CN212600894U - Integrated inductance terminal processing system - Google Patents

Abstract

The utility model provides an integrative inductance terminal system of processing, it is including the board, board top center department installs eight station carousels, and eight station carousels are driven rotatoryly by power component, and the subassembly is transplanted to the Y axle is installed to the board top one end in the eight station carousel outsides, and the subassembly top is transplanted to the Y axle is equipped with the X axle and gets the material subassembly, and the grinding subassembly is installed at the board top that the material subassembly output direction was got to the X axle, and swing arm unloading mechanism is installed at the board top of grinding subassembly output direction. Rational in infrastructure, excellent in use effect after this scheme of adoption.

Description

Integrated inductance terminal processing system

Technical Field

The utility model belongs to the technical field of the inductance technique and specifically relates to indicate integrative inductance terminal system of processing.

Background

The current integrative inductance product adopts the tray of fixed plate formula to carry out the inductance bearing when the grinding, adopts the straight line track to carry, and this kind of inductance is driven easily when the grinding, leads to walking the skew, influences the grinding effect, when adopting the straight line track to carry, carries the precision low, produces the deviation easily.

Disclosure of Invention

An object of the utility model is to overcome prior art not enough, provide a rational in infrastructure, excellent in use effect's integrative inductance terminal system of processing.

In order to achieve the above object, the present invention provides a technical solution: an integrated inductance terminal processing system comprises a machine table, wherein an eight-station rotary table is arranged at the center of the top of the machine table and driven to rotate by a power assembly, a Y-axis transplanting assembly is arranged at one end of the top of the machine table at the outer side of the eight-station rotary table, an X-axis material taking assembly is arranged above the Y-axis transplanting assembly, a grinding assembly is arranged at the top of the machine table in the output direction of the X-axis material taking assembly, a swing arm blanking mechanism is arranged at the top of the machine table in the output direction of the grinding assembly and comprises a blanking swing arm seat fixed at the top of the machine table, a guide rail base plate is arranged at the top of the blanking swing arm seat, a lifting guide rail is horizontally arranged on the guide rail base plate, one side of a blanking swing arm sliding plate is movably arranged on the lifting guide rail through a blanking sliding block, a piston rod of the blanking sliding table cylinder is downwards connected with a blanking sucker lifting plate, a blanking three-hole sucker seat is installed at the bottom of the blanking sucker lifting plate, and a blanking vacuum sucker is installed at the bottom of the blanking three-hole sucker seat; the blanking swing arm slide plate is characterized in that a blanking stepping motor is installed on a guide rail substrate at the other end of the front side of the blanking swing arm slide plate, a transmission shaft of the blanking stepping motor is connected with one end of the blanking swing arm, a blanking cam bearing follower is installed at the other end of the blanking swing arm, the blanking cam bearing follower is connected with a blanking follower module on the blanking swing arm slide plate, an upper dead point induction sheet is installed at the top of the blanking swing arm slide plate, and a blanking photoelectric sensor is installed at the.

The grinding assembly comprises a transverse plate fixed at the top of the machine table, a vertical column is vertically fixed at the top of the transverse plate, a grinding guide rail mounting plate is fixed on one side of the top of the vertical column, a grinding lifting guide rail is fixed on the lower portion of the grinding guide rail mounting plate along the vertical direction, a grinding sliding table cylinder is mounted at the top of the grinding guide rail mounting plate above the grinding lifting guide rail, a grinding lifting sliding plate is movably mounted on the grinding lifting guide rail, a piston rod of the grinding sliding table cylinder is downwards connected with the top of a grinding connecting plate, the bottom of the grinding connecting plate is connected with the top of the front side of the grinding lifting sliding plate, a trapezoidal plate is; and a Z-direction adjusting block is fixed on the grinding guide rail mounting plate on one side of the grinding lifting sliding plate, and a Z-direction differential head is mounted on the Z-direction adjusting block.

X axle get material subassembly get the material seat including fixing the X axle at board top, X axle gets material seat top and is fixed with X axle material loading module bottom plate, its characterized in that: install X axle linear module on the X axle material loading module bottom plate, install X axle material loading slide on the X axle linear module, X axle material loading slide cylinder is installed to X axle material loading slide lower part, install X axle vacuum pressure inductor on the X axle material loading slide of X axle slip table cylinder one side, X axle slip table cylinder piston rod is connected with X axle suction nozzle lifter plate top downwards, three hole suction nozzle seats in X axle are installed to X axle suction nozzle lifter plate bottom, X axle vacuum chuck is installed to three hole suction nozzle seat bottoms in X axle.

The Y-axis transplanting assembly comprises a Y-axis transplanting bottom plate, a Y-axis transplanting linear module, a Y-axis transplanting sliding block, an inductance face-falling grinding jig, an end limit stop and a middle limit stop, wherein the Y-axis transplanting linear module is installed on the Y-axis transplanting bottom plate, the Y-axis transplanting sliding block is installed on the Y-axis transplanting linear module, the inductance face-falling grinding jig is installed at the top of the Y-axis transplanting sliding block, a limit plate is fixed on one side of the bottom of the Y-axis transplanting sliding block, the end limit stop is installed at the end of the Y-axis transplanting bottom plate, the middle limit stop is installed in the middle of the Y-axis transplanting bottom plate, the installed end limit stop and the middle limit stop are positioned on the same side of the Y-axis transplanting bottom plate, a Y-direction adjusting clamping plate extends from the middle of the end limit stop and the middle limit stop on one side of, y is to finely tuning extension board and Y axle transplanting linear module conflict, the inductance falls a grinding tool including the vacuum suction plate, the location thin slice, the exhaust plate, the air pipe joint, wherein, the exhaust plate is hollow square, wherein be connected with the air pipe joint on the lateral wall of one side, the air pipe joint is connected with outside vacuum generator, exhaust plate fixed surface has the vacuum suction plate, the vacuum suction plate surface is equipped with the location thin slice, it has the straw to be matrix distribution in the vacuum suction plate, be equipped with the constant head tank that runs through from top to bottom on the location thin slice, the straw bottom is connected with the exhaust plate inner chamber, the straw top is connected with the constant head tank.

After the scheme is adopted, eight sets of three-cavity bottom plates and three-cavity positioning plates are uniformly distributed on the eight-station turntable, the height difference of the surfaces of the eight sets of three-cavity bottom plates, which are in contact with the integrated inductor of the product, is 0.005mm, and the station stepping motor continuously operates and drives the eight-station divider and the eight-station turntable to perform clearance type rotary motion through the diaphragm coupling; the moving-stopping ratio of the eight-station divider is 3:1, when the rotary table stops and is static, the photoelectric sensor of the external control system detects the notch of the rotary table original point induction sheet, sends out a signal, and all the parts start to synchronously act, so that the integrated inductance terminal is processed.

Drawings

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

Fig. 2 is a schematic view of the power assembly of the present invention.

Fig. 3 is a schematic view of the Y-axis transplanting assembly of the present invention.

Fig. 4 is a schematic view of the inductance surface-reducing grinding jig of the present invention.

Figure 5 is the utility model discloses a material subassembly schematic diagram is got to X axle.

Fig. 6 is a schematic view of the grinding assembly of the present invention.

Figure 7 is a side view of the grinding assembly of the present invention.

Fig. 8 is the utility model discloses a swing arm unloading mechanism schematic diagram.

Detailed Description

The present invention will be further explained with reference to the drawings, and the preferred embodiment of the present invention is: referring to fig. 1 to 8, the integrated inductance terminal processing system of this embodiment includes a machine table, an eight-station turntable 1 is installed at the center of the top of the machine table, the eight-station turntable 1 is driven by a power assembly to rotate, a Y-axis transplanting assembly is installed at one end of the top of the machine table outside the eight-station turntable 1, an X-axis material taking assembly is installed above the Y-axis transplanting assembly, a grinding assembly is installed at the top of the machine table in the output direction of the X-axis material taking assembly, a swing arm blanking mechanism is installed at the top of the machine table in the output direction of the grinding assembly, the swing arm blanking mechanism includes a blanking swing arm seat 405 fixed at the top of the machine table, a guide rail base plate 4016 is installed at the top of the blanking swing arm seat 405, a lifting guide rail 4018 is horizontally installed on the guide rail base plate 4016, one side of a blanking swing arm sliding plate 401, a blanking sliding table cylinder 4011 is installed on a blanking swing arm sliding plate 4017 below the vacuum pressure blanking sensor 4010, a piston rod of the blanking sliding table cylinder 4011 is downwards connected with a blanking sucker lifting plate 4012, a blanking three-hole sucker seat 4013 is installed at the bottom of the blanking sucker lifting plate 4012, and a blanking vacuum sucker is installed at the bottom of the blanking three-hole sucker seat 4013; install unloading step motor 4019 on the guide rail base plate 4016 of unloading swing arm slide 4017 front side other end, unloading step motor 4019's transmission shaft and unloading swing arm 402 one end are connected, unloading cam bearing follower is installed to the unloading swing arm 402 other end, unloading cam bearing follower is connected with unloading follower module 401 on the unloading swing arm slide 4017, top dead center response piece 406 is installed at unloading swing arm slide 4017 top, unloading photoelectric sensor 409 is installed at guide rail base plate 4016 top.

The grinding assembly comprises a transverse plate 305 fixed at the top of the machine table, a vertical column 306 is vertically fixed at the top of the transverse plate 305, a grinding guide rail mounting plate 301 is fixed at one side of the top of the vertical column 306, a grinding lifting guide rail 3010 is fixed at the lower part of the grinding guide rail mounting plate 301 along the vertical direction, a grinding sliding table cylinder 3011 is installed at the top of the grinding guide rail mounting plate 301 above the grinding lifting guide rail 3010, a grinding lifting sliding plate 302 is movably installed on the grinding lifting guide rail 3010, a piston rod of the grinding sliding table cylinder 3011 is downwards connected with the top of a grinding connecting plate 303, the bottom of the grinding connecting plate 303 is connected with the top of the front side of the grinding lifting sliding plate 302, a trapezoidal plate 304 is installed; a Z-direction adjusting block 307 is fixed on the grinding guide rail mounting plate 301 at one side of the grinding lifting sliding plate 302, and a Z-direction differential head 309 is mounted on the Z-direction adjusting block 307.

The X axle is got the material subassembly and is got material seat 201 including fixing the X axle at board top, and X axle is got material seat 201 top and is fixed with X axle material loading module bottom plate 2011, its characterized in that: an X-axis linear module 2012 is installed on an X-axis feeding module bottom plate 2011, an X-axis feeding sliding plate 2010 is installed on the X-axis linear module 2012, an X-axis sliding table cylinder 206 is installed on the lower portion of the X-axis feeding sliding plate 2010, an X-axis vacuum pressure sensor 205 is installed on the X-axis feeding sliding plate 2010 on one side of the X-axis sliding table cylinder 206, a piston rod of the X-axis sliding table cylinder 206 is downwards connected with the top of the X-axis suction nozzle lifting plate 207, an X-axis three-hole suction nozzle base 208 is installed at the bottom of the X-axis suction nozzle lifting plate 207, and an X-axis vacuum suction cup 209 is installed at the bottom of the.

The Y-axis transplanting assembly comprises a Y-axis transplanting bottom plate 107, a Y-axis transplanting linear module 101, a Y-axis transplanting slider 102, an inductance plane-lowering grinding jig 103, an end limit stop 104 and a middle limit stop 105, wherein the Y-axis transplanting linear module 101 is installed on the Y-axis transplanting bottom plate 107, the Y-axis transplanting slider 102 is installed on the Y-axis transplanting linear module 101, the inductance plane-lowering grinding jig 103 is installed at the top of the Y-axis transplanting slider 102, a limit plate 106 is fixed on one side of the bottom of the Y-axis transplanting slider 102, the end limit stop 104 is installed at the end of the Y-axis transplanting bottom plate 107, the middle limit stop 105 is installed at the middle part of the Y-axis transplanting bottom plate 107, the installed end limit stop 104 and the middle limit stop 105 are positioned on the same side of the Y-axis transplanting bottom plate 107, a Y-direction adjusting clamping plate 108 extends from the middle parts of the end, y is to adjusting the cardboard 108 and installing Y through Y to adjusting bolt and to finely tuning the extension board 109, Y is to finely tuning the extension board 109 and contradicting with Y axle transplanting linear module 101, inductance is fallen a grinding tool 103 including vacuum suction plate 1011, location thin slice 1012, exhaust plate 1013, the trachea joint, wherein, exhaust plate 1013 is hollow square, be connected with the trachea joint on one of them side wall, the trachea joint is connected with outside vacuum generator, exhaust plate 1013 surface mounting has vacuum suction plate 1011, vacuum suction plate 1011 surface is equipped with location thin slice 1012, it distributes straw 1016 to be the matrix in the vacuum suction plate 1011, be equipped with the constant head tank 1017 that runs through from top to bottom on the location thin slice 1012, straw 1016 bottom and exhaust plate 1013 inner chamber are connected, the straw 1016 top is connected with constant head tank 1017.

Power component is including station decollator 9, motor mount pad 7, inductor installation piece 6, wherein, inductor installation piece 6, the board top in station decollator 9 both sides is installed to motor mount pad 7, install station step motor 8 on the motor mount pad 7, install diaphragm coupling 10 on station step motor 8's the transmission shaft, diaphragm coupling 10 is connected with station decollator 9, carousel initial point response piece 5 is installed at 6 tops of inductor installation piece, 5 upper portions of carousel initial point response piece are installed and are locked 4, 4 and the contact of station decollator 9 of lock circle, eight station carousel 1 are installed at the transmission shaft top of station decollator 9, 1 edge distribution of eight station carousel has eight stations of equidistance.

The Y-axis transplanting linear module drives the inductance surface-reducing grinding jig to travel and is positioned by matching of a limit stop and a limit plate, a Y-direction fine adjustment support plate is used for fine adjustment of the position of the Y-axis transplanting linear module, so that conveying precision is guaranteed, an inductance on the inductance surface-reducing grinding jig is positioned through a positioning groove, the surface of the positioned inductance is higher than the surface of a positioning sheet, and compressed air is connected into an air pipe connector through an air pipe of a vacuum generator, so that the inner cavity of the jig generates negative pressure and adsorbs an integrated inductance product;

when the turntable is driven, an X-axis vacuum chuck of the X-axis linear module adsorbs a product on the inductance surface-reducing grinding jig and conveys the product to the position above the station; after the turntable stops, an X-axis sliding table air cylinder piston rod descends to drive an X-axis suction nozzle lifting plate, an X-axis three-hole suction nozzle base and an X-axis vacuum suction disc to descend, vacuum is released, and a product is placed in a station of the turntable; then the piston rod of the cylinder of the X-axis sliding table rises; the X-axis linear module returns to the material taking position from right to left by driving the X-axis feeding sliding plate, the X-axis sliding table cylinder descends to suck the product, a new cycle is started,

after the turntable stops, a piston rod of a grinding sliding table cylinder descends, and a grinding lifting sliding plate and a trapezoidal plate descend through a grinding connecting plate; the grinding lifting guide rail guides the grinding lifting sliding plate, a lower limiting flexible adjusting screw is arranged in a grinding sliding table cylinder as required, and the Z-direction differential head accurately adjusts the height position; the diamond grinding plate is floating (can float up and down in the clamping groove of the grinding plate), the bottom of the diamond grinding plate is in contact grinding with a product in a working position,

when the turntable is in transmission, the blanking stepping motor drives the blanking swing arm and the blanking cam bearing follower to enable the blanking follower module, the blanking swing arm sliding plate and the blanking sliding table cylinder to move from right to left to a material taking position; after the turntable stops, a cylinder piston rod of the blanking sliding table extends and descends to synchronously drive a blanking suction nozzle lifting plate, a blanking three-hole suction nozzle seat and a blanking vacuum sucker to descend, and vacuum is started, the blanking vacuum sucker adsorbs a product, and the cylinder piston rod of the blanking sliding table contracts to drive the product to ascend; the blanking stepping motor reversely drives the blanking swing arm and the blanking cam bearing follower to enable the blanking follower module, the blanking swing arm sliding plate and the blanking sliding table cylinder to move from left to right and return to the original position, and the vacuum release product is closed.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that all the changes made according to the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims (4)

1. Integrative inductance terminal system of processing, it is including the board, and board top center department installs eight station carousel (1), its characterized in that: eight station carousel (1) are driven by power component to rotate, and the subassembly is transplanted to the Y axle is installed to the board top one end in eight station carousel (1) outsides, and Y axle is transplanted the subassembly top and is equipped with X axle and gets the material subassembly, and the board top of X axle getting the material subassembly output direction installs the grinding subassembly, and swing arm unloading mechanism is installed at the board top of grinding subassembly output direction, swing arm unloading mechanism including the unloading swing arm seat (405) of fixing at the board top, guide rail base plate (4016) are installed at unloading swing arm seat (405) top, are the horizontal installation on guide rail base plate (4016) and have lift guide rail (4018), unloading swing arm slide (4017) one side is through unloading slider movable mounting on lift guide rail (4018), and vacuum pressure unloading sensor (4010) are installed on unloading swing arm slide (4017) other end upper portion, install unloading slip table (4011) on unloading swing arm slide (4017) of vacuum pressure unloading sensor (, a piston rod of the blanking sliding table cylinder (4011) is downwards connected with a blanking sucker lifting plate (4012), a blanking three-hole sucker seat (4013) is installed at the bottom of the blanking sucker lifting plate (4012), and a blanking vacuum sucker is installed at the bottom of the blanking three-hole sucker seat (4013); install unloading step motor (4019) on guide rail base plate (4016) of unloading swing arm slide (4017) front side other end, the transmission shaft and unloading swing arm (402) one end of unloading step motor (4019) are connected, unloading cam bearing follower is installed to unloading swing arm (402) other end, unloading cam bearing follower is connected with unloading follower module (401) on unloading swing arm slide (4017), top dead center response piece (406) are installed at unloading swing arm slide (4017) top, unloading photoelectric sensor (409) are installed at guide rail base plate (4016) top.

2. The integrated inductive termination processing system of claim 1, wherein: the grinding assembly comprises a transverse plate (305) fixed at the top of the machine table, a vertical column (306) is vertically fixed at the top of the transverse plate (305), a grinding guide rail mounting plate (301) is fixed at one side of the top of the vertical column (306), a grinding lifting guide rail (3010) is fixed at the lower part of the grinding guide rail mounting plate (301) along the vertical direction, a grinding sliding table cylinder (3011) is installed at the top of the grinding guide rail mounting plate (301) above the grinding lifting guide rail (3010), a grinding lifting sliding plate (302) is movably installed on the grinding lifting guide rail (3010), a piston rod of the grinding sliding table cylinder (3011) is downwards connected with the top of a grinding connecting plate (303), the bottom of the grinding connecting plate (303) is connected with the top of the front side of the grinding lifting sliding plate (302), a trapezoidal plate (304) is installed at the lower part of; a Z-direction adjusting block (307) is fixed on the grinding guide rail mounting plate (301) on one side of the grinding lifting sliding plate (302), and a Z-direction differential head (309) is mounted on the Z-direction adjusting block (307).

3. The integrated inductive termination processing system of claim 1, wherein: the X-axis material taking assembly comprises an X-axis material taking seat (201) fixed at the top of a machine table, an X-axis material taking seat (201) top is fixed with an X-axis feeding module bottom plate (2011), an X-axis linear module (2012) is installed on the X-axis feeding module bottom plate (2011), an X-axis feeding sliding plate (2010) is installed on the X-axis linear module (2012), an X-axis sliding table cylinder (206) is installed on the lower portion of the X-axis feeding sliding plate (2010), an X-axis vacuum pressure sensor (205) is installed on the X-axis feeding sliding plate (2010) on one side of the X-axis sliding table cylinder (206), a piston rod of the X-axis sliding table cylinder (206) is downwards connected with the top of an X-axis suction nozzle lifting plate (207), an X-axis three-hole suction nozzle seat (208) is installed at the bottom of the X-axis three-hole suction nozzle seat (208), and an.

4. The integrated inductive termination processing system of claim 1, wherein: the Y-axis transplanting assembly comprises a Y-axis transplanting bottom plate (107), a Y-axis transplanting linear module (101), a Y-axis transplanting slider (102), an inductance plane-reducing grinding jig (103), an end limiting stop (104) and a middle limiting stop (105), wherein the Y-axis transplanting linear module (101) is installed on the Y-axis transplanting bottom plate (107), the Y-axis transplanting slider (102) is installed on the Y-axis transplanting linear module (101), the inductance plane-reducing grinding jig (103) is installed at the top of the Y-axis transplanting slider (102), a limiting plate (106) is fixed on one side of the bottom of the Y-axis transplanting slider (102), the end limiting stop (104) is installed at the end of the Y-axis transplanting bottom plate (107), the middle limiting stop (105) is installed in the middle of the Y-axis transplanting bottom plate (107), the installed end limiting stop (104) and the middle limiting stop (105) are positioned on the same side of the Y-, an end limit stop (104) at one side of the Y-axis transplanting linear module (101) and the middle of a middle limit stop (105) extend to form a Y-direction adjusting clamping plate (108), a Y-direction fine adjusting support plate (109) is installed on the Y-direction adjusting clamping plate (108) through a Y-direction adjusting bolt, the Y-direction fine adjusting support plate (109) is abutted against the Y-axis transplanting linear module (101), the inductance face-falling grinding jig (103) comprises a vacuum suction plate (1011), a positioning sheet (1012), an air suction plate (1013) and an air pipe connector, wherein the air suction plate (1013) is hollow and square, the air pipe connector is connected to one side wall of the air suction plate and is connected with an external vacuum generator, the surface of the air suction plate (1013) is fixedly provided with a vacuum suction plate (1011), the surface of the vacuum suction plate (1011) is provided with the positioning sheet (1016), suction pipes (1016) are distributed in the vacuum suction plate (1011) in a matrix manner, the bottom of the suction pipe (1016) is connected with the inner cavity of the air suction plate (1013), and the top of the suction pipe (1016) is connected with the positioning groove (1017).

Images