CN217776361U - Numerical control machine tool for machining precision die - Google Patents

Abstract

The invention discloses a numerical control machine tool for machining a precision die, which comprises a machine tool body, wherein a feeding pipe is communicated with a position right below a machining station of the machine tool body, a liquid storage tank with an upper opening is arranged right below the feeding pipe, a filter box is arranged at a notch position of the liquid storage tank in a sliding manner, and the filter box is positioned right below a discharge hole of the feeding pipe; a containing groove is formed in the pipe wall, close to the discharge port, of the feeding pipe, and a movable plate is arranged at the position, communicated with the containing groove, of the feeding pipe in a sliding manner; the digit control machine tool still includes: and the driving component is used for driving the filter box to slide away from the discharge port and simultaneously driving the movable plate to slide to the position of the discharge port for blocking. This application has the effect that improves the recovery convenience that the lathe retrieved the cutting sweeps.

Description

Numerical control machine tool for machining precision die

Technical Field

The utility model belongs to the technical field of the digit control machine tool and specifically relates to a digit control machine tool for precision mold processing is related to.

Background

At present, in the process of cutting machining of a precision die by a numerical control machine tool, in order to reduce the error influence of cutting temperature change on the cutting precision of the die, a large amount of cutting fluid is usually added in the cutting process of the die to cool or lubricate the die, and the cutting fluid usually carries a large amount of metal cuttings after being used to influence the secondary utilization of the cutting fluid, so that the cutting fluid is usually recycled through a filter screen.

Current digit control machine tool includes lathe body, inlet pipe, reservoir and filter screen, inlet pipe fixed mounting in the lathe body, and the discharge gate of inlet pipe is located the filter screen directly over, and filter screen demountable installation is in the notch position department of reservoir, and the cutting waste liquid that carries with the metal piece flows through the filter screen from the inlet pipe and gets into the reservoir, filters the metal smear metal that carries in the cutting fluid through the filter screen.

In view of the above-mentioned related arts, the inventor believes that the conventional numerical control machine tool has a defect that the machine bed is not convenient for recovering the cutting waste chips because the injection of the cutting fluid is generally stopped and the filter screen is manually replaced when the filter screen is blocked by the metal chips during the recovery of the cutting fluid.

Disclosure of Invention

In order to improve the recovery convenience that the lathe was retrieved cutting sweeps, this application provides a digit control machine tool for precision die machining.

The application provides a digit control machine tool for precision mold processing adopts following technical scheme:

a numerical control machine tool for machining of precise molds comprises a machine tool body, wherein a feeding pipe is communicated with a position right below a machining station of the machine tool body, a liquid storage tank with an upper opening is arranged right below the feeding pipe, a filter box is arranged at a notch position of the liquid storage tank in a sliding manner, and the filter box is positioned right below a discharge port of the feeding pipe; a containing groove is formed in the pipe wall, close to the discharge port, of the feeding pipe, and a movable plate is arranged at the position, communicated with the containing groove, of the feeding pipe in a sliding manner; the digit control machine tool still includes: the driving assembly is used for driving the filter box to slide away from the discharge port and simultaneously driving the movable plate to slide to the position of the discharge port for blocking.

By adopting the technical scheme, after the cutting fluid washes the die, the cutting waste fluid carrying a large amount of metal chips flows in from the feeding pipe, and flows through the filter box from the position of the discharge port to carry out solid-liquid separation on the cutting waste chips, the cutting fluid after the cutting waste chips are separated flows in the reservoir, when the cutting waste chips collected by the filter box need to be cleaned, the filter box is driven by the driving assembly to slide away from the discharge port, the movable plate is driven to slide to the position of the discharge port blocking the feed port, therefore, in the waste chip cleaning process of the filter box, the situation that the cutting waste fluid flows into the reservoir is reduced, the cutting waste fluid flowing out from the discharge port always falls on the collecting box, the probability of incomplete filtration of the cutting waste chips is reduced, when the discharge port is blocked by the movable plate, the cutting waste chips collected by the filter box are cleaned, the filter box is slid into the position of the reservoir again by the driving assembly after the cleaning is finished, the movable plate is driven to move towards the direction of opening the discharge port, and the machine tool is opened and closed jointly, and closed, and opened, and closed, and the convenience of the recovery of the cutting waste chips in the cutting fluid is improved.

Preferably, the driving assembly includes: the filter box comprises a transmission rod, a connecting rod and a bolt, wherein a through hole is formed in the position, close to a discharge hole, of a pipe wall of the feeding pipe, one end of the transmission rod penetrates through the through hole and extends into the feeding pipe, the inner portion of the feeding pipe is hinged to one end of the movable plate, one end of the connecting rod is fixedly connected with one end of the filter box, and the bolt is simultaneously inserted into the other end of the transmission rod and the other end of the connecting rod.

Through adopting above-mentioned technical scheme, drive the fly leaf at the discharge gate position of inlet pipe through the transfer line that articulates in the fly leaf and slide, thereby the shutoff of the discharge gate position of control inlet pipe is with opening, and drive the notch position slip of rose box at the reservoir through the connecting rod of connecting in the rose box, be convenient for the clearance of the cutting sweeps of collecting on the rose box, and lock transfer line and connecting rod through the bolt, thereby when the pulling connecting rod, can open and close in step of simultaneous control fly leaf and rose box, reduce when clearing up the rose box, carry the cutting fluid entering liquid storage tank of cutting sweeps, thereby improve the recovery convenience to cutting sweeps of digit control machine tool.

Preferably, the pipe wall position of inlet pipe still fixed mounting has the mounting, the transfer line carries the one end joint of bolt in the mounting.

By adopting the technical scheme, when the movable plate blocks the discharge hole of the feeding pipe, the movable plate is easily deviated because the cutting waste liquid at the moment continuously washes the movable plate, so that in order to improve the stability when the movable plate blocks the discharge hole, one end of the transmission rod, which is far away from the movable plate, is bent to the position of the fixing part, and the transmission rod and the fixing part are mutually locked through the clamping action of the transmission rod and the fixing part, so that the movable plate is stably blocked at the discharge hole, and the blocking stability of the movable plate is improved.

Preferably, the filter box is provided with a plurality of cylindrical sliding blocks, and the sliding blocks are arranged in pairs in an opposite manner and fixedly assembled on the filter box; the notch position department of reservoir is provided with first slide rail, the sliding block sliding assembly in first slide rail.

By adopting the technical scheme, as the filter box collected with the cutting scraps is heavy, and more driving force is needed when the filter box is pulled out or slides into the notch position of the liquid storage tank, the driving force needed for driving the filter box to be pulled out or slide into the liquid storage tank is saved, the sliding connection between the cylindrical sliding block capable of rolling and the first sliding rail is adopted, and when the driving assembly drives the filter box to be pulled out of the notch position of the liquid storage tank, the sliding block slides on the first sliding rail along the direction far away from the discharge port; when drive assembly drive rose box slided into reservoir notch position, the sliding block slided along the direction that is close to the discharge gate on first slide rail to the sliding action through the sliding block reduces the resistance to friction that the gravitational potential energy of collecting box brought, thereby can make the rose box take out fast and leave and slide in more laborsaving in the notch position of reservoir.

Preferably, the numerical control machine tool comprises a collecting tank, a filter tank and a control device, wherein the collecting tank is fixedly arranged on one side of the liquid storage tank along the drawing-off direction of the filter tank; the filter box comprises a collecting tank, a first sliding rail, a second sliding rail, an arc sliding rail, a sliding block and a first sliding rail, wherein the opening position of the collecting tank is provided with the second sliding rail, one end of the second sliding rail is communicated with one end of the first sliding rail, the other end of the second sliding rail is communicated with the arc sliding rail, the arc sliding rail is fixedly assembled on the inner tank wall of the collecting tank along the swinging direction of the filter box, and the sliding block is connected with the arc sliding rail in a sliding manner.

Through adopting above-mentioned technical scheme, after extracting the bolt and making transfer line and connecting rod separation, filter the main part through continuing the pulling and remove toward taking out from the direction, guide and filter the main part and get into the sweeps collecting vat, and when the sliding block got into the arc slide rail, the action of gravity through filtering the main part drove the sliding block landing in the arc slide rail, thereby make the automatic sweeps that cut on the filter screen fall into the sweeps collecting vat, accomplish the collection to the sweeps that cuts, improve the collection convenience of cutting sweeps.

Preferably, one side of the filter box, which is connected with the connecting rod, is provided with a filter baffle, and the filter baffle is hinged to the filter box.

By adopting the technical scheme, because a certain distance exists between the discharge port position of the feeding pipe and the filter box, when the cutting waste liquid flows out of the discharge port position to the filter box, the splashing phenomenon can be generated generally, and part of cutting waste chips splashes to the liquid storage tank, so that the splashed cutting waste liquid is blocked by arranging the filtering baffle plate, the condition that the cutting waste liquid splashes to the liquid storage tank is reduced, and the recovery rate of the cutting waste chips is improved.

Preferably, the filter tank further comprises a locking member for locking the filtering baffle and the filter tank to each other.

By adopting the technical scheme, in the cleaning process of cutting waste chips when the filter box slides down along the arc-shaped slide rail, the filter baffle can block part of the cutting waste chips, so that the part of the cutting waste chips cannot smoothly slide down from the filter box, and therefore, when the filter box filters, the filter baffle is locked on the filter box through the locking piece to block the cutting waste liquid from splashing; when the clearance of cutting sweeps is carried out to the rose box, the unblock through the locking piece makes articulated filtration baffle turn over and roll over under self action of gravity to when the rose box slided along the arc slide rail, the cutting sweeps on the rose box can directly follow the landing on the rose box, improves the recovery and the cleaning efficiency of rose box to cutting sweeps.

Preferably, the movable plate is located at one end of the accommodating groove, a limiting block is further arranged at the end position of the movable plate, and the limiting block drives the movable plate to slide in the accommodating groove.

By adopting the above technical scheme, because the fly leaf slides in the discharge gate position of inlet pipe, easy landing from the inlet pipe under drive assembly's pulling, it is usually required that operating personnel accurate control drive assembly to the drive power of fly leaf, convenient inadequately, therefore, in order to improve the control fly leaf and carry out gliding control accuracy, the tip position fixed mounting that stretches into the one end in the holding tank at the fly leaf has the stopper, thereby control the maximum distance of sliding of fly leaf in the holding tank through the stopper, and simultaneously, when the discharge gate position of inlet pipe was plugged up to the fly leaf, through the continuation pulling of stopper restriction fly leaf, thereby reduce the possibility that the fly leaf slided from the inlet pipe, improve the suitability of fly leaf.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cutting waste liquid sequentially flows through the feeding pipe, the filter box and the liquid storage tank, the cutting liquid after solid-liquid separation is stored in the liquid storage tank, the cutting waste chips in the cutting waste liquid are collected through the filter box, the movable plate and the filter box are driven to be opened and closed jointly through the driving assembly, and when the filter box is used for cleaning the cutting waste chips, the movable plate can be synchronously driven to block the position of the discharging port of the feeding pipe, so that the cutting waste liquid flowing out of the discharging port always falls on the filter box, and the recycling convenience of the cutting waste chips in the cutting liquid by a machine tool is improved through the joint opening and closing of the filter box and the movable plate;

2. drive the fly leaf through articulating in the transfer line of fly leaf and slide in the discharge gate position of inlet pipe, thereby the shutoff of the discharge gate position of control inlet pipe is with opening, and drive the notch position slip of rose box at the reservoir through the connecting rod of connecting in the rose box, the clearance of the cutting sweeps of collecting on the rose box of being convenient for, and lock transfer line and connecting rod through the bolt, thereby when the pulling connecting rod, can the synchronous of simultaneous control fly leaf and rose box open and close, reduce when clearing up the rose box, carry the cutting fluid entering liquid storage tank of cutting sweeps, thereby improve the recovery convenience to cutting sweeps of digit control machine tool.

Drawings

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

Fig. 2 is a schematic view of a linkage structure of a movable plate and a filter box in embodiment 1 of the present application.

Fig. 3 is a schematic view of an assembly structure of a filter box and a feed pipe in embodiment 1 of the present application.

Description of the reference numerals:

1. a machine tool body; 2. a feed pipe; 21. a through hole; 3. a liquid storage tank; 31. a first slide rail; 4. a filter box; 41. a slider; 42. a filtering baffle; 43. a locking member; 5. accommodating a tank; 6. a movable plate; 61. a limiting block; 7. a drive assembly; 71. a transmission rod; 72. a connecting rod; 73. a bolt; 8. a fixing member; 9. collecting tank; 91. a second slide rail; 92. an arc-shaped slide rail.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a numerical control machine tool for machining a precision die, and with reference to fig. 1 and 2, the numerical control machine tool comprises a machine tool main body, a feeding pipe 2 is communicated with a position right below a machining station of a machine tool body 1, the cross section of the feeding pipe 2 is funnel-shaped, one end, with a larger caliber, of the feeding pipe 2 is fixedly connected with the machine tool body 1, and the other end, with a smaller caliber, of the feeding pipe is used as a discharge port; under inlet pipe 2 fixed mounting have top open-ended reservoir 3, filter tank 4 is installed to reservoir 3's notch position department sliding, filter tank 4 is the cuboid shape, and filter tank 4 is located inlet pipe 2 under the discharge gate, reservoir 3 is located the inside wall of notch position and has seted up first slide rail 31, the corner position punishment of filter tank 4 do not is provided with four columniform sliding blocks 41, four sliding blocks 41 are two liang of relative settings respectively, and sliding block 41 and first slide rail 31 sliding connection.

Referring to fig. 2 and 3, a containing groove 5 is formed in a pipe wall position of the feeding pipe 2 close to the discharge port, a movable plate 6 is slidably mounted at a position where the feeding pipe 2 is communicated with the containing groove 5, a limiting block 61 is fixedly connected to an end portion, located inside the containing groove 5, of the movable plate 6, and the limiting block 61 limits a sliding distance of the movable plate 6 in the containing groove 5; the numerical control machine further comprises a driving assembly 7, the driving assembly 7 comprises a transmission rod 71, a connecting rod 72 and a bolt 73, a through hole 21 is formed in the position, close to the pipe wall of the discharge hole, of the feeding pipe 2, one end of the transmission rod 71 penetrates through the through hole 21 and extends into the interior of the feeding pipe 2 to be hinged to one end, far away from the limiting block 61, of the movable plate 6, one end of the connecting rod 72 is fixedly connected with one end of the filter box 4, and the bolt 73 is simultaneously inserted into the transmission rod 71 and is connected with the other end, extending out of the feeding pipe 2, of the other end of the connecting rod 72.

Referring to fig. 2, a fixing member 8 is further fixedly mounted on the outer wall of the feeding pipe 2, the fixing member 8 is in a circular ring shape with an opening, the fixing member 8 is made of a flexible material, when the movable plate 6 is plugged to the discharge port of the feeding pipe 2, one end of the transmission rod 71 carrying the plug pin 73 is bent to the position of the fixing member 8, and is clamped to the hollow position inside the fixing member 8 from the opening position of the fixing member 8, so that the movable plate 6 is stably plugged to the discharge port of the feeding pipe 2.

The numerical control machine tool further comprises a collecting tank 9, the collecting tank 9 is fixedly installed on one side of the liquid storage tank 3 along the drawing direction of the filter tank 4, a second slide rail 91 is arranged at the position of a notch of the collecting tank 9, one end of the second slide rail 91 is communicated with the first slide rail 31, the other end of the second slide rail 91 is communicated with an arc-shaped slide rail 92, the arc-shaped slide rail 92 is fixedly assembled on the inner wall of the collecting tank 9 along the swinging direction of the filter tank 4, when the filter tank 4 enters the collecting tank 9 from the liquid storage tank 3, two sliding blocks 41 of the filter tank 4 are slidably connected with the arc-shaped slide rail 92, and under the action of the self gravity of the filter tank 4, the filter tank 4 is driven to swing in the collecting tank 9 along the arc-shaped slide rail 92; the side of the filtering box 4 connected with the connecting rod 72 is further provided with a filtering baffle plate 42, one side of the filtering baffle plate 42 close to the sliding block 41 is hinged to the filtering box 4, the filtering box 4 is further provided with a locking piece 43, the locking piece 43 is set to be a bolt 73, the locking piece 43 is simultaneously inserted into the other end of the filtering baffle plate 42 and the filtering box 4, so that the filtering box 4 and the filtering baffle plate 42 are kept in a locking state during filtering, when the filtering box 4 swings in the collecting tank 9 along the arc-shaped sliding rail 92, the filtering box 4 and the filtering baffle plate 42 are unlocked by pulling out the fixing piece 8, so that the filtering baffle plate 42 is turned over from the filtering box 4, and cutting scraps in the filtering box 4 can automatically slide down from the filtering box 4 when the filtering box 4 swings.

The numerical control machine tool for machining the precision die in the embodiment of the application has the working principle that: when the numerical control machine tool performs cutting work, cutting waste liquid sequentially flows through the feeding pipe 2 from a machining station, the filter box 4 and the liquid storage tank 3 are used for performing solid-liquid separation on cutting waste, cutting liquid after cutting waste is separated is collected in the liquid storage tank 3, when the cutting waste of the filter box 4 needs to be cleaned, the movable plate 6 and the filter box 4 are pulled simultaneously, the filter box 4 is pulled out of the notch position of the liquid storage tank 3, the movable plate 6 is driven to be plugged to the discharging port position of the feeding pipe 2, the locking piece 43 of the filter baffle plate 42 and the filter box 4 is pulled out, and the cutting waste automatically slides into the collecting tank 9 through the swinging of the filter box 4 on the arc-shaped sliding rail 92, so that the separation and the collection of the cutting waste are completed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The numerical control machine tool for machining the precision mold comprises a machine tool body (1) and is characterized in that a feeding pipe (2) is communicated with a position right below a machining station of the machine tool body (1), a liquid storage tank (3) with an upper opening is arranged right below the feeding pipe (2), a filter box (4) is installed at a notch position of the liquid storage tank (3) in a sliding mode, and the filter box (4) is located right below a discharge port of the feeding pipe (2); a containing groove (5) is formed in the pipe wall, close to the discharge port, of the feeding pipe (2), and a movable plate (6) is installed at the position, communicated with the containing groove (5), of the feeding pipe (2) in a sliding mode; the digit control machine tool still includes: and the driving component (7) is used for driving the filter box (4) to slide away from the discharge hole and simultaneously driving the movable plate (6) to slide to the position of the discharge hole for blocking.

2. The numerical control machine for precision tooling according to claim 1, characterized in that said drive assembly (7) comprises: the feeding device comprises a transmission rod (71), a connecting rod (72) and a bolt (73), wherein a through hole (21) is formed in the position, close to a discharge hole, of a pipe wall of the feeding pipe (2), one end of the transmission rod (71) penetrates through the through hole (21) and extends into the feeding pipe (2) to be hinged to one end of the movable plate (6), one end of the connecting rod (72) is fixedly connected with one end of the filter box (4), and the bolt (73) is simultaneously inserted into the other end of the transmission rod (71) and the other end of the connecting rod (72).

3. The numerical control machine tool for precision mold machining according to claim 2, characterized in that a fixing part (8) is further fixedly installed at the position of the pipe wall of the feeding pipe (2), and one end of the transmission rod (71) carrying the bolt (73) is clamped to the fixing part (8).

4. The numerical control machine tool for the precision mold machining is characterized in that a plurality of cylindrical sliding blocks (41) are arranged on the filter box (4), the sliding blocks (41) are arranged in pairs in an opposite mode and fixedly assembled on the filter box (4); a first sliding rail (31) is arranged at the position of the notch of the liquid storage tank (3), and the sliding block (41) is assembled on the first sliding rail (31) in a sliding mode.

5. The numerical control machine for precision mold machining according to claim 4, characterized in that it comprises a collection tank (9), said collection tank (9) being fixedly mounted on one side of said reservoir (3) along the direction of extraction of said filtering box (4); second slide rail (91) have been seted up to the notch position of collecting vat (9), the one end of second slide rail (91) with the one end intercommunication of first slide rail (31), the other end intercommunication of second slide rail (91) has arc slide rail (92), arc slide rail (92) are followed the swing direction of rose box (4) is fixed assemble in the inner tank wall of collecting vat (9), sliding block (41) with arc slide rail (92) sliding connection.

6. The numerical control machine for precision mold machining according to claim 2, characterized in that a filtering baffle (42) is provided at one side of the filtering box (4) connected with the connecting rod (72), and the filtering baffle (42) is hinged to the filtering box (4).

7. Numerical control machine for precision tooling according to claim 6, characterized in that said filtering box (4) further comprises locking means (43) for locking said filtering baffle (42) and said filtering box (4) to each other.

8. The numerical control machine tool for precision mold machining according to claim 1, characterized in that a limiting block (61) is further disposed at one end of the movable plate (6) located in the accommodating groove (5), the limiting block (61) is fixedly mounted at an end position of the movable plate (6), and the limiting block (61) drives the movable plate (6) to slide in the accommodating groove (5).

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