CN115488639B - Intelligent numerical control multi-position processing machine for radiating fins - Google Patents

Abstract

The invention relates to the technical field of cooling fin processing equipment, and discloses an intelligent numerical control multi-position processing machine for cooling fins, which comprises a working disc, a plurality of groups of clamping modules and a plurality of groups of clamping modules, wherein the working disc is rotatably arranged in a workbench of the processing machine; the multi-station module is distributed on the surface of the workbench and positioned at the position of the workbench surface close to the side edge of the workbench, and the intelligent numerical control multi-station processing machine for the cooling fin can realize multi-variety processing of the cooling fin through the design of the workbench surface workbench and the design of the workbench surface multi-station module, and the design of the first guide rail and the X-axis driver, the second guide rail and the Y-axis driver and the third guide rail and the Z-axis driver in the station module can regulate and control the position of the processing head, so that the processing of different positions and different processes on the surface of the cooling fin can be realized, the occupied space of the processing area of the surface of the cooling fin is small, the processing equipment is less, and the cost of the equipment for processing the surface of the cooling fin is reduced.

Description

Intelligent numerical control multi-position processing machine for radiating fins

Technical Field

The invention relates to the technical field of radiating fin processing equipment, in particular to an intelligent numerical control multi-position processing machine for radiating fins.

Background

The radiator is a device or instrument for transferring heat generated by mechanical equipment during operation so as to ensure normal operation of the mechanical equipment, the radiating fin is a heat transfer component in the radiator, the radiating fin is often integrated in the radiator, the thermal contact area is increased, and the radiating fin is required to be drilled, tapped and other processing on the surface of the radiating fin for convenient positioning and installation during production.

The existing processing of drilling, tapping, chamfering and the like on the surface of the radiating fin is completed in a production line mode, the radiating fin is required to be conveyed to equipment of a plurality of processing varieties by utilizing an automatic production line, the processing of the surface of the radiating fin is realized by utilizing a plurality of processing equipment, the whole processing line of the radiating fin is longer, required processing equipment is more, the production space occupied by the processing of the radiating fin is larger, and the cost of the processing equipment is high.

Disclosure of Invention

In order to solve the problems that the whole processing line of the existing cooling fin is longer, more processing equipment is needed, the production space occupied by the processing of the cooling fin is larger, and the cost of the processing equipment is high, the invention is realized by the following technical scheme: an intelligent numerical control multi-position processing machine for radiating fins comprises,

the working disc is rotatably arranged in the workbench of the processing machine, a plurality of groups of clamping modules are arranged on the surface of the workbench, each clamping module consists of two clamping blocks capable of horizontally moving, the two clamping blocks are internally connected with the same threaded rod piece in a threaded manner, the two clamping blocks are opposite to the threaded rod piece in the threaded connection direction, and the two clamping blocks can move in opposite directions or in opposite directions through the rotation of the threaded rod piece, so that the two clamping blocks are utilized to clamp and fix the radiating fins;

multiunit station module, distribute in the surface of workstation is located the workstation surface is close to the position of working disc side for carry out multiplex type processing to the surface of fin, including dotting chamfer, drilling, tapping, plane of flight and chamfer processing, the station module includes:

the surface of the first guide rail is provided with a base in a sliding manner, and the side surface of the first guide rail is provided with an X-axis driver for driving the base to move;

the mounting plate is slidably mounted on the surface of the base through a second guide rail, the second guide rail and the first guide rail are vertically distributed, and a Y-axis driver for driving the mounting plate to move is arranged on the surface of the second guide rail;

the support plate is fixedly arranged on the surface of the mounting plate, and a guide rail III is arranged on the surface of one side, close to the working plate, of the support plate;

the processing head is arranged on the surface of the guide rail III, which is close to one side of the working disc, in a sliding manner, and a Z-axis driver for driving the processing head to move is arranged in the guide rail III.

Further, the station modules are seven groups, and the seven groups of station modules are distributed on the outer side of the working disc in an octant mode.

Further, seven processing heads in the station module comprise a dotting chamfering machine head, a drilling machine head, a tapping machine head, a plane flying machine head and a chamfering machine head, wherein the drilling machine head and the tapping machine head are respectively provided with two groups and are respectively used for dotting chamfering, drilling, tapping, plane flying and chamfering machining of the surface of the radiating fin.

Further, along the rotation direction of the working disc, the distribution sequence of the processing heads sequentially comprises a dotting chamfering machine head, a drilling machine head, a tapping machine head, a plane machine head and a chamfering machine head.

Further, the X-axis driver, the Y-axis driver and the Z-axis driver are telescopic cylinders.

Further, a water outlet pipe is arranged on one side, close to the guide rail III, of the lower portion of the machining head, the water outlet pipe is installed in the mounting plate, the water outlet end of the water outlet pipe points to the surface of the working disc and is used for radiating the machining end of the machining head and conveying scraps generated by machining.

Further, the surface of the working disc is provided with a plurality of guide discs, the guide discs correspond to the station modules, the guide discs extend obliquely downwards to the center direction of the working disc along the side edges of the working disc and are used for guiding cutting fluid, one side, away from the outer side edges of the working disc, of the guide discs is provided with an annular throttling groove, and the cross section of the throttling groove is concave and used for collecting chips.

Further, the surface of the flow guide disc is provided with a chip collecting groove, and the surface of the flow guide disc extends downwards obliquely from two side edges in the width direction of the chip collecting groove to the chip collecting groove for collecting chips.

Further, the surface of workstation is equipped with control center, control center inside includes:

the programming system: the device is used for programming and controlling the working operation of the processing heads in the plurality of groups of processing modules;

parameter setting module: the processing parameters of the cooling fin are set through the touch screen on the surface of the control center, and the parameter setting module is in digital communication connection with the programming system;

and (3) a PLC controller: the system is electrically connected with the programming system and used for controlling the drivers in the multiple groups of station modules, and is electrically connected with driving equipment of the working disc and used for controlling the rotation of the working disc.

Further, the driver in the station module comprises a displacement driver and a running driver for driving the processing head to operate, and the displacement driver comprises an X-axis driver, a Y-axis driver and a Z-axis driver.

Compared with the prior art, the invention has the following beneficial effects:

1. this fin intelligent numerical control multiposition processing machine through the design of workstation surface working plate and the design of workstation surface multiunit station module, can realize the multiplex variety processing to the fin, and the design of guide rail one and X axle driver, guide rail two and Y axle driver and guide rail three and Z axle driver in the station module can regulate and control the position of processing head to can realize carrying out the processing of different positions and different technologies to the surface of fin, fin surface machining area occupation space is little, and processing equipment is few, is favorable to reducing the cost of fin surface machining equipment.

2. This fin intelligent numerical control multiposition processing machine, through the design of flow guide plate and throttling groove and the design of flow guide plate surface collection bits groove, be convenient for retrieve the cutting fluid, be convenient for collect the piece that processing produced simultaneously.

Drawings

FIG. 1 is a top view of a fin processing apparatus according to the present invention;

FIG. 2 is a top view of a station die set structure of the invention;

FIG. 3 is a side view of a station die set structure of the invention;

FIG. 4 is a side view of a second embodiment of the station die set of the present invention;

FIG. 5 is a schematic view of the surface structure of a working disk according to the present invention;

FIG. 6 is a schematic view of a baffle structure according to the present invention;

FIG. 7 is a schematic diagram of a cross-sectional structure of a throttle slot according to the present invention;

FIG. 8 is a schematic view of a clamping module structure according to the present invention;

FIG. 9 is a flow chart of a fin processing apparatus system of the present invention;

FIG. 10 is a flow chart of a second embodiment of a system for manufacturing a heat sink.

In the figure: 1. a work table; 2. a working plate; 3. clamping the module; 4. a station module; 41. a first guide rail; 411. an X-axis driver; 42. a base; 421. a mounting plate; 43. a second guide rail; 431. a Y-axis driver; 44. a support plate; 441. a guide rail III; 442. a Z-axis driver; 5. a processing head; 6. a water outlet pipe; 7. a deflector disc; 71. a chip collecting groove; 8. and a throttling groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The radiator is a device or instrument for transferring heat generated by mechanical equipment during operation so as to ensure normal operation of the mechanical equipment, the radiating fin is a heat transfer component in the radiator, the radiating fin is often integrated in the radiator, the thermal contact area is increased, and the radiating fin is required to be drilled, tapped and other processing on the surface of the radiating fin for convenient positioning and installation during production.

The embodiment of the intelligent numerical control multi-position processing machine for the cooling fin is as follows:

embodiment one:

referring to fig. 1-10, an intelligent numerically controlled multi-position processing machine for cooling fins comprises,

the working disc 2 is rotatably arranged in the working table 1 of the processing machine, a plurality of groups of clamping modules 3 are arranged on the surface of the working table 1, the clamping modules 3 are composed of two clamping blocks capable of horizontally moving, the inner threads of the two clamping blocks are connected with the same threaded rod piece, the two clamping blocks are opposite to the threaded connection direction of the threaded rod piece, and the two clamping blocks can be moved in opposite directions or reversely through the rotation of the threaded rod piece, so that the two clamping blocks are utilized to clamp and fix the radiating fin;

multiunit station module 4 distributes on the surface of workstation 1, is located the position that workstation 1 surface is close to the 2 sides of working disk for carry out multiplex type processing to the surface of fin, including dotting chamfer, drilling, tapping, plane and chamfer processing, station module 4 includes:

the first guide rail 41, the surface of the first guide rail 41 is slidably provided with a base 42, and the side surface of the first guide rail 41 is provided with an X-axis driver 411 for driving the base 42 to move; the mounting plate 421 is slidably mounted on the surface of the base 42 through a second guide rail 43, the second guide rail 43 is vertically distributed with the first guide rail 41, and a Y-axis driver 431 for driving the mounting plate 421 to move is arranged on the surface of the second guide rail 43.

The support plate 44 is fixedly arranged on the surface of the mounting plate 421, and a guide rail III 441 is arranged on the surface of the support plate 44, which is close to one side of the working plate 2; the processing head 5 is arranged on the surface of the guide rail III 441, which is close to one side of the working disc 2, in a sliding way, a Z-axis driver 442 for driving the processing head 5 to move is arranged in the guide rail III 441, and the X-axis driver 411, the Y-axis driver 431 and the Z-axis driver 442 are telescopic cylinders.

The surface of workstation 1 is equipped with control center, and control center is inside to be included: the programming system: the programming control is used for programming the working operation of the processing heads 5 in the plurality of groups of processing modules 4; parameter setting module: the processing parameters of the radiating fins are set through a touch screen on the surface of the control center, and the parameter setting module is in digital communication connection with the programming system; and (3) a PLC controller: the device is electrically connected with a programming system and used for controlling drivers in the multiple groups of station modules 4 and is electrically connected with driving equipment of the working disc 2 and used for controlling the rotation of the working disc 2.

The drivers in the station module 4 include a displacement driver including an X-axis driver 411, a Y-axis driver 431, and a Z-axis driver 442 for driving the operation of the processing head 5.

Embodiment two:

referring to fig. 1-10, an intelligent numerically controlled multi-position processing machine for cooling fins comprises,

the working disc 2 is rotatably arranged in the working table 1 of the processing machine, a plurality of groups of clamping modules 3 are arranged on the surface of the working table 1, each clamping module 3 is composed of two clamping blocks capable of horizontally moving, the inner threads of the two clamping blocks are connected with one threaded rod piece, the two clamping blocks are opposite to the threaded connection direction of the threaded rod piece, and the two clamping blocks can move in opposite directions or in opposite directions through the rotation of the threaded rod piece, so that the two clamping blocks are utilized to clamp and fix the radiating fin.

Multiunit station module 4 distributes on the surface of workstation 1, is located the position that workstation 1 surface is close to the 2 sides of working disk for carry out multiplex type processing to the surface of fin, including dotting chamfer, drilling, tapping, plane and chamfer processing, station module 4 includes:

the first guide rail 41, the surface of the first guide rail 41 is slidably provided with a base 42, and the side surface of the first guide rail 41 is provided with an X-axis driver 411 for driving the base 42 to move; the mounting plate 421 is slidably mounted on the surface of the base 42 through a second guide rail 43, the second guide rail 43 and the first guide rail 41 are vertically distributed, and a Y-axis driver 431 for driving the mounting plate 421 to move is arranged on the surface of the second guide rail 43; the support plate 44 is fixedly arranged on the surface of the mounting plate 421, and the surface of the support plate 44, which is close to one side of the working plate 2, is provided with a guide rail III 441.

The processing head 5 is arranged on the surface of the guide rail three 441, which is close to one side of the working disc 2, a Z-axis driver 442 used for driving the processing head 5 to move is arranged in the guide rail three 441, the seven groups of station modules 4 are arranged on the outer side of the working disc 2 in an eight-division mode, the processing heads 5 in the seven groups of station modules 4 comprise a dotting chamfering machine head, a drilling machine head, a tapping machine head, a plane machine head and a chamfering machine head, wherein the drilling machine head and the tapping machine head are respectively provided with two groups for dotting chamfering, drilling, tapping, plane and R-angle processing on the surface of a radiating fin, and the distribution sequence of the processing heads 5 is sequentially a dotting chamfering machine head, a drilling machine head, a tapping machine head, a plane machine head and a chamfering machine head along the rotating direction of the working disc 2.

Embodiment III:

referring to fig. 1-10, an intelligent numerically controlled multi-position processing machine for cooling fins comprises,

the working disc 2 is rotatably arranged in the working table 1 of the processing machine, a plurality of groups of clamping modules 3 are arranged on the surface of the working table 1, each clamping module 3 is composed of two clamping blocks capable of horizontally moving, the inner threads of the two clamping blocks are connected with one threaded rod piece, the two clamping blocks are opposite to the threaded connection direction of the threaded rod piece, and the two clamping blocks can move in opposite directions or in opposite directions through the rotation of the threaded rod piece, so that the two clamping blocks are utilized to clamp and fix the radiating fin.

Multiunit station module 4 distributes on the surface of workstation 1, is located the position that workstation 1 surface is close to the 2 sides of working disk for carry out multiplex type processing to the surface of fin, including dotting chamfer, drilling, tapping, plane and chamfer processing, station module 4 includes:

the first guide rail 41, the surface of the first guide rail 41 is slidably provided with a base 42, and the side surface of the first guide rail 41 is provided with an X-axis driver 411 for driving the base 42 to move; the mounting plate 421 is slidably mounted on the surface of the base 42 through a second guide rail 43, the second guide rail 43 and the first guide rail 41 are vertically distributed, and a Y-axis driver 431 for driving the mounting plate 421 to move is arranged on the surface of the second guide rail 43; the support plate 44 is fixedly arranged on the surface of the mounting plate 421, and the surface of the support plate 44, which is close to one side of the working plate 2, is provided with a guide rail III 441.

The processing head 5 is arranged on the surface of the guide rail three 441, which is close to one side of the working disc 2, in a sliding way up and down, and a Z-axis driver 442 for driving the processing head 5 to move is arranged in the guide rail three 441.

One side that is close to guide rail three 441 of processing head 5 lower part is equipped with outlet pipe 6, and outlet pipe 6 installs in the inside of mounting panel 421, and the water outlet end of outlet pipe 6 points to the surface of working dish 2 for dispel the heat to the processing end of processing head 5, carry the piece that produces processing simultaneously.

The surface of working dish 2 is equipped with a plurality of water conservancy diversion dishes 7, a plurality of water conservancy diversion dishes 7 are corresponding with a plurality of station module 4, water conservancy diversion dish 7 is along the side of working dish 2 to the central direction slant downwardly extending of working dish 2 for guide to the cutting fluid, one side that water conservancy diversion dish 7 kept away from the outside limit of working dish 2 is equipped with annular throttling groove 8, the cross section of throttling groove 8 is the spill for the collection of piece, chip collection groove 71 has been seted up on the surface of water conservancy diversion dish 7, the surface of water conservancy diversion dish 7 is followed chip collection groove 71 width direction on both sides side and is upwards extended to chip collection groove 71's direction slant for collect the piece, chip collection groove 71 and the inside of throttling groove 8 all are equipped with the filter screen, the lower part is equipped with the collecting box.

The working principle of the processing machine for processing the radiating fin is utilized:

firstly, a radiating fin to be processed is placed on the surface of a working disc 2, the radiating fin is fixed by a clamping module 3, then processing parameters of the radiating fin are set on a touch screen of a control center by a parameter setting module, the processing parameters comprise processing hole position, processing hole position quantity and hole position chamfer angle, after the setting of the processing parameters is completed, the control center is used for starting the equipment, at the moment, the working disc 2 starts to rotate, and drives the radiating fin to move, so that the radiating fin moves to the position of a first station module 4.

At this time, the program system transmits information to the PLC controller according to the processing parameters set by the parameter setting module, the PLC controller controls the driver in the first station module 4, the X-axis driver 411 can drive the mounting plate 421 to move, thereby driving the processing head 5 to move on the X-axis, the Y-axis driver 431 can drive the support plate 44 to move on the Y-axis, thereby driving the processing head 5 to move on the Y-axis, the Z-axis driver 442 can drive the processing head 5 to move on the Z-axis, and the PLC controller controls the displacement driver in the first station module 4 to regulate and control the position of the processing head 5, and the operation of the processing head 5 is controlled by the operation driver, so that the surface of the cooling fin is processed by the processing head 5.

According to the rotation direction of the working disc 2, the radiating fins can be sequentially subjected to dotting chamfering, drilling, tapping, milling plane and chamfering, and meanwhile, according to the machining requirements of the radiating fins, the machining parameters of the radiating fins can be set through the parameter setting module, and at the moment, the radiating fins can be machined by utilizing the machining heads 5 in the corresponding station modules 4 under the control of the PLC through the rotation of the working disc 2.

When the processing head 5 is used for processing the radiating fin, the cutting fluid is sprayed to the processing position of the processing head 5 through the water outlet pipe 6, when the temperature of the processing head 5 is reduced, the chips generated by processing can be conveyed into the guide disc 7, the cutting fluid containing the chips flows into the chip collecting groove 71 through the guide disc 7, and part of the cutting fluid enters the throttling groove 8 through the guide disc 7, so that the chips are collected by the chip collecting groove 71 and the throttling groove 8.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a fin intelligent numerical control multiposition processing machine, includes workstation (1) and working disc (2), its characterized in that still includes:

multiunit station module (4), distribute in the surface of workstation (1), be located the position that workstation (1) surface is close to working disc (2) side, station module (4) have seven groups, seven groups the station module is the octant evenly distributed in the outside of working disc (2), station module (4) include:

the X-axis driving device comprises a first guide rail (41), wherein a base (42) is slidably arranged on the surface of the first guide rail (41), and an X-axis driver (411) for driving the base (42) to move is arranged on the side surface of the first guide rail (41);

the mounting plate (421) is slidably mounted on the surface of the base (42) through a second guide rail (43), the second guide rail (43) and the first guide rail (41) are vertically distributed, and a Y-axis driver (431) for driving the mounting plate (421) to move is arranged on the surface of the second guide rail (43);

the support plate (44) is fixedly arranged on the surface of the mounting plate (421), and a guide rail III (441) is arranged on the surface, close to one side of the working plate (2), of the support plate (44);

the machining head (5) is arranged on the surface of the guide rail III (441) close to one side of the working disc (2) in a sliding manner up and down, and a Z-axis driver (442) for driving the machining head (5) to move is arranged in the guide rail III (441);

the surface of the working disc (2) is provided with a plurality of guide discs (7), the guide discs (7) correspond to a plurality of groups of station modules (4), the guide discs (7) extend obliquely downwards along the side edges of the working disc (2) towards the center direction of the working disc (2), one side, far away from the outer side edge of the working disc (2), of the guide discs (7) is provided with an annular throttling groove (8), and the cross section of the throttling groove (8) is concave;

chip collecting grooves (71) are formed in the surface of the guide disc (7), and the surface of the guide disc (7) extends downwards obliquely from two side edges in the width direction of the chip collecting grooves (71) to the direction of the chip collecting grooves (71).

2. The intelligent numerical control multi-position processing machine for radiating fins according to claim 1, wherein the processing heads (5) in the seven groups of station modules (4) comprise a dotting chamfering head, a drilling head, a tapping head, a plane head and a chamfering head, wherein two groups of the drilling head and the tapping head are arranged.

3. The intelligent numerical control multi-position processing machine for radiating fins according to claim 2, wherein the distribution sequence of the processing heads (5) is a dotting chamfering head, a drilling head, a tapping head, a plane head and a chamfering head in sequence along the rotation direction of the working disk (2).

4. A fin intelligent numerically controlled multi-bit processor as in any of claims 1-3, wherein the X-axis drive (411), Y-axis drive (431), and Z-axis drive (442) are all telescoping cylinders.

5. A fin intelligent numerical control multi-position processing machine according to any one of claims 1-3, wherein a water outlet pipe (6) is arranged at one side of the lower part of the processing head (5) close to the guide rail III (441), the water outlet pipe (6) is installed inside the mounting plate (421), and the water outlet end of the water outlet pipe (6) points to the surface of the working disc (2).

6. A fin intelligent numerically controlled multi-bit processor as in any one of claims 1-3, wherein the surface of the table (1) is provided with a control center, the control center comprising inside:

the programming system: the device is used for programming and controlling the working operation of the processing heads (5) in the plurality of groups of station modules (4);

parameter setting module: the processing parameters of the cooling fin are set through the touch screen on the surface of the control center, and the parameter setting module is in digital communication connection with the programming system;

and (3) a PLC controller: the system is connected with the programming system by electric signals and is used for controlling the drivers in the plurality of groups of station modules (4).

7. The intelligent numerically controlled multi-position processing machine for cooling fins of claim 6, wherein the drivers in the station module (4) comprise a displacement driver and a run driver for driving the processing head (5) to operate, the displacement driver comprising an X-axis driver (411), a Y-axis driver (431) and a Z-axis driver (442).