CN217664941U - Pull type filtering system and water jet deburring device - Google Patents

Abstract

The utility model provides a pull formula filtration system and water jet burring equipment, pull formula filtration system is including the platform that catchments, the water strainer case, first filter screen, first filter tower and sewage suction pump, the outlet has been seted up to the platform that catchments, be provided with the baffle in the water strainer case, the baffle runs through and has seted up a plurality of first through-holes, the outlet is linked together with first drainage chamber, first logical groove has been seted up to the periphery wall of water strainer case, first filter screen can pass first logical groove and insert second drainage intracavity with sliding, one side of first filter screen is provided with first baffle, but first baffle butt is on the periphery wall of water strainer case, the water inlet and the fourth drainage chamber of sewage suction pump are linked together, the delivery port of sewage suction pump leads to pipe and the water inlet of first filter tower is linked together. This embodiment pull formula filtration system has the colating and the essence filters function in an organic whole, and filter screen easy dismounting is swift, and production efficiency is high for but the high pressure water cyclic utilization after the burr is washd and is got rid of.

Description

Pull type filtering system and water jet deburring device

Technical Field

The utility model belongs to the technical field of work piece burr removal equipment technique and specifically relates to a pull formula filtration system and water jet burring equipment that has this pull formula filtration system are related to.

Background

Burrs generated in the manufacturing and processing process of each assembly workpiece of the product not only directly affect the precision and appearance quality of the part, but also affect the service life of the whole product, so that the burrs of the workpiece need to be removed, and particularly, the burrs of each assembly workpiece of electronic products with higher requirements on precision and appearance quality, such as mobile phones, computers and other products, need to be removed.

The water jet deburring equipment can recycle the high-pressure water after the workpiece is subjected to deburring by the water jet deburring equipment after being filtered by the filtering system, and after the filtering system works for a period of time, a filter screen of the filtering system needs to be cleaned or replaced in order to ensure the filtering precision of the filtering system. However, the filter screen of the existing filtering system is time-consuming and labor-consuming to assemble and disassemble, thereby affecting the production efficiency.

Disclosure of Invention

The utility model discloses a first purpose provides a but have colating and essence and strain function in an organic whole, filter screen easy dismounting swiftly and the pull formula filtration system that production efficiency is high for but the high pressure water cyclic utilization after the burr is washd and is got rid of reduces the wasting of resources, energy-concerving and environment-protective.

A second object of the present invention is to provide a water jet deburring apparatus having the above-mentioned pull-out type filtration system.

In order to realize the utility model discloses a first purpose, the utility model provides a pull formula filtration system, including the platform that catchments, the drainage case, first filter screen, first filter tower and sewage suction pump, the platform that catchments is located the top of drainage case on vertical direction, the platform that catchments has seted up the outlet, be provided with the baffle in the drainage case, the baffle separates the drainage case for first drainage chamber and second drainage chamber in vertical direction, and the baffle runs through and has seted up a plurality of first through-holes, the outlet is linked together with first drainage chamber, first logical groove has been seted up to the periphery wall of drainage case, first logical groove lies in the below of baffle and is linked together with second drainage chamber on vertical direction, first filter screen can pass through first logical groove and slidingly insert the second drainage intracavity in order to separate the second drainage chamber for third drainage chamber and fourth drainage chamber, and one side of first filter screen is provided with first baffle, but first baffle butt is on the periphery wall of drainage case, the water inlet of sewage suction pump is linked together with the fourth drainage chamber, the delivery port of sewage suction pump leads to the water inlet of water pipe and the first filter tower.

A preferred scheme is, pull formula filtration system still includes the second filter screen, the periphery wall of drainage case has seted up the second and has led to the groove, the second leads to the groove and is located the below of first logical groove and is linked together with the fourth drainage chamber on vertical direction, the second filter screen can pass the second and lead to the groove and insert the fourth drainage intracavity with sliding in order to separate the fourth drainage chamber for fifth drainage chamber and sixth drainage chamber, and one side of second filter screen is provided with the second baffle, but the second baffle butt is on the periphery wall of drainage case, the water inlet of sewage suction pump leads to pipe and is linked together with sixth drainage chamber.

According to a further scheme, the pull-out type filtering system further comprises a water storage tank and a third filter screen, the third filter screen can be detachably covered at the opening end of the water storage tank, the third filter screen and an inner cavity of the water storage tank form a seventh water filtering cavity, a water inlet of the sewage suction pump is communicated with the seventh water filtering cavity through a water pipe, the water filtering box is placed on the third filter screen in the vertical direction, and a plurality of second through holes communicated with the sixth water filtering cavity are formed in the bottom end face, close to the third filter screen, of the water filtering box in a penetrating mode.

The outer side face, far away from the first filter screen, of the first baffle is provided with a first handle; and/or a second handle is arranged on the outer side surface, far away from the second filter screen, of the second baffle; and/or a third handle is arranged on the outer side surface, far away from the seventh water filtering cavity, of the third filter screen.

A liquid level monitor is arranged in the seventh water filtering cavity, a water supplementing pipeline is connected with the seventh water filtering cavity externally, and a water supplementing flow switch is arranged at the position, close to the seventh water filtering cavity, of the water supplementing pipeline.

According to a further scheme, the pull-out type filtering system further comprises a flow guide frame, the flow guide frame is located between the water collecting platform and the water filtering box in the vertical direction, the end face of the bottom of the water collecting platform is inclined towards the water outlet, the water outlet is communicated with the first end of the flow guide frame, the second end of the flow guide frame is communicated with the first water filtering cavity, and the flow guide end face of the flow guide frame extends to the second end of the flow guide frame from the first end of the flow guide frame in an inclined mode.

The drawing type filtering system further comprises a second filtering tower, and a water inlet of the second filtering tower is communicated with a water outlet of the first filtering tower through a water pipe.

The drawing type filtering system further comprises a third filtering tower, and a water inlet of the third filtering tower is communicated with a water outlet of the second filtering tower through a water pipe.

The further proposal is that the reflux port of the first filter tower, the reflux port of the second filter tower and the reflux port of the third filter tower are respectively communicated with a reflux pipeline, and the reflux pipeline is communicated with the seventh water filtering cavity.

In order to realize the utility model discloses a second purpose, the utility model provides a water jet burring equipment, including pull formula filtration system, pull formula filtration system is foretell pull formula filtration system.

Waste water and burrs after being cleaned and removed are collected in a water collection platform and are discharged into a flow guide frame through a water outlet of the water collection platform, the waste water is guided into a first water filtering cavity of a water filtering box through the flow guide frame, part of the burrs are blocked and filtered in the first water filtering cavity, part of the burrs are driven by the waste water to flow into a third water filtering cavity through a first through hole of a partition plate, then part of the burrs are driven into a seventh water filtering cavity through the waste water after being blocked and filtered by a first filter screen, a second filter screen and a second through hole of the bottom end face of the water filtering box, the waste water after being coarsely filtered by a plurality of layers of filter screens, the first through hole and the second through hole in the seventh water filtering cavity only has less impurities such as the burrs, then, the coarse-filtered waste water in the seventh water filtering cavity is pumped to the first filter tower by a sewage suction pump to be primarily filtered, then secondary fine filtered is performed by the second filter tower, tertiary fine filtered by the third filter tower, and the waste water is conveyed into a water filter head so as to supply water for water recycling, thereby reducing the fine filtered resource waste, saving energy and protecting the environment.

Drawings

Fig. 1 is a first view structural diagram of an embodiment of the water jet deburring apparatus of the present invention.

Fig. 2 is a second view structural diagram of the embodiment of the water jet deburring apparatus of the present invention.

Fig. 3 is a partial structural view of an embodiment of the water jet deburring apparatus of the present invention.

Fig. 4 is a partial structural view of a frame outer frame in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 5 is a cross-sectional view of a frame in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 6 is a structural diagram of the cooperation between the robot water jet device, the high pressure water supply system, the pull-out filter system, the workpiece clamping device and the tool table assembly in the embodiment of the water jet deburring apparatus of the present invention.

Fig. 7 is a structural diagram of a tooling table assembly in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 8 is a partial structural view of an execution end of a water jet cutting robot in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 9 is a structural diagram of a water jet cutting robot according to an embodiment of the water jet deburring apparatus of the present invention.

Fig. 10 is a partially exploded view of the mounting sleeve, the washer, the water jet head, the first mounting plate and the second mounting plate in cooperation with one embodiment of the water jet deburring apparatus of the present invention.

Fig. 11 is a cross-sectional view of the mounting sleeve, the gasket, the water jet head, the first mounting plate and the second mounting plate in cooperation in the embodiment of the water jet deburring device of the present invention.

Fig. 12 is a structural diagram of the cooperation between the tooling plate, the clamping assembly and the elastic rubber plate in the embodiment of the water jet deburring device of the invention.

Fig. 13 is a structural view of a workpiece holding device in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 14 is a partially exploded view of a clamping assembly in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 15 is a cross-sectional view of a clamping assembly in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 16 is a structural view of a holding head in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 17 is a structural diagram of an elastic rubber head in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 18 is an exploded view of the fit between the tooling plate and the elastic rubber plate in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 19 is a structural view showing the cooperation between the high pressure water supply system and the pull-out type filtering system in the embodiment of the water jet deburring apparatus of the present invention.

Fig. 20 is a partial structure view of a first view angle of a high pressure water supply system in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 21 is a second perspective partial structure diagram of a high pressure water supply system in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 22 is a block diagram of a pull-out filter system in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 23 is a sectional view showing the cooperation between the water collecting table and the guide frame in the embodiment of the water jet deburring apparatus of the present invention.

Fig. 24 is a partial structural view of a pull type filter system in an embodiment of the water jet deburring apparatus of the present invention.

Fig. 25 is a partially exploded view of a pull-out filter system in an embodiment of the water jet deburring apparatus of the present invention.

The present invention will be further explained with reference to the drawings and examples.

Detailed Description

Referring to fig. 1 to 6, the embodiment discloses a water jet deburring device 1, which includes a rack outer frame 11, a robot water knife device, a high-pressure water supply system 4, a pressure sensor 7, a pull-out type filtering system 2, a workpiece clamping device 5, a tool table assembly 6, a protective fence 12 and an oil mist purifier 13, wherein the pull-out type filtering system 2 includes a water collecting table 21, the rack outer frame 11 covers the water collecting table 21, and the protective fence 12 is connected around the outer side of the rack outer frame 11 and forms a device mounting area with the rack outer frame 11. Wherein, this embodiment water sword device of robot includes water sword robot 3, and the installation end setting of water sword robot 3 is in the outside of frame 11 and be located the equipment fixing region territory to guarantee the work safe and reliable of water sword robot 3, and the execution end of water sword robot 3 passes the inside that dodges hole 115 and insert frame 11 that the trailing flank of frame 11 was seted up. In addition, in the present embodiment, the pressure sensor 7, the workpiece holding device 5, and the tool table assembly 6 are respectively disposed inside the rack outer frame 11, the oil mist purifier 13 is located at the top end of the rack outer frame 11 in the vertical direction and communicates with the inside of the rack outer frame 11, and the oil mist purifier 13 is configured to suck the oil mist inside the rack outer frame 11.

The open end of this embodiment platform 21 that catchments is provided with props the support 17, props and is provided with breakwater 16 on the support 17, and this breakwater 16 is frame 11 internal partitioning for burring work area and work piece placement area, and the execution end of this embodiment water sword robot 3, work piece clamping device 5, pressure sensor 7 are located burring work area respectively, and frock platform subassembly 6 is located the work piece placement area. The top end 161 of the water guard 16 is obliquely arranged from the deburring working area toward the workpiece placing area, so that the water guard 16 can effectively prevent the scraps from splashing to the workpiece placing area when the deburring working area performs deburring cleaning. Wherein, the gate 111 that is linked together with the work piece placing area is seted up to the leading flank of this embodiment frame 11, this gate 111 department is provided with first push-and-pull door 14 and second push-and-pull door 15, concretely, the inside wall of the leading flank of frame 11 is provided with spout 113 and lower spout 112, this upper spout 113 is located the top of spout 112 down in vertical direction, spout 113 and lower spout 112 are gone up in first push-and-pull door 14 and the embedding of second push-and-pull door 15 slidable respectively, wherein return water tank 114 has been seted up to the tank bottom of spout 112 down, water stain oozes through return water tank 114 and retrieves in the water collection platform 21 of backward flow below, thereby can avoid water stain outflow equipment external contamination environment.

Referring to fig. 7, this embodiment tooling table assembly 6 includes workstation 61, a plurality of stopper 62 and inductor 63, this embodiment workstation 61 is installed on being located the work piece and placing regional support frame 17, a plurality of stopper 62 set up on this workstation 61 and around forming the spacing region that is used for placing the material frame protrudingly workstation 61, thereby keep the uniformity that the material frame was placed on workstation 61, can ensure that the work piece of material frame carries out the uniformity of unloading, inductor 63 is used for responding to whether the material frame has been placed on workstation 61 simultaneously, thereby improve the job stabilization nature and the reliability of water jet burring equipment 1.

Referring to fig. 8 to 11, the execution end of the water jet cutting robot 3 of this embodiment is provided with a water jet head 31, an air blowing pipe 32 and a loading and unloading mechanism, the axis of the water jet head 31 is provided with a high-pressure water channel 312, a first end of the high-pressure water channel 312 is communicated with the steel pipe 46 of the high-pressure water supply system 4 through a high-pressure water pipe 315, the outer peripheral wall of a second end of the water jet head 31 close to the high-pressure water channel 312 is provided with a nozzle 311 communicated with the high-pressure water channel 312, one end of the air blowing pipe 32 far away from the water jet cutting robot 3 is provided with an air blowing hole, the loading and unloading mechanism comprises a first clamping jaw 36, a second clamping jaw 37 and a clamping jaw control mechanism 33, and the clamping jaw control mechanism 33 can control the first clamping jaw 36 and the second clamping jaw 37 to move towards or away from each other. The water jet deburring device 1 of the embodiment controls the feeding and discharging mechanism to move to a material frame of a workpiece placing area by the water jet robot 3, then the clamping jaw control mechanism 33 of the feeding and discharging mechanism controls the first clamping jaw 36 and the second clamping jaw 37 to move towards each other to clamp a workpiece to be deburred in the material frame, then the water jet robot 3 controls the feeding and discharging mechanism to move to the workpiece clamping device 5 of the deburring working area, then the clamping jaw control mechanism 33 of the feeding and discharging mechanism controls the first clamping jaw 36 and the second clamping jaw 37 to move away from each other to place the workpiece to be deburred on the workpiece clamping device 5 for clamping, then the water jet robot 3 controls the water jet head 31 to move to the workpiece to be deburred of the workpiece clamping device 5, the water jet head 31 of the water jet robot 3 receives high-pressure water provided by the high-pressure water supply system 4, and the nozzle 311 of the water jet head 31 sprays high-pressure water outwards to effectively clean and remove burrs of the workpiece to be deburred on the workpiece clamping device 5. After the workpiece on the workpiece clamping device 5 is cleaned and removed by burrs, the water jet cutting robot 3 controls a blowing hole of a blowing pipe 32 to face the workpiece which is cleaned and removed by the burrs on the workpiece clamping device 5 and blows air to remove water stains on the surface of the workpiece, meanwhile, the water jet cutting robot 3 controls the loading and unloading mechanism to move to the position where the workpiece is cleaned and removed by the burrs, the clamping jaw control mechanism 33 of the loading and unloading mechanism controls the first clamping jaw 36 and the second clamping jaw 37 to move towards each other to clamp the workpiece which is cleaned and removed by the burrs on the workpiece clamping device 5 and unload the workpiece to a material frame of a workpiece placing area, and the operation of cleaning and removing the burrs is automatically performed in a repeated cycle. In order to detect the water pressure of the high-pressure water sprayed outwards by the pipe-controlled water cutter head 31, the water jet robot 3 of the water jet deburring apparatus 1 of the present embodiment can periodically control the water cutter head 31 to spray the high-pressure water towards the pressure sensor 7 located in the deburring work area, so that the striking pressure of the nozzle 311 of the water cutter head 31 spraying the high-pressure water outwards can be periodically detected, the stability of the high-pressure water is further detected, and the stability and reliability of the operation of the water cutter head 31 are improved.

In order to avoid damage to the workpiece, the clamping end of the first clamping jaw 36 of the embodiment is sleeved with the first elastic rubber sleeve 34, the clamping end of the second clamping jaw 37 is sleeved with the second elastic rubber sleeve 35, the side surface of the first elastic rubber sleeve 34 close to the second elastic rubber sleeve 35 is convexly provided with the first boss 341, the side surface of the second elastic rubber sleeve 35 close to the first elastic rubber sleeve 34 is convexly provided with the second boss (not marked), and the arrangement of the first boss 341 and the second boss improves the clamping stability of the first elastic rubber sleeve 34 and the second elastic rubber sleeve 35 on the workpiece. In order to meet the burr cleaning and removing requirements of different products of customers, an included angle θ between the axis of the nozzle 311 and the axis of the high-pressure water channel 312 is 30 ° to 60 °, so that the included angles θ between the axis of the nozzle 311 and the axis of the high-pressure water channel 312 are 30 °, 45 °, 60 ° and the like according to different product requirements, so as to ensure the burr cleaning and removing effect. Specifically, this embodiment of the water jet scalpel device of robot still includes installation cover 38, packing ring 314, first installation disc 39 and second installation disc 310, installation cover 38 is installed on the execution of water jet scalpel robot 3 and is served, the one end protrusion that the nozzle 311 was kept away from to water knife head 31 is provided with spliced pole 313, the periphery wall of spliced pole 313 is provided with the external screw thread, high pressure water channel 312 runs through spliced pole 313 and sets up, installation cover 38 has run through and has seted up water channel 381, water channel 381's first end is linked together with high pressure water pipe 315, water channel 381's second end is linked together with high pressure water channel 312's first end, and the internal perisporium of water channel 381's second end is provided with the internal thread, external screw thread and the mutual threaded connection of internal thread, packing ring 314 cover is established on spliced pole 313 and is located between installation cover 38 and the water knife head 31, this embodiment of water knife head 31 and installation cover 38 threaded connection, thereby make the change of water knife head 31 convenient and fast. Wherein, the outer peripheral wall of this embodiment installation cover 38 has seted up ring groove 382, first mounting disc 39 and second mounting disc 310 are blocked into ring groove 382 respectively and form the ring dish, first mounting disc 39 upwards runs through in the footpath of ring groove 382 and has seted up first mounting hole 391, second mounting disc 310 upwards has seted up screw hole 3101 in the footpath of ring groove 382, first fastener passes first mounting hole 391 and screw hole 3101 threaded connection in order to fasten first mounting disc 39 and second mounting disc 310, first mounting disc 39 upwards runs through in the axial of ring groove 382 and has seted up second mounting hole 392, the second fastener passes second mounting hole 392 and is connected with the execution end of water sword robot 3 in order to fasten first mounting disc 39 and the execution end of water sword robot 3, third mounting hole 3102 has been seted up in the axial of ring groove 382 in the second mounting hole 310, the third fastener passes third mounting hole 3102 and is connected with the execution end of water sword robot 3 in order to fasten second mounting disc 310 and the swift execution end of water sword robot 3, the dismouting convenience is executed.

In order to prevent that the water sprays and splashes to the circuit of water sword robot 3 and cause unusual problem, the arm cover that this embodiment water sword robot 3 is close to water tool bit 31 is equipped with flexible waterproof raincoat (not marking), and flexible waterproof raincoat carries out water proof protection to the arm that is located burring work area to improve the operational reliability and the stability of water sword robot 3. Specifically, the position of this embodiment high pressure water pipe 315 near water tool bit 31 is provided with pressure transmitter 316, and pressure transmitter 316 is used for detecting the water pressure before water tool bit 31 sprays, and pressure transmitter 316 sets for the value of floating, and when water pressure exceeded and set for the value range of floating, then the warning suggestion prevented appearing the defective products in batches, can set for pressure transmitter 316's periodic detection frequency simultaneously to can detect hydraulic stability. In addition, the high pressure water pipe 315 of this embodiment is further provided with a pressure regulating valve (not shown) and a high pressure solenoid valve (not shown), the high pressure solenoid valve is located between the pressure regulating valve and the pressure transmitter 316, the pressure regulating valve can regulate the water pressure of the high pressure water pipe 315 according to the actual use requirement, and the high pressure solenoid valve is used for opening or closing the high pressure water pipe 315 to deliver high pressure water.

Referring to fig. 12 to 18, the workpiece holding device 5 of the present embodiment includes a supporting frame 51, a tooling plate 52, a turning driving mechanism 53, an air outlet pipe 54, and at least two holding components, the supporting frame 51 of the present embodiment is mounted on the supporting frame 17 located in the deburring working area, and the turning driving mechanism 53 is disposed on the supporting frame 51 and can control the tooling plate 52 to rotate around the horizontal direction. Wherein each clamping assembly comprises an air cylinder 55 and a clamping head 512, the air cylinder 55 is mounted on the tooling plate 52 and can control the clamping head 512 to move relative to the tooling plate 52, and a clamping area for placing a workpiece is formed on the tooling plate 52 between the plurality of clamping heads 512. The outlet pipe 54 is disposed on the support frame 51, and an outlet hole is opened at one end of the outlet pipe 54. In the water jet deburring apparatus 1 of the embodiment, the water jet robot 3 is used to clean and remove the workpiece to be deburred, and the workpiece is loaded onto the clamping area on the tooling plate 52 of the workpiece clamping device 5, the workpiece clamping device 5 uses the cylinder 55 of the clamping assembly to control the clamping head 512 to move relative to the tooling plate 52, so as to clamp and fix the workpiece to be deburred and removed, and the water jet head 31 of the water jet robot 3 sprays high-pressure water outwards through the nozzle 311 to effectively clean and remove the burrs of the workpiece to be deburred and removed on the tooling plate 52. Meanwhile, in the process of cleaning and removing burrs of the workpiece by spraying high-pressure water outwards from the nozzle 311 of the water jet cutter head 31, the turnover driving mechanism 53 of the workpiece clamping device 5 can control the tooling plate 52 to rotate 180 degrees around the horizontal direction, so that burrs can be cleaned and removed from the front and the back of the workpiece, and the effect of cleaning and removing the burrs is better. After the workpiece on the tooling plate 52 is cleaned and removed, the water jet cutting robot 3 controls the air blowing hole of the air blowing pipe 32 to face the workpiece which is cleaned and removed by the burr on the workpiece clamping device 5 and blows air to remove the water stain on the surface of the workpiece, meanwhile, the water jet cutting robot 3 controls the loading and unloading mechanism to move to the position where the workpiece is cleaned and removed by the burr, the clamping jaw control mechanism 33 of the loading and unloading mechanism controls the first clamping jaw 36 and the second clamping jaw 37 to move towards each other to clamp the workpiece which is cleaned and removed by the burr on the tooling plate 52 and move to the air outlet of the air outlet pipe 54, the air outlet of the air outlet pipe 54 faces the workpiece which is clamped by the first clamping jaw 36 and the second clamping jaw 37 and is cleaned and removed by the burr so as to blow air to remove the water stain on the surface of the workpiece, and thereby improving the processing production quality of the workpiece.

In order to avoid damage to the workpiece, the elastic rubber head 56 is disposed on a side of each clamping head 512 away from the air cylinder 55. Wherein, first pilot hole 562 has been seted up to the one end of head 56 is glued to this embodiment elasticity, the top protrusion of holding head 512 is provided with first pilot column 5121, first pilot column 5121 imbeds in the first pilot hole 562, concretely, second pilot hole 563 that is linked together with first pilot hole 562 is seted up to the side of head 56 is glued to this embodiment elasticity, and first pilot hole 562 and second pilot hole 563 mutually perpendicular set up, first spacing groove 5122 has been seted up to the periphery wall of first pilot column 5121, screw 514 and second pilot hole 563 threaded connection, and the one end embedding of screw 514 is in first spacing groove 5122, thereby make head 56 is glued to elasticity can stabilize and install the one side of keeping away from cylinder 55 at holding head 512, thereby improve head 56's job stabilization nature and reliability are glued to elasticity. In addition, the elastic rubber head 56 is provided with a limiting eave 561 away from the clamping head 512 in a protruding manner, and the limiting eave 561 can be located at one end of the workpiece away from the tooling plate 52, so that the workpiece is limited in the direction perpendicular to the tooling plate 52, and the clamping stability and reliability of the elastic rubber head 56 to the workpiece are improved.

In order to improve the accuracy of the workpiece feeding to the clamping area of the tooling plate 52, the workpiece clamping device 5 of the embodiment further includes a plurality of first limiting columns 59, and the plurality of first limiting columns 59 are disposed on the tooling plate 52 in a protruding manner and arranged around the periphery of the clamping area. Meanwhile, in order to improve that the workpiece can be stably held in the clamping area of the tooling plate 52, the tooling plate 52 of the embodiment is provided with the elastic rubber plate 510 located in the clamping area, the tooling plate 52 is provided with a plurality of third assembly holes 521, the first end face of the elastic rubber plate 510 adjacent to the tooling plate 52 is convexly provided with a plurality of second assembly columns 5101, one second assembly column 5101 is embedded into one third assembly hole 521, and the second end face of the elastic rubber plate 510 far away from the tooling plate 52 is convexly provided with a plurality of bulges 5102, so that the friction force of the elastic rubber plate 510 to the workpiece is increased, and the workpiece can be stably held on the elastic rubber plate 510.

In order to ensure the stability and reliability of the movement operation of the clamping head 512, each clamping assembly of the embodiment further includes a limiting seat 58, the limiting seat 58 is installed on the tooling plate 52, and a second limiting groove 581 is formed in an end surface of the limiting seat 58 away from the tooling plate 52, the second limiting groove 581 penetrates through the limiting seat 58 in the movement direction of the clamping head 512, and the clamping head 512 is movably located in the second limiting groove 581. Specifically, each clamping assembly of this embodiment further includes a limiting plate 57 and a second limiting column 513, the limiting plate 57 is located at one end of the clamping head 512 far away from the tooling plate 52 and is installed on the limiting seat 58, the limiting plate 57 runs through and has been provided with a waist-shaped groove 571, the waist-shaped groove 571 extends in the moving direction of the clamping head 512, the first end of the second limiting column 513 is arranged on the clamping head 512, the second end of the second limiting column 513 is movably located in the waist-shaped groove 571, the waist-shaped groove 571 is used for limiting the moving stroke of the second limiting column 513, and then the moving stroke of the clamping head 512 is limited, and the stability and reliability of the moving work of the clamping head 512 are further improved. Here, the clamping area of the tooling plate 52 of the present embodiment is provided with a sensor 511, and the sensor 511 is used for detecting whether a workpiece is placed in the clamping area of the tooling plate 52.

Referring to fig. 19 to 21, the high pressure water supply system 4 of the present embodiment includes a clean water tank 41, a high pressure pump 43, a steel pipe 46, at least one angle seat valve 47, at least one pressure transmitter 316, and at least one high pressure water pipe 315, the clean water tank 41 and the high pressure pump 43 are respectively disposed outside the rack outer frame 11, a water inlet of the high pressure pump 43 is communicated with the clean water tank 41, a water inlet of the steel pipe 46 is communicated with a water outlet of the high pressure pump 43 through a water outlet pipe 414, a water outlet end of the steel pipe 46 is inserted into the rack outer frame 11, and a first end of the high pressure water channel 312 of the water knife head 31 is communicated with a water outlet end of the steel pipe 46 through the high pressure water pipe 315, that is, a water inlet of the high pressure water pipe 315 is communicated with the steel pipe 46. In this embodiment, an angle seat valve 47 is disposed on one high-pressure water pipe 315 and is disposed close to the steel pipe 46, and a pressure transmitter 316 is disposed on one high-pressure water pipe 315 and is located on a side of the angle seat valve 47 away from the steel pipe 46, that is, the angle seat valve 47 is disposed close to the steel pipe 46 and is located on a side of the pressure regulating valve on the high-pressure water pipe 315 away from the high-pressure solenoid valve. In addition, the high pressure water pipe 315 of this embodiment is a high pressure hose, and a low pressure transparent hose (not shown) is sleeved on the outer peripheral wall of the high pressure water pipe 315. The position that this embodiment water jet burring equipment 1 is close to steel pipe 46 at high-pressure water pipe 315 is provided with angle seat valve 47, thereby can avoid the water hammer phenomenon to produce, simultaneously this embodiment water jet burring equipment 1 is equipped with the transparent hose of low pressure at the periphery wall cover of high-pressure water pipe 315, when the ageing and work operation wearing and tearing of high-pressure water pipe 315 appear bursting, the transparent hose of low pressure of the periphery wall of cover-mounted high-pressure water pipe 315 can effectively prevent that water splash from causing equipment circuit short circuit, pollute abnormal problems such as operational environment appearance, guarantee water jet burring equipment 1's operational environment safety is clean, and ensure that the high-pressure water supplies reliable and stable.

In order to prolong the service life of the high-pressure pump 43, the high-pressure water supply system 4 of the embodiment further includes a clean water suction pump 42, a water inlet of the clean water suction pump 42 is communicated with the clean water tank 41 through a water pipe, and a water outlet of the clean water suction pump 42 is communicated with a water inlet of the high-pressure pump 43 through a water pipe. In the present embodiment, the pressure regulating valve 410 is disposed on the high-pressure pump 43, the pressure regulating valve 410 is used for regulating the water pressure of the high-pressure pump 43, and an overflow port of the pressure regulating valve 410 is communicated with the purified water tank 41 through the first water return pipe 416, so that water resources can be recycled, waste of resources is reduced, and the present invention is energy-saving and environment-friendly. In addition, the water outlet of the high-pressure pump 43 in this embodiment is communicated with the water outlet pipe 414 through a safety valve 49, the safety valve 49 performs a safety protection function on the high-pressure pump 43, and the overflow port of the safety valve 49 is communicated with the purified water tank 41 through a second water return pipe 417, so that water resources can be recycled, waste of resources is reduced, and the water-saving and environment-friendly effects are achieved. In addition, be provided with the level gauge (not marking) in this embodiment water purification tank 41, the level gauge is used for detecting the water level in water purification tank 41 and shows in real time, guarantees that the water level in water purification tank 41 is normal, and the signal lamp and the buzzer warning of level gauge when the monitoring is unusual, and the perisporium of water purification tank 41 runs through and has seted up the outlet, and outlet department is provided with first ball valve 415, according to the water level demand in water purification tank 41, can manually open the water of first ball valve 415 in to water purification tank 41 and discharge.

In order to monitor the operating state of the high-pressure pump 43 in real time, the high-pressure pump 43 of the present embodiment is provided with a pressure detection digital display meter 412 and a flow meter digital display meter 413, wherein the pressure detection digital display meter 412 is used for detecting and displaying the pressure of the high-pressure water of the high-pressure pump 43, and the flow meter digital display meter 413 is used for detecting and displaying the flow rate of the high-pressure water of the high-pressure pump 43. For the water quality condition in real-time supervision water purification case 41, still be provided with chloride ion + TDS monitoring configuration (not marked) and PH monitoring configuration (not marked) in this embodiment water purification case 41 for the quality of water in real-time supervision water purification case 41 avoids quality of water to be not conform to the demand and causes the harm to the work piece. In order to improve the stability and reliability of the steel pipe 46 for delivering high-pressure water, the steel pipe 46 of the present embodiment includes a vertical section 462 and a horizontal beam section 461, the water inlet of the high-pressure water pipe 315 is communicated with the horizontal beam section 461, and the vertical section 462 is provided with a second ball valve 48, and the second ball valve 48 is used for opening or closing the vertical section 462 of the steel pipe 46 for delivering high-pressure water. In order to improve the overall accuracy of the water jet deburring apparatus 1, the high-pressure water supply system 4 of the embodiment further comprises a moving seat 44, the high-pressure pump 43 and the water purification suction pump 42 are respectively mounted on the moving seat 44, a plurality of first fomes wheels 45 are arranged at the bottom of the moving seat 44, and a plurality of second fomes wheels 411 are arranged at the bottom of the water purification tank 41, so that the vibration generated by the operation of the high-pressure pump 43 and the water purification suction pump 42 is not transmitted to the workpiece clamping device 5 and the robot water jet device, thereby improving the operation accuracy of the workpiece clamping device 5 and the robot water jet device, and further improving the overall accuracy of the water jet deburring apparatus 1.

Referring to fig. 22 to 25, the pull-out type filtering system 2 of the present embodiment includes a water collecting platform 21, a water filtering tank 23, a first filtering net 213, a first filtering tower 26 and a sewage suction pump 25, the frame outer frame 11 covers the water collecting platform 21, the water collecting platform 21 is located above the water filtering tank 23 in the vertical direction, and the water outlet 211 is formed in the water collecting platform 21. Wherein, be provided with baffle 231 in the water filter tank 23 of this embodiment, baffle 231 separates water filter tank 23 for first filter chamber 232 and second filter chamber (not marking) in vertical direction, and baffle 231 runs through and has seted up a plurality of first through-holes 2311, and outlet 211 is linked together with first filter chamber 232. Meanwhile, a first through groove 2312 is formed in the peripheral wall of the water filtering box 23 in the embodiment, the first through groove 2312 is located below the partition plate 231 in the vertical direction and is communicated with the second water filtering cavity, the first filtering net 213 can be inserted into the second water filtering cavity through the first through groove 2312 in a sliding manner so as to separate the second water filtering cavity into a third water filtering cavity (not marked) and a fourth water filtering cavity (not marked), and one side of the first filtering net 213 is provided with a first baffle 2131, and the first baffle 2131 can abut against the peripheral wall of the water filtering box 23. In addition, in this embodiment, the water inlet of the wastewater suction pump 25 is communicated with the fourth water filtering cavity through a water pipe, the water outlet of the wastewater suction pump 25 is communicated with the water inlet of the first filtering tower 26 through a water pipe, and the water outlet of the first filtering tower 26 is communicated with the clean water tank 41 through a water pipe.

Further, this embodiment pull formula filtration system 2 still includes the second filter screen (not mark), the second through groove (not mark) has been seted up to the periphery wall of drainage case 23, the second through groove is located the below of first through groove 2312 and is linked together with the fourth drainage chamber on vertical direction, the second filter screen can pass through the second through groove and insert the fourth drainage intracavity in order to separate the fourth drainage chamber for fifth drainage chamber (not mark) and sixth drainage chamber (not mark) with sliding, and one side of second filter screen is provided with second baffle 2141, but second baffle 2141 butt is on the periphery wall of drainage case 23, the water inlet of sewage suction pump 25 leads to pipe and sixth drainage chamber is linked together.

Furthermore, the pull-out type filtering system 2 of this embodiment further includes a water storage tank 24 and a third filter screen 215, the third filter screen 215 is detachably covered on the opening end of the water storage tank 24, a seventh filter chamber 241 is formed by the third filter screen 215 and the inner cavity of the water storage tank 24, the water inlet of the sewage suction pump 25 is communicated with the seventh filter chamber 241 through a water pipe, the water filter tank 23 is vertically disposed on the third filter screen 215, and a plurality of second through holes (not labeled) communicated with the sixth filter chamber are formed through the bottom end surface of the water filter tank 23 close to the third filter screen 215. Specifically, be provided with liquid level monitor (not mark) in the seventh drainage chamber 241 of this embodiment, liquid level monitor is used for detecting the water level and the real-time display in the seventh drainage chamber 241, guarantees that the water level in the seventh drainage chamber 241 is normal, liquid level monitor's signal lamp and buzzer warning when the monitoring is unusual, and seventh drainage chamber 241 is external to have the moisturizing pipeline, and the position that the moisturizing pipeline is close to seventh drainage chamber 241 sets up moisturizing flow switch 29, can carry out the moisturizing to seventh drainage chamber 241.

Furthermore, the pull-out filtration system 2 of the present embodiment further includes a second filtration tower 27 and a third filtration tower 28, the water inlet of the second filtration tower 27 is communicated with the water outlet of the first filtration tower 26 through a water pipe, the water inlet of the third filtration tower 28 is communicated with the water outlet of the second filtration tower 27 through a water pipe, and the water outlet of the third filtration tower 28 is communicated with the purified water tank 41 through a water pipe. Specifically, the return port of the first filter tower 26, the return port of the second filter tower 27 and the return port of the third filter tower 28 are respectively communicated with the return pipe 281, and the return pipe 281 is communicated with the seventh filter water cavity 241, so that water resources can be recycled, waste of resources is reduced, and the filter is energy-saving and environment-friendly.

In order to improve the convenience and rapidness of the first filter screen 213, the second filter screen, and the third filter screen 215, a first handle 2132 is disposed on the outer side surface of the first baffle 2131 away from the first filter screen 213, a second handle 2142 is disposed on the outer side surface of the second baffle 2141 away from the second filter screen, and a third handle 2151 is disposed on the outer side surface of the third filter screen 215 away from the seventh filter cavity 241. In order to ensure that the wastewater in the water collecting table 21 can be smoothly guided to the water filtering tank 23, the bottom surface 212 of the water collecting table 21 is inclined toward the water draining opening 211, the pull-out filtering system 2 further includes a guiding frame 22, the guiding frame 22 is vertically located between the water collecting table 21 and the water filtering tank 23, the water draining opening 211 is communicated with the first end of the guiding frame 22, the second end of the guiding frame 22 is communicated with the first water filtering cavity 232, and the guiding surface 221 of the guiding frame 22 is inclined from the first end of the guiding frame 22 to the second end of the guiding frame 22.

In the process of cleaning and removing burrs from a workpiece, the water jet deburring device 1 of the embodiment can control the feeding and discharging mechanism to automatically feed and discharge the workpiece between a deburring working area and a workpiece placing area, the water jet robot 3 can control the nozzle 311 of the water jet head 31 to spray high-pressure water outwards to automatically clean and remove the burrs of the workpiece in the deburring working area, the water jet robot 3 can control the air blowing hole of the air blowing pipe 32 to face the workpiece to be cleaned and removed on the workpiece clamping device 5 and blow the workpiece to be cleaned and removed to remove water stains on the surface of the workpiece, meanwhile, the workpiece clamping device 5 controls the clamping head 512 to move relative to the tool plate 52 by using the air cylinder 55 of the clamping assembly to clamp and fix the workpiece to be cleaned and removed, the overturning driving mechanism 53 of the workpiece clamping device 5 can control the tool plate 52 to rotate 180 degrees around the horizontal direction, so that the front surface and the back surface of the workpiece can be cleaned and removed, therefore, the effect of cleaning and removing of the burrs is better, meanwhile, the water jet robot 3 controls the feeding and discharging mechanism to clamp the clamping jaw 52 to clamp and remove the workpiece to clamp and remove the workpiece, and the air outlet pipe 54 of the workpiece, and the air outlet pipe 36 of the workpiece to process the workpiece. Moreover, the water jet deburring device 1 of the embodiment has the advantages of high automation degree, compact structure, wide processing range, high production efficiency and capability of being suitable for cleaning and removing burrs of workpieces such as plastic, metal, alloy and the like, thereby saving the production cost.

In the process of cleaning and removing burrs of a workpiece, the oil mist purifier 13 synchronously absorbs the oil mist inside the frame outer frame 11, and collects and purifies environment pollutants such as oil mist, water mist and dust generated in the operation of cleaning and removing the burrs, so that the production and processing environment is purified, and the health of operators is protected. Synchronously, the waste water after the burr cleaning and removal and the burrs are collected together in the water collecting platform 21 and discharged into the diversion frame 22 through the water outlet 211 of the water collecting platform 21, are guided into the first water filtering cavity 232 of the water filtering tank 23 through the diversion frame 22, part of the burrs are blocked and filtered in the first water filtering cavity 232, part of the burrs are driven by the waste water to flow into the third water filtering cavity through the first through hole 2311 of the partition plate 231, part of the burrs are then driven by the waste water to the seventh water filtering cavity 241 through the first filtering net 213, the second filtering net, the second through hole of the bottom end surface of the water filtering tank 23 and the third filtering net 215 after being blocked and filtered, the waste water after the rough filtering waste water in the seventh water filtering cavity 241 is pumped to the first filtering tower 26 for primary fine filtering, then subjected to secondary filtering by the second filtering tower 27, then subjected to the fine filtering by the third filtering tower 28, subjected to the fine filtering, and subjected to the three-time fine filtering by the sewage suction pump 25, so as to reduce the waste of water resources, and further recycle the waste water to the waste water for the environment-friendly and utilize the water for three times, thereby reducing the waste water resources and recycling the waste for the environment-saving environment.

Work pieces in the material frame on the tool table assembly 6 are all cleaned and removed by burrs, then a worker pushes the first sliding door 14 or the second sliding door 15 to open the door 111 of the frame outer frame 11, then the material frame on the tool table assembly 6 is taken down, then the material piece to be cleaned and removed by the burrs is placed on the tool table assembly 6, then the first sliding door 14 or the second sliding door 15 is pushed to close the door 111 of the frame outer frame 11, so that the sealing performance of the frame outer frame 11 is improved, the working reliability of the working device inside the frame outer frame 11 is improved, and the working safety of the water jet deburring device 1 is improved.

Above embodiment is only the preferred example of the utility model discloses a do not limit the utility model discloses the implementation scope, the event all is according to the utility model discloses the equivalent change or the decoration that structure, characteristic and principle were done of application for patent scope all should be included in the utility model discloses the patent application scope.

Claims (10)

1. Pull formula filtration system, including catchment platform and water strainer, catchment platform is located in vertical direction the top of water strainer, the outlet has been seted up to the catchment platform, its characterized in that:

a partition plate is arranged in the water filtering box, the partition plate divides the water filtering box into a first water filtering cavity and a second water filtering cavity in the vertical direction, a plurality of first through holes are formed in the partition plate in a penetrating mode, and the water outlet is communicated with the first water filtering cavity;

the pull-out type filtering system further comprises a first filtering net, a first filtering tower and a sewage suction pump, wherein a first through groove is formed in the peripheral wall of the water filtering box, the first through groove is located below the partition plate in the vertical direction and communicated with the second water filtering cavity, the first filtering net can penetrate through the first through groove and is inserted into the second water filtering cavity in a sliding mode so as to divide the second water filtering cavity into a third water filtering cavity and a fourth water filtering cavity, a first baffle is arranged on one side of the first filtering net, and the first baffle can abut against the peripheral wall of the water filtering box;

the water inlet of the sewage suction pump is communicated with the fourth water filtering cavity through a water pipe, and the water outlet of the sewage suction pump is communicated with the water inlet of the first filtering tower through a water pipe.

2. The pull filter system according to claim 1, wherein:

the pull-type filtering system further comprises a second filtering net, a second through groove is formed in the peripheral wall of the water filtering box, and the second through groove is located below the first through groove in the vertical direction and is communicated with the fourth water filtering cavity;

the second filter screen can penetrate through the second through groove and is slidably inserted into the fourth water filtering cavity so as to divide the fourth water filtering cavity into a fifth water filtering cavity and a sixth water filtering cavity, a second baffle is arranged on one side of the second filter screen, and the second baffle can abut against the outer peripheral wall of the water filtering box;

and the water inlet of the sewage suction pump is communicated with the sixth water filtering cavity through a water pipe.

3. The pull-out filtration system of claim 2, wherein:

the pull-out type filtering system further comprises a water storage tank and a third filter screen, the third filter screen is detachably covered at the opening end of the water storage tank, a seventh water filtering cavity is formed by the third filter screen and the inner cavity of the water storage tank, and the water inlet of the sewage water suction pump is communicated with the seventh water filtering cavity through a water pipe;

the water filter box is placed in the vertical direction on the third filter screen, the water filter box is close to the bottom face of the third filter screen is perforated with a plurality of second through holes communicated with the sixth water filtering cavity.

4. The pull filter system according to claim 3, wherein:

a first handle is arranged on the outer side face, far away from the first filter screen, of the first baffle;

and/or a second handle is arranged on the outer side surface, far away from the second filter screen, of the second baffle;

and/or a third handle is arranged on the outer side surface, far away from the seventh water filtering cavity, of the third filter screen.

5. The pull-out filtration system of claim 3, wherein:

and a liquid level monitor is arranged in the seventh water filtering cavity, a water supplementing pipeline is connected with the seventh water filtering cavity externally, and a water supplementing flow switch is arranged at the position, close to the seventh water filtering cavity, of the water supplementing pipeline.

6. The pull-out filtration system of claim 1, wherein:

the pull-out type filtering system further comprises a flow guide frame, the flow guide frame is positioned between the water collecting platform and the water filtering box in the vertical direction, and the bottom end surface of the water collecting platform is obliquely arranged towards the water outlet;

the water outlet is communicated with the first end of the flow guide frame, the second end of the flow guide frame is communicated with the first water filtering cavity, and the flow guide end face of the flow guide frame extends to the second end of the flow guide frame from the first end of the flow guide frame in an inclined mode.

7. The pull filter system according to claim 3, wherein:

the drawing type filtering system further comprises a second filtering tower, and a water inlet of the second filtering tower is communicated with a water outlet of the first filtering tower through a water pipe.

8. The pull-out filtration system of claim 7, wherein:

the pull-out type filtering system further comprises a third filtering tower, and a water inlet of the third filtering tower is communicated with a water outlet of the second filtering tower through a water pipe.

9. The pull-out filtration system of claim 8, wherein:

and the reflux port of the first filter tower, the reflux port of the second filter tower and the reflux port of the third filter tower are respectively communicated with a reflux pipeline, and the reflux pipeline is communicated with the seventh water filtering cavity.

10. Water jet burring equipment, including pull formula filtration system, its characterized in that:

the pull-out filter system is the pull-out filter system of any one of claims 1 to 9.

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