2-3 to rotate, the rotary discharging mechanisms 2-3 rotate to drive the waste scraps falling from the discharging openings 2-6 to move circularly and then discharge the waste scraps from the conveying openings 2-1, and the waste scraps are automatically conveyed downwards; the device can prevent the scraps from being blocked, when the rotary unloading mechanism 2-3 rotates, the unloading head 2-3-1 can be popped downwards under the elastic force of the unloading spring 2-3-6 when the unloading head 2-3-1 rotates to the conveying port 2-1, so that if the conveying port 2-1 is blocked by the scraps, the unloading head 2-3-1 can push the scraps, the head of the unloading head 2-3-1 is arc-shaped, and when the rotary unloading head continues to rotate, the unloading head can be reset due to the contact with the circular cavity 2-2, so that the unloading head 2-3-1 can be popped and reset once when passing through the conveying port 2-1 every time, and the conveying port 2-1 can be prevented from being blocked; the device can tension a belt, the screw shaft 3-2-1 is driven to rotate by rotating the screwing head 3-2-3, the tensioning wheel seat 3-1-2 is driven to move downwards by meshing with the screw seat 3-1-4 in the belt when the screw shaft 3-2-1 rotates, the tensioning wheel seat 3-1-2 moves downwards to drive the tensioning wheel body 3-1-1 to move downwards, and the belt 2-8 is tensioned by the downward movement of the tensioning wheel body 3-1-1; the device can remove dust, the fan blade motor 6-5 operates to drive the fan blade 6-4 to rotate, the fan blade 6-4 rotates to form negative pressure wind power, outside air is sucked from the air inlet 6-3, the air is filtered when passing through the filter screen 6-6 and then is discharged from the air outlet 6-11, and air purification is realized; the device can automatically clean ash, the ash cleaning motor 6-9 is operated to drive the ash cleaning wheel 6-8 to rotate in a reciprocating way, the ash cleaning wheel 6-8 rotates in a reciprocating way to drive the ash cleaning mechanism 6-1 to swing in a reciprocating way through the ash cleaning belt 6-10, the ash cleaning hammer 6-1-4 knocks down dust on the filter screen 6-6 after impacting the filter screen 6-6 in the swinging process, meanwhile, the ash cleaning hammer 6-1-4 slides in the ash cleaning hammer rod groove 6-1-6 in the impacting process, so that the impact can be reduced, the ash cleaning hammer 6-1-4 is prevented from crashing the filter screen 6-6, the impact can be adjusted by screwing the block-provided adjusting screw 6-1-3-5, and when the block-provided adjusting screw 6-1-3-5 is screwed, the resistance adjusting screw 6-1-3-5 with the bump drives the damping wheel support 6-1-3-3 to move through matching with the resistance adjusting hole 6-1-3-4, and the damping wheel support 6-1-3-3 to move drives the damping wheel body 6-1-3-1 to move, so that the compression degree of the damping wheel body 6-1-3-1 to the ash removing hammer rod 6-1-5 can be changed, and the sliding damping of the ash removing hammer rod 6-1-5 in the ash removing hammer rod groove 6-1-6 is changed; the device can reprocess the scraps into iron blocks for recycling, when the scraps fall into the flowing cavity 1-4, the scraps are heated by the heating plate 1-3 into liquid, then the liquid flows along the flowing cavity 1-4, when the liquid flows through the water cooling mechanism 1-6, the water pumping motor 1-6-6 is operated to drive the water pumping gear 1-6-5 to perform reciprocating rotation, the water pumping gear 1-6-5 performs reciprocating rotation to drive the rack 1-6-4-2 to perform reciprocating motion, the rack 1-6-4-2 performs reciprocating motion to drive the water pumping seat 1-6-4-1 to perform reciprocating motion, the water pumping seat 1-6-4-1 performs reciprocating motion to repeatedly pump water from the water tank 1-6-1 into a cavity between the two one-way valve mechanisms 1-6-2, then the water is pressed out from the cavity between the two one-way valve mechanisms 1-6-2, the liquid flowing into the cavity 1-4 is cooled after the water moves from the circulating water pipe 1-6-3, then the water flows back to the water tank 1-6-1 finally, so that the liquid to be cooled is semi-solid when flowing through the flow port 1-7-2, and then, the disc motor 1-7-6 is operated, the disc motor 1-7-6 drives the disc 1-7-5 to rotate, the disc 1-7-5 rotates and drives the sliding block 1-7-3 to reciprocate through the connecting rod 1-7-4, the sliding block 1-7-3 reciprocates and cuts the semisolid iron into a section, and then the semisolid iron is completely cooled and can be recycled.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a multifunctional grinding machine device, includes iron fillings processing mechanism (1), iron fillings collection conveying mechanism (2), belt straining device (3), grinding machanism (4), support frame (5), dust removal mechanism (6), its characterized in that: the scrap iron processing mechanism (1) comprises a shell (1-1), a heating plate support (1-2), a heating plate (1-3), a flowing cavity (1-4), an inlet (1-5), a water cooling mechanism (1-6) and a block breaking mechanism (1-7), wherein the heating plate support (1-2) is arranged inside the shell (1-1), the heating plate (1-3) is connected with the heating plate support (1-2), the flowing cavity (1-4) is connected with the shell (1-1), the flowing cavity (1-4) is connected with the block breaking mechanism (1-7), the block breaking mechanism (1-7) is connected with the shell (1-1), and the water cooling mechanism (1-6) is arranged inside the shell (1-1);
the water cooling mechanism (1-6) comprises a water tank (1-6-1), a one-way valve mechanism (1-6-2), a circulating water pipe (1-6-3), a water pumping actuating mechanism (1-6-4), a water pumping gear (1-6-5), a water pumping motor (1-6-6), a circulating water pipe support (1-6-7) and a matching hole (1-6-8), the water tank (1-6-1) is connected with the circulating water pipe (1-6-3), the one-way valve mechanism (1-6-2) is arranged inside the circulating water pipe (1-6-3), the water pumping actuating mechanism (1-6-4) is matched with the circulating water pipe (1-6-3), the water pumping gear (1-6-5) is meshed with the water pumping actuating mechanism (1-6-4), the water pumping gear (1-6-5) is connected with the water pumping motor (1-6-6), the water pumping motor (1-6-6) is connected with the water tank (1-6-1), the circulating water pipe support (1-6-7) is connected with the circulating water pipe (1-6-3), and the matching hole (1-6-8) is formed in the circulating water pipe (1-6-3);
the one-way valve mechanism (1-6-2) comprises a one-way valve support (1-6-2-1), a one-way valve body (1-6-2-2) and water permeable holes (1-6-2-3), the one-way valve support (1-6-2-1) is connected with the one-way valve body (1-6-2-2), and the water permeable holes (1-6-2-3) are formed in the one-way valve support (1-6-2-1);
the water pumping actuating mechanism (1-6-4) comprises a water pumping seat (1-6-4-1), a rack (1-6-4-2) and a rack support (1-6-4-3), the water pump comprises rack holes (1-6-4-4) and a limiting seat (1-6-4-5), wherein the water pumping seat (1-6-4-1) is connected with racks (1-6-4-2), the racks (1-6-4-2) are matched with the rack holes (1-6-4-4), the rack holes (1-6-4-4) are formed in rack supports (1-6-4-3), and the limiting seat (1-6-4-5) is connected with the racks (1-6-4-2);
the breaking block mechanism (1-7) comprises a breaking block pipe (1-7-1), a flowing port (1-7-2), a sliding block (1-7-3), a connecting rod (1-7-4), a disc (1-7-5) and a disc motor (1-7-6), the flow port (1-7-2) is opened on the broken block pipe (1-7-1), the sliding block (1-7-3) is matched with the broken block pipe (1-7-1), the connecting rod (1-7-4) is hinged with the sliding block (1-7-3), the connecting rod (1-7-4) is hinged with the disc (1-7-5), and the disc (1-7-5) is connected with the disc motor (1-7-6);
the scrap iron collecting and conveying mechanism (2) comprises a conveying opening (2-1), a circular cavity (2-2), a rotary unloading mechanism (2-3), an unloading disc (2-4), a bearing seat (2-5), a discharging opening (2-6), a containing groove (2-7), a belt (2-8), a belt pulley (2-9) and a belt pulley motor (2-10), wherein the conveying opening (2-1) is connected with the circular cavity (2-2), the unloading disc (2-4) is connected with the rotary unloading mechanism (2-3), the rotary unloading mechanism (2-3) is connected with the bearing seat (2-5) in a bearing way, the bearing seat (2-5) is connected with the circular cavity (2-2), and the discharging opening (2-6) is formed in the circular cavity (2-2), the accommodating groove (2-7) is formed in the circular cavity (2-2), the discharging disc (2-4) is in flexible connection with the belt (2-8), the belt (2-8) is in flexible connection with the belt pulley (2-9), and the belt pulley (2-9) is connected with the belt pulley motor (2-10);
the rotary unloading mechanism (2-3) comprises an unloading head (2-3-1), an unloading head support (2-3-2), a limiting block groove (2-3-3), a limiting block I (2-3-4), an unloading head groove (2-3-5), an unloading spring (2-3-6), a rotary support (2-3-7) and a shaft (2-3-8), wherein the unloading head (2-3-1) is connected with the limiting block I (2-3-4), the limiting block I (2-3-4) is matched with the limiting block groove (2-3-3), the unloading head (2-3-1) is matched with the unloading head groove (2-3-5), the unloading head groove (2-3-5) is arranged on the unloading head support (2-3-2), the discharging spring (2-3-6) is connected with the discharging head (2-3-1), the discharging spring (2-3-6) is arranged inside the discharging head groove (2-3-5), the discharging head support (2-3-2) is connected with the rotating support (2-3-7), and the rotating support (2-3-7) is connected with the shaft (2-3-8);
the belt tensioning mechanism (3) comprises a tensioning wheel mechanism (3-1), a tensioning adjusting mechanism (3-2) and a tensioning support (3-3), the tensioning wheel mechanism (3-1) is meshed with the tensioning adjusting mechanism (3-2), the tensioning adjusting mechanism (3-2) is matched with the tensioning support (3-3), and the tensioning support (3-3) is connected with the tensioning wheel mechanism (3-1);
the tensioning wheel mechanism (3-1) comprises a tensioning wheel body (3-1-1), a tensioning wheel seat (3-1-2), a tensioning wheel shaft (3-1-3) and an in-band spiral seat (3-1-4), wherein the tensioning wheel body (3-1-1) is connected with the tensioning wheel shaft (3-1-3), the tensioning wheel shaft (3-1-3) is connected with the tensioning wheel seat (3-1-2), and the in-band spiral seat (3-1-4) is connected with the tensioning wheel seat (3-1-2);
the tensioning adjusting mechanism (3-2) comprises a screw shaft (3-2-1), a convex block (3-2-2) and a screwing head (3-2-3), and the convex block (3-2-2) is welded between the screw shaft (3-2-1) and the screwing head (3-2-3);
the tensioning support (3-3) comprises an adjusting spring (3-3-1), a tensioning seat I (3-3-2), a lug support (3-3-3) and a lug groove (3-3-4), the adjusting spring (3-3-1) is connected with the tensioning seat I (3-3-2), the lug support (3-3-3) is connected with the tensioning seat I (3-3-2), and the lug groove (3-3-4) is formed in the lug support (3-3-3);
the polishing mechanism (4) comprises a polishing bottom supporting mechanism (4-1), a polishing executing mechanism (4-2), a polishing support (4-3) and a workpiece clamping mechanism (4-4), the polishing bottom supporting mechanism (4-1) is connected with the polishing executing mechanism (4-2), the polishing executing mechanism (4-2) is connected with the polishing support (4-3), the polishing support (4-3) is connected with the polishing bottom supporting mechanism (4-1), and the workpiece clamping mechanism (4-4) is connected with the polishing bottom supporting mechanism (4-1);
the polishing bottom supporting mechanism (4-1) comprises a bottom supporting body (4-1-1), a stepped groove (4-1-2), a reset spring (4-1-3), a sliding groove (4-1-4), a buffer spring (4-1-5), a buffer rod (4-1-6), a sliding block (4-1-7) and a groove (4-1-8), wherein the stepped groove (4-1-2) is formed in the bottom supporting body (4-1-1), the reset spring (4-1-3) is arranged in the stepped groove (4-1-2), the sliding groove (4-1-4) is formed in the bottom supporting body (4-1-1), the buffer rod (4-1-6) is matched with the sliding block (4-1-7), the sliding block (4-1-7) is connected with the sliding block (4-1-7), and the buffer spring (4-1-5) is connected with the bottom support body (4-1-1);
the polishing executing mechanism (4-2) comprises a polishing sliding block (4-2-1), a polishing connecting rod (4-2-2), a polishing wheel support (4-2-3), a polishing wheel (4-2-4), a polishing motor (4-2-5), a hydraulic rod (4-2-6), a hydraulic spring (4-2-7), a piston (4-2-8) and a hydraulic cylinder (4-2-9), the polishing sliding block (4-2-1) is hinged with the polishing connecting rod (4-2-2), the polishing connecting rod (4-2-2) is hinged with the polishing wheel support (4-2-3), the polishing wheel (4-2-4) is connected with the polishing motor (4-2-5), the polishing motor (4-2-5) is connected with the polishing wheel support (4-2-3), the hydraulic rod (4-2-6) is connected with the piston (4-2-8), the piston (4-2-8) is matched with the hydraulic cylinder (4-2-9), and the hydraulic spring (4-2-7) is arranged inside the hydraulic cylinder (4-2-9);
the workpiece clamping mechanism (4-4) comprises a workpiece clamping support (4-4-1), a clamping screw (4-4-2), a clamping screw hole (4-4-3), a clamping screw support (4-4-4), a clamping execution seat (4-4-5) and a leakage opening (4-4-6), wherein the clamping screw (4-4-2) is connected with the clamping screw hole (4-4-3), the clamping screw hole (4-4-3) is tapped on the clamping screw support (4-4-4), the clamping execution seat (4-4-5) is connected with the clamping screw (4-4-2), the clamping screw support (4-4-4) is connected with the workpiece clamping support (4-4-1), the leakage opening (4-4-6) is arranged on the workpiece clamping support (4-4-1);
the dust removing mechanism (6) comprises an ash removing mechanism (6-1), a dust removing box (6-2), an air inlet (6-3), fan blades (6-4), a fan blade motor (6-5), a filter screen (6-6), a filter screen groove (6-7), an ash removing wheel (6-8), an ash removing motor (6-9), an ash removing belt (6-10) and an air outlet (6-11), the connection mode of the ash removing mechanism (6-1) and the dust removing box (6-2) is that a bearing is connected, the air inlet (6-3) is arranged on the dust removing box (6-2), the fan blades (6-4) are connected with the fan blade motor (6-5), the fan blade motor (6-5) is connected with the dust removing box (6-2), the filter screen (6-6) is connected with the filter screen groove (6-7), the filter screen groove (6-7) is formed in the inner wall of the dust removing box (6-2), the ash cleaning wheel (6-8) is connected with the ash cleaning motor (6-9), the ash cleaning motor (6-9) is located above the dust removing box (6-2), the ash cleaning belt (6-10) is connected with the ash cleaning wheel (6-8), the ash cleaning belt (6-10) is connected with the ash cleaning mechanism (6-1), and the air outlet (6-11) is formed in the right side plate of the dust removing box (6-2);
the ash removing mechanism (6-1) comprises an ash removing arm (6-1-1), an internal groove I (6-1-2), a damping wheel mechanism (6-1-3), an ash removing hammer (6-1-4), an ash removing hammer rod (6-1-5), an ash removing hammer rod groove (6-1-6), an ash removing shaft (6-1-7) and an ash removing shaft wheel (6-1-8), wherein the internal groove I (6-1-2) is arranged on the ash removing arm (6-1-1), the damping wheel mechanism (6-1-3) is arranged inside the internal groove I (6-1-2), the ash removing hammer (6-1-4) is connected with the ash removing hammer rod (6-1-5), the ash removing hammer rod (6-1-5) is matched with the ash removing hammer rod groove (6-1-6), the ash removal hammer rod groove (6-1-6) is arranged on the ash removal arm (6-1-1), the ash removal shaft (6-1-7) is connected with the ash removal arm (6-1-1), and the ash removal shaft wheel (6-1-8) is connected with the ash removal shaft (6-1-7);
the damping wheel mechanism (6-1-3) comprises a damping wheel body (6-1-3-1), a damping wheel shaft (6-1-3-2), a damping wheel support (6-1-3-3), a resistance adjusting hole (6-1-3-4), a resistance adjusting screw with a lug (6-1-3-5), a limiting slide bar I (6-1-3-6), a limiting slide bar I hole (6-1-3-7), a resistance adjusting screw matching groove with a lug (6-1-3-8) and an upper support (6-1-3-9), the damping wheel body (6-1-3-1) is connected with the damping wheel shaft (6-1-3-2), and the damping wheel shaft (6-1-3-2) is connected with the damping wheel support (6-1-3-3) The connection mode of the-3) is bearing connection, a resistance adjusting hole (6-1-3-4) is tapped on a damping wheel support (6-1-3-3), a resistance adjusting screw (6-1-3-5) with a lug is connected with the resistance adjusting hole (6-1-3-4), the resistance adjusting screw (6-1-3-5) with the lug is matched with a matching groove (6-1-3-8) of the resistance adjusting screw with the lug, the matching groove (6-1-3-8) of the resistance adjusting screw with the lug is arranged on an upper support (6-1-3-9), a limiting slide bar I (6-1-3-6) is connected with the damping wheel support (6-1-3-3), and the limiting slide bar I (6-1-3-6) is matched with a hole (6-1-3-7) of the limiting slide bar I A limiting slide bar I hole (6-1-3-7) is formed on the upper support (6-1-3-9);
scrap iron processing mechanism (1) is located the below that conveyor mechanism (2) were collected to scrap iron, conveyor mechanism (2) are collected to scrap iron and are linked to each other with grinding machanism (4), belt straining device (3) link to each other with scrap iron collection conveyor mechanism (2), dust removal mechanism (6) link to each other with support frame (5), support frame (5) are located the below of grinding machanism (4), scrap iron processing mechanism (1) links to each other with support frame (5).
2. A multipurpose grinding machine apparatus as claimed in claim 1, characterised in that: the material of the discharging head (2-3-1) is high manganese steel.
CN201910422645.7A 2019-05-21 2019-05-21 Multifunctional grinding machine device Active CN110026859B (en)

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JP2007075934A (en) * 2005-09-13 2007-03-29 Nippon Spindle Mfg Co Ltd Workpiece fixing device
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CN106272040A (en) * 2015-05-30 2017-01-04 高阳 A kind of Novel grinding machine
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CN107571104A (en) * 2017-09-28 2018-01-12 天津市誉航润铭科技发展有限公司 A kind of tube wall polishing grinding processing unit
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