CN210254987U - Automatic pressure riveting kludge of handle - Google Patents

Abstract

The utility model relates to an equipment field is riveted to the handle pressure, and an automatic pressure of handle is riveted kludge is disclosed, which comprises a frame, one side at frame top is equipped with the sideslip linkage mechanical mechanism who is used for moving the material, sideslip linkage mechanical mechanism's one side is equipped with in proper order and is located first pressure riveting terminal machine, second pressure riveting terminal machine and the third pressure riveting terminal machine in the frame, one side at frame top is equipped with the material level mechanism of going up that is located first pressure riveting terminal machine front end. This automatic pressure riveting kludge of handle, send copper sheathing vibration dish through three, three pressure rivets three spring vibration dish of terminal machine one-level, two spring assembly devices with, fold material feeding mechanism and conveyor belt's design, can carry out the spring, copper sheathing and steel ball automatic feeding in batches, automatic assembly, automatic pressure is riveted and automatic unloading, it is intelligent to have realized the equipment production of handle part, the effectual packaging efficiency who improves the handle, utilize optical fiber sensor location simultaneously, guarantee that every pay-off does not fold the material, the hourglass material phenomenon.

Description

Automatic pressure riveting kludge of handle

Technical Field

The utility model relates to an equipment field is riveted to the handle pressure specifically is an kludge is riveted to automatic pressure of handle.

Background

The handle is a common mechanical accessory, can be used to door, case etc, market demand is great, and the handle is in process of production, need each part of manual assembly line equipment, press riveting parts such as spring, copper sheathing and steel ball to the handle body in, make the packaging efficiency of handle slower, and current automatic squeeze riveter utilizes punching machine equipment and special connection mould through a strong high-pressure course of working in the twinkling of an eye, the cold extrusion according to the material of plate itself is pressed and is deformed, form a stress-free concentration inside that has certain tensile and shear strength and inlay the dot, can connect two-layer or multilayer plate of different thickness of different materials, can't be accurate carry out the squeeze riveter equipment to spring, copper sheathing and steel ball, for this reason, provide an automatic pressure riveter kludge of handle.

Disclosure of Invention

The utility model provides an automatic kludge of riveting of handle possesses the automatic advantage of riveting equipment handle of pressing of high efficiency, has solved the technical problem who mentions in the background art.

The utility model provides a following technical scheme: an automatic handle press-riveting assembling machine comprises a rack, wherein a transverse moving linkage mechanical mechanism used for moving materials is arranged on one side of the top of the rack, a first press-riveting terminal machine, a second press-riveting terminal machine and a third press-riveting terminal machine which are positioned on the rack are sequentially arranged on one side of the transverse moving linkage mechanical mechanism, a material loading mechanism positioned at the front end of the first press-riveting terminal machine is arranged on one side of the top of the rack, a first copper feeding sleeve vibrating disc, a second copper feeding sleeve vibrating disc and a third copper feeding sleeve vibrating disc are sequentially arranged on the other side of the top of the rack, the first copper feeding sleeve vibrating disc, the first press-riveting terminal machine, the second copper feeding sleeve vibrating disc, the second press-riveting terminal machine, the third copper feeding sleeve vibrating disc and the third press-riveting terminal machine are in one-to-one correspondence, a first spring assembling mechanism positioned on one side of the first press-riveting machine is arranged on the top of the rack, and a second spring assembling mechanism positioned between the second press-riveting terminal machine and the third press-riveting terminal machine is arranged on the top of the rack, the material stacking and feeding mechanisms are respectively arranged between the first copper feeding sleeve vibrating disk and the first press riveting terminal machine, between the second copper feeding sleeve vibrating disk and the second press riveting terminal machine and between the third copper feeding sleeve vibrating disk and the third press riveting terminal machine, three first steel ball vibrating disks, second steel ball vibrating disks and third steel ball vibrating disks are respectively arranged at the top of the rack, connecting pipes are respectively arranged between the first steel ball vibrating disk and the first press riveting terminal machine, between the second steel ball vibrating disk and the second press riveting terminal machine and between the third steel ball vibrating disk and the third press riveting terminal machine, a first spring vibrating disk is arranged at one side of the first copper feeding sleeve vibrating disk at the top of the rack, and a second spring disk is arranged at the top of the rack and is positioned between the second copper feeding sleeve vibrating disk and the third copper feeding sleeve vibrating disk, first spring vibration dish is to first spring assembly devices transport spring, and second spring vibration dish is to second spring assembly devices transport spring, first spring vibration dish and second spring vibration dish department all are equipped with spring feed mechanism, the one end that material loading level mechanism was kept away from to sideslip linkage mechanical mechanism is equipped with the conveyor belt who is located third pressure riveting terminal machine department.

Preferably, sideslip linkage mechanical mechanism is including taking a photograph the locating rack board in the frame, be equipped with mobilizable moving frame board on the locating rack board, moving frame board is close to first pressure and rivets terminal machine, second pressure and rivets terminal machine and third pressure and rivet one side of terminal machine and be equipped with the mechanical clamping jaw that the equidistance was arranged, one side of locating rack board is equipped with the driving motor that the driving moving frame board removed, driving motor drive lead screw rotation control moving frame board removes on the locating rack board, the bottom of locating rack board is equipped with the climbing mechanism who is located the frame.

Preferably, first pressure rivet terminal machine is including fixing the frame in the frame, still including installing riveting power device, pressure head subassembly, guide box device, pneumatic system and unloading slide on the frame, the shape and the function homogeneous phase of first pressure rivet terminal machine, second pressure rivet terminal machine and third pressure rivet terminal machine, first send copper sheathing vibration dish, second to send the shape and the function homogeneous phase of copper sheathing vibration dish and third to send the copper sheathing vibration dish, the shape and the function homogeneous phase of first steel ball vibration dish, second steel ball vibration dish and third steel ball vibration dish are the same.

Preferably, the first spring assembling mechanism and the second spring assembling mechanism are identical in shape and function, and the first spring assembling mechanism comprises a spring pressing cylinder and a spring dislocation mechanism.

Preferably, the stacking and feeding mechanism comprises a terminal machine feeding manipulator, a copper sleeve steel ball stacking mechanism, a transfer manipulator and a copper sleeve feeding direct vibration mechanism.

Preferably, material loading level mechanism is including pushing down cushion table, anti-drop mechanism and frock revolving stage, push down the top of cushion table fixed mounting in the frame, the top of pushing down the cushion table is located to the frock revolving stage, one side at frock revolving stage top is located to anti-drop mechanism, and is equipped with the work piece that is located anti-drop mechanism one side on the frock revolving stage.

Preferably, the top of frame is equipped with the man-machine operation controller that is located first copper sheathing vibration dish one side of sending, the automatically controlled component equipment of man-machine operation controller includes that switch, button, optical fiber sensor, solenoid valve, converter, speed governing system, optical fiber sensor constitute, and automatically controlled component equipment all handles through PCL to show on the display screen of man-machine operation controller

The utility model discloses possess following beneficial effect:

this automatic pressure riveting kludge of handle, send copper sheathing vibration dish through three, three pressure rivets three spring vibration dish of terminal machine one-level, two spring assembly devices with, fold material feeding mechanism and conveyor belt's design, can carry out the spring, copper sheathing and steel ball automatic feeding in batches, automatic assembly, automatic pressure is riveted and automatic unloading, handle part equipment production is intelligent has been realized, the effectual packaging efficiency who improves the handle, utilize optical fiber sensor location simultaneously, ensure that pay-off does not fold the material every time, the hourglass material phenomenon, the effectual rate of accuracy that ensures the automatic equipment of handle.

Drawings

FIG. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of a first spring vibration plate of the structure of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of a first spring assembly mechanism of the structure of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of the stacking and feeding mechanism of FIG. 1 according to the present invention;

FIG. 5 is a schematic view of the structure of FIG. 1;

FIG. 6 is a schematic view of the traverse linkage mechanism of FIG. 1 according to the present invention;

FIG. 7 is a system diagram of the human-machine operation controller of the present invention;

fig. 8 is a flow chart of the present invention.

In the figure: 1. a frame; 2. a transverse movement linkage mechanical mechanism; 201. positioning the frame plate; 202. moving the frame plate; 203. a mechanical jaw; 204. a drive motor; 205. a jacking mechanism; 31. a first press riveting terminal machine; 32. a second press riveting terminal machine; 33. a third terminal press-riveting machine; 331. a machine base; 332. riveting a power device; 333. a ram assembly; 334. a box guide device; 335. a pneumatic system; 336. A blanking slideway; 4. a conveyor belt; 51. a first copper bush feeding vibration disc; 52. a second copper bush feeding vibration disc; 53. a third copper bush feeding vibration disc; 61. a first spring assembly mechanism; 601. the spring presses the cylinder downwards; 602. a spring dislocation mechanism; 62. a second spring assembly mechanism; 7. a stacking and feeding mechanism; 701. a terminal machine feeding manipulator; 702. a copper sleeve steel ball stacking mechanism; 703. a transfer manipulator; 704. a copper sleeve feeding and direct vibrating mechanism; 8. a human-machine operation controller; 91. a first spring vibration plate; 92. a second spring vibration plate; 93. a spring material distribution mechanism; 10. a material loading mechanism; 101. pressing the buffer table; 102. an anti-drop mechanism; 103. a workpiece; 104. a tool rotating table; 111. a first steel ball vibrating disk; 112. a second steel ball vibrating disk; 113. and a third steel ball vibrating disk.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present disclosure, all other embodiments obtained by a person skilled in the art without any creative work belong to the protection scope of the present disclosure.

Referring to fig. 1-8, an automatic handle press-riveting assembly machine includes a frame 1, a transverse movement linkage mechanism 2 for moving a material is disposed on one side of the top of the frame 1, a first press-riveting terminal machine 31, a second press-riveting terminal machine 32 and a third press-riveting terminal machine 33 are sequentially disposed on one side of the transverse movement linkage mechanism 2, the first press-riveting terminal machine 31 includes a base 331 fixed on the frame 1, a riveting power device 332 mounted on the base, a pressure head assembly 333, a box guide device 334, a pneumatic system 335 and a blanking slide 336, a copper sleeve and steel balls conveyed by a stacking material feeding mechanism 7 are guided into the pressure head assembly 333 through the box guide device 334, the riveting power device 332 is started to control the action of the pressure head assembly 333, the copper sleeve and the steel balls are pressed into a handle, and are conveyed to a conveying belt 4 through the blanking slide 336, and the first press-riveting terminal machine 31, The second rivet pressing terminal machine 32 and the third rivet pressing terminal machine 33 have the same shape and function, the first copper bush feeding vibration disk 51, the second copper bush feeding vibration disk 52 and the third copper bush feeding vibration disk 53 have the same shape and function, the first steel ball vibration disk 111, the second steel ball vibration disk 112 and the third steel ball vibration disk 113 have the same shape and function, a material loading mechanism 10 located at the front end of the first rivet pressing terminal machine 31 is arranged on one side of the top of the frame 1, the material loading mechanism 10 comprises a pressing buffer table 101, an anti-falling mechanism 102 and a tool rotating table 104, the pressing buffer table 101 is fixedly installed on the top of the frame 1, the tool rotating table 104 is arranged above the pressing buffer table 101, the anti-falling mechanism 102 is arranged on one side of the top of the tool rotating table 104, a workpiece 103 located on one side of the anti-falling mechanism 102 is arranged on the tool rotating table 104, and the main function is to rotate the workpiece in place for assembly and stamping, a first copper sleeve feeding vibration disc 51, a second copper sleeve feeding vibration disc 52 and a third copper sleeve feeding vibration disc 53 are sequentially arranged on the other side of the top of the rack 1, the first copper sleeve feeding vibration disc 51 corresponds to the first rivet pressing terminal machine 31, the second copper sleeve feeding vibration disc 52 corresponds to the second rivet pressing terminal machine 32, and the third copper sleeve feeding vibration disc 53 corresponds to the third rivet pressing terminal machine 33 one by one, a first spring assembling mechanism 61 positioned on one side of the first rivet pressing terminal machine 31 is arranged on the top of the rack 1, a second spring assembling mechanism 62 positioned between the second rivet pressing terminal machine 32 and the third rivet pressing terminal machine 33 is arranged on the top of the rack 1, the first spring assembling mechanism 61 and the second spring assembling mechanism 62 are identical in shape and function, the first spring assembling mechanism 61 comprises a spring pressing cylinder 601 and a spring dislocation mechanism 602, the main function is to assemble the conveyed spring into a handle, the first copper sleeve feeding vibration disc 51, the first rivet pressing terminal machine 31 and the second rivet pressing terminal machine 31, A stacking feeding mechanism 7 is respectively arranged between the second copper sleeve feeding vibration disc 52 and the second press riveting terminal machine 32, and between the third copper sleeve feeding vibration disc 53 and the third press riveting terminal machine 33, the stacking feeding mechanism 7 comprises a terminal machine feeding manipulator 701, a copper sleeve steel ball stacking mechanism 702, a transfer manipulator 703 and a copper sleeve feeding direct vibration mechanism 704, the main functions are that the conveyed copper sleeves and steel columns are automatically stacked, and the materials are grabbed and fed onto a terminal machine punch, the top of the frame 1 is provided with three first steel ball vibration discs 111, second steel ball vibration discs 112 and third steel ball vibration discs 113 which are respectively arranged on one sides of the first copper sleeve feeding vibration disc 51, the second copper sleeve feeding vibration disc 52 and the third copper sleeve vibration disc 53, and connecting pipes are respectively arranged between the first steel ball vibration disc 111 and the first press riveting terminal machine 31, between the second steel ball vibration disc 112 and the second press riveting terminal machine 32, and between the third steel ball vibration disc 113 and the third terminal press riveting machine 33, the top of frame 1 is equipped with the first spring vibration dish 91 that is located first copper sheathing vibration dish 51 one side of sending, the top of frame 1 is equipped with and is located the second and send copper sheathing vibration dish 52 and the third to send second spring vibration dish 92 between the copper sheathing vibration dish 53, first spring vibration dish 91 is to first spring assembly devices 61 conveying spring, second spring vibration dish 92 is to second spring assembly devices 62 conveying spring, first spring vibration dish 91 and the ejection of compact of second spring vibration dish 92 all adopt the pipe transport structure, make spring branch material reliable and stable with the installation, realize stable material loading, first spring vibration dish 91 and second spring vibration dish 92 department all are equipped with spring feed mechanism 93, the one end that material loading mechanism 10 was kept away from to sideslip linkage mechanical mechanism 2 is equipped with the conveyor belt 4 that is located third pressure riveter 33 department.

The transverse-moving linkage mechanical mechanism 2 comprises a positioning frame plate 201 which is shot on the frame 1, a movable moving frame plate 202 is arranged on the positioning frame plate 201, one side of the moving frame plate 202, which is close to the first pressure riveting terminal machine 31, the second pressure riveting terminal machine 32 and the third pressure riveting terminal machine 33, is provided with mechanical clamping jaws 203 which are arranged at equal intervals, one side of the positioning frame plate 201 is provided with a driving motor 204 which drives the moving frame plate 202 to move, the driving motor 204 drives a screw rod to rotate to control the moving frame plate 202 to move on the positioning frame plate 201, the bottom of the positioning frame plate 201 is provided with a jacking mechanism 205 which is arranged on the frame 1, the screw rod is in threaded sleeve connection with the moving frame plate 202, the driving motor 204 drives the screw rod to rotate to control the moving frame plate 202 to move, the clamping jaws 203 to grasp a workpiece, the workpiece is transversely moved to the next station for processing, and the, efficiency is improved, workpiece displacement time is 2S, 1S time is needed for the press riveting tool to rotate in place, meanwhile, the steel ball and the copper bush feeding mechanism work synchronously, the steel ball and the copper bush are placed on a punch of a terminal machine, 0.5S time is needed for punching of the terminal machine, punching is completed, 1S time is needed for the press riveting tool to rotate to the original position, the whole process is 4.5S time, and energy consumption is effectively saved.

The top of frame 1 is equipped with the man-machine operation controller 8 that is located first copper sheathing vibration dish 51 one side of sending, the automatically controlled component equipment of man-machine operation controller 8 includes the switch, a button, optical fiber sensor, the solenoid valve, the converter, the governing system, optical fiber sensor constitutes, and automatically controlled component equipment all handles through PCL, and show on man-machine operation controller 8's display screen, the machine is controlled on man-machine operation controller 8's display screen to the accessible manual work, optical fiber sensor machinery is fixed a position, guarantee that the pay-off can not appear folding material at every turn and leak the material phenomenon, the system that simultaneously automatically controlled component equipment constitutes, it is intelligent to realize equipment production, the safety in production efficiency of effectual improve equipment.

When the riveting device is used, the bulk materials (the spring, the copper sleeve and the steel ball) are poured into each vibration disc correspondingly, the handle is manually placed on the material loading mechanism 10, the vibration disc vibrates the product and conveys the product, the mechanical clamping jaws 203 in the transverse linkage mechanical mechanism 2 clamp the handle to transversely move to the first spring assembling mechanism 61, the first spring vibration disc 91 conveys the short spring to the first spring assembling mechanism 61, the short spring of the first spring assembling mechanism 61 is assembled into the handle, the driving motor 204 drives the screw rod to rotate, the movable frame plate 202 drives the mechanical clamping jaws 203 to transversely move, so that the handle moves to the first riveting terminal machine 31, the first copper sleeve conveying vibration disc 51 and the first steel ball vibration disc 111 convey the copper sleeve and the steel ball to the material stacking and feeding mechanism 7, the copper sleeve and the steel ball are overlapped through the material stacking and feeding mechanism 7 and then conveyed to the first riveting terminal machine 31, and the copper sleeve and the steel ball are pressed and riveted to the upper surface of the handle, continuing to control mechanical clamping jaw 203 to drive the handle to move transversely to the second pressure riveting terminal machine 32, assembling the copper sleeve and the steel ball on the left side face of the handle, then controlling mechanical clamping jaw 203 to drive the handle to move transversely to the second spring assembling mechanism 62, conveying the long spring to the second spring assembling mechanism 62 by the second spring vibration disc 92, assembling the long spring in the handle through the second spring assembling mechanism 62, continuing to control mechanical clamping jaw 203 to drive the handle to move transversely to the third pressure riveting terminal machine 33, turning over the handle by the tool, transferring the copper sleeve and the steel ball to the other side of the handle, finally controlling mechanical clamping jaw 203 to drive the handle to move transversely to the conveying belt 4, and discharging.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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 an automatic kludge of riveting of handle, includes the frame, its characterized in that, one side at frame top is equipped with the sideslip linkage mechanical mechanism who is used for moving the material, sideslip linkage mechanical mechanism's one side is equipped with in proper order and is located first pressure riveting terminal machine, second pressure riveting terminal machine and the third pressure riveting terminal machine in the frame, one side at frame top is equipped with the material level mechanism that goes up that is located first pressure riveting terminal machine front end, the opposite side at frame top is equipped with in proper order first send copper sheathing vibration dish, second to send copper sheathing vibration dish and third to send copper sheathing vibration dish, and first send copper sheathing vibration dish and first pressure riveting terminal machine, second to send copper sheathing vibration dish and second pressure riveting terminal machine, third to send copper sheathing vibration dish and third pressure riveting terminal machine one-to-one, the top of frame is equipped with the first spring assembly machine that is located first pressure riveting terminal machine one side, the top of frame is equipped with and is located second pressure riveting machine and third pressure riveting terminal machine between second spring assembly machine The mechanism, the material stacking and feeding mechanism is respectively arranged between the first copper feeding sleeve vibrating disk and the first pressure riveting terminal machine, between the second copper feeding sleeve vibrating disk and the second pressure riveting terminal machine, and between the third copper feeding sleeve vibrating disk and the third pressure riveting terminal machine, the top of the frame is provided with three first steel ball vibrating disks, second steel ball vibrating disks and third steel ball vibrating disks which are respectively positioned at one sides of the first copper feeding sleeve vibrating disk, the second copper feeding sleeve vibrating disk and the third copper feeding sleeve vibrating disk, connecting pipes are respectively arranged between the first steel ball vibrating disk and the first pressure riveting terminal machine, between the second steel ball vibrating disk and the second pressure riveting terminal machine, and between the third steel ball vibrating disk and the third pressure riveting terminal machine, the top of the frame is provided with a first spring vibrating disk positioned at one side of the first copper feeding sleeve vibrating disk, the top of the frame is provided with a second spring vibrating disk positioned between the second copper feeding sleeve vibrating disk and the third copper feeding sleeve vibrating disk, first spring vibration dish is to first spring assembly devices transport spring, and second spring vibration dish is to second spring assembly devices transport spring, first spring vibration dish and second spring vibration dish department all are equipped with spring feed mechanism, the one end that material loading level mechanism was kept away from to sideslip linkage mechanical mechanism is equipped with the conveyor belt who is located third pressure riveting terminal machine department.

2. The automatic handle press-riveting and assembling machine according to claim 1, wherein the transverse-moving linkage mechanical mechanism comprises a positioning frame plate which is arranged on the frame, a movable moving frame plate is arranged on the positioning frame plate, mechanical clamping jaws which are arranged at equal intervals are arranged on one side of the moving frame plate, which is close to the first press-riveting terminal machine, the second press-riveting terminal machine and the third press-riveting terminal machine, a driving motor which drives the moving frame plate to move is arranged on one side of the positioning frame plate, the driving motor drives a screw rod to rotate to control the moving frame plate to move on the positioning frame plate, and a jacking mechanism which is arranged on the frame is arranged at the bottom of the positioning frame plate.

3. The automatic handle press-riveting and assembling machine according to claim 1, wherein the first press-riveting terminal machine comprises a base fixed on the frame, and further comprises a riveting power device, a pressure head assembly, a box guide device, a pneumatic system and a blanking slide rail which are installed on the base, the first press-riveting terminal machine, the second press-riveting terminal machine and the third press-riveting terminal machine are identical in shape and function, the first copper bush feeding vibration disc, the second copper bush feeding vibration disc and the third copper bush feeding vibration disc are identical in shape and function, and the first steel ball vibration disc, the second steel ball vibration disc and the third steel ball vibration disc are identical in shape and function.

4. The automatic handle riveting and assembling machine according to claim 1, wherein the first spring assembling mechanism and the second spring assembling mechanism are identical in shape and function, and the first spring assembling mechanism comprises a spring pressing cylinder and a spring dislocation mechanism.

5. The automatic handle press-riveting and assembling machine according to claim 1, wherein the stacking and feeding mechanism comprises a terminal machine feeding manipulator, a copper sleeve steel ball stacking mechanism, a transfer manipulator and a copper sleeve feeding direct vibration mechanism.

6. The automatic handle press-riveting and assembling machine according to claim 1, wherein the material loading mechanism comprises a pressing buffer table, an anti-falling mechanism and a tool rotating table, the pressing buffer table is fixedly mounted at the top of the frame, the tool rotating table is arranged above the pressing buffer table, the anti-falling mechanism is arranged on one side of the top of the tool rotating table, and a workpiece located on one side of the anti-falling mechanism is arranged on the tool rotating table.

7. The automatic handle riveting and assembling machine according to claim 1, wherein a human-machine operation controller is arranged at the top of the rack and located on one side of the first copper sleeve conveying vibration disc, electric control component devices of the human-machine operation controller comprise a switch, a button, an optical fiber sensor, an electromagnetic valve, a frequency converter, a speed regulating system and an optical fiber sensor, and the electric control component devices are processed by PCL and displayed on a display screen of the human-machine operation controller.

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