CN211639273U - Grinding waste liquid collecting mechanism and horizontal-shaft surface grinding machine using same - Google Patents

Grinding waste liquid collecting mechanism and horizontal-shaft surface grinding machine using same Download PDF

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Publication number
CN211639273U
CN211639273U CN201922365498.2U CN201922365498U CN211639273U CN 211639273 U CN211639273 U CN 211639273U CN 201922365498 U CN201922365498 U CN 201922365498U CN 211639273 U CN211639273 U CN 211639273U
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CN
China
Prior art keywords
waste liquid
grinding
water
receiving box
grinding waste
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Expired - Fee Related
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CN201922365498.2U
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Chinese (zh)
Inventor
沈新明
赵国明
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Tianjin Aoxiang Hydraulic Electromechanical Co ltd
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Tianjin Aoxiang Hydraulic Electromechanical Co ltd
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Priority to CN201922365498.2U priority Critical patent/CN211639273U/en
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Publication of CN211639273U publication Critical patent/CN211639273U/en
Expired - Fee Related legal-status Critical Current
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Abstract

The utility model provides a grinding waste liquid collecting mechanism and a horizontal-shaft surface grinding machine using the same, wherein the grinding waste liquid collecting mechanism is arranged to comprise a water tank, a water outlet nozzle and a water receiving box, a workpiece is placed in the water tank, the water outlet nozzle is connected on the water tank, the water outlet of the water outlet nozzle extends into the water receiving box, a flow guide component is arranged in the water receiving box, and the flow guide component is positioned below the water outlet of the water outlet nozzle to guide the grinding waste liquid; use horizontal axis flat grinder that grinding waste liquid collected mechanism to set up to collect the mechanism including lathe bed, grinding mechanism, workstation, longitudinal movement mechanism and grinding waste liquid, the utility model discloses a this mechanism, simple and practical can carry out the collection of grinding in-process coolant liquid and abrasive dust mixed waste liquid, guarantees going on smoothly of whole grinding process, and can carry out the water conservancy diversion to the mixed waste liquid when collecting, reduces its erosion problem of long-term direct-washout falling butt joint water box.

Description

Grinding waste liquid collecting mechanism and horizontal-shaft surface grinding machine using same
Technical Field
The utility model relates to an auxiliary device technical field for the grinding machine especially relates to a grinding waste liquid is collected mechanism and is applied horizontal axle flat grinder of this mechanism.
Background
The surface grinding machine is a kind of grinding machine for grinding workpiece surface or formed surface, and its main types are horizontal shaft rectangular table, horizontal shaft circular table, vertical shaft rectangular table, vertical shaft circular table and various special surface grinding machines, and most of them use high-speed rotating grinding wheel to grind so as to implement grinding process of workpiece. In the existing Chinese patent with 2016.07.04, publication number CN205834941U and invention name "grinding head moving type horizontal shaft circular table surface grinder", for example, a surface grinder with high grinding precision and good stability is disclosed, which is 2019.03.29, publication number CN110064982A and invention name "simplified grinding head moving type horizontal shaft circular table surface grinder", a surface grinder with simple structure and protective structure is disclosed, however, the existing surface grinder does not collect the mixed waste liquid of cooling liquid and grinding dust in the grinding process, and needs to be stopped to process the mixed waste liquid of cooling liquid and grinding dust, thereby affecting the smooth running of the whole grinding process.
SUMMERY OF THE UTILITY MODEL
The utility model discloses a main aim at solves the problem that exists among the prior art, provides a simple and practical, can carry out the collection of grinding in-process coolant liquid and abrasive dust mixed waste liquid, guarantees going on smoothly of whole grinding process, and can carry out the water conservancy diversion to the mixed waste liquid when collecting, reduces its long-term direct washout and falls down the erosion problem of butt joint water box to prolong the grinding waste liquid collection mechanism of its life and use the horizontal axis flat grinder of this mechanism.
In order to solve the technical problem, the utility model discloses a technical scheme is: the utility model provides a mechanism is collected to grinding waste liquid, wherein mechanism is collected to grinding waste liquid sets up to including basin, faucet and water receiving box, place the work piece in the basin, and connect the faucet on this basin, the delivery port of faucet extends to in the water receiving box, set up a water conservancy diversion subassembly in the water receiving box, and this water conservancy diversion subassembly is located the delivery port below of faucet, carries out the water conservancy diversion of grinding waste liquid, reduces the erosion that the rivers impact force is right.
Furthermore, the diversion assembly is arranged to comprise a diversion part, the diversion part is arranged below the water outlet of the water outlet nozzle, and the diversion part is arranged in the water receiving box.
Further, the water conservancy diversion subassembly sets up to still including the installation department, the installation department is connected with water conservancy diversion portion, sets up water conservancy diversion portion in the water receiving box by the installation department.
Furthermore, the flow guide assembly is arranged in the water receiving box through an elastic assembly, and the elastic assembly offsets partial water flow impact force.
Further, elastic component sets up to including flexible guide bar and spring, flexible guide bar top is connected on the water conservancy diversion subassembly, and this flexible guide bar end-to-end connection is in the water receiving box, the spring housing is located on the flexible guide bar.
Furthermore, one end of the spring is fixed at the top end of the telescopic guide rod, and the other end of the spring is fixed at the tail end of the telescopic guide rod.
Furthermore, the bottom wall of the water receiving box is gradually inclined downwards from the side of the water outlet nozzle to the side of the water outlet so as to facilitate the discharge of grinding waste liquid in the water receiving box.
Furthermore, a mounting seat is arranged in the water receiving box, a water outlet is formed in the side wall of the water receiving box, and grinding waste liquid is discharged from the water outlet.
Furthermore, the flow guide assembly is connected to the mounting seat through a buckle assembly.
Furthermore, the buckle assembly is arranged to comprise a plurality of groups of clamping hooks, the clamping hooks are arranged at the bottom of the flow guide assembly, a jack is formed in the mounting seat, the clamping hooks are gathered together to penetrate through the jack, and the tail ends of the clamping hooks are tightly hooked at the outer edge of the jack.
Furthermore, a clamping groove is formed in the outer edge of the jack, and the structure of the clamping groove is matched with that of the clamping hook.
The utility model provides an use grinding waste liquid to collect horizontal axis flat grinder of mechanism, wherein the horizontal axis flat grinder who uses grinding waste liquid to collect mechanism sets up to collect the mechanism including lathe bed, grinding mechanism, workstation, longitudinal movement mechanism and grinding waste liquid, set up grinding mechanism and longitudinal movement mechanism on the lathe bed, grinding mechanism side connection coolant liquid feed system sprays the coolant liquid on work piece and emery wheel by coolant liquid feed system, the workstation is connected on longitudinal movement mechanism, the basin cover that grinding waste liquid collected the mechanism is located on the workstation, and this grinding waste liquid collection mechanism's water receiving box sets up in lathe bed one side.
Further, a height adjusting assembly is further distributed at the bottom of the lathe bed.
Further, the height adjusting assembly is arranged to comprise an upper cushion block, a lower cushion block and an adjusting bolt, the upper cushion block is fixed to the bottom of the lathe bed, the upper cushion block is arranged on the lower cushion block in a sliding mode, a contact surface between the upper cushion block and the lower cushion block is an inclined surface, the adjusting bolt is arranged on the lower cushion block in a penetrating mode in a rotating mode, the adjusting bolt is connected to the upper cushion block in a threaded mode, and the adjusting bolt is screwed to change the height of the lathe bed.
Furthermore, the grinding mechanism comprises a stand column, a first rotary driving component and a grinding wheel, the first rotary driving component is arranged in the stand column, the output end of the first rotary driving component is connected with the grinding wheel, and the grinding wheel is used for grinding workpieces.
Furthermore, the first rotary driving assembly is arranged to comprise a first rotary motor and a spindle, the first rotary motor is arranged on the stand column, the output end of a motor shaft of the first rotary motor is connected with the spindle through a coupler, the spindle is sleeved with a grinding wheel, a shell is covered on the spindle, and the shell is fixed on the stand column.
Further, the grinding mechanism is arranged to further comprise a grinding wheel cover, the grinding wheel cover is arranged on the grinding wheel, and the grinding wheel cover is connected to the shell.
Further, the cooling liquid supply system comprises a liquid supply box, a water pump and a water pipe, the liquid supply box is arranged beside the machine body, the water pump is arranged in the liquid supply box, a water outlet of the water pump is connected with the water pipe, and the water pipe is connected to the grinding wheel cover.
Further, the workbench is arranged to comprise a cradle, a second rotary driving assembly and a tool, the cradle is connected to the output end of the longitudinal moving mechanism, the second rotary driving assembly is arranged on the cradle, the second rotary driving assembly drives the tool to rotate, so that a workpiece on the second rotary driving assembly rotates, and the tool is rotatably arranged on the cradle.
Further, the longitudinal moving mechanism comprises a telescopic assembly, a carriage and a telescopic carriage shield, the telescopic assembly is arranged on the lathe bed, the output end of the telescopic assembly is connected with the carriage, the carriage is connected with a workbench, the two sides of the carriage are connected with the start end of the telescopic carriage shield, and the tail end of the telescopic carriage shield is connected to the lathe bed.
Furthermore, a control cabinet is arranged on one side of the lathe bed, a controller in the control cabinet is electrically connected with the grinding mechanism, the workpiece worktable and the longitudinal moving mechanism to control the working conditions of all parts,
furthermore, the controller is electrically connected with the first rotating motor, the water pump, the second rotating motor and the driving motor.
The utility model has the advantages and positive effects that:
(1) hold the work piece grinding in-process through the basin, spray the mixed waste liquid of coolant liquid and abrasive dust on emery wheel and the work piece to make this mixed waste liquid pass through the faucet and be collected to the water receiving box in, go on smoothly in order to guarantee whole grinding, and the water conservancy diversion subassembly then can carry out the water conservancy diversion to the mixed waste liquid of faucet exhaust, reduces mixed waste liquid and directly washes down the erosion to the water receiving box for a long time, extension water receiving box life.
(2) Through the cooperation of elastic component and water conservancy diversion subassembly, can offset the partial rivers impact force of the mixed waste liquid of faucet exhaust by elastic component's elastic force, make mixed waste liquid fall along the water conservancy diversion subassembly water conservancy diversion again to further reduce the impact force that falls directly of mixed waste liquid, improve the subduction effect to mixed waste liquid whereabouts impact force.
(3) The grinding mechanism is used for grinding workpieces on the workbench, the longitudinal moving mechanism drives the workbench to longitudinally move so as to change the relative position of the workpieces and the grinding mechanism, grinding of the whole workpieces is realized, in the process, the cooling liquid supply system is used for cooling the workpieces and grinding wheels in the grinding mechanism, grinding safety and grinding quality are guaranteed, and meanwhile, the grinding waste liquid collecting mechanism can collect mixed waste liquid of abrasive dust and cooling liquid so that the whole grinding cooling process is continuously carried out.
Drawings
Fig. 1 is a schematic structural diagram of a first embodiment of the present invention.
Fig. 2 is another direction structure diagram of fig. 1.
Fig. 3 is a schematic structural diagram of a flow guiding assembly according to a second embodiment of the present invention.
Fig. 4 is a schematic view of a connection structure of the flow guide assembly and the elastic assembly according to a third embodiment of the present invention.
Fig. 5 is a schematic structural diagram of a fourth embodiment of the present invention.
Fig. 6 is a schematic diagram of the exploded structure of fig. 5.
Fig. 7 is a schematic view of a connection structure of the flow guide assembly and the fastening assembly in the fourth embodiment of the present invention.
Fig. 8 is a schematic view of a connection structure between the diversion part and the buckle assembly part in the fifth embodiment of the present invention.
Fig. 9 is a schematic structural view of the flat grinder of the present invention.
Fig. 10 is a schematic diagram of the exploded structure of fig. 9.
Fig. 11 is another directional structural diagram of fig. 10.
Fig. 12 is a block diagram illustrating the control relationship between the controller and each electrical component according to the present invention.
In the figure: the water tank comprises a water tank 1, a water outlet nozzle 2, a water receiving box 3, a water outlet 31, an installation base 32, a jack 321, a clamping groove 322, a clamping component 33, a clamping hook 331, a flow guide component 4, a flow guide part 41, a diversion hole 411, an installation part 42, an elastic component 43, a telescopic guide rod 431, a spring 432, a bed body 5, a height adjusting component 51, a grinding mechanism 6, a stand 61, a first rotary driving component 62, a grinding wheel 63, a workbench 7, a cradle 71, a second rotary driving component 72, a tool 73, a longitudinal moving mechanism 8, a telescopic component 81, a carriage 82, a telescopic carriage shield 83, a cooling liquid supply system 9, a liquid supply tank 91, a water pump 92 and a water pipe 93.
Detailed Description
For a better understanding of the present invention, the following further description is given in conjunction with the following embodiments and accompanying drawings.
Example one
As shown in fig. 1 and 2, a grinding waste liquid collecting mechanism comprises a water tank 1, a water outlet nozzle 2 and a water receiving box 3, wherein a workpiece is placed in the water tank 1, the water tank 1 is connected with a water outlet nozzle 2, the water outlet of the water outlet nozzle 2 extends into a water receiving box 3, a flow guide component 4 is arranged in the water receiving box 3, and the diversion component 4 is positioned below the water outlet of the water outlet nozzle 2 to conduct diversion of the grinding waste liquid, reduce erosion caused by water flow impact force, the water tank 1 is used for containing mixed waste liquid of cooling liquid and abrasive dust which is sprayed to the grinding wheel 63 and the workpiece in the grinding process of the workpiece, and the mixed waste liquid is collected into the water receiving box 3 through the water outlet nozzle 2 to ensure the smooth proceeding of the whole grinding, the flow guide component 4 can guide the mixed waste liquid discharged by the water outlet nozzle 2, so that the erosion of the mixed waste liquid which directly falls down to the water receiving box 3 for a long time is reduced, and the service life of the water receiving box 3 is prolonged.
Further, the flow guiding assembly 4 is configured to include a flow guiding portion 41, the flow guiding portion 41 is disposed below the water outlet of the water outlet nozzle 2, and the flow guiding portion 41 is disposed in the water receiving box 3.
Specifically, the flow guide 41 may be fixed in the water receiving box 3 by bolts.
Furthermore, a drain port 31 is opened in the side wall of the water receiving box 3, and the grinding waste liquid is discharged from the drain port 31.
Further, the bottom wall of the water receiving box 3 is gradually inclined downwards from the side of the water outlet nozzle 2 to the side of the water outlet 31, so that grinding waste liquid in the water receiving box 3 can be conveniently discharged.
Example two
As shown in fig. 3, the difference from the first embodiment is that, furthermore, the diversion assembly 4 is further configured to further include a mounting portion 42, the mounting portion 42 is connected with the diversion portion 41, and the diversion portion 41 is disposed in the water receiving box 3 by the mounting portion 42.
Specifically, but installation department 42 and water conservancy diversion portion 41 integrated into one piece, installation department 42 can weld and be fixed in on the diapire in the water receiving box 3, certainly, for further improving the suitability of water conservancy diversion subassembly 4, still can design installation department 42 for the adjustable type of length (not shown in the figure), changes the whole length of installation department 42 to satisfy the water conservancy diversion of waste liquid in the multiple degree of depth specification water receiving box 3.
EXAMPLE III
As shown in fig. 4, the difference from the first embodiment is that, further, the diversion assembly 4 is disposed in the water receiving box 3 through an elastic assembly 43, and a part of the impact force of the water flow is offset by the elastic assembly 43.
Further, elastic component 43 sets up to including flexible guide bar 431 and spring 432, flexible guide bar 431 top is connected on water conservancy diversion subassembly 4, and this flexible guide bar 431 end-to-end connection is in water receiving box 3, on flexible guide bar 431 was located to spring 432 cover, cooperation through elastic component 43 and water conservancy diversion subassembly 4, can offset the partial rivers impact force of the mixed waste liquid of faucet 2 discharge by elastic component 43's elastic force, make the mixed waste liquid fall along water conservancy diversion subassembly 4 water conservancy diversion again, with the further directness impact force that reduces mixed waste liquid, the improvement is to the subduction effect of mixed waste liquid whereabouts impact force.
Specifically, flexible guide bar 431 can set up to including inserted bar and sleeve, and the inserted bar cooperatees to slide and inserts and locate in the sleeve, and on the top welded fastening of inserted bar in water conservancy diversion portion 41, telescopic end welded fastening was on the diapire in the water receiving box 3.
Further, one end of the spring 432 is fixed to the top end of the telescopic guide rod 431, and the other end is fixed to the end of the telescopic guide rod 431, specifically, one end of the spring 432 is welded to the top end of the plunger, and the other end is welded to the end of the sleeve.
Example four
As shown in fig. 5 to 7, the difference from the first embodiment is that a mounting seat 32 is further provided in the water receiving box 3, and specifically, the mounting seat 32 may be welded and fixed on the inner bottom wall of the water receiving box 3.
Further, the deflector assembly 4 is connected to the mounting base 32 by a snap assembly 33.
Further, the fastening assembly 33 is configured to include a plurality of sets of hooks 331, the plurality of sets of hooks 331 are disposed at the bottom of the diversion assembly 4, the mounting seat 32 is provided with a hole 321, the plurality of sets of hooks 331 are gathered to penetrate through the hole 321, the tail ends of the plurality of sets of hooks 331 are tightly hooked at the outer edge of the hole 321, the plurality of sets of hooks 331 are manually gathered by an operator, so that the hooks 331 can penetrate through the hole 321, and after the tail ends of the hooks penetrate through the hole 321, the gathering force of the plurality of sets of hooks 331 is released, so that the tail ends of the hooks 331 are tightly hooked at the outer edge of the hole 321, and the diversion assembly 4 is mounted in the water receiving box.
Specifically, the plurality of sets of hooks 331 can be welded on the bottom of the diversion portion 41 adjacently along the circumferential direction, and the plurality of sets of hooks 331 are all set as plastic hooks 331, and the plastic hooks 331 are structurally designed, so that the diversion assembly 4 can be easily and reliably disassembled and assembled in the water receiving tank 1.
Furthermore, the outer edge of the insertion hole 321 is provided with a clamping groove 322, the structure of the clamping groove 322 is matched with the structure of the clamping hook 331, and the clamping hook 331 is further ensured to be conveniently and reliably hooked on the outer edge of the insertion hole 321 of the mounting seat 32 by the matching design of the structure of the clamping groove 322.
EXAMPLE five
As shown in fig. 8, the difference from the first to fourth embodiments is that the flow guide portion 41 is provided with a multi-component flow hole 411, and the mixed waste liquid discharged from the water nozzle 2 falls on the flow guide portion 41 to be guided and slide down, and is further dispersed into the inner cavity of the water receiving box 3, so as to reduce erosion damage to the mixed waste liquid which falls on the fixed position of the water receiving box 3 in a long-term concentration.
As shown in fig. 9-12, a horizontal-axis surface grinding machine using the waste grinding fluid collecting mechanism of the first to fifth embodiments includes a machine body 5, a grinding mechanism 6, a table 7, a longitudinal moving mechanism 8 and a waste grinding fluid collecting mechanism, the machine body 5 is provided with the grinding mechanism 6 and the longitudinal moving mechanism 8, the grinding mechanism 6 is connected to a cooling fluid supply system 9 at its side, the cooling fluid supply system 9 sprays cooling fluid onto a workpiece and a grinding wheel 63 of the grinding mechanism 6, the table 7 is connected to the longitudinal moving mechanism 8, a water tank 1 of the waste grinding fluid collecting mechanism is sleeved on the table 7, a water receiving box 3 of the waste grinding fluid collecting mechanism is provided at one side of the machine body 5, the grinding mechanism 6 grinds the workpiece on the table 7, the longitudinal moving mechanism 8 drives the table 7 to move longitudinally to change the relative position of the workpiece and the grinding mechanism 6, the grinding of whole work piece is realized, and in this process, coolant liquid feed system 9 carries out the cooling treatment of emery wheel 63 among work piece and the grinding mechanism 6, guarantees grinding security and grinding quality (reduce the too high temperature in the grinding process, easily make work piece or emery wheel 63 deformation, so that influence work piece grinding quality's problem), and simultaneously, the mixed waste liquid of abrasive dust and coolant liquid can be collected to grinding waste liquid collection mechanism for whole grinding cooling process goes on in succession.
Further, the height adjusting assembly 51 is further arranged at the bottom of the bed 5, and the height of each height adjusting assembly can be adjusted through the height adjusting assembly 51 at the bottom of the bed 5 according to the actual placing environment of the surface grinding machine, so that the reliable and horizontal placement of the bed 5 is ensured, and the grinding quality of workpieces is further improved.
Further, the height adjusting assembly 51 is arranged to include an upper cushion block, a lower cushion block and an adjusting bolt, the upper cushion block is fixed at the bottom of the lathe bed 5, the upper cushion block is slidably arranged on the lower cushion block, a contact surface between the upper cushion block and the lower cushion block is an inclined surface, the adjusting bolt is rotatably arranged on the lower cushion block in a penetrating mode and is in threaded connection with the upper cushion block, the adjusting bolt is screwed to change the height of the lathe bed 5, the adjusting bolt in the cushion block is screwed down, so that the upper cushion block in threaded connection with the adjusting bolt moves along the lower cushion block, and the contact surface between the upper cushion block and the lower cushion block is an inclined surface, so that the height of the lathe bed 5 from the ground is changed, namely the upper cushion block drives the lathe bed 5 to climb up or slide down along the.
Specifically, two sets of height adjusting assemblies 51 are correspondingly arranged at the bottom of the lathe bed 5, upper cushion blocks of the two sets of height adjusting assemblies 51 are fixed at the bottom of the lathe bed 5, a supporting assembly is further arranged at the bottom of the lathe bed 5, the supporting assembly and the height adjusting assemblies 51 are arranged in the same structure, the supporting assembly and the two sets of height adjusting assemblies 51 are arranged at the bottom of the lathe bed 5 in a triangular structure, adjusting bolts in the supporting assembly are screwed, the positions of the upper cushion blocks on the lower cushion blocks are changed, so that the lathe bed 5 is supported by the upper cushion blocks, and the reliable horizontal placement of the lathe bed 5 is guaranteed.
Further, the grinding mechanism 6 is provided to include a column 61, a first rotary driving component 62 and a grinding wheel 63, the first rotary driving component 62 is provided in the column 61, an output end of the first rotary driving component 62 is connected with the grinding wheel 63, and the grinding wheel 63 grinds the workpiece.
Further, the first rotary driving assembly 62 is arranged to include a first rotary motor and a spindle, the first rotary motor is arranged on the column 61, an output end of a motor shaft of the first rotary motor is connected with the spindle through a coupler, the spindle is sleeved with the grinding wheel 63, the spindle is covered with a shell, the shell is fixed on the column 61, and the spindle is driven to rotate by the rotary motor, so that the grinding wheel 63 sleeved on the spindle rotates along with the spindle, and a workpiece is ground.
Further, the grinding mechanism 6 is further provided with a grinding wheel cover, the grinding wheel cover is arranged on the grinding wheel 63 and connected to the shell, and the grinding wheel cover covers the grinding wheel 63 for protection.
Further, the workbench 7 is provided with a cradle 71, a second rotary driving assembly 72 and a tool 73, the cradle 71 is connected to the output end of the longitudinal moving mechanism 8, the second rotary driving assembly 72 is arranged on the cradle 71, the second rotary driving assembly 72 drives the tool 73 to rotate, so that a workpiece on the tool rotates, the tool 73 rotates and is arranged on the cradle 71, the structure of the tool 73 is matched with that of the workpiece, and the tool 73 is internally used for placing the workpiece.
Specifically, the water tank 1 of the grinding waste liquid collecting mechanism is sleeved on the tool 73.
Further, the second rotary driving component 72 is arranged to comprise a second rotary motor, a driving belt pulley, a driven belt pulley and an electromagnetic chuck, the second rotary motor is arranged on the cradle 71, the output end of a motor shaft of the second rotary motor is connected with the driving belt pulley, the driving belt pulley is connected with the driven belt pulley through belt transmission, the driven belt pulley is arranged on the cradle 71 through a support shaft in a rotating mode, the electromagnetic chuck is arranged on the driven belt pulley, the tool 73 is adsorbed by the electromagnetic chuck, the driving belt pulley is driven to rotate through the second rotary motor, the driving belt pulley transmits power to the driven belt pulley, the driven belt pulley rotates, the electromagnetic chuck on the driven belt pulley acts therewith, the tool 73 is adsorbed by the electromagnetic chuck, the driven belt pulley rotates accordingly, and the grinding of a workpiece in the tool 73 is carried out.
Further, the longitudinal moving mechanism 8 is configured to include a telescopic assembly 81, a carriage 82 and a telescopic carriage guard 83, the telescopic assembly 81 is disposed on the bed 5, an output end of the telescopic assembly 81 is connected to the carriage 82, the carriage 82 is connected to the workbench 7, two sides of the carriage 82 are connected to a start end of the telescopic carriage guard 83, and a tail end of the telescopic carriage guard 83 is connected to the bed 5.
Specifically, the telescopic carriage guard 83 may be fixed to the bed 5 at its distal end by bolts.
Furthermore, the telescopic assembly 81 is arranged to include a driving motor and a ball screw, the driving motor is arranged on the bed 5, and the output end of the motor shaft of the driving motor is connected with the ball screw through a coupler, the ball screw is sleeved with a ball screw pair in a matching manner, the ball screw pair is connected to the carriage 82 through a connecting plate, the driving motor drives the ball screw to rotate, so that the carriage 82 linearly slides on the ball screw along with the ball screw pair under the guiding limit of the telescopic carriage shield 83, the longitudinal distance from the carriage 82 to the grinding mechanism 6 is changed, that is, the workpiece is adjusted to the longitudinal position of the grinding mechanism 6, so as to realize the grinding treatment of the workpiece on the worktable 7, meanwhile, as the carriage 82 longitudinally moves in the grinding process, the water tank 1 in the grinding waste liquid collecting mechanism connected thereto moves along with the carriage, the water outlet nozzle 2 connected to the water tank 1 discharges the mixed waste liquid of the cooling liquid and the grinding, further reduce the long-term concentrated erosion damage to it that falls in water receiving box 3 fixed position of mixing waste liquid, extension water receiving box 3 life.
Specifically, the cradle 71 can be fixedly connected to the carriage 82 through bolts.
Further, coolant supply system 9 sets up to including liquid supply tank 91, water pump 92 and water pipe 93, and liquid supply tank 91 sets up in the fuselage side, and sets up water pump 92 in this liquid supply tank 91, and water pipe 93 is connected to water pump 92's delivery port, and water pipe 93 connects on the emery wheel cover, carries out the pump of coolant liquid in the liquid supply tank 91 through water pump 92, spray to work piece or emery wheel 63 on by the water pipe 93 that its delivery port is connected, realize the cooling processing to work piece or emery wheel 63, guarantee the normal clear of grinding process.
Further, a magnetic separator is still connected to the output of grinding waste liquid collection mechanism, and the delivery port intercommunication coolant liquid feed tank 91 among the feed system 9 of magnetic separator, and this magnetic separator's chip guide extends to album sediment case top, carries out the collection of abrasive dust, mixes the separation of abrasive dust and coolant liquid in the waste liquid by the magnetic separator for this coolant liquid can be recycled, improves the utilization ratio of coolant liquid.
Specifically, the drain port 31 of the water receiving box 3 is connected to a magnetic separator.
Furthermore, a control cabinet is arranged on one side of the lathe bed 5, and a controller in the control cabinet is electrically connected with the grinding mechanism 6, the workpiece workbench 7 and the longitudinal moving mechanism 8 so as to control the working conditions of all parts.
Furthermore, the controller is electrically connected with the first rotating motor, the water pump 92, the second rotating motor, the electromagnetic chuck, the driving motor and the magnetic separator, the specific connection mode and connection structure of the controller, the first rotating motor, the water pump 92, the second rotating motor, the electromagnetic chuck, the driving motor and the magnetic separator are in the prior art, in addition, the specific model specifications of the first rotating motor, the water pump 92, the second rotating motor, the electromagnetic chuck, the driving motor and the magnetic separator need to be calculated and determined according to model selection such as specification parameters of the grinding machine, the model selection calculation method is in the prior art, and therefore detailed description is omitted.
Use the utility model provides a grinding waste liquid collection mechanism and applied horizontal axis flat grinder of this mechanism, simple and practical can carry out the collection of grinding in-process coolant liquid and abrasive dust mixed waste liquid, guarantees going on smoothly of whole grinding process, and can carry out the water conservancy diversion to the mixed waste liquid when collecting, reduces its erosion problem of directly falling down butt joint water box 3 for a long time. The working process of the surface grinding machine is as follows:
1. according to the actual placing environment of the surface grinding machine, the height of the machine body 5 from the ground is adjusted through the matching of the height adjusting assembly 51 and the supporting assembly, so that the horizontal placement of the machine body 5 is guaranteed;
2. a workpiece to be ground is placed in the tool 73, and the controller starts the first rotating motor, the water pump 92, the second rotating motor, the electromagnetic chuck and the driving motor to work;
3. the rotating motor drives the main shaft to rotate, so that the grinding wheel 63 sleeved on the main shaft rotates along with the main shaft to rotatably grind a workpiece, meanwhile, the rotating motor II drives the driving belt pulley to rotate, the driving belt pulley transmits power to the driven belt pulley through a belt, so that the driven belt pulley rotates, as the electromagnetic chuck on the driving belt pulley adsorbs the tool 73, the workpiece to be ground is placed in the tool 73, the workpiece rotates, the driving motor drives the ball screw to rotate, the carriage 82 linearly slides on the ball screw along with the ball screw pair under the guiding limit of the telescopic carriage shield 83, the longitudinal distance from the carriage 82 to the grinding mechanism 6 is changed, so that the longitudinal position of the workpiece is adjusted, in addition, the water pump 92 pumps cooling liquid in the liquid supply tank 91, and the cooling treatment on the workpiece or the grinding wheel 63 is realized by spraying the water pipe 93 connected with the water outlet of the water pump to the workpiece or the grinding wheel 63, the normal operation of the grinding process is ensured, and the grinding treatment of the whole workpiece is completed;
4. in the step 3, the water tank 1 contains the mixed waste liquid of the cooling liquid and the abrasive dust generated in the grinding process, the mixed waste liquid can fall on the flow guide assembly 4 through the water outlet nozzle 2 to be guided into the water receiving box 3 by the flow guide assembly 4, the erosion of the mixed waste liquid which directly falls down to the water receiving box 3 for a long time is reduced, and finally the mixed waste liquid is discharged from the water outlet 31 on the water receiving box 3;
5. the mixed waste liquid discharged in the step 4 can enter a magnetic separator for separation treatment;
6. and (5) repeating the steps 1-5 to realize the grinding treatment of the batch workpieces.
The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention should be covered by the present patent.

Claims (10)

1. The utility model provides a grinding waste liquid collection mechanism which characterized in that: grinding waste liquid collecting mechanism sets up to including basin (1), faucet (2) and water receiving box (3), place the work piece in basin (1), and connect faucet (2) on this basin (1), the delivery port of faucet (2) extends to in the water receiving box (3), set up a water conservancy diversion subassembly (4) in the water receiving box (3), and this water conservancy diversion subassembly (4) are located the delivery port below of faucet (2), carry out the water conservancy diversion of grinding waste liquid.
2. The grinding waste liquid collecting mechanism according to claim 1, characterized in that: the water guide component (4) is arranged to comprise a water guide part (41), the water guide part (41) is arranged below the water outlet of the water outlet nozzle (2), and the water guide part (41) is arranged in the water receiving box (3).
3. The grinding waste liquid collecting mechanism according to claim 2, characterized in that: the water guide assembly (4) is arranged to further comprise an installation part (42), the installation part (42) is connected with the water guide part (41), and the water guide part (41) is arranged in the water receiving box (3) through the installation part (42).
4. The grinding waste liquid collection mechanism according to claim 1 or 2, characterized in that: the flow guide assembly (4) is arranged in the water receiving box (3) through an elastic assembly (43).
5. The grinding waste liquid collecting mechanism according to claim 4, characterized in that: the elastic component (43) comprises a telescopic guide rod (431) and a spring (432), the top end of the telescopic guide rod (431) is connected to the flow guide component (4), the tail end of the telescopic guide rod (431) is connected to the water receiving box (3), and the spring (432) is sleeved on the telescopic guide rod (431).
6. The grinding waste liquid collecting mechanism according to claim 1, characterized in that: the bottom wall of the water receiving box (3) is gradually inclined downwards from the side of the water outlet nozzle (2) to the side of the water outlet (31).
7. The grinding waste liquid collection mechanism according to claim 1 or 6, characterized in that: the water receiving box (3) is internally provided with a mounting seat (32), the side wall of the water receiving box (3) is provided with a water outlet (31), and grinding waste liquid is discharged from the water outlet (31).
8. The grinding waste liquid collecting mechanism according to claim 7, characterized in that: the flow guide assembly (4) is connected to the mounting seat (32) through a buckle assembly (33).
9. The grinding waste liquid collecting mechanism according to claim 8, characterized in that: buckle subassembly (33) sets up to including multiunit trip (331), multiunit trip (331) set up in water conservancy diversion subassembly (4) bottom, set up a jack (332) on mount pad (32), gather together the multiunit trip (331) are in order to pass jack (332), and multiunit trip (331) end colludes tightly in jack (332) outer fringe.
10. The utility model provides an use horizontal axis flat grinder of grinding waste liquid collection mechanism which characterized in that: the horizontal-shaft surface grinding machine with the grinding waste liquid collecting mechanism is characterized in that the horizontal-shaft surface grinding machine with the grinding waste liquid collecting mechanism is arranged to comprise a machine body (5), a grinding mechanism (6), a workbench (7), a longitudinal moving mechanism (8) and the grinding waste liquid collecting mechanism, the grinding mechanism (6) is connected with a cooling liquid supply system (9) at one side, the workbench (7) is connected onto the longitudinal moving mechanism (8), a water tank (1) of the grinding waste liquid collecting mechanism is sleeved on the workbench (7), and a water receiving box (3) of the grinding waste liquid collecting mechanism is arranged on one side of the machine body (5).
CN201922365498.2U 2019-12-25 2019-12-25 Grinding waste liquid collecting mechanism and horizontal-shaft surface grinding machine using same Expired - Fee Related CN211639273U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201922365498.2U CN211639273U (en) 2019-12-25 2019-12-25 Grinding waste liquid collecting mechanism and horizontal-shaft surface grinding machine using same

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922365498.2U CN211639273U (en) 2019-12-25 2019-12-25 Grinding waste liquid collecting mechanism and horizontal-shaft surface grinding machine using same

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Publication Number Publication Date
CN211639273U true CN211639273U (en) 2020-10-09

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Country Link
CN (1) CN211639273U (en)

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Granted publication date: 20201009

Termination date: 20211225