CN113036576A - Type-c female seat assembling machine - Google Patents

Abstract

The invention discloses a Type-c female seat assembling machine which comprises a machine body, a pedestal fixed above the machine body and an upper row of MD leg cutting assemblies arranged above the pedestal, wherein two side ends of the upper row of MD leg cutting assemblies are respectively connected with an upper row of MD carrying assemblies and an upper row of MD assembling assemblies, and the upper row of MD leg cutting assemblies are connected with the lower row of MD leg cutting assemblies through the upper row of MD carrying assemblies and the upper and lower MD assembling assemblies. The invention provides a Type-c female seat assembling machine, which improves the quality of finished products, ensures the benefit of the produced finished products, ensures higher machine utilization rate, reduces material waste of post-process, is convenient for post-processing, effectively drives the materials to move, has high productivity, high stability, strong commonality, short machine exchanging time, realizes mechanical automation, replaces manual operation, has high assembly production efficiency, can avoid production quality inconsistency caused by human factors, and ensures the quality.

Description

Type-c female seat assembling machine

Technical Field

The invention relates to the field of Type-c female seat assembling, in particular to a Type-c female seat assembling machine.

Background

USB, an abbreviation of Universal Serial BUS, is an external BUS standard for standardizing the connection and communication between a computer and external devices, and is an interface technology applied in the field of PCs. USB was proposed by a combination of companies such as Intel, Conjun, IBM, Microsoft, etc., at the end of 1994. The USB has high transmission speed and is very convenient to use. The USB interface also has the advantages of supporting the plug-and-play and hot plug functions of the equipment, being flexible in connection, independent in power supply and the like, can be connected with a mouse, a keyboard, a printer, a scanner, a camera, a flash disk, an MP3 player, a mobile phone, a digital camera, a mobile hard disk, an external optical floppy drive, a USB network card, an ADSL Modem, a Cable Modem and the like, almost all external equipment is provided with the USB interface, and the USB interface is very widely used. The USB Type-C female socket is a connection interface of a USB interface, can be inserted without dividing a front surface and a back surface, and supports the functions of charging, data transmission, display output and the like of the USB standard as other interfaces. The USB Type-C is mainly oriented to thinner and thinner equipment, usability is enhanced, and a good way is laid for performance enhancement of future USB versions. USB Type-CUSB Type-C female seat among the prior art all is by manual assembly before, because the factor equipment of people will have deviation and efficiency problem, influences holistic productivity output, and wherein the assembly of tiny part is very difficult to people's frock assembly, and is higher to workman's proficiency degree requirement, influences the quality of product moreover easily. The bright point of the USB TYPE-C female socket is in a thinner design, faster transmission speed and stronger power transmission. The female seat of USB TYPE-C mainly comprises metal casing, the gluey core terminal that is located metal casing, install the shell fragment on gluey core terminal. When producing the female seat of TYPE-C now, on gluing the core terminal through manual or semi-automatization equipment with the shell fragment installation, later will have the gluey core terminal assembly of shell fragment in, production efficiency is low, and the quality can't be guaranteed.

Disclosure of Invention

Aiming at the problems in the related art, the invention provides a Type-c female seat assembling machine to overcome the technical problems in the prior related art.

The technical scheme of the invention is realized as follows:

the utility model provides a female seat kludge of Type-c, includes the organism and is fixed in the pedestal of organism top and installs the last row of MD leg cutting assembly in the pedestal top, the both sides end of going up row of MD leg cutting assembly is connected with row MD transport subassembly and upper and lower MD assembly subassembly respectively, and go up row MD leg cutting assembly through going up MD transport subassembly and upper and lower MD assembly subassembly and arrange MD leg cutting assembly and be connected down, go up row MD leg cutting assembly, go up row MD leg transport subassembly, upper and lower MD assembly subassembly and arrange MD leg cutting assembly all fixed mounting in the top of pedestal down.

Furthermore, the upper row of MD leg cutting assemblies comprises a servo material pulling mechanism, a cutting module and a material receiving assembly, wherein the servo material pulling mechanism is fixed at the side end of the cutting module, and the material receiving assembly is arranged below the cutting module;

the servo material pulling mechanism comprises a servo material pulling motor, an installation plate, a fixing frame, a gear disc, a material conveying groove and a transverse material conveying seat, the servo material pulling motor is fixed at the side end of the cutting module through the installation plate, the output end of the servo material pulling motor penetrates through the fixing frame through an output shaft rod to be connected with the gear disc, the transverse material conveying seat is provided with the material conveying groove, and a chain meshed with one end of the gear disc is arranged in the material conveying groove;

the cutting module comprises a bearing seat plate, a guide seat, a cutting seat, an upper connecting plate, a cutting cylinder and a guide rod, wherein the guide seat is fixed at each of two ends above the bearing seat plate;

receive the material subassembly and include shell body, import groove, interior drawer, receive material steamer tray and pull handle, the import groove that is used for the installation of horizontal defeated material seat is seted up to department in the middle of the top of shell body, and the shell body is seted up interior drawer in import groove below department, and interior drawer intussuseption is closed and is provided with and receive the material steamer tray, receives the front end of material steamer tray and installs the pull handle.

Further, the lower row of MD leg cutting assemblies and the upper row of MD leg cutting assemblies are identical in structure, and the lower row of MD leg cutting assemblies and the upper row of MD leg cutting assemblies are symmetrically distributed above the pedestal.

Furthermore, the upper row of MD carrying assemblies comprise a carrying module, a support frame, a transverse moving module and a profiling suction head, wherein the carrying module is fixed above the support frame, the transverse moving module is arranged at the side end of the support frame, and the profiling suction heads are arranged on the transverse moving module and the carrying module;

the moving module comprises a moving transverse plate, a screw rod, a servo shaft motor, an upper connecting bent plate and a moving seat, the screw rod is transversely installed in the moving transverse plate, one end of the screw rod is connected with the servo shaft motor, the moving seat is sleeved on the screw rod in a meshing manner, and a group of profiling suction heads are installed below the moving seat.

Further, the transverse moving module comprises a transverse positioning slide rail, a transverse moving cylinder and a transverse moving seat, the transverse moving cylinder is installed at one end of the transverse positioning slide rail, the output end of the transverse moving cylinder is connected with the side end of the transverse moving seat, one end of the transverse moving seat is connected to the transverse positioning slide rail in a clamping mode through a sliding groove, and another group of profiling suction heads is installed above the transverse moving seat.

Furthermore, two groups of the profiling suction heads are arranged, one group is fixed below the movable seat, the other group is fixed above the transverse moving seat, and the two groups of the profiling suction heads are symmetrical.

Further, the upper MD assembling assembly and the lower MD assembling assembly comprise a transverse frame plate, a middle clamping piece flow channel, an upper positioner and a lower positioner, the middle clamping piece flow channel is formed above the transverse frame plate, the upper positioner is installed above one end of the middle clamping piece flow channel, and the lower positioner is fixed below one end of the transverse frame plate.

Furthermore, the upper end and the lower end of the upper locator and the lower locator are both arranged in the middle clamping piece runner.

The technical scheme has the following advantages or beneficial effects:

1. the invention provides a Type-c female seat assembling machine, wherein a material conveying groove is formed in a transverse material conveying seat, a chain meshed with one end of a gear disc is arranged in the material conveying groove, a servo material pulling motor drives the gear disc to rotate so as to drive the chain in the material conveying groove to move, so that material conveying is driven, the conveying efficiency is improved, the material conveying groove can effectively move, the material conveying groove can move, material falling is prevented, and the conveying stability is improved.

2. The invention provides a Type-c female seat assembling machine, wherein a cutting seat is fixed below an upper connecting plate and is sleeved on a guide rod, the upper end of the cutting seat is connected with the output end of a cutting cylinder, the cutting cylinder drives the cutting seat to press downwards to cut materials conveyed by a servo material pulling mechanism, defective products are cut off, the quality of finished products is improved, the benefit of the produced finished products is guaranteed, the utilization rate of a machine is higher, and the material waste of the post-process is reduced.

3. The invention provides a Type-c female seat assembling machine, wherein an inner drawing groove is formed in a position, below an inlet groove, of an outer shell, a material receiving drawer is arranged in the inner drawing groove in an inserting mode, a drawing handle is installed at the front end of the material receiving drawer, cut redundant excess materials are collected through the material receiving drawer, the inner drawing groove is convenient to draw and take out, and post-processing is facilitated.

4. The invention provides a Type-c female seat assembling machine, wherein one end of a screw rod is connected with a servo shaft motor, a moving seat is meshed and sleeved on the screw rod, a group of profiling suction heads are installed below the moving seat, the servo shaft motor drives the screw rod in a moving transverse plate to rotate, the moving seat moves on the screw rod along with the forward rotation and the reverse rotation of the screw rod, and the profiling suction heads are driven to move while moving, so that the upper profiling suction head and the lower profiling suction head are butted, and materials are convenient to carry.

5. The invention provides a Type-c female seat assembling machine, wherein the output end of a transverse moving cylinder is connected with the side end of a transverse moving seat, one end of the transverse moving seat is clamped on a transverse positioning slide rail through a chute, another group of profiling suction heads are arranged above the transverse moving seat, the transverse moving cylinder drives the transverse moving seat to move on the transverse positioning slide rail and is matched with a moving module to effectively drive materials to move, the capacity is high, the stability is high, the universality is strong, and the machine handing time is short.

6. The invention provides a Type-c female seat assembling machine, wherein a middle clamping piece flow passage is formed above a transverse frame plate, an upper positioner is arranged above one end of the middle clamping piece flow passage, and a lower positioner is fixed below one end of the transverse frame plate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a machine body of a Type-c female seat assembling machine according to an embodiment of the invention;

FIG. 2 is a schematic diagram of an upper row of MD leg cutter assemblies of a Type-c female housing assembly machine according to an embodiment of the present invention;

FIG. 3 is a perspective view of an upper row of MD leg cutter assemblies of a Type-c female housing assembly machine according to an embodiment of the present invention;

FIG. 4 is a perspective view of a cutting module of the Type-c female socket assembling machine according to an embodiment of the present invention;

FIG. 5 is a perspective view of an upper row of MD carrier assemblies of a Type-c female seat assembly machine according to an embodiment of the present invention;

FIG. 6 is a perspective view of the upper and lower MD assembly components of the Type-c female socket assembly machine according to the embodiment of the present invention.

In the figure:

1. a body; 2. an upper row MD leg cutting assembly; 21. a servo material pulling mechanism; 211. a servo material pulling motor; 212. mounting a plate; 213. a fixed mount; 214. a gear plate; 215. a material conveying groove; 216. a transverse material conveying seat; 22. a cutting module; 221. a load bearing seat plate; 222. a guide seat; 223. a cutting seat; 224. an upper connecting plate; 225. a cutting cylinder; 226. a guide bar; 23. a material receiving assembly; 231. an outer housing; 232. an inlet tank; 233. an inner drawing groove; 234. a material receiving drawer; 235. a pull handle; 3. a pedestal; 4. an upper row MD carrying assembly; 41. a moving module; 411. moving the transverse plate; 412. a screw rod; 413. a servo axis-driven motor; 414. the upper part is connected with a bent plate; 415. a movable seat; 42. a support frame; 43. a transverse moving module; 431. transversely positioning the slide rail; 432. a transverse moving cylinder; 433. a traversing seat; 44. profiling suction heads; 5. assembling components in an upper MD and a lower MD; 51. a transverse frame plate; 52. a middle clamping piece runner; 53. an upper locator; 54. a lower locator; 6. and a lower row of MD leg cutting assemblies.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

Referring to fig. 1-6, a Type-c female seat assembling machine is shown, which comprises a machine body 1, a pedestal 3 fixed above the machine body 1, and an upper row of MD fillet cutting assemblies 2 installed above the pedestal 3, wherein two side ends of the upper row of MD fillet cutting assemblies 2 are respectively connected with an upper row of MD carrying assemblies 4 and an upper row of MD assembling assemblies 5, the upper row of MD fillet cutting assemblies 2 is connected with a lower row of MD fillet cutting assemblies 6 through the upper row of MD carrying assemblies 4 and the upper row of MD assembling assemblies 5, and the upper row of MD fillet cutting assemblies 2, the upper row of MD carrying assemblies 4, the upper row of MD assembling assemblies 5, and the lower row of MD fillet cutting assemblies 6 are all fixedly installed above the pedestal 3.

The upper row MD leg cutting assembly 2 comprises a servo material pulling mechanism 21, a cutting module 22 and a material receiving assembly 23, wherein the servo material pulling mechanism 21 is fixed at the side end of the cutting module 22, and the material receiving assembly 23 is arranged below the cutting module 22;

the servo material pulling mechanism 21 comprises a servo material pulling motor 211, an installation plate 212, a fixing frame 213, a gear disc 214, a material conveying groove 215 and a transverse material conveying seat 216, wherein the servo material pulling motor 211 is fixed at the side end of the cutting module 22 through the installation plate 212, the output end of the servo material pulling motor 211 penetrates through the fixing frame 213 through an output shaft rod to be connected with the gear disc 214, the transverse material conveying seat 216 is provided with the material conveying groove 215, a chain meshed with one end of the gear disc 214 is arranged in the material conveying groove 215, the servo material pulling motor 211 drives the gear disc 214 to rotate so as to drive the chain in the material conveying groove 215 to move, so that the material conveying is driven, the conveying efficiency is improved, the material conveying efficiency is effectively improved, the material is moved in the material conveying groove 215, the;

the cutting module 22 comprises a bearing seat plate 221, a guide seat 222, a cutting seat 223, an upper connecting plate 224, a cutting cylinder 225 and a guide rod 226, wherein the guide seat 222 is fixed at two ends above the bearing seat plate 221 respectively, the guide seat 222 is connected with the upper connecting plate 224 through the guide rod 226, the cutting seat 223 is fixed below the upper connecting plate 224, the cutting seat 223 is sleeved on the guide rod 226, the upper end of the cutting seat 223 is connected with the output end of the cutting cylinder 225, the cutting cylinder 225 drives the cutting seat 223 to press downwards to cut materials conveyed by the servo material pulling mechanism 21, defective products are cut off, the quality of finished products is improved, the benefit of the finished products is guaranteed, the utilization rate of a machine is higher, and material waste of a post-process is reduced;

receive material subassembly 23 and include shell body 231, import groove 232, interior drawer 233, receive material steamer tray 234 and pull handle 235, the import groove 232 that is used for horizontal defeated material seat 216 installation is offered to the department in the middle of the top of shell body 231, interior drawer 233 is offered to shell body 231 in import groove 232 below department, it is provided with in the interior drawer 233 to close and receives material steamer tray 234, receive the front end of material steamer tray 234 and install pull handle 235, collect the unnecessary clout that will cut through receiving material steamer tray 234, interior drawer 233 is convenient for the pull and takes out, the after-treatment of being convenient for.

The lower row of MD leg cutting assemblies 6 has the same structure as the upper row of MD leg cutting assemblies 2, and the lower row of MD leg cutting assemblies 6 and the upper row of MD leg cutting assemblies 2 are symmetrically distributed above the pedestal 3.

The upper row MD carrying assembly 4 comprises a carrying module 41, a support frame 42, a transverse moving module 43 and a profiling suction head 44, wherein the carrying module 41 is fixed above the support frame 42, the transverse moving module 43 is arranged at the side end of the support frame 42, and the profiling suction head 44 is arranged on both the transverse moving module 43 and the carrying module 41;

the moving module 41 includes a moving transverse plate 411, a screw 412, a servo axis motor 413, an upper connecting bent plate 414 and a moving seat 415, the screw 412 is installed in the moving transverse plate 411 in a traversing manner, one end of the screw 412 is connected with the servo axis motor 413, the screw 412 is engaged and sleeved with the moving seat 415, a group of profiling suction heads 44 are installed below the moving seat 415, the servo axis motor 413 drives the screw 412 in the moving transverse plate 411 to rotate, the moving seat 415 moves on the screw 412 along with the forward rotation and the reverse rotation of the screw 412, and drives the profiling suction heads 44 to move while moving, so that the upper profiling suction heads 44 and the lower profiling suction heads 44 are butted, and the material can be conveniently carried.

The transverse moving module 43 comprises a transverse positioning slide rail 431, a transverse moving cylinder 432 and a transverse moving seat 433, the transverse moving cylinder 432 is installed at one end of the transverse positioning slide rail 431, the output end of the transverse moving cylinder 432 is connected with the side end of the transverse moving seat 433, one end of the transverse moving seat 433 is connected to the transverse positioning slide rail 431 in a clamping mode through a sliding groove, another group of profiling suction heads 44 are installed above the transverse moving seat 433, the transverse moving cylinder 432 drives the transverse moving seat 433 to move on the transverse positioning slide rail 431 and is matched with the moving module 41, materials are effectively driven to move, the capacity is high-efficient, the stability is high, the universality is strong, and the machine.

Two groups of the profiling suction heads 44 are arranged, one group is fixed below the moving seat 415, the other group of the profiling suction heads 44 is fixed above the traversing seat 433, and the two groups of the profiling suction heads 44 are symmetrical.

The upper and lower MD assembling component 5 comprises a transverse frame plate 51, a middle clamping piece flow passage 52, an upper positioner 53 and a lower positioner 54, a middle clamping piece flow passage 52 is arranged above the transverse frame plate 51, the upper positioner 53 is arranged above one end of the middle clamping piece flow passage 52, the lower positioner 54 is fixed below one end of the transverse frame plate 51, the upper and lower ends of the upper positioner 53 and the lower positioner 54 are both arranged inside the middle clamping piece flow passage 52, the upper and lower MD assembling component 5 comprises the transverse frame plate 51, the middle clamping piece flow passage 52, the upper positioner 53 and the lower positioner 54, the middle clamping piece flow passage 52 is arranged above the transverse frame plate 51, the upper positioner 53 is arranged above one end of the middle clamping piece flow passage 52, the lower positioner 54 is fixed below one end of the transverse frame plate 51, the mechanical automation is realized by carrying out positioning assembly from top to bottom, manual operation is replaced, the assembling production efficiency is high, and the production quality difference caused by, the quality is guaranteed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (8)

1. The utility model provides a female seat kludge of Type-c which characterized in that: the machine comprises a machine body (1), a pedestal (3) fixed above the machine body (1) and an upper row of MD leg cutting assemblies (2) installed above the pedestal (3), wherein two side ends of the upper row of MD leg cutting assemblies (2) are respectively connected with an upper row of MD carrying assemblies (4) and an upper row of MD assembling assemblies (5), the upper row of MD leg cutting assemblies (2) are connected with a lower row of MD leg cutting assemblies (6) through the upper row of MD carrying assemblies (4) and the upper row of MD assembling assemblies (5), and the upper row of MD leg cutting assemblies (2), the upper row of MD carrying assemblies (4), the upper row of MD assembling assemblies (5) and the lower row of MD leg cutting assemblies (6) are fixedly installed above the pedestal (3).

2. The Type-c female seat assembling machine according to claim 1, wherein the upper row of MD leg cutting assemblies (2) comprises a servo material pulling mechanism (21), a cutting module (22) and a material receiving assembly (23), the servo material pulling mechanism (21) is fixed at the side end of the cutting module (22), and the material receiving assembly (23) is arranged below the cutting module (22);

the servo material pulling mechanism (21) comprises a servo material pulling motor (211), an installation plate (212), a fixing frame (213), a gear disc (214), a material conveying groove (215) and a transverse material conveying seat (216), wherein the servo material pulling motor (211) is fixed at the side end of the cutting module (22) through the installation plate (212), the output end of the servo material pulling motor (211) penetrates through the fixing frame (213) through an output shaft rod to be connected with the gear disc (214), the transverse material conveying seat (216) is provided with the material conveying groove (215), and a chain meshed with one end of the gear disc (214) is arranged in the material conveying groove (215);

the cutting module (22) comprises a bearing seat plate (221), a guide seat (222), a cutting seat (223), an upper connecting plate (224), a cutting cylinder (225) and a guide rod (226), wherein the guide seat (222) is fixed at two ends above the bearing seat plate (221), the guide seat (222) is connected with the upper connecting plate (224) through the guide rod (226), the cutting seat (223) is fixed below the upper connecting plate (224), the cutting seat (223) is sleeved on the guide rod (226), and the upper end of the cutting seat (223) is connected with the output end of the cutting cylinder (225);

receive material subassembly (23) and include shell body (231), import groove (232), interior drawer (233), receive material steamer tray (234) and pull handle (235), department sets up import groove (232) that are used for horizontal defeated material seat (216) installation in the middle of the top of shell body (231), interior drawer (233) are seted up in import groove (232) below department in shell body (231), it is provided with in interior drawer (233) to close, receive the front end of material steamer tray (234) and install pull handle (235).

3. The Type-c female seat assembling machine according to claim 2, wherein the lower row of MD fillet cutting assemblies (6) and the upper row of MD fillet cutting assemblies (2) have the same structure, and the lower row of MD fillet cutting assemblies (6) and the upper row of MD fillet cutting assemblies (2) are symmetrically distributed above the seat (3).

4. The Type-c female seat assembling machine according to claim 3, wherein the upper row of MD carrying assemblies (4) comprises a carrying module (41), a supporting frame (42), a transverse moving module (43) and a profiling suction head (44), the carrying module (41) is fixed above the supporting frame (42), the transverse moving module (43) is arranged at the side end of the supporting frame (42), and the profiling suction head (44) is arranged on both the transverse moving module (43) and the carrying module (41);

the moving module (41) comprises a moving transverse plate (411), a screw rod (412), a servo shaft motor (413), an upper connecting bent plate (414) and a moving seat (415), the screw rod (412) is installed in the moving transverse plate (411) in a transverse mode, one end of the screw rod (412) is connected with the servo shaft motor (413), the moving seat (415) is connected to the screw rod (412) in a meshed and sleeved mode, and a group of profiling suction heads (44) are installed below the moving seat (415).

5. The Type-c female seat assembling machine according to claim 4, wherein the traverse moving module (43) comprises a transverse positioning slide rail (431), a traverse cylinder (432) and a traverse seat (433), the traverse cylinder (432) is installed at one end of the transverse positioning slide rail (431), the output end of the traverse cylinder (432) is connected with the side end of the traverse seat (433), one end of the traverse seat (433) is clamped on the transverse positioning slide rail (431) through a sliding groove, and another group of profiling suction heads (44) is installed above the traverse seat (433).

6. A Type-c female seat assembling machine according to claim 5, wherein the profiling suction heads (44) are arranged in two groups, one group is fixed below the moving seat (415), the other group of profiling suction heads (44) is fixed above the traverse seat (433), and the two groups of profiling suction heads (44) are symmetrical.

7. The Type-c female seat assembling machine according to claim 5, wherein the upper and lower MD assembling components (5) comprise a transverse frame plate (51), a middle clip flow passage (52), an upper locator (53) and a lower locator (54), the middle clip flow passage (52) is formed above the transverse frame plate (51), the upper locator (53) is installed above one end of the middle clip flow passage (52), and the lower locator (54) is fixed below one end of the transverse frame plate (51).

8. A Type-c female socket assembling machine according to claim 5, wherein the upper and lower ends of the upper locator (53) and the lower locator (54) are disposed inside the middle clip runner (52).

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