CN211387631U - Material conveying mechanism of full-automatic assembly machine for safety socket - Google Patents
Material conveying mechanism of full-automatic assembly machine for safety socket Download PDFInfo
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- CN211387631U CN211387631U CN201921970605.8U CN201921970605U CN211387631U CN 211387631 U CN211387631 U CN 211387631U CN 201921970605 U CN201921970605 U CN 201921970605U CN 211387631 U CN211387631 U CN 211387631U
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Abstract
The utility model discloses a material conveying mechanism of a full-automatic assembly machine of a safety socket, which comprises a base and a conveying channel arranged on the base; the first reciprocating cylinder is fixedly arranged on the base and used for controlling the socket metal die to move on the first transverse conveying channel; the second reciprocating cylinder is fixedly arranged on the base and used for controlling the socket metal die to move on the second transverse conveying channel; the pushing block is arranged on the linkage shaft in a sliding mode, and the linkage shaft is connected to the first reciprocating cylinder and the second reciprocating cylinder and used for pushing the socket metal mold to move on the conveying channel. The utility model discloses, realized the automated control of fortune material mechanism, promoted the speed of transporting to socket metal mold, and then promoted socket metal mold's assembly efficiency, reduced manual operation error's problem, promoted the qualification rate of insurance socket product, practice thrift manufacturing cost, promote user experience.
Description
Technical Field
The utility model relates to a socket automatic production technical field, concretely relates to fortune material mechanism of full automatic assembly machine of insurance socket.
Background
Along with the continuous development and progress of the society, electronic products are rapidly developed, and meanwhile, higher requirements are provided for the quality of the electronic products.
In the prior art, in the assembly manufacturing process of the socket, generally, the plug wires on the socket body are flattened manually by a worker, then the plug wire rows are sleeved on the plug wires manually, then the terminals are riveted to the small wires one by the aid of the riveting device which is simple in manual operation, and then the conduction terminals are assembled into an inner frame manually, so that the following problems are solved:
(1) the socket production efficiency is low due to a pure manual assembly mode, and the finished product qualification rate is low due to high manual operation error rate;
(2) in order to improve the production efficiency, some enterprises can employ a large number of workers for assembly, and the labor cost of the enterprises is greatly increased.
In view of this, it is urgently needed to improve the production of the existing safety socket so as to improve the production efficiency, ensure the qualification rate and reduce the production cost.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that transport speed in the current insurance socket production process is low, production efficiency is low, problem that manufacturing cost is high.
In order to solve the technical problem, the utility model provides a technical scheme who adopts provides a fortune material mechanism of full automatic assembly machine of insurance socket, including the base, still include:
the conveying channel is arranged on the base and is formed by serially and circularly connecting a first transverse conveying channel, a first longitudinal conveying channel, a second transverse conveying channel, a riveting channel, a conveying belt and a second longitudinal conveying channel;
the first reciprocating cylinder is fixedly arranged on the base and used for controlling the socket metal die to move on the first transverse conveying channel;
the second reciprocating cylinder is fixedly arranged on the base and used for controlling the socket metal die to move on the second transverse conveying channel;
and the pushing block is arranged on a linkage shaft in a sliding manner, and the linkage shaft is connected to the first reciprocating cylinder and the second reciprocating cylinder and is used for pushing the socket metal mold to move on the conveying channel.
In the above technical solution, the push block includes:
the slope-shaped fixture block is arranged at the top of the pushing block;
and the spring is arranged in the pushing block, and the top end of the spring is connected to the slope-shaped fixture block.
In the above technical scheme, one end of the first transverse conveying channel is communicated with the second longitudinal conveying channel, the other end of the first transverse conveying channel is communicated with the first longitudinal conveying channel, the tail end of the second transverse conveying channel is connected with the riveting channel, and the tail end of the riveting channel is communicated with the conveyor belt.
In the above technical scheme, a first longitudinal pushing cylinder is arranged at the head end of the first longitudinal conveying channel and used for pushing the socket metal mold to the tail end of the first longitudinal conveying channel.
In the above technical scheme, the end of the first longitudinal conveying passage is provided with a double-displacement cylinder, and the front end of the double-displacement cylinder is provided with a front fork.
In the technical scheme, the base comprises a power line cabinet body and a plurality of mounting plates, the mounting plates are fixed on the upper surface of the power line cabinet body, and the two adjacent mounting plates are connected through a connecting fixing block.
In the technical scheme, the conveyor belt transmits power through the conveyor belt motor, the tail end of the conveyor belt is provided with a second longitudinal pushing cylinder, and the second longitudinal pushing cylinder is used for pushing the socket metal mold to the second longitudinal conveying channel.
In the technical scheme, the tail end of the conveyor belt is provided with a stop block for preventing the socket metal mold from falling.
In the above technical scheme, a transverse pushing cylinder for pushing the socket metal mold to the first transverse conveying passage is arranged between the second longitudinal conveying passage and the first transverse conveying passage.
In the above technical solution, the socket metal molds on the riveting channel are mutually squeezed and moved after being stacked side by side.
Compared with the prior art, the utility model relates to a material conveying mechanism of a full-automatic assembly machine of a safety socket, the first transverse conveying channel and the second transverse conveying channel are respectively controlled by arranging the first reciprocating cylinder and the second reciprocating cylinder, and the socket metal die is driven by the pushing block to move on the first reciprocating cylinder and the second reciprocating cylinder, after the pushing block finishes pushing the socket metal mold once, the first reciprocating cylinder or the second reciprocating cylinder restores the position and pushes the next socket metal mold, the socket metal mold can be automatically conveyed on the conveying channel, thereby realizing the automatic control of the material conveying mechanism, improving the conveying speed of the socket metal mold, and then promoted socket metal mold's assembly efficiency, reduced manual operation error's problem, promoted the qualification rate of insurance socket product, practiced thrift manufacturing cost, promoted user experience.
Drawings
Fig. 1 is a perspective view of a full-automatic assembly machine for a safety socket of the present invention;
fig. 2 is a perspective view of another view angle of the fully automatic assembly machine for a safety socket according to the present invention;
fig. 3 is a perspective view of another view angle of the fully automatic assembly machine for safety sockets according to the present invention;
fig. 4 is a perspective view of another view angle of the fully automatic assembly machine for safety sockets according to the present invention;
fig. 5 is a perspective view of a discharging device of the full-automatic assembly machine for safety sockets according to the present invention.
Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 5 is:
100, 101, a power cord cabinet body, 102, a mounting plate, 103, a fixing block, 200, a conveying channel, 201, a first transverse conveying channel, 202, a first longitudinal conveying channel, 203, a second transverse conveying channel, 204, a riveting channel, 205, 206, a second longitudinal conveying channel, 207, a first reciprocating cylinder, 208, a second reciprocating cylinder, 209 pushing blocks, 210, 211-shaped slope-shaped fixing blocks, 212 double-displacement cylinders, 213 front forks, 214 stoppers, 215 transverse pushing cylinders, 216, a first longitudinal pushing cylinder, 217, a second longitudinal pushing cylinder, 300 feeding devices, 301, inner terminal feeding devices, 302, outer terminal feeding devices, 303, feeding vibration discs, 304, 305 feeding grooves, 306 conveying working positions, 307 feeding cylinders, 308 material clamps, 309 descending cylinders, 310 clamping cylinders, 311 advancing cylinders, 312 rotating cylinders, 313 flattening devices, 314 proximity switches, 315 red copper inductors and 316 vibration disc mounting positions, the automatic riveting device comprises a 400 discharging device, a 401 discharging air cylinder, a 402 discharging frame, a 403 discharging clamp, a 404 demolding air cylinder, a 405 on-off detection table, 406 classification slideways, 407 classification discharging air cylinders, 408 on-off detection components, 409 riveting devices, 410 riveting plates and 411 detection devices.
Detailed Description
The utility model provides a fortune material mechanism of full automatic assembly machine of insurance socket can realize improving production efficiency, guarantees the qualification rate, reduction in production cost. The invention is described in detail below with reference to the drawings and the detailed description.
As shown in fig. 1 to 5, the fully automatic assembly machine for a safety socket provided by the present invention includes a base 100, and further includes:
the material conveying mechanism is fixedly arranged on the base 100, and a continuous uninterrupted conveying channel 200 is formed by sequentially connecting a first transverse conveying channel 201, a first longitudinal conveying channel 202, a second transverse conveying channel 203, a riveting channel 204, a conveyor belt 205 and a second longitudinal conveying channel 206 in series and is used for conveying the socket metal mold;
the feeding mechanism is divided into an inner terminal feeding device 301 and an outer terminal feeding device 302, wherein the inner terminal feeding device 301 is arranged on the outer side of the first transverse conveying channel 201 and used for assembling an inner terminal of the safety socket; an outer terminal feeding device 302 arranged outside the second transverse conveying channel 203 and used for assembling an outer terminal of the safety socket;
the discharging mechanism is arranged at the tail end of the riveting channel 204 and is used for detecting, classifying and discharging the assembled safety socket;
the socket metal mold is moved to a first transverse conveying channel 201 through a material conveying mechanism, an inner terminal is placed on the socket metal mold through an inner terminal feeding device 301 and then enters a first longitudinal conveying channel, a socket plastic shell is sleeved outside the socket metal mold and enters a second transverse conveying channel, an outer terminal is placed outside the socket plastic shell through an outer terminal feeding device 302, a finished product is riveted in a riveting channel 204 after the assembly and the flattening are completed, and the finished product is detected, classified and unloaded through an unloading mechanism.
In this embodiment, a first reciprocating cylinder 207, fixedly disposed on the base 100, is used for controlling the socket metal mold to move on the first transverse conveying path 201; a second reciprocating cylinder 208 fixedly disposed on the base 100 for controlling the socket metal mold to move on the second transverse conveying path 203; and the pushing block 209 is arranged on the linkage shaft 210 in a sliding manner, and the linkage shaft 210 is connected to the first reciprocating cylinder 207 and the second reciprocating cylinder 208 and is used for pushing the socket metal mold to move on the transportation channel 200. Through setting up first reciprocating cylinder 207 and second reciprocating cylinder 208 and controlling first transverse transportation way 201, second transverse transportation way 203 respectively, and make its motion by promoting the piece 209 and drive socket metal mold, because the reciprocal effect of cylinder, after promoting the piece 209 and accomplishing once promotion to socket metal mold, first reciprocating cylinder 207 or second reciprocating cylinder 208 resume the position, promote next socket metal mold again, can transport socket metal mold automatically on transfer passage 200, the automated control of fortune material mechanism has been realized, the transport rate to socket metal mold has been promoted, and then the assembly efficiency of socket metal mold has been promoted, the problem of manual operation error has been reduced, the qualification rate of insurance socket product has been promoted, and the production cost is saved, promote user experience.
As shown in fig. 1 and 3, specifically, the transportation channel 200 is disposed on the base 100, and is formed by sequentially connecting a first transverse transportation channel 201, a first longitudinal transportation channel 202, a second transverse transportation channel 203, a riveting channel 204, a conveyor belt 205, and a second longitudinal transportation channel 206 in series in a surrounding manner, a socket metal mold is disposed on the first transverse transportation channel 201, a first reciprocating cylinder 207 drives a pushing block 209 to push the socket metal mold to move and reciprocate, during the reciprocating process, a plurality of socket metal molds are transported, after a series of assembly of the socket metal molds on the first transverse transportation channel 201, the socket metal molds enter the first longitudinal transportation channel 202, the socket metal molds can be stacked and extruded to move on the first longitudinal transportation channel 202 through the socket metal molds, similarly, the socket metal molds can move on the second transverse transportation channel 203 in a manner similar to that on the first transverse transportation channel 201, after the socket metal mold enters the riveting channel 204 from the second transverse conveying channel 203, the assembled safety sockets are detected and classified.
In one embodiment of the present invention, preferably, the pushing block 209 includes:
a slope-shaped fixture block 211 arranged at the top of the pushing block 209;
and the spring is arranged in the pushing block 209, and the top end of the spring is connected to the slope-shaped fixture block 211.
In this embodiment, by providing a ramp-shaped latch 211 at the top of the pusher 209, and providing a spring below the ramp-shaped latch 211, when the first reciprocating cylinder 207 or the second reciprocating cylinder 208 reciprocates, the slope-shaped fixture block 211 above the pushing block 209 is pressed by the socket metal mold, the bulge of the slope-shaped fixture block 211 is pressed into the pushing block 209 by force, while the first reciprocating cylinder 207 or the second reciprocating cylinder 208 continues to move, the ramp-shaped latch 211 gradually rises and moves the protrusion portion thereof to latch the socket metal mold, and at this time, the first reciprocating cylinder 207 or the second reciprocating cylinder 208 moves in the opposite direction to drive the socket metal mold to move, thereby completing one-time conveying, by using the reciprocating motion of the air cylinder and the chucking structure of the pushing block 209, the equidistant conveyance of the socket metal molds in the first and second lateral conveyance paths 201 and 203 is achieved.
In one embodiment of the present invention, it is preferable that one end of the first transverse conveying path 201 is communicated with the second longitudinal conveying path 206, the other end is communicated with the first longitudinal conveying path 202, the end of the second transverse conveying path is connected with the riveting path 204, and the end of the riveting path 204 is communicated with the conveyor belt 205.
In one embodiment of the present invention, the first longitudinal conveyor run head end is preferably provided with a first longitudinal pushing cylinder 216 for pushing the socket metal mold to the end of the first longitudinal conveyor run.
In this embodiment, one end of the first transverse conveying channel 201 is connected to the second longitudinal conveying channel 206, the other end of the first transverse conveying channel is connected to the first longitudinal conveying channel 202, the end of the second transverse conveying channel is connected to the riveting channel 204, the end of the riveting channel 204 is connected to the conveyor belt 205, so that the socket metal mold can continuously move on the transportation channel 200, and the first longitudinal material pushing cylinder 216 is arranged at the head end of the first longitudinal conveying channel and used for moving the socket metal mold to the end of the first longitudinal material pushing cylinder 216 in an extruding manner.
In one embodiment of the present invention, it is preferable that the end of the first longitudinal transportation path 202 is provided with a double shift cylinder 212, and the front end of the double shift cylinder 212 is provided with a front fork 213.
In this embodiment, the receptacle metal molds can be conveyed from the first longitudinal conveyance way 202 to the second lateral conveyance way 203 by providing the double shift cylinder 212 at the end of the first longitudinal conveyance way 202 and the front fork 213 at the front end of the double shift cylinder 212.
In one embodiment of the present invention, preferably, the base 100 is composed of a power line cabinet 101 and a plurality of mounting plates 102, the mounting plates 102 are fixed on the upper surface of the power line cabinet 101, and two adjacent mounting plates 102 are connected by a connection fixing block 103.
In this embodiment, through setting up the power cord cabinet body 101 and fixing polylith mounting panel 102 at the upper surface of the power cord cabinet body 101, can avoid the exposed safety problem that causes outside of power cord, and then promoted the security and the stability of the full-automatic assembly machine of insurance socket to connect through connecting fixed block 103 between two adjacent mounting panels 102, be favorable to promoting the fastness of connecting between the adjacent mounting panel 102.
In one embodiment of the present invention, the conveyor belt 205 preferably transmits power through a motor of the conveyor belt 205, and the end of the conveyor belt 205 is provided with a second longitudinal pushing cylinder 217, and the second longitudinal pushing cylinder 217 is used for pushing the socket metal mold to the second longitudinal conveying channel 206.
In one embodiment of the present invention, a transverse pushing cylinder 215 for pushing the socket metal mold to the first transverse conveying passage 201 is preferably provided between the second longitudinal conveying passage 206 and the first transverse conveying passage 201.
In one embodiment of the present invention, it is preferable that the socket metal molds on the staking channel 204 are moved by being pressed against each other after a plurality of stacked side-by-side.
In this embodiment, the other end of the second transverse conveying channel is communicated with the conveyor belt 205 through a riveting channel 204, a plurality of socket metal molds on the riveting channel 204 are stacked side by side and then extruded and moved mutually, the conveyor belt 205 transmits power through a motor of the conveyor belt 205, a second longitudinal material pushing cylinder 217 is further arranged on the outer side of the other end of the conveyor belt 205, so that the socket metal molds enter one end of the second longitudinal conveying channel 206 one by one, and when the socket metal molds on the second longitudinal conveying channel 206 reach the other end after being stacked side by side, the socket metal molds enter one end of the first transverse conveying channel 201 through a transverse material pushing cylinder 215 on the outer side to push materials, so that the circulating uninterrupted flow operation of the socket metal molds is completed.
In one embodiment of the present invention, the end of the conveyor belt 205 is preferably provided with a stopper 214 for preventing the socket metal mold from falling.
In this embodiment, the stopper 214 is arranged at the end of the conveyor belt 205, so that the problem that the socket metal mold falls and drops is effectively solved, the safety and stability of the full-automatic assembly machine for the safety socket are improved, and the user experience is improved.
As shown in fig. 1, in an embodiment of the present invention, preferably, a loading mechanism of a full-automatic fuse socket assembling machine includes a base 100 and a loading device 300, the loading device 300 is disposed outside a transportation channel 200, is divided into an inner terminal loading device 301 and an outer terminal loading device 302, and is fixed to the base 100, and the loading device 300 further includes:
the feeding vibration disc 303 is fixed on the feeding frame 304, and the feeding frame 304 is fixed on the base 100;
the feeding groove 305 is arranged on the feeding frame 304, and the feeding vibration disc 303 conveys the terminals to a conveying work position 306 below the feeding frame 304 through the feeding groove 305;
the feeding cylinder 307 is arranged on the side surface of the conveying working position 306 and used for pushing a terminal to the position below the material clamp 308, the material clamp 308 is fixed on the descending cylinder 309, and the descending cylinder 309 is fixed on the feeding frame 304;
the clamping cylinder 310 is fixed on the feeding frame 304 and used for controlling the material clamp 308 to open and close;
the forward cylinder 311 is used for driving the down cylinder 309 to move forward, is arranged above the socket metal mold and the socket plastic shell, and is arranged between the down cylinder 309 and the feeding frame 304.
In this embodiment, through setting up on material loading vibration dish 303 and the pay-off vibration dish on the work or material rest, and set up feeding cylinder 307, down cylinder 309, centre gripping cylinder 310 and preceding air cylinder 311, feeding vibration dish 303 carries the terminal to the transport work position 306 of last work or material rest 304 below through chute 305, feeding cylinder 307 propelling movement terminal to material clamp 308 below, down cylinder 309 control material clamp 308 upwards or move down, centre gripping cylinder 310 is used for controlling opening and closing of material clamp 308, be favorable to realizing the automatic feeding of terminal, the accuracy of terminal placement position has been promoted, the easy error problem of manual operation has been avoided, the production efficiency of insurance socket has been promoted, guarantee the qualification rate and the performance of whole product, production cost is reduced, promote user experience.
Specifically, according to the number of the socket metal terminals, seven groups of inner terminal feeding devices 301 are arranged along a first transverse conveying channel 201, four groups of outer terminal feeding devices 302 are arranged along a second transverse conveying channel 203, a feeding vibration disc conveys the terminals to a conveying working position 306 below an upper material frame 304 through a feeding groove 305, a feeding air cylinder 307 displaces the terminals to the lower side of the material frame, at the moment, a descending air cylinder 309 descends to drive the material frame to move downwards, a clamping air cylinder 310 controls a material clamp 308 to open, after the downward movement is completed, the material clamp 308 closes a clamping terminal, the descending air cylinder 309 returns, a descending air cylinder 311 drives a descending air cylinder 309 to move to the upper side of a socket metal mold and a socket plastic shell, at the moment, the descending air cylinder 309 descends again, the clamping air cylinder 310 releases the terminals, the descending air cylinder 309 returns, and the advancing air cylinder 311 returns to complete one-time terminal assembly.
In one embodiment of the present invention, preferably, the inner terminal feeding device 301 is disposed outside the first transverse conveying path 201, and is used for assembling an inner terminal of the safety socket; and the outer terminal feeding device 302 is arranged on the outer side of the second transverse conveying channel 203 and is used for assembling the outer terminals of the safety sockets.
In this embodiment, the inner terminal feeding device 301 is disposed outside the first transverse conveying channel 201, after the socket metal mold is conveyed to the first transverse conveying channel 201 from the second longitudinal conveying channel 206, the inner terminal feeding process is performed on the first transverse conveying channel 201, and similarly, the outer terminal feeding device 302 is disposed outside the second transverse conveying channel 203, and after the socket metal mold is conveyed to the second transverse conveying channel 203 from the first longitudinal conveying channel 202, the inner terminal and the outer terminal are fed in a segmented manner in the outer terminal feeding process on the second transverse conveying channel 203, which is beneficial to achieving automatic feeding of the terminals, improves the production efficiency of the safety socket, and is convenient and flexible to control and high in automation degree.
In one embodiment of the present invention, it is preferable that at least one of the clamping cylinders 310 of the outer terminal loading devices 302 has a rotary cylinder 312 at its upper end, and the rotary cylinder 312 is used for rotating the terminals placed in parallel.
In this embodiment, since the terminals are relatively thin and cannot be changed in direction by side pushing, the rotary cylinders 312 are disposed at the upper ends of at least one group of the clamping cylinders 310 in the plurality of groups of outer terminal feeding devices 302, and the rotary cylinders 312 control the direction of the terminals to be parallel and then placed in the socket metal mold, and then the terminals are flattened by the flattening device 313.
Wherein, at the outer terminal loading attachment 302 department that is provided with revolving cylinder 312, need not to set up the pay-off cylinder, directly through vibrating to the material clamp below.
In one embodiment of the present invention, at least one flattening device 313 for flattening and fastening the terminals placed in parallel is preferably disposed between the outer terminal loading devices 302 disposed adjacent to each other.
In this embodiment, at least one flattening device 313 for flattening and tightly closing the terminals placed in parallel is arranged between the multiple groups of outer terminal feeding devices 302, so that the terminals can be automatically flattened, the problem that the parts exposed outside the plastic main body between the terminals are different in length is solved, and the technical defects of low working efficiency, low processing quality, high labor cost and the like in the existing manual operation are overcome.
Wherein, the flattening device 313 can be controlled by a cylinder.
In one embodiment of the present invention, preferably, a proximity switch 314 is disposed at the conveying work station 306 corresponding to the inner terminal loading device 301, for controlling the inner terminal loading device 301 to grab the terminal loading.
In this embodiment, the proximity switch 314 is arranged at the conveying work station 306 corresponding to the inner terminal loading device 301, and the proximity switch 314 controls the inner terminal loading device 301 to grab the terminal loading, that is, when the proximity switch 314 detects that there is a socket metal mold at the conveying work station 306 corresponding to the inner terminal loading device 301, the inner terminal loading device 301 is controlled to grab the terminal, and the inner terminal loading process is performed.
Wherein, proximity switches 314 are arranged at five groups of conveying work positions 306 in the seven groups of inner terminal feeding devices 301.
In an embodiment of the present invention, preferably, a red copper sensor 315 is disposed at the corresponding conveying station 306 of the external terminal loading device 302, for controlling the external terminal loading device 302 to grab the terminal loading.
In this embodiment, the red copper sensor 315 is disposed at the conveying work position 306 corresponding to the outer terminal feeding device 302, and the red copper sensor 315 controls the outer terminal feeding device 302 to grab the terminal feeding, that is, when the red copper sensor 315 detects that a socket metal mold is located at the conveying work position 306 corresponding to the outer terminal feeding device 302, the outer terminal feeding device 302 is controlled to grab the terminal, so as to perform the outer terminal feeding process.
The conveying work positions 306 of the two groups of inner terminal feeding devices 301 and the four groups of outer terminal feeding devices 302 are provided with red copper inductors 315.
In an embodiment of the present invention, preferably, the upper surface of the power cord cabinet 101 is provided with a vibration tray mounting location 316 facing to mount the feeding vibration tray 303.
In this embodiment, the vibration tray mounting position 316 is oppositely arranged on the upper surface of the power cord cabinet 101, and the feeding vibration tray 303 is fixed on the feeding frame 304, which is beneficial to improving the stability of the feeding device 300.
As shown in fig. 1 and 5, in an embodiment of the present invention, preferably, the unloading mechanism of the full-automatic assembly machine for the safety socket comprises a base 100 and an unloading device 400, wherein the unloading device 400 comprises:
the discharging cylinder 401 is fixedly arranged on the discharging frame 402, the lower end of the discharging cylinder is provided with a discharging clamp 403 for classified discharging of the safety socket, and the discharging frame 402 is fixedly arranged on the base 100 across the transportation channel 200;
and the demolding cylinder 404 is fixedly arranged on the discharging frame 402 and used for controlling the discharging clamp 403 to clamp the assembled safety socket to the on-off detection table 405, and the on-off detection table 405 is arranged on the base 100.
In this embodiment, through fixed cylinder 401 of unloading on the work or material rest down, and unload work or material rest 402 by cylinder 401 control of unloading and unload the socket metal mold that the assembly has been accomplished, can carry out automatic sorting after accomplishing socket metal mold assembly and unload, the automated control of discharge apparatus 400 has been realized, the speed of unloading to insurance socket has been promoted, and then the efficiency of the automatic assembly of insurance socket has been promoted, the problem that the work efficiency that current adoption manual operation exists is low has been solved, the production cost is reduced, promote user experience.
Specifically, after the socket metal mold is assembled, the socket metal mold enters a discharging device 400, a discharging cylinder 401 controls a discharging clamp 403 to move to the position above the socket metal mold, a demolding cylinder 404 controls the discharging clamp 403 to open and then grab the socket metal mold, the socket metal mold moves to an on-off detection table 405, the discharging clamp 403 of the discharging cylinder 401 extends to the on-off detection table 405, and meanwhile, a detected product enters and is discharged.
In one embodiment of the present invention, preferably, the discharging device 400 further includes:
the classification slide way 406 is arranged on the side surface of the on-off detection table 405, and the classification slide way 406 is divided into two parts, one part is a discharging slide way, and the other part is a waste slide way;
and the movable end of the classification discharging air cylinder 407 is connected to the classification slideway 406 and is used for controlling the switching between the discharging slideway and the waste slideway.
In this embodiment, through setting two to categorised slide 406, one is the slide of unloading, and another is the waste material slide, and categorised slide 406 is arranged material cylinder 407 control by the classification and is switched over, can accomplish to carry out categorised unloading after detecting insurance socket, is favorable to discharge apparatus 400's automated control, has promoted the work efficiency that insurance socket generated greatly to can guarantee the performance of qualification rate and whole product, reduce manufacturing cost.
The classified discharging air cylinder 407 is perpendicular to the classified slide way 406, and after the safety socket is detected, the slide way type is controlled through the extension and contraction of the classified discharging air cylinder 407.
In one embodiment of the present invention, preferably, the transportation path 200 is disposed on the base 100 and is composed of a first transverse transportation path 201, a first longitudinal transportation path 202, a second transverse transportation path 203, a riveting path 204, a conveyor belt 205, a second longitudinal transportation path 206 and a serial connection loop, and the discharging frame 402 is located at the end of the riveting path 204.
In this embodiment, the transportation channel 200 is formed by arranging the first transverse transportation channel 201, the first longitudinal transportation channel 202, the second transverse transportation channel 203, the riveting channel 204, the conveyor belt 205, the second longitudinal transportation channel 206 and the series connection loop, so that the transportation speed of the socket metal mold is increased, the assembly efficiency of the socket metal mold is further improved, the problem of manual operation errors is reduced, the qualification rate of the safety socket product is increased, the socket metal mold performs the loading process of the inner terminal on the first transverse transportation channel 201, performs the socket plastic shell sheathing process on the first longitudinal transportation channel 202, performs the loading process of the outer terminal on the second transverse transportation channel 203, and rivets and fixes the assembled terminal on the riveting channel 204.
In one embodiment of the present invention, preferably, the discharging device 400 further includes:
and the on-off detection assembly 408 is fixedly arranged right above the on-off detection table 405 and is positioned between the discharging cylinder 401 and the demolding cylinder 404.
In the embodiment, the on-off detection assembly 408 is arranged right above the on-off detection table 405, the assembled safety socket is detected by the on-off detection assembly 408, whether the product is qualified is determined, and the classified discharging cylinder 407 is controlled to discharge the product, so that automatic detection of the safety socket is facilitated, and the qualification rate of the product is effectively guaranteed.
In an embodiment of the present invention, preferably, a riveting device 409 is disposed outside the riveting channel 204, and the riveting device 409 rivets and fixes the assembled terminal by driving a riveting plate 410 through a motor.
In an embodiment of the present invention, preferably, a detection device 411 for detecting whether all the metal terminals are fully assembled is further disposed inside the riveting channel 204.
In this embodiment, set up riveting device 409 in the side of riveting way 204, riveting device 409 drives riveting board 410 through the motor action and descends, fix with riveting to the terminal that the assembly finishes, riveting way 204 inboard still is equipped with detection device 411 and examines whether all complete assembly of metal terminal, the full automatic assembly and the detection to the insurance socket have been realized, the speed of unloading to the insurance socket has been promoted, and then the efficiency of the automatic assembly of insurance socket has been promoted, the problem that the work efficiency that current adoption manual operation exists is low has been solved, production cost is reduced, and whether all complete assemblies of metal terminal are detected by detection device 411, can guarantee the qualification rate of product.
In one embodiment of the present invention, it is preferable that the portion of the sorting chute 406 near the on-off test station 405 be higher than the portion away from the on-off test station 405.
In this embodiment, the part of the classification slide 406 close to the on-off detection table 405 is higher than the part far away from the on-off detection table 405, so that the classification slide 406 is high in the upper part and low in the lower part, the safety socket can slide down from the classification slide 406, and the unloading speed can be improved.
The utility model discloses, through setting up first reciprocating cylinder and the first transverse transport way of second reciprocating cylinder difference control, the second transverse transport way, and make its motion by promoting the piece drive socket metal mold, because the reciprocating action of cylinder, once promote socket metal mold after promoting the piece completion, first reciprocating cylinder or the second reciprocating cylinder resume the position, promote next socket metal mold again, can transport socket metal mold on transporting the passageway automatically, thereby the automated control of fortune material mechanism has been realized, the speed of transporting to socket metal mold has been promoted, and then socket metal mold's assembly efficiency has been promoted, the problem of manual operation error has been reduced, the rate of insurance socket product has been promoted, and the production cost is saved, promote user experience.
In the present application, the terms "first", "second", "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
The present invention is not limited to the above-mentioned best mode, and any person should learn the structural change made under the teaching of the present invention, all with the present invention has the same or similar technical solution, all fall into the protection scope of the present invention.
Claims (10)
1. The utility model provides a fortune material mechanism of full-automatic assembly machine of insurance socket, includes the base, its characterized in that still includes:
the conveying channel is arranged on the base and is formed by serially and circularly connecting a first transverse conveying channel, a first longitudinal conveying channel, a second transverse conveying channel, a riveting channel, a conveying belt and a second longitudinal conveying channel;
the first reciprocating cylinder is fixedly arranged on the base and used for controlling the socket metal die to move on the first transverse conveying channel;
the second reciprocating cylinder is fixedly arranged on the base and used for controlling the socket metal die to move on the second transverse conveying channel;
and the pushing block is arranged on a linkage shaft in a sliding manner, and the linkage shaft is connected to the first reciprocating cylinder and the second reciprocating cylinder and is used for pushing the socket metal mold to move on the conveying channel.
2. The material conveying mechanism of the full-automatic assembly machine for safety sockets according to claim 1, wherein the pushing block comprises:
the slope-shaped fixture block is arranged at the top of the pushing block;
and the spring is arranged in the pushing block, and the top end of the spring is connected to the slope-shaped fixture block.
3. The material conveying mechanism of the full-automatic assembly machine for safety sockets according to claim 1, wherein one end of the first transverse conveying channel is communicated with the second longitudinal conveying channel, the other end of the first transverse conveying channel is communicated with the first longitudinal conveying channel, the end of the second transverse conveying channel is connected with the riveting channel, and the end of the riveting channel is communicated with the conveyor belt.
4. The material conveying mechanism of the full-automatic assembly machine for safety sockets according to claim 1, wherein the first longitudinal conveying channel head end is provided with a first longitudinal material pushing cylinder for pushing the socket metal mold to the tail end of the first longitudinal conveying channel.
5. The material conveying mechanism of the full-automatic assembly machine for safety sockets according to claim 1, wherein the end of the first longitudinal conveying channel is provided with a double-displacement cylinder, and the front end of the double-displacement cylinder is provided with a front fork.
6. The material conveying mechanism of the full-automatic assembly machine of the safety socket as claimed in claim 1, wherein the base is composed of a power line cabinet body and a plurality of mounting plates, the mounting plates are fixed on the upper surface of the power line cabinet body, and two adjacent mounting plates are connected through a connecting fixing block.
7. The material conveying mechanism of the full-automatic safety socket assembling machine according to claim 1, wherein the conveyor belt is powered by a conveyor motor, and a second longitudinal material pushing cylinder is arranged at the tail end of the conveyor belt and used for pushing the socket metal mold to the second longitudinal conveying channel.
8. The material conveying mechanism of a full-automatic assembly machine for safety sockets according to claim 1, wherein the end of the conveyor belt is provided with a stopper for preventing the socket metal molds from falling.
9. The material conveying mechanism of the full-automatic assembly machine for the safety socket as claimed in claim 1, wherein a transverse material pushing cylinder for pushing the socket metal mold to the first transverse conveying channel is arranged between the second longitudinal conveying channel and the first transverse conveying channel.
10. The material conveying mechanism of a full-automatic assembly machine for safety sockets according to claim 1, wherein said socket molds on said riveting passage are mutually pressed and moved after being stacked in a plurality of rows.
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CN201921970605.8U CN211387631U (en) | 2019-11-14 | 2019-11-14 | Material conveying mechanism of full-automatic assembly machine for safety socket |
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CN201921970605.8U CN211387631U (en) | 2019-11-14 | 2019-11-14 | Material conveying mechanism of full-automatic assembly machine for safety socket |
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CN211387631U true CN211387631U (en) | 2020-09-01 |
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CN201921970605.8U Active CN211387631U (en) | 2019-11-14 | 2019-11-14 | Material conveying mechanism of full-automatic assembly machine for safety socket |
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2019
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