CN218800972U - High-speed high-efficient section bar machine of double-end double work platform - Google Patents

Abstract

The utility model relates to the technical field of CNC equipment, a double-end double-workbench high-speed high-efficiency section bar machine is disclosed, which comprises a base group, a portal frame, a first saddle group and a second saddle group, wherein the portal frame is fixedly connected on the base group, and the first saddle group and the second saddle group are arranged on the portal frame in parallel and vertically; the base group is made including base, first workstation group and second workstation group, and first workstation group and second workstation group set up on the base side by side, and first workstation group sets up with first saddle group is relative, and second workstation group sets up with second saddle group is relative. The utility model discloses a set up two workstations and double-end main shaft cutter on same lathe, can utilize first saddle group and second saddle group to carry out the same operation to the same kind of work piece on first workstation group and the second workstation group simultaneously according to setting for the procedure, also can carry out different processing to the work piece of different grade type, its processing mode is convenient nimble, can improve work efficiency effectively.

Description

High-speed high-efficient section bar machine of double-end double work platform

Technical Field

The utility model relates to a CNC equipment technical field, in particular to high-speed high-efficient section bar machine of double-end double work platform.

Background

The numerical control machine tool is a short name of a numerical control machine tool (computerized numerical control) and is an automatic machine tool provided with a program control system. The control system is capable of logically processing and decoding a program defined by a control code or other symbolic instructions, represented by coded numbers, which are input to the numerical control device via the information carrier. After operation, the numerical control device sends out various control signals to control the action of the machine tool, and the parts are automatically machined according to the shape and the size required by the drawing. The numerical control machine tool well solves the problem of machining of complex, precise, small-batch and various parts, is a flexible and high-efficiency automatic machine tool, represents the development direction of the control technology of modern machine tools, and is a typical mechanical and electrical integration product.

Among them, for a common automatic machine tool, it is usually only able to process one product at a time, when a small batch of various parts are to be processed, the processing one by one is inefficient, and when another batch of products is to be replaced, the corresponding processing program needs to be reset, increasing the steps of operation, which is not flexible and convenient enough, and wastes time and labor. There is a lack of an automated machine that can process multiple pieces of the same product simultaneously on the same machine or can process different products according to a programmed setting.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-speed high-efficient section bar machine of double-end double work platform to solve the problem that proposes among the above-mentioned background art.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a high-speed high-efficient section bar machine of double-end double workbench, includes:

the portal frame is fixedly connected to the base group, and the first saddle group and the second saddle group are vertically arranged on the portal frame in parallel;

the base group is made to include base, first workstation group and second workstation group, first workstation group reaches second workstation group sets up side by side on the base, first workstation group with first saddle group sets up relatively, second workstation group with second saddle group sets up relatively

In the above technical solution, the first working table group includes a first Y-axis transmission group, a first working table, a side plate, one or more than one shield, and a shield support, the first Y-axis transmission group is fixedly connected to the base, the first working table is slidably connected to the first Y-axis transmission group, and the first working table can freely move horizontally back and forth on the base along the Y-axis direction; a protective cover and a protective cover bracket are respectively arranged at two ends of the first Y-axis transmission group, the protective cover bracket is fixedly connected with the first Y-axis transmission group, two ends of the protective cover are respectively fixedly connected with the first workbench and the protective cover bracket, and the protective cover is connected with the first Y-axis transmission group in a sliding manner; the side plates are arranged on two sides of the first Y-axis transmission set and fixedly connected with the base.

In the above technical solution, the second worktable set includes a second Y-axis transmission set, a second worktable, a side plate, one or more than one shields and a shield support, the second Y-axis transmission set is fixedly connected to the base, the second worktable is slidably connected to the second Y-axis transmission set, and the second worktable can freely move horizontally back and forth on the base along the Y-axis direction; a protective cover and a protective cover bracket are respectively arranged at two ends of the second Y-axis transmission group, the protective cover bracket is fixedly connected with the second Y-axis transmission group, two ends of the protective cover are respectively fixedly connected with the second workbench and the protective cover bracket, and the protective cover is connected with the second Y-axis transmission group in a sliding manner; the side plates are arranged on two sides of the second Y-axis transmission set and fixedly connected with the base.

In foretell technical scheme, be equipped with the chip groove more than or on the base, chip groove one end is the water inlet that the intercommunication has the water pipe, and the other end is open delivery port, the chip groove is semi-circular logical groove and has the slope of a grade from the water inlet end to the delivery port end.

In the above technical solution, the portal frame is provided with a first X-axis transmission group and a second X-axis transmission group, the first saddle group is slidably connected to the first X-axis transmission group, the second saddle group is slidably connected to the second X-axis transmission group, and both the first saddle group and the second saddle group can freely move horizontally and leftwards along the X-axis direction on the portal frame.

In the technical scheme, the portal frame is further provided with a mounting plate, a central organ cover, one or more side organ covers and a wind organ cover sealing plate, the mounting plate is arranged on two sides of the portal frame, the central organ cover is slidably connected with the portal frame, two ends of the central organ cover are respectively in bolt connection with the first saddle seat group and the second saddle seat group, two sides of the portal frame are respectively and fixedly connected with an organ cover sealing plate, and two ends of the side organ cover are respectively in bolt connection with the organ cover sealing plate and the first saddle seat group or the second saddle seat group.

In the above technical scheme, the first saddle group includes an outer cover, a first saddle, a first Z-axis transmission group, a first main shaft box, a first main shaft, a flushing water discharge unit, and a spray head, the outer cover covers the first saddle and the first main shaft box, the first saddle is slidably connected to the first X-axis transmission group, the first Z-axis transmission group is disposed on the first saddle, the first main shaft box is slidably connected to the first Z-axis transmission group, the first main shaft is fixedly connected to the first main shaft box, the first main shaft box can freely and vertically move up and down on the first saddle along the Z-axis direction, the flushing water discharge unit is fixedly connected to the first main shaft box, and the flushing water discharge unit is disposed on the first main shaft box in a penetrating manner and provided with a plurality of spray heads.

In the above technical solution, the second saddle group includes an outer cover, a second saddle, a second Z-axis transmission group, a second spindle box, a second spindle, a flushing water discharge unit, and a spray head, the outer cover covers the second saddle and the second spindle box, the second saddle is slidably connected to the second X-axis transmission group, the second Z-axis transmission group is disposed on the second saddle, the second spindle box is slidably connected to the second Z-axis transmission group, the second spindle is fixedly connected to the second spindle box, the second spindle box can freely vertically move up and down on the second saddle along the Z-axis direction, the flushing water discharge unit is fixedly connected to the second spindle box, and the flushing water discharge unit is disposed on the second spindle box in a penetrating manner and provided with a plurality of spray heads.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model discloses a set up two workstations and double-end main shaft cutter on same lathe, can utilize first saddle group and second saddle group to carry out the same operation to the same kind work piece on first workstation group and the second workstation group simultaneously according to setting for the procedure, also can carry out different processing to the work piece of different grade type, its processing mode is convenient nimble, can improve work efficiency effectively.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of the present invention with some parts hidden.

Fig. 3 is an overall front view of the present invention.

Reference numerals:

1. the device comprises a base group, 11, a base, 12, a first workbench group, 121, a first Y-axis transmission group, 122, a first workbench, 13, a second workbench group, 131, a second Y-axis transmission group, 132, a second workbench, 14, a side plate, 15 a shield, 16 a shield support, 17, a chip groove, 18 and a ground pin;

2. the device comprises a portal frame 21, a first X-axis transmission group 22, a second X-axis transmission group 23, a mounting plate 24, a central organ cover 25, side plate organ covers 26 and organ cover closing plates;

3. the device comprises a first saddle group 31, a first saddle 32, a first Z-axis transmission group 33, a first spindle box 34 and a first spindle;

4. a second saddle group 41, a second saddle 42, a second Z-axis transmission group 43, a second spindle box 44 and a second spindle;

5. and (4) covering, 6) flushing water, 7, and a spray head.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The embodiments described by referring to the drawings are exemplary and intended to be illustrative of the present application and are not to be construed as limiting the present application. In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the present application and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be operated in a particular orientation, and thus are not to be construed as limiting the present application. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise. In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and encompass, for example, both fixed and removable connections or integral connections; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate. In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly above and obliquely above the second feature, or simply meaning that the first feature is at a lesser level than the second feature.

As shown in fig. 1-3, the utility model discloses a double-end double-workbench high-speed high-efficiency section bar machine, which comprises a base group 1, a portal frame 2, a first saddle group 3 and a second saddle group 4, wherein the portal frame 2 is fixedly connected to the base group 1, and the first saddle group 3 and the second saddle group 4 are arranged on the portal frame 2 in parallel and vertically; the base set 1 comprises a base 11, a first workbench set 12 and a second workbench set 13, the first workbench set 12 and the second workbench set 13 are arranged on the base 11 in parallel, the first workbench set 12 and the first saddle set 3 are arranged oppositely, and the second workbench set 13 and the second saddle set 4 are arranged oppositely. The first saddle group 3 and the second saddle group 4 can simultaneously process two workpieces on the first workbench group 12 and the second workbench group 13 according to a set program, the processing mode can be the same operation on the same workpiece, and can also be different processing modes on different types of workpieces, the processing mode is convenient and flexible, and the working efficiency can be effectively improved.

Further, the first worktable group 12 includes a first Y-axis transmission group 121, a first worktable 122, a side plate 14, one or more than one shields 15 and a shield support 16, the first Y-axis transmission group 121 is fixedly connected to the base 11, the first worktable 122 is slidably connected to the first Y-axis transmission group 121, and the first worktable 122 can be driven by the first Y-axis transmission group 121 to move horizontally and forward and backward on the base 11 along the Y-axis direction; a shield 15 and a shield support 16 are respectively arranged at two ends of the first Y-axis transmission group 121, the shield support 16 is fixedly connected with the first Y-axis transmission group 121, two ends of the shield 15 are respectively fixedly connected with the first worktable 122 and the shield support 16, and the shield 15 is slidably connected with the first Y-axis transmission group 121; in this embodiment, the protective cover 15 is a telescopic multi-layer sleeved protective cover, the outermost layer of the protective cover is fixedly connected with the first workbench 122, the innermost layer of the protective cover is fixedly connected with the protective cover support 16, and when the first workbench 122 freely moves horizontally back and forth along the Y-axis direction, the protective cover also moves along with the first workbench, so as to protect the first Y-axis transmission set 121, and prevent debris and cleaning water generated in the machining process from entering the first Y-axis transmission set 121; the side plates 14 are arranged on two sides of the first Y-axis transmission set 121 and are fixedly connected with the base 11, and the side plates 14 also play a role in protecting the first Y-axis transmission set 121; the side plates 14, the protective cover 15 and the protective cover support 16 cover and protect the first Y-axis transmission set 121 in multiple directions, so that a more comprehensive protection effect is realized.

Further, the second working table set 13 includes a second Y-axis transmission set 131, a second working table 132, a side plate 14, one or more than one shields 15 and a shield support 16, the second Y-axis transmission set 131 is fixedly connected to the base 11, the second working table 132 is slidably connected to the second Y-axis transmission set 131, and the second working table 132 can freely move horizontally and back and forth on the base 11 along the Y-axis direction; a protective cover 15 and a protective cover support 16 are respectively arranged at two ends of the second Y-axis transmission group 131, the protective cover support 16 is fixedly connected with the second Y-axis transmission group 131, two ends of the protective cover 15 are respectively fixedly connected with the second workbench 132 and the protective cover support 16, and the protective cover 15 is slidably connected with the second Y-axis transmission group 131; similarly, in this embodiment, the protective cover 15 is a telescopic multi-layer sleeved protective cover, the outermost layer of the protective cover is fixedly connected to the second worktable 132, the innermost layer of the protective cover is fixedly connected to the protective cover support 16, and when the second worktable 132 freely moves horizontally and forwards along the Y-axis direction, the protective cover also moves along with the protective cover, so as to protect the second Y-axis transmission set 131, and prevent the debris and the cleaning water generated in the machining process from entering the second Y-axis transmission set 131; the side plates 14 are arranged on two sides of the second Y-axis transmission set 131 and fixedly connected with the base 11, and the side plates 14 also play a role in protecting the second Y-axis transmission set 131; the side plates 14, the protective cover 15 and the protective cover support 16 cover the second Y-axis transmission set 131 in multiple directions, so that a more comprehensive protection effect is realized.

In this embodiment, the first Y-axis transmission set 121 and the second Y-axis transmission set 131 are the same type of transmission set, and each of the transmission sets includes a Y-axis lead screw, a lead screw nut, a nut seat, a slide rail, a slider, a motor seat, and a tailstock, the head and the tail of the Y-axis lead screw are connected to the motor seat and the tailstock, the lead screw nut is sleeved on the Y-axis lead screw, a set of slide rail and a plurality of sliders are respectively disposed on two sides of the Y-axis lead screw, the slide rail, the motor seat, and the tailstock are all fixed on the base 11, the slider, the lead screw nut, and the nut seat are all fixedly connected to the first workbench 122 and the second workbench 132, and the motor on the motor seat drives the Y-axis lead screw to rotate so as to drive the lead screw nut and the workbench thereon to slide back and forth.

Further, be equipped with the chip groove 17 of one or more on the base 11, chip groove 17 one end is the water inlet that the intercommunication has the water pipe, and the other end is open delivery port, chip groove 17 is semi-circular logical groove and has the slope of a grade from the water inlet end to the delivery port end. After the processing begins, the water pipe keeps opening, and incessantly dashes out rivers and drives and fall into the piece debris outflow of the interior chip groove 17, plays self-cleaning's effect. In this embodiment, the base 11 is provided with three chip grooves 17 respectively disposed in the middle and two sides of the first workbench 122 and the second workbench 132 for receiving the falling debris and impurities and cleaning water flow during the processing. The bottom surface of the base is provided with a plurality of feet 18 which are uniformly arranged in the axial direction and used for balancing the machine table and adjusting the horizontal plane of the working table.

Furthermore, a first X-axis transmission group 21 and a second X-axis transmission group 22 are arranged on the gantry 2, the first saddle group 3 is slidably connected with the first X-axis transmission group 21, the second saddle group 4 is slidably connected with the second X-axis transmission group 22, and both the first saddle group 3 and the second saddle group 4 can freely move horizontally and leftwards along the X-axis direction on the gantry 2.

In this embodiment, the first X-axis transmission set 21 and the second X-axis transmission set 22 are the same type of transmission set, and each of the transmission sets includes an X-axis lead screw, a lead screw nut, a nut seat, slide rails, slide blocks, a motor seat and a tailstock, the head and the tail of the X-axis lead screw are connected to the motor seat and the tailstock, two sets of X-axis lead screws are respectively arranged in a vertically staggered manner, the lead screw nut is sleeved on the X-axis lead screw, two sides of the X-axis lead screw are respectively provided with a set of slide rails and a plurality of slide blocks, the slide rails, the motor seat and the tailstock are all fixed on the portal frame 2, wherein the first saddle seat set 3 and the second saddle seat set 4 share the same set of slide rails, the slide blocks, the lead screw nut and the nut seat are all fixedly connected to the first saddle seat set 3 and the second saddle seat set 4, and the motor on the motor seat drives the X-axis lead screw to rotate so as to drive the lead screw nut and the respective saddle set on the lead screw nut to slide left and right.

Furthermore, the portal frame 2 is also provided with an installation plate 23, a central organ cover 24, one or more side organ covers 25 and a wind organ cover closing plate 26, and the installation plate 23 is arranged on two sides of the portal frame 2 and can be used for additionally installing an automatic tool changer according to the processing requirement in the future; the central organ cover 24 is slidably connected with the gantry 2, two ends of the central organ cover 24 are respectively bolted with the first saddle group 3 and the second saddle group 4, two sides of the gantry 2 are respectively fixedly connected with an organ cover closing plate 26, and two ends of the side organ cover 25 are respectively bolted with the organ cover closing plate 26 and the first saddle group 3 or the second saddle group 4. When the first saddle group 3 and the second saddle group 4 freely move left and right horizontally along the X-axis direction, the central organ cover 24 and the side organ covers 25 also move along with the X-axis direction, so that the X-axis transmission group is protected, chips and cleaning water generated in the machining process are prevented from entering the X-axis transmission group, the first X-axis transmission group 21 and the second X-axis transmission group 22 are protected by the central organ cover 24, the side organ covers 25 and the wind organ cover closing plates 26 in a multi-directional coating manner, and a more comprehensive protection effect is achieved.

Further, the first saddle group 3 includes an outer cover 5, a first saddle 31, a first Z-axis transmission group 32, a first headstock 33, a first spindle 34, a flushing water bank 6 and a spray head 7, the outer cover 5 covers the first saddle 31 and the first headstock 33, the first saddle 31 is connected with the first X-axis transmission group 21 in a sliding manner, the first Z-axis transmission group 32 is disposed on the first saddle 31, the first headstock 33 is connected with the first Z-axis transmission group 32 in a sliding manner, the first spindle 34 is fixedly connected with the first headstock 33, the first headstock 33 can freely move up and down on the first saddle 31 along the Z-axis direction, the flushing water bank 6 is fixedly connected with the first headstock 33, and the flushing water bank 6 is provided with a plurality of spray heads 7 on the first headstock 33 in a penetrating manner. The first main shaft 34 is provided with a corresponding cutter which can process products fixed on the first workbench 122, the flushing row 6 arranged beside the cutter is communicated with a water pipe, water flow sprayed out from the spray head 7 in the processing process can timely clean chippings and impurities cut off, and meanwhile, the cutter is protected from cooling.

Further, the second saddle group 4 includes an outer cover 5, a second saddle 41, a second Z-axis transmission group 42, a second headstock 43, a second spindle 44, a flushing water bank 6 and nozzles 7, the outer cover 5 covers the second saddle 41 and the second headstock 43, the second saddle 41 is connected with the second X-axis transmission group 22 in a sliding manner, the second Z-axis transmission group 42 is disposed on the second saddle 41, the second headstock 43 is connected with the second Z-axis transmission group 42 in a sliding manner, the second spindle 44 is fixedly connected with the second headstock 43, the second headstock 43 can freely move up and down on the second saddle 41 along the Z-axis direction, the flushing water bank 6 is fixedly connected with the second headstock 43, and the flushing water bank 6 is provided with a plurality of nozzles 7 on the second headstock 43 in a penetrating manner. The second main shaft 44 is provided with a corresponding cutter, so that products fixed on the second workbench 132 can be processed, the flushing row 6 arranged beside the cutter is communicated with a water pipe, water flow sprayed out from the spray head 7 in the processing process can timely clean chippings and impurities cut off, and meanwhile, the cutter is protected from cooling.

In this embodiment, the first Z-axis transmission set 32 and the second Z-axis transmission set 42 are the same type of transmission set, and each of the first Z-axis transmission set and the second Z-axis transmission set includes a Z-axis lead screw, a lead screw nut, a nut seat, a slide rail, a slide block, a motor seat, and a tailstock, the head and the tail of the Z-axis lead screw are connected to the motor seat and the tailstock, the lead screw nut is sleeved on the Z-axis lead screw, a set of slide rail and a plurality of slide blocks are respectively disposed on two sides of the Z-axis lead screw, the slide rail, the motor seat, and the tailstock are all fixed to the first saddle 31 and the second saddle 41, the slide block, the lead screw nut, and the nut seat are all fixedly connected to the first main spindle box 33 and the second main spindle box 44, and the motor on the motor seat drives the Z-axis lead screw to rotate so as to drive the lead screw nut and the main spindle box thereon to slide up and down.

When the utility model is used, the concrete operation flow is as follows:

the first embodiment is as follows: when handling the same kind of product, lay the product fixed mounting on first workstation 122 and second workstation 132 earlier, open the water valve of connecting chip groove 17, start the procedure, first saddle group 3 and second saddle group 4 that are located portal frame 2 begin to carry out the same cutting processing to the product simultaneously according to the program setting, shower nozzle 7 that the in-process was washed by water on the row 6 simultaneously spouts rivers and clears up piece debris, keep the clean and tidy of workstation and product, after the processing is accomplished, the board resets, removable product change cutting face carries out processing on next step this moment or will handle the product of accomplishing and take off and trade into the new product. In this embodiment, can process two the same products simultaneously, promote machining efficiency greatly, save operating time for the production progress.

Example two: when different kinds of products are handled, a product is fixedly arranged on the first workbench 122, another product is fixedly arranged on the second workbench 132, a water valve connected with the chip discharge groove 17 is opened, the machining program is started, the first saddle group 3 and the second saddle group 4 which are positioned on the portal frame 2 start to perform different cutting treatments on the two products according to program setting, the first saddle group 3 and the second saddle group 4 do not interfere with each other in the machining process, the spray head 7 on the flushing row 6 simultaneously sprays water to clean up debris, the cleanness of the workbench and the products is maintained, after the machining treatment is completed, the machine table resets, at the moment, the cutting surface of the detachable product is processed on the next step or the processed product is taken down and replaced into a new product. In the embodiment, different processing treatments can be simultaneously carried out on products of two different types, and for small-batch and multi-variety processing production, the processing efficiency can be greatly improved, the working time can be saved, and the production progress can be accelerated.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (8)

1. The utility model provides a high-speed high-efficient section bar machine of double-end double work platform which characterized in that includes:

the portal frame is fixedly connected to the base group, and the first saddle group and the second saddle group are vertically arranged on the portal frame in parallel;

the base group is done and is included base, first workstation group and second workstation group, first workstation group reaches second workstation group sets up side by side on the base, first workstation group with first saddle group sets up relatively, second workstation group with second saddle group sets up relatively.

2. The profile machine according to claim 1, characterized in that: the first workbench group comprises a first Y-axis transmission group, a first workbench, side plates, one or more shields and a shield support, the first Y-axis transmission group is fixedly connected to the base, the first workbench is connected with the first Y-axis transmission group in a sliding manner, and the first workbench can freely move horizontally back and forth on the base along the Y-axis direction; a protective cover and a protective cover support are respectively arranged at two ends of the first Y-axis transmission group, the protective cover supports are fixedly connected with the first Y-axis transmission group, two ends of the protective cover are respectively fixedly connected with the first workbench and the protective cover supports, and the protective cover is connected with the first Y-axis transmission group in a sliding manner; the side plates are arranged on two sides of the first Y-axis transmission set and fixedly connected with the base.

3. The profile machine according to claim 2, characterized in that: the second workbench set comprises a second Y-axis transmission set, a second workbench, side plates, one or more shields and a shield support, the second Y-axis transmission set is fixedly connected to the base, the second workbench is connected with the second Y-axis transmission set in a sliding manner, and the second workbench can freely move horizontally back and forth on the base along the Y-axis direction; a protective cover and a protective cover bracket are respectively arranged at two ends of the second Y-axis transmission group, the protective cover bracket is fixedly connected with the second Y-axis transmission group, two ends of the protective cover are respectively fixedly connected with the second workbench and the protective cover bracket, and the protective cover is connected with the second Y-axis transmission group in a sliding manner; the side plates are arranged on two sides of the second Y-axis transmission set and fixedly connected with the base.

4. The profile machine according to claim 3, characterized in that: be equipped with one or more chip groove on the base, chip groove one end is the water inlet that the intercommunication has the water pipe, and the other end is open delivery port, the chip groove is semi-circular logical groove and has the slope to the delivery port end from the water inlet end.

5. The profile machine according to claim 1, characterized in that: the gantry is provided with a first X-axis transmission group and a second X-axis transmission group, the first saddle group is connected with the first X-axis transmission group in a sliding mode, the second saddle group is connected with the second X-axis transmission group in a sliding mode, and the first saddle group and the second saddle group can freely horizontally move left and right on the gantry along the X-axis direction.

6. The profile machine according to claim 5, characterized in that: the gantry is further provided with a mounting plate, a central organ cover, one or more side organ covers and a wind organ cover sealing plate, the mounting plate is arranged on two sides of the gantry, the central organ cover is connected with the gantry in a sliding mode, two ends of the central organ cover are connected with the first saddle group and the second saddle group through bolts respectively, the two sides of the gantry are fixedly connected with the organ cover sealing plate respectively, and two ends of the side organ cover are connected with the organ cover sealing plate and the first saddle group or the second saddle group through bolts respectively.

7. The profile machine according to claim 6, characterized in that: the first saddle group comprises an outer cover, a first saddle, a first Z-axis transmission group, a first spindle box, a first spindle, a flushing water device and a spray head, the outer cover covers the first saddle and the first spindle box, the first saddle is in sliding connection with the first X-axis transmission group, the first Z-axis transmission group is arranged on the first saddle, the first spindle box is in sliding connection with the first Z-axis transmission group, the first spindle is fixedly connected with the first spindle box, the first spindle box can freely and vertically move on the first saddle along the Z-axis direction, the flushing water device is fixedly connected with the first spindle box, and the flushing water device penetrates through the first spindle box and is provided with the spray heads.

8. The profile machine according to claim 7, characterized in that: the second saddle group comprises an outer cover, a second saddle, a second Z-axis transmission group, a second spindle box, a second spindle, a flushing water device and a spray head, the outer cover is covered outside the second saddle and the second spindle box, the second saddle is in sliding connection with a second X-axis transmission group, the second Z-axis transmission group is arranged on the second saddle, the second spindle box is in sliding connection with the second Z-axis transmission group, the second spindle is fixedly connected with the second spindle box, the second spindle box can freely vertically move on the second saddle along the Z-axis direction, the flushing water device is fixedly connected with the second spindle box, and the flushing water device penetrates through the second spindle box and is provided with the spray heads.

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