CN220680163U - Environment-friendly auto-parts bores and mills device - Google Patents

Abstract

The utility model relates to an environment-friendly automobile accessory drilling and milling device, which is characterized in that a baffle plate is arranged around the side edge of a machine tool pedestal in an upward extending manner, the upper edge of the baffle plate is provided with an air injection assembly capable of guiding air flow in a processing space defined by the baffle plate and the machine tool pedestal to flow downwards, a collecting tank capable of collecting and filtering waste products and drilling and milling liquid generated in the processing process of the automobile accessory is arranged below a bedplate of the machine tool pedestal, a filter body capable of enabling the waste products and the drilling and milling liquid to flow directionally under the drive of the gravity and the air flow of the collecting tank to complete solid-liquid separation is also arranged in the collecting tank, a through groove which is formed into a frustum shape is formed in the surface of the bedplate, the output end of the collecting tank is also communicated with a purifying assembly capable of conducting secondary static filtering on the drilling and milling liquid after the filtering of the collecting tank, and the purifying assembly is used for conveying the drilling and milling liquid after the secondary filtering to the processing assembly suspended above the bedplate through a driving pipeline.

Description

Environment-friendly auto-parts bores and mills device

Technical Field

The utility model relates to the technical field of drilling and milling devices for automobile accessory machining, in particular to an environment-friendly drilling and milling device for automobile accessories.

Background

With the development of society, the use of mechanical devices has become extremely widespread, and the metal parts of mechanical devices have also become diverse. The metal parts are metal parts such as metal blocks, metal rods, metal tubes and the like which are manufactured by metal materials and have various specifications and shapes, and when the metal parts are processed, drilling and milling processing is needed, and when the metal parts are drilled and milled, positioning and clamping are needed, and the positioning and clamping are needed by utilizing a positioning device. The drilling and milling machine tool can process various grooves, holes and curved surfaces, so that the drilling and milling machine tool can process various surfaces, wherein during working, a workpiece is arranged on a workbench or an accessory such as an indexing head, a milling cutter rotates to be a main motion, and the workpiece can obtain a required processing surface by assisting in the feeding motion of the workbench or the milling head, and the milling machine tool has higher production rate due to multi-edge intermittent cutting.

However, when machining an automobile part, it is generally required to perform multi-point drilling and milling on the part to be machined, a large amount of metal chips and dust are generated between the drilling and milling machine tool and the surface of the part, and small particle chips and dust generated under the driving of the drilling and milling head are diffused to threaten the health of operators and pollute the surrounding environment. In addition, metal chips and dust can be mixed into the drilling and milling machining position to be cooled and the drilling and milling liquid, so that the drilling and milling liquid cannot be directly recycled and cannot be discharged, the mixed metal chips in the drilling and milling liquid can cause blockage of a conveying pipeline, the direct secondary recycled drilling and milling liquid can cause the increase of the quantity of impurities on the surface to be drilled and milled, the machining precision and accuracy are affected, the machining efficiency is low, and the machining quality is poor.

Furthermore, there are differences in one aspect due to understanding to those skilled in the art; on the other hand, as the inventors studied numerous documents and patents while the present utility model was made, the text is not limited to details and contents of all that are listed, but it is by no means the present utility model does not have these prior art features, the present utility model has all the prior art features, and the applicant remains in the background art to which the rights of the related prior art are added.

Disclosure of Invention

The utility model aims to provide an environment-friendly automobile accessory drilling and milling device which can effectively prevent dust diffusion during drilling and milling and effectively filter drilling and milling liquid mixed with metal scraps so that the drilling and milling liquid can be recycled, and the problems that the drilling and milling liquid polluted by the metal scraps and the dust cannot be effectively subjected to solid-liquid separation at the existing drilling and milling airport, the processing environment is severe, a large amount of dust pollutes the environment and causes damage to human bodies are solved.

The technical scheme adopted by the utility model is as follows: the utility model provides an environment-friendly auto-parts bores and mills device, includes the lathe pedestal, the side of lathe pedestal is provided with the baffle according to the mode that upwards extends around, and the upper edge of baffle be provided with can guide it with the air current in the processing space that the lathe pedestal prescribes a limit jointly and flow down jet module, the platen below of lathe pedestal is provided with can collect and filterable collecting vat to the waste material product that produces in the auto-parts course of working and bore milling liquid, still be provided with in the collecting vat and make waste material product and bore milling liquid take place directional flow and accomplish solid-liquid separation under the drive of its own gravity and air current filter body, offer into the through groove that leads to the frustum form on the face of platen, so that processing space with the collecting vat intercommunication, the output of collecting vat still communicates and has the purification module that can carry out the static filtration of secondary to its bore milling liquid after filtering, and purification module carries its bore milling liquid after the secondary filtration to suspend through the drive pipeline and is in the processing module of top.

According to a preferred embodiment, the filter body divides the trough space of the collecting trough into an upper trough space and a lower trough space in such a way that a cone-shaped layered wall structure is constructed; the inclined air guide groove capable of exhausting is arranged on the groove side wall of the groove cavity of the axial upper section of the collecting groove; the side wall of the groove cavity at the lower section of the axial direction of the collecting groove is provided with a liquid outlet which can discharge the filtered drilling and milling liquid.

According to a preferred embodiment, the filter body comprises a filter layer and a drainage plate layer, wherein the filter layer and the drainage plate layer are of cone-shaped hierarchical structure and are stacked in a groove cavity of the collecting groove in a clearance manner so that drilling and milling liquid passing through the filter layer can flow along the upper surface of the drainage plate layer; the edge of the filter layer in the cone-shaped layer wall structure is provided with a lapel arc edge capable of containing filtered solid waste products, wherein the radial inner side edge of an annular surface defined by the lapel arc edge is connected with the outer edge of the filter layer, and the radial outer side edge of the annular surface defined by the lapel arc edge is connected with the inner wall of a groove cavity of the collecting groove, so that the position of the filter layer in the collecting groove is limited.

According to a preferred embodiment, the outer edges of the drainage sheet layers in a cone-shaped layered wall structure define their position within the collecting trough by means of circumferentially spaced webs; a baffle plate capable of intercepting drilling and milling liquid drained by the drainage plate layer is arranged right above the liquid drain port; the output end of the inclined air guide groove is detachably provided with an interception plate, and the inclined air guide groove can be communicated with the input end of the air injection assembly through an exhaust pipeline.

According to a preferred embodiment, the liquid drain is arranged at a position higher than the bottom surface of the collecting tank, so that drilling and milling liquid which is subjected to preliminary sedimentation in the lower tank cavity of the collecting tank can be conveyed to the purifying assembly through the liquid drain.

According to a preferred embodiment, a clamping table is also provided above the machine table, on which clamping table the car parts are detachably mounted, and the machining assembly is capable of machining car parts clamped by the clamping table; the clamping pedestal can drive the automobile parts to move in multiple directions in the processing space so as to change the processing positions of the automobile parts.

According to a preferred embodiment, the clamping table comprises a first translation mechanism, a second translation mechanism and a clamping head, wherein the second translation mechanism is arranged on the moving end of the first translation mechanism and the clamping head capable of clamping the workpiece is arranged on the moving end of the second translation mechanism.

According to a preferred embodiment, a support body provided on the platen is capable of suspending the milling assembly above the clamping table, the milling assembly comprising a milling robot arm, a drill milling head and a drain mechanism capable of flushing the milling end of the drill milling head.

According to a preferred embodiment, the purification assembly comprises a rotary cylinder body, a cylinder wall blocking net, filter paper and an elastic compression bar, wherein the cylinder cavity of the rotary cylinder body is divided into coaxial double-layer chambers through the cylinder wall blocking net, the filter paper covers the cylinder wall blocking net through the elastic compression bar, and the driving pipeline is communicated with the cylinder cavity of the rotary cylinder body in a mode of penetrating through the cylinder wall of the rotary cylinder body.

According to a preferred embodiment, the air injection assembly comprises an input pipe, an air pump and an output pipe, wherein the air pump is arranged between the input pipe and the output pipe, and the output end of the output pipe is connected with an injection pipe.

The beneficial effects of the utility model are as follows:

the collecting vat that this application set up can intercept the waste material products such as the brill milling liquid after accomplishing the cooling treatment and the metal chips that is wrapped up in by the air current to realize solid-liquid separation, and purifying component can carry out secondary purification to the brill milling liquid after the solid-liquid separation and filter, thereby promote the purity degree of boring milling liquid, make the brill milling liquid after purifying and filtering can directly be used for the secondary cooling to use. This application builds the processing space through setting up the baffle to prevent the piece in the course of working from splash or raise dust diffusion, thereby promote the feature of environmental protection of processing, and jet assembly's setting further restricts piece and raise dust, has guaranteed the cleanliness factor of processing environment, has avoided the external environment to receive the pollution, and can also guarantee to bore and mill the liquid and retrieve effectively. The setting of baffle has reduced the possibility that produced metal chip and dust etc. formed the raise dust and spread to external environment in the course of working to avoid operating personnel to inhale the risk of little granule waste material product and dust by mistake, thereby promote the processing security.

The liquid draining mechanism can cool and spray the machining point position of the drilling and milling head, so that the machining temperature is reduced, and the machining precision and the machining quality are guaranteed.

The cone-shaped filter body that this application set up when intercepting solid metal piece, its cone form can make the metal piece that separates gather at the edge of cone effectively to make the upper segment cone can remain a filter effect all the time, in order to prevent that the mesh of whole filter screen structure from being blocked by the piece completely. In addition, the arrangement of the cone structure can enable the intercepted metal scraps to be collected in the annular accommodating space defined by the lapel arc edge under the blowing of the air flow, so that the shielding of the cone screen plate is reduced, and the filtering effect is ensured.

Drawings

FIG. 1 is a schematic view of a preferred environment-friendly automobile part milling and drilling device according to the present utility model;

FIG. 2 is a schematic plan view of a filter layer of a preferred environment-friendly automotive part milling and drilling device according to the present utility model;

FIG. 3 is a schematic plan view of a drainage sheet layer of a preferred environment-friendly automotive part milling and drilling device according to the present utility model;

fig. 4 is a schematic structural view of a purifying component of a preferred environment-friendly automobile accessory drilling and milling device according to the present utility model.

List of reference numerals

1: a machine tool stand; 2: a baffle; 3: a jet assembly; 4: a clamping pedestal; 5: processing the assembly; 6: a collection tank; 7: a purification assembly; 8: a drive line; 11: a platen; 12: a support frame body; 31: an input tube; 32: an air pump; 33: an output pipe; 34: a jet pipe; 41: a first translation mechanism; 42: a second translation mechanism; 43: a clamping head; 51: machining a mechanical arm; 52: a milling head; 53: a liquid discharge mechanism; 61: an inclined air guide groove; 62: a filter body; 63: a liquid outlet; 64: an interception plate; 65: a baffle; 71: rotating the cylinder; 72: a drum wall blocking net; 73: a filter paper; 74: an elastic compression bar; 75: a rotating electric machine; 111: a through groove; 531: a spray nozzle; 532: a liquid storage cavity; 533: a liquid adding port; 621: a filter layer; 622: a drainage plate layer; 623: turning over the collar arc edge; 624: a connecting plate; 711: an annular pedestal; 712: a slot;

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the present utility model will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the drawings is only some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

The technical solution provided by the present utility model will be described in detail by way of examples with reference to the accompanying drawings. It should be noted that the description of these examples is for aiding in understanding the present utility model, but is not intended to limit the present utility model. In some instances, some embodiments are not described or described in detail as such, as may be known or conventional in the art.

Furthermore, features described herein, or steps in all methods or processes disclosed, may be combined in any suitable manner in one or more embodiments in addition to mutually exclusive features and/or steps. It will be readily understood by those skilled in the art that the steps or order of operation of the methods associated with the embodiments provided herein may also be varied. Any order in the figures and examples is for illustrative purposes only and does not imply that a certain order is required unless explicitly stated that a certain order is required.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The term "coupled" as used herein includes both direct and indirect coupling (coupling) where appropriate (where no paradox is constructed).

The following detailed description refers to the accompanying drawings.

Example 1

The application provides an environment-friendly auto-parts bores and mills device, it includes lathe pedestal 1, baffle 2, jet-propelled subassembly 3, centre gripping pedestal 4, processing subassembly 5, collecting vat 6, purification module 7 and drive line 8.

According to a specific embodiment shown in fig. 1, a baffle plate 2 is arranged around the side of the machine tool base 1 in an upwardly extending manner. The upper edge of the baffle plate 2 is provided with a jet assembly 3 capable of guiding the air flow in the processing space defined by the machine tool base 1 downwards. A clamping table 4 is also arranged above the machine table 1. The car accessory is detachably mounted on the clamping table 4, and the machining assembly 5 is capable of machining the car accessory clamped by the clamping table 4. The clamping pedestal 4 can drive the automobile parts to move in a multidirectional manner in the processing space so as to change the processing position of the automobile parts. Below the table 11 of the machine tool table 1 a collecting tank 6 is provided which is able to collect and filter waste products and drilling and milling liquid produced during the machining of car parts. The output end of the collecting tank 6 is also communicated with a purifying component 7 which can carry out secondary static filtration on the drilling and milling liquid after filtration, and the purifying component 7 conveys the drilling and milling liquid after secondary filtration to a processing component 5 suspended above a bedplate 11 through a driving pipeline 8. The collecting vat 6 that this application set up can intercept the waste material products such as the metal chip that bores after accomplishing cooling treatment and being wrapped up in by the air current and hold to realize solid-liquid separation, and purifying component 7 can carry out secondary purification to the bores after the solid-liquid separation and mill the liquid and filter, thereby promotes and bores the purity degree of milling the liquid, makes the bores after purifying and filters and mills the liquid and can directly be used for the secondary cooling to use. This application builds the processing space through setting up baffle 2 to prevent the piece in the course of working from splash or raise dust diffusion, thereby promote the feature of environmental protection of processing, and jet assembly 3's setting further restricts piece and raise dust, has guaranteed the cleanliness factor of processing environment, has avoided the external environment to receive the pollution, and can also guarantee to bore and mill the liquid and retrieve effectively.

Preferably, the machine tool stand 1 comprises a table 11, a support frame 12 and support columns supporting the table 11. Preferably, the lower surface of the support platen 11 is provided with a plurality of support columns, and the bottoms of the support columns are provided with guide wheels to control the entire apparatus to enable adjustment of the installation position as required. The upper surface of the bedplate 11 is provided with a supporting frame body 12, and the supporting frame body 12 is used for installing the processing assembly 5, so that the processing assembly 5 is suspended above the bedplate 11 to drill and mill an automobile part clamped by the clamping pedestal 4 on the bedplate 11. Preferably, the plate surface of the platen 11 is provided with a through groove 111 formed in a truncated cone shape so that the processing space communicates with the collecting tank 6. The channel cavity of the through channel 111 is in the form of an inverted frustum so that the waste products on the platen 11 can be collected and directed. Preferably, the baffles 2 are installed around the platen 11, so that the baffles 2 arranged at a plurality of different edges can be spliced with each other to form a ring-shaped shielding structure, and the baffles 2 are obliquely arranged in an inward deflection manner, so that the upper end opening of the ring-shaped shielding structure defined by the baffles 2 is smaller than the upper surface area of the platen 11, the processing space defined by the baffles 2 above the platen 11 is provided with smaller openings, and the arrangement of the baffles 2 reduces the possibility that metal scraps, dust and the like generated in the processing process form dust and diffuse to the external environment, thereby avoiding the risk that operators mistakenly suck small particle waste products and dust, and improving the processing safety.

Preferably, the air injection assembly 3 comprises an inlet pipe 31, an air pump 32 and an outlet pipe 33. Preferably, the air pump 32 is disposed between the input pipe 31 and the output pipe 33, and the output end of the output pipe 33 is connected with the ejector pipe 34. It is further preferred that the injection pipe 34 is installed at the upper edge of the baffle plate 2 and laid circumferentially along the upper edge of the baffle plate 2. Preferably, the nozzle of the ejector tube 34 opens in an inclined downward manner to pinch the air flow in the process space for movement from top to bottom. Preferably, the nozzle is detachably provided with an air flow jet, the nozzle which is arranged obliquely downwards can limit the outgoing direction of the air flow output by the air flow jet, so that the jet air flow can flow in a directional way from top to bottom in a processing space, waste products, dust and flying dust generated in the processing process of automobile parts and drilling and milling heads can be wrapped and clamped by the components to move downwards to pass through the through groove 111, and the components can be fused with drilling and milling liquid which is sprayed on the processing surface due to the existence of the drilling and milling liquid, so that the mixture can be input into the collecting groove 6. Preferably, the drilling and milling liquid can be subjected to dust fall treatment, so that fine particles such as dust can be further prevented from being diffused in a processing space and even directly diffused to the external environment, the environmental protection in the processing process is ensured, and the diffusion of pollution and the damage to human bodies are reduced.

Preferably, the clamping table-base 4 comprises a first translation mechanism 41, a second translation mechanism 42 and a clamping head 43. Preferably, the translation directions of the first translation mechanism 41 and the second translation mechanism 42 are perpendicular to each other. Preferably, the second translation mechanism 42 is disposed on the moving end of the first translation mechanism 41, and a clamping head 43 capable of clamping the workpiece is disposed on the moving end of the second translation mechanism 42, so that the first translation mechanism 41 and the second translation mechanism 42 can drive the clamping head 43 to perform multi-working point position transformation in a plane defined by the two mechanisms together. Preferably, the first translation mechanism 41 and the second translation mechanism 42 may employ a slide rail mechanism or a screw slider mechanism, which is a conventional translation mechanism, and the present application directly mounts the existing translation mechanism to the platen 11. Preferably, the clamping head 43 adopts an existing auto-parts clamping workbench, and specific structure can be referred to as a chuck assembly in the patent document with publication number CN 219093682U.

Preferably, a support frame 12 provided on the platen 11 is capable of suspending the processing assembly 5 above the clamping table 4. The milling assembly 5 includes a milling robot arm 51, a drill milling head 52, and a drain mechanism 53 capable of showering the milling end of the drill milling head 52. Preferably, the milling arm 51 is detachably mounted on the support frame body 12, and the axially lower end of the milling arm 51 is mounted with a drill milling head 52. Preferably, the machining mechanical arm 53 is a mechanical arm capable of performing multidirectional movement in a certain space, so that the machining mechanical arm can drive the drilling and milling head 52 to perform drilling and cutting operations and can drive the drilling and milling head 52 to perform multi-angle deflection to finish machining of inclined holes and inclined slots. Preferably, drain mechanism 53 includes spray nozzle 531 and reservoir 532. Specifically, the liquid storage cavity 532 is communicated with the output end of the purifying assembly 7 through a driving pipeline 8, and a liquid adding opening 533 capable of supplementing drilling and milling liquid is further arranged on the liquid storage cavity 532. The liquid draining mechanism 53 can cool and spray the machining point of the drilling and milling head 52, so that the machining temperature is reduced, and the machining precision and the machining quality are guaranteed.

Preferably, a filter 62 is provided in the collection tank 6, which enables the waste products and the drilling and milling liquid to flow directionally under the drive of their own gravity and air flow to perform solid-liquid separation. Preferably, the filter body 62 divides the tank space of the collecting tank 6 into an upper tank space and a lower tank space in such a way that a cone-shaped layered wall structure is constructed. Further preferably, an inclined air guide groove 61 capable of exhausting air is provided on the groove side wall of the groove chamber of the axial upper stage of the collecting groove 6. Further preferably, a drain port 63 capable of draining the filtered drilling and milling liquid is provided on the tank side wall of the tank chamber of the axially lower section of the collecting tank 6. Specifically, the axis of the cone defined by the filter body 62 having the cone-shaped layer wall structure coincides with the axial direction of the collecting tank 6, so that the inclined layer wall constituting the filter body 62 can collect the solid waste products separated therefrom at the edge area of the filter body 62 near the inner wall of the collecting tank 6 while accomplishing solid-liquid separation. The cone-shaped filter 62 provided by the application can effectively enable separated metal scraps to be converged at the edge of the cone while intercepting the solid metal scraps, so that the upper cone can always keep a filtering effect, and the meshes of the whole filter screen structure are prevented from being blocked by scraps. In addition, the arrangement of the cone structure can enable the intercepted metal scraps to be collected in the annular accommodating space defined by the lapel arc edge 623 under the blowing of air flow, so that the shielding of the cone screen plate is reduced, and the filtering effect is ensured. In addition, the inclined air guide slots 61 can effectively discharge the air flow, so that the internal and external air pressures are balanced.

Preferably, the filter body 62 includes a filter layer 621 and a drainage sheet layer 622. Preferably, both the filter layer 621 and the drainage sheet 622 are cone-shaped hierarchical structures and are stacked in the trough cavity of the collecting trough 6 with gaps in between, so that the drilling and milling liquid passing through the filter layer 621 can flow along the upper surface of the drainage sheet 622. As shown in fig. 2, the edges of the filter layer 621 in the form of a cone-shaped layer wall structure are provided with a lapel edge 623 capable of receiving filtered-out solid waste products. Further preferably, the radially inner side of the annulus defined by the lapel edge 623 is connected to the outer edge of the filter layer 621. The radially outer side of the annulus defined by the lapel arc 623 is connected to the inner wall of the sump cavity of the sump 6, thereby defining the position of the filter layer 621 in the sump 6. As shown in fig. 3, the outer edges of the drainage sheet layers 622 in the form of cone-shaped layer walls are delimited in their position in the collecting trough 6 by webs 624 which are arranged at circumferential intervals. Preferably, a baffle plate 65 capable of intercepting the drilling and milling liquid drained by the drainage plate layer 622 is arranged right above the liquid drain port 63, so that the condition that the drilling and milling liquid falling down causes the drilling and milling liquid close to the liquid drain port 63 is prevented, and the primarily settled drilling and milling liquid is disturbed to cause turbid pollution. Preferably, the output end of the inclined air guide groove 61 is detachably provided with an interception plate 64 capable of intercepting waste products carried by the air flow while allowing only the air to pass. It is further preferred that the inclined air guide 61 is able to communicate with the inlet of the air jet module 3 via an air discharge line, so that circulation of the air flow with driving force is completed, so that the air flow with water vapor can better wet and directionally transport the process dust possibly present in the process space. Preferably, the filter layer 621 uses the same screen as the lapel edge 623. Preferably, the liquid drain 63 is provided at a position higher than the bottom surface of the collecting tank 6 so that the drilling and milling liquid, which has completed the preliminary sedimentation in the lower tank cavity of the collecting tank 6, can be transported to the cleaning assembly 7 through the liquid drain 63.

As shown in fig. 4, the purification assembly 7 includes a rotary cylinder 71, a cylinder wall barrier 72, filter paper 73, and an elastic pressing rod 74. Preferably, the interior of the cylinder cavity of the rotary cylinder 71 is divided into coaxial double-layer chambers by a cylinder wall barrier 72, and the bottom of the rotary cylinder 71 is provided with an annular pedestal 711 for mounting the cylinder wall barrier 72 in the shape of an annular wall. Specifically, the wall screen 72 is inserted into the upwardly opening slot 712 of the annular seat 711, and the axial upper end of the selected chamber of the wall screen 72 is in communication with the collection trough 6. Preferably, the filter paper 73 is covered on the cylinder wall barrier 72 by a resilient compression bar 74. Preferably, the drive line 8 communicates with the cylinder chamber of the rotary cylinder 71 in such a manner as to penetrate the cylinder wall of the rotary cylinder 71. It is further preferred that the bottom of the annular seat 711 is drivingly connected to the rotary motor 75 such that the rotary drum 71 can rotate with the rotary motor 75, thereby enabling the drilling and milling fluid in the cavity defined by the drum wall barrier 72 to be filtered under centrifugal action, thereby completing the separation of the fluid from the finely divided waste product.

Preferably, the elastic pressing lever 74 includes a cambered pressing lever 741 and an elastic lever 742. The spring lever 742 includes a core bar and a stem. The loop bars are sleeved at the two ends of the core bar, and springs are arranged between the core bar and the loop bars to limit the relative positions of the core bar and the loop bars, so that the length of a rod body limited by the core bar and the loop bars is adjustable. Preferably, the end of the loop bar remote from the core bar is provided with a cambered surface compression bar 741 capable of abutting the filter paper 73 against the cylinder wall barrier 72.

The utility model is not limited to the above-described alternative embodiments, and any person who may derive other various forms of products in the light of the present utility model, however, any changes in shape or structure thereof, all falling within the technical solutions defined in the scope of the claims of the present utility model, fall within the scope of protection of the present utility model. It should be understood by those skilled in the art that the present description and drawings are illustrative and not limiting to the claims. The scope of the utility model is defined by the claims and their equivalents. Throughout this document, the word "preferably" is used in a generic sense to mean only one alternative, and not to be construed as necessarily required, so that the applicant reserves the right to forego or delete the relevant preferred feature at any time.

Claims (10)

1. An environment-friendly automobile accessory drilling and milling device comprises a machine tool pedestal (1), and is characterized in that,

the side edge of the machine tool base (1) is circumferentially provided with a baffle plate (2) in an upward extending manner, the upper edge of the baffle plate (2) is provided with a jet assembly (3) capable of guiding the air flow in the processing space defined by the machine tool base (1) to flow downwards,

a collecting tank (6) which can collect and filter waste products and drilling and milling liquid generated in the processing process of automobile parts is arranged below a bedplate (11) of the machine tool pedestal (1), a filter body (62) which can lead the waste products and the drilling and milling liquid to flow directionally under the drive of self gravity and air flow to finish solid-liquid separation is also arranged in the collecting tank (6),

offer on the face of platen (11) and become to lead to logical groove (111) of frustum form, so that the processing space with collecting vat (6) intercommunication, the output of collecting vat (6) still communicates has and can carry out stationary filtration's of secondary purification subassembly (7) to the drilling and milling liquid after its filtration, and purification subassembly (7) are carried its drilling and milling liquid after the secondary filtration to suspension processing subassembly (5) above platen (11) through drive pipeline (8).

2. The environment-friendly automobile fitting drilling and milling device according to claim 1, wherein the filter body (62) divides the groove cavity of the collecting groove (6) into an upper groove cavity and a lower groove cavity in a manner of constructing a cone-shaped layer wall structure;

an inclined air guide groove (61) capable of exhausting is arranged on the groove side wall of the groove cavity of the axial upper section of the collecting groove (6); the side wall of the groove cavity at the lower section of the axial direction of the collecting groove (6) is provided with a liquid outlet (63) which can discharge the filtered drilling and milling liquid.

3. The environment-friendly automobile fitting drilling and milling device according to claim 2, wherein the filter body (62) comprises a filter layer (621) and a drainage plate layer (622), wherein the filter layer (621) and the drainage plate layer (622) are of cone-shaped hierarchical structures and are stacked in a groove cavity of the collecting groove (6) in a clearance manner, so that drilling and milling liquid passing through the filter layer (621) can flow along the upper surface of the drainage plate layer (622);

the edge of the filter layer (621) in the form of a cone-shaped layer wall structure is provided with a lapel edge (623) capable of accommodating filtered-out solid waste products, wherein,

the radially inner side of the annulus defined by the lapel edge (623) is connected to the outer edge of the filter layer (621), and the radially outer side of the annulus defined by the lapel edge (623) is connected to the inner wall of the collecting channel (6) to define the position of the filter layer (621) in the collecting channel (6).

4. An environment-friendly automobile fitting drilling and milling device according to claim 3, characterized in that the outer edge of the drainage plate layer (622) in a cone-shaped layer wall structure is limited in its position in the collecting tank (6) by connecting plates (624) arranged at circumferential intervals;

a baffle plate (65) capable of intercepting drilling and milling liquid drained by the drainage plate layer (622) is arranged right above the liquid drain port (63);

the output end of the inclined air guide groove (61) is detachably provided with an interception plate (64), and the inclined air guide groove (61) can be communicated with the input end of the air injection assembly (3) through an exhaust pipeline.

5. The environment-friendly automobile accessory drilling and milling device according to claim 4, wherein the liquid outlet (63) is arranged at a position higher than the bottom surface of the collecting tank (6) so that drilling and milling liquid which completes preliminary sedimentation in a lower tank cavity of the collecting tank (6) can be conveyed to the purifying assembly (7) through the liquid outlet (63).

6. An environment-friendly auto-parts milling and drilling device according to claim 5, characterized in that a clamping bench (4) is also arranged above the machine bench (1), the auto-parts are detachably mounted on the clamping bench (4), and the machining assembly (5) is capable of machining the auto-parts clamped by the clamping bench (4);

the clamping pedestal (4) can drive the automobile parts to move in multiple directions in the processing space so as to change the processing positions of the automobile parts.

7. The environment-friendly auto-parts milling and drilling device according to claim 6, characterized in that the clamping bench (4) comprises a first translation mechanism (41), a second translation mechanism (42) and a clamping head (43), wherein the second translation mechanism (42) is arranged on the moving end of the first translation mechanism (41) and the clamping head (43) capable of clamping a workpiece is arranged on the moving end of the second translation mechanism (42).

8. The environment-friendly automobile accessory drilling and milling device according to claim 7, wherein a support frame (12) arranged on the bedplate (11) can suspend the processing assembly (5) above the clamping pedestal (4), and the processing assembly (5) comprises a processing mechanical arm (51), a drilling and milling head (52) and a liquid draining mechanism (53) capable of flushing the processing end of the drilling and milling head (52).

9. The device for drilling and milling an environment-friendly automobile accessory according to claim 8, wherein the purification assembly (7) comprises a rotary cylinder (71), a cylinder wall barrier (72), filter paper (73) and an elastic compression bar (74), wherein,

the cylinder cavity of the rotary cylinder body (71) is divided into coaxial double-layer chambers through the cylinder wall barrier net (72), the filter paper (73) is covered on the cylinder wall barrier net (72) through an elastic compression bar (74),

the drive pipe (8) is communicated with a cylinder cavity of the rotary cylinder (71) in a manner of penetrating through the cylinder wall of the rotary cylinder (71).

10. The device for drilling and milling an environment-friendly automobile accessory according to claim 9, wherein the air injection assembly (3) comprises an input pipe (31), an air pump (32) and an output pipe (33), wherein,

the air pump (32) is arranged between the input pipe (31) and the output pipe (33), and the output end of the output pipe (33) is connected with an injection pipe (34).