CN214669738U - TO-CAN assembly transfer posture adjusting device for connector assembly - Google Patents

Abstract

A TO-CAN assembly transferring and posture adjusting device for connector assembly comprises: the device comprises a lifting assembly, a transverse moving assembly, a forward moving assembly and a rotating assembly. The transverse moving component is arranged on the lifting component. The forward moving component is arranged on the transverse moving component. The rotating assembly is arranged on the forward moving assembly. The lifting assembly is used for adjusting the height of the transverse moving assembly, the transverse moving assembly is used for driving the forward moving assembly TO move along the length direction of the transverse moving assembly, the forward moving assembly is used for adjusting the distance between the lifting assembly and the rotating assembly, and the rotating assembly is used for fixing the TO-CAN assembly and adjusting the posture. The utility model discloses in the assembling process of connector, CAN carry out the transfer of TO-CAN subassembly TO and carry out the regulation of TO-CAN subassembly gesture, thereby improve the packaging efficiency of connector, have stronger practicality.

Description

TO-CAN assembly transfer posture adjusting device for connector assembly

Technical Field

The utility model relates TO a relevant technical field of connector equipment especially relates TO a TO-CAN subassembly shifts appearance device of transferring for connector equipment.

Background

The connector is a light receiving and transmitting assembly which is used for connecting two optical fibers or terminals connected between different devices in optical fiber communication, the common connector mainly comprises a shell, an optical path assembly inside the shell, a TO-CAN assembly and a signal receiving or transmitting assembly, the number of the common connector TO-CAN assemblies is one, the signal transmission rate of the connector is enhanced when the number of the TO-CAN assemblies is increased, and the signal receiving or transmitting assembly is arranged at two ends of the connector and used for connection between different media.

The assembly of the prior TO-CAN assembly is generally carried out in a manual assembly mode because signals are required TO be transmitted when the TO-CAN assembly is assembled, the connector body is generally placed on an adjusting table TO be adjusted continuously in normal operation, the assembly effect of the TO-CAN assembly is required TO be monitored uninterruptedly when the assembly effect of the TO-CAN assembly is adjusted, the TO-CAN assembly is coupled when the assembly effect of the TO-CAN assembly is converted into optical signals, the connector body is adjusted frequently because the connector body is convenient TO clamp, the connector body is required TO be assembled and disassembled continuously when the assembly effect of the TO-CAN assembly is adjusted, meanwhile, the TO-CAN assembly is clamped and positioned manually when the assembly effect of the TO-CAN assembly is coupled by the adjusting table, and the TO-CAN assembly is fixed efficiently when the adjusting table is adjusted electrically, which affects the production efficiency of the connector.

Disclosure of Invention

The utility model provides a TO-CAN subassembly shifts appearance device of transferring for connector equipment TO solve the not enough of above-mentioned prior art, in the equipment process of connector, CAN carry out the transfer of TO-CAN subassembly TO and carry out the regulation of TO-CAN subassembly gesture, thereby improve the packaging efficiency of connector, have stronger practicality.

In order to realize the purpose of the utility model, the following technologies are adopted:

a TO-CAN assembly transferring and posture adjusting device for connector assembly comprises:

a lifting assembly;

the transverse moving component is arranged on the lifting component;

the advancing component is arranged on the transverse moving component;

the rotating assembly is arranged on the forward moving assembly and comprises a downward extending column, a concave part is arranged at the lower end of the downward extending column, a pair of rotating bearing seats is arranged at the lower end of the concave part, a transfer head is arranged between the rotating bearing seats, rotating shafts are arranged on two sides of the transfer head in an outward extending mode and penetrate through the rotating bearing seats, turbines are arranged at the outer side ends of the rotating shafts and are matched with worms, worm bearing seats are arranged at two ends of each worm, an inner plate is arranged between the inner side ends of each pair of worm bearing seats, the inner plates are arranged on the concave part, one end of each worm is connected with a rotating motor, and the rotating motors are arranged on one of the worm bearing seats;

the lifting assembly is used for adjusting the height of the transverse moving assembly, the transverse moving assembly is used for driving the forward moving assembly TO move along the length direction of the transverse moving assembly, the forward moving assembly is used for adjusting the distance between the lifting assembly and the rotating assembly, and the rotating assembly is used for fixing the TO-CAN assembly and adjusting the posture.

Furthermore, the transfer head is in a circumferential array and four penetrating holes are formed in a penetrating mode, a circular groove is formed in one side of the transfer head, and a vacuum hole is formed in the geometric center of the transfer head.

Further, the lifting assembly comprises a bottom plate, a mounting substrate is mounted on the bottom plate, an extending plate is arranged on the mounting substrate in an upwards extending mode, a guide hole is formed in the extending plate, lifting bearing seats are mounted at the upper end and the lower end of the outer side of the extending plate, a lifting lead screw is arranged between the lifting bearing seats, a lifting motor is connected to the upper end of the lifting lead screw, the lifting motor is mounted on the lifting bearing seats located at the upper end, outer supporting plates are mounted on the outer side of the extending plate in pairs, trapezoidal strips are formed on the inner wall of each outer supporting plate, a lifting seat is screwed on the lifting lead screw, a middle connecting plate is arranged at the inner side end of each lifting seat, the middle connecting plate penetrates through the guide hole, outer plates are arranged on the two sides of the middle connecting plate, guide pieces are mounted on the outer plates, the trapezoidal strips are sleeved with the guide pieces, an outer clamping plate is arranged at the other end of the middle connecting plate, and the outer clamping plate is located at the other side of the extending plate.

Furthermore, the transverse moving assembly is installed on an installation convex seat of the outer clamping plate, a transverse moving plate is installed at the outer side end of the installation convex seat, transverse moving bearing seats are installed at two ends of the other side of the transverse moving plate, a transverse moving motor is installed on one transverse moving bearing seat, an output shaft of the transverse moving motor is connected with a transverse moving screw rod, four transverse moving guide rods are arranged between the transverse moving bearing seats, and a transverse moving seat is screwed on the transverse moving screw rod.

Further, the antedisplacement subassembly is including installing in the first mounting panel of sideslip seat, and the long board of worker's shape is installed to first mounting panel outwards extending, and the antedisplacement bearing frame is all installed in pairs to the both sides of the long board of worker's shape, and the antedisplacement motor is all installed to the antedisplacement bearing frame that is located the outside end, and the antedisplacement motor all is connected with the antedisplacement swing arm, and the antedisplacement swing arm has all revolved the antedisplacement seat, is equipped with the antedisplacement cover between the antedisplacement seat, and the long board of worker's shape is located to the antedisplacement cover, and the post that descends is installed in the antedisplacement cover.

The technical scheme has the advantages that:

the utility model discloses in the assembling process of connector, CAN carry out the transfer of TO-CAN subassembly TO and carry out the regulation of TO-CAN subassembly gesture, thereby improve the packaging efficiency of connector, have stronger practicality.

Drawings

Fig. 1 shows a perspective view of a first embodiment.

Fig. 2 shows a perspective view of the second embodiment.

Fig. 3 shows a partial enlarged view at a.

Fig. 4 shows a partial enlarged view at B.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the products of the present invention are used, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

The terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

The terms "parallel", "perpendicular", etc. do not require that the components be absolutely parallel or perpendicular, but may be slightly inclined. For example, "parallel" merely means that the directions are more parallel relative to "perpendicular," and does not mean that the structures are necessarily perfectly parallel, but may be slightly tilted.

Furthermore, the terms "substantially", and the like are intended to indicate that the relative terms are not necessarily strictly required, but may have some deviation. For example: "substantially equal" does not mean absolute equality, but because absolute equality is difficult to achieve in actual production and operation, certain deviations generally exist. Thus, in addition to absolute equality, "substantially equal" also includes the above-described case where there is some deviation. In this case, unless otherwise specified, terms such as "substantially", and the like are used in a similar manner to those described above.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 TO 4, a TO-CAN component transfer posture adjusting device for connector assembly includes: lifting component 1, sideslip component 2, advancing component 3 and rotating component 4. The transverse moving component 2 is arranged on the lifting component 1. And the advancing assembly 3 is arranged on the transverse moving assembly 2. And the rotating assembly 4 is arranged on the advancing assembly 3. Lifting unit 1 is used for adjusting the height of sideslip subassembly 2, and sideslip subassembly 2 is used for driving antedisplacement subassembly 3 and moves along its length direction, and antedisplacement subassembly 3 is used for adjusting the interval between lifting unit 1 and the rotating assembly 4, and rotating assembly 4 is used for the fixed of TO-CAN subassembly and the regulation of gesture.

The lifting assembly 1 comprises a bottom plate 10, a mounting substrate 11 is mounted on the bottom plate 10, an upper extension plate 12 is arranged on the mounting substrate 11 in an upward extending mode, a guide hole 120 is formed in the upper extension plate 12, lifting bearing seats 13 are mounted at the upper end and the lower end of the outer side of the upper extension plate 12, a lifting lead screw 14 is arranged between the lifting bearing seats 13, a lifting motor is connected to the upper end of the lifting lead screw 14 and mounted on the lifting bearing seats 13 located at the upper end, outer support plates 15 are mounted on the outer side of the upper extension plate 12 in pairs, trapezoidal strips 150 are formed on the inner wall of each outer support plate 15, a lifting seat 16 is screwed on each lifting lead screw 14, a middle connecting plate 160 is arranged at the inner side end of each lifting seat 16, the middle connecting plate 160 penetrates through the guide hole 120, outer plates 161 are arranged on the two sides of the middle connecting plate 160, guide pieces 17 are mounted on the outer plates 161, the guide pieces 17 are all sleeved on the trapezoidal strips 150, an outer clamping plate 18 is arranged at the other end of the middle connecting plate 160, and the outer clamping plate 18 is located on the other side of the upper extension plate 12.

The transverse moving component 2 is arranged on an installation convex seat 20 of the outer clamping plate 18, a transverse moving plate 21 is arranged at the outer side end of the installation convex seat 20, transverse moving bearing seats 22 are arranged at two ends of the other side of the transverse moving plate 21, a transverse moving motor 24 is arranged on one transverse moving bearing seat 22, an output shaft of the transverse moving motor 24 is connected with a transverse moving screw rod 25, four transverse moving guide rods 23 are arranged between the transverse moving bearing seats 22, and a transverse moving seat 26 is screwed on the transverse moving screw rod 25.

The advancing assembly 3 comprises a first mounting plate 30 mounted on the transverse moving seat 26, an I-shaped long plate 31 is mounted on the first mounting plate 30 in an outwards extending mode, advancing bearing seats 32 are mounted on two sides of the I-shaped long plate 31 in pairs, advancing motors 33 are mounted on the advancing bearing seats 32 located at the outer ends of the outer ends, the advancing motors 33 are connected with advancing rotating rods 34, the advancing rotating rods 34 are all screwed with advancing seats 35, advancing sleeves 36 are arranged between the advancing seats 35, and the I-shaped long plate 31 is sleeved with the advancing sleeves 36.

Rotating assembly 4 is including installing in the lower limb post 40 of antedisplacement cover 36, lower limb post 40 lower extreme is equipped with concave 41, concave 41 lower extreme is equipped with a pair of rotating bearing frame 42, be equipped with between the rotating bearing frame 42 and shift the head 43, the both sides of shifting the head 43 all are equipped with axis of rotation 44 outwards extending, axis of rotation 44 all wears rotating bearing frame 42, the outside end of axis of rotation 44 all is equipped with turbine 45, turbine 45 all cooperates worm 46, the both ends of every worm 46 all are equipped with worm bearing frame 47, be equipped with inner panel 48 between every pair of worm bearing frame 47 medial extremity, inner panel 48 all installs in concave 41, the one end of worm 46 all is connected with rotation motor 49, rotation motor 49 all installs in one of them worm bearing frame 47. The transfer head 43 is formed with four through holes 430 in a circumferential array, a circular groove is formed on one side of the transfer head 43, and a vacuum hole 431 is formed at the geometric center of the transfer head 43.

The device carries out the transfer and the posture adjustment operation of the TO-CAN component through the lifting component 1, the traversing component 2, the advancing component 3 and the rotating component 4 according TO the problems in the prior art. Wherein lifting unit 1 is adjusted the height of sideslip subassembly 2, and sideslip subassembly 2 CAN adjust the lateral position of antedisplacement subassembly 3, and the interval between runner assembly 4 and the sideslip subassembly 2 CAN be adjusted TO antedisplacement subassembly 3, and runner assembly 4 CAN carry out the regulation of TO-CAN subassembly every single move angle. The TO-CAN component is transferred and adjusted in posture through mutual matching of the parts, the TO-CAN component CAN be stably fixed through the rotating assembly 4, and the position of the TO-CAN component CAN be adjusted in connector assembly, so that the assembly efficiency of the connector is improved, and the TO-CAN component is convenient TO fix.

In specific operation, through lifting unit 1, sideslip subassembly 2, antedisplacement subassembly 3 shifts rotating assembly 4 TO the department of placing of TO-CAN subassembly, then fix TO-CAN subassembly through rotating assembly 4, adjust the gesture of connector through rotating assembly 4 simultaneously, then TO-CAN subassembly motion TO connector main part department under lifting unit 1, sideslip subassembly 2 and antedisplacement subassembly 3's drive, then carry out the coupling of TO-CAN subassembly, in operation, lifting unit 1, sideslip subassembly 2 and antedisplacement subassembly 3 adjust TO-CAN subassembly TO make things convenient for the equipment operation of connector.

When the lifting assembly 1 is in operation, the lifting motor is started, the lifting screw rod 14 is driven by the lifting motor to rotate, the lifting base 16 is driven by the rotation of the lifting screw rod 14 to move along the length direction of the trapezoid strip 150, and the guide piece 17 sleeved on the trapezoid strip 150 plays a role in guiding the lifting movement of the lifting base 16.

When the traversing assembly 2 is in operation, the traversing motor 24 is started, the traversing screw 25 is driven by the traversing motor 24 to rotate, and the rotation of the traversing screw 25 drives the traversing seat 26 to move along the axial direction of the traversing guide rod 23.

When the advancing assembly 3 is in operation, the advancing motor 33 is started, the advancing rotating rod 34 is driven by the advancing motor 33 to rotate, the rotation of the advancing rotating rod 34 drives the advancing seat 35 to move along the length direction of the long H-shaped plate 31, and the advancing sleeve 36 sleeved on the long H-shaped plate 31 plays a role in guiding the movement of the advancing seat 35.

When the rotating assembly 4 fixes and adjusts the TO-CAN assembly, pins of the TO-CAN assembly penetrate through the through holes 430, and then the vacuum holes 431 are vacuumized through the air pump, so that negative pressure is generated in the vacuum holes 431, and the TO-CAN assembly is stably fixed in the circular groove due TO the fact that the external pressure is greater than the pressure at the positions. In order to improve the stability during fixing, a layer of soft rubber pad is arranged in the circular groove. When the TO-CAN assembly is adjusted in posture, the rotating motor 49 is started, the worm 46 rotates under the driving of the rotating motor 49, the rotation of the worm 46 drives the turbine 45 TO rotate, the rotation of the turbine 45 drives the transfer head 43 TO rotate around the rotating shaft 44, and the worm-turbine transmission mode has a self-locking function, so that the position certainty and the stability of the adjusted transfer head 43 are ensured.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and it is obvious that those skilled in the art can make various changes and modifications to the present invention without departing from the spirit and scope of the present invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (5)

1. The TO-CAN component transferring and posture adjusting device for assembling the connector is characterized by comprising:

a lifting assembly (1);

the transverse moving component (2) is arranged on the lifting component (1);

the advancing component (3) is arranged on the transverse moving component (2);

the rotating assembly (4) is arranged on the forward moving assembly (3) and comprises a downward extending column (40), a concave part (41) is arranged at the lower end of the downward extending column (40), a pair of rotating bearing seats (42) are arranged at the lower end of the concave part (41), transfer heads (43) are arranged between the rotating bearing seats (42), rotating shafts (44) are arranged on two sides of each transfer head (43) in an outward extending mode, the rotating shafts (44) penetrate through the rotating bearing seats (42), turbines (45) are arranged at outer side ends of the rotating shafts (44), the turbines (45) are matched with worms (46), worm bearing seats (47) are arranged at two ends of each worm (46), an inner plate (48) is arranged between inner side ends of each pair of the worm bearing seats (47), the inner plates (48) are arranged on the concave part (41), one end of each worm (46) is connected with a rotating motor (49), and each rotating motor (49) is arranged on one of the worm bearing seats (47);

the lifting assembly (1) is used for adjusting the height of the transverse moving assembly (2), the transverse moving assembly (2) is used for driving the forward moving assembly (3) TO move along the length direction of the transverse moving assembly, the forward moving assembly (3) is used for adjusting the distance between the lifting assembly (1) and the rotating assembly (4), and the rotating assembly (4) is used for fixing the TO-CAN assembly and adjusting the posture.

2. The TO-CAN assembly transfer attitude adjusting device for connector assembly according TO claim 1, wherein the transfer heads (43) are formed in a circumferential array and four through holes (430) are formed therethrough, a circular groove is formed on one side of the transfer heads (43), and a vacuum hole (431) is formed at a geometric center position of the transfer heads (43).

3. The TO-CAN assembly transfer posture adjusting device for connector assembly according TO claim 1, wherein the lifting assembly (1) comprises a base plate (10), the base plate (10) is provided with a mounting base plate (11), the mounting base plate (11) is provided with an upward extending plate (12) in an upward extending manner, the upward extending plate (12) is provided with a guide hole (120), the upper end and the lower end of the outer side of the upward extending plate (12) are provided with lifting bearing seats (13), a lifting lead screw (14) is arranged between the lifting bearing seats (13), the upper end of the lifting lead screw (14) is connected with a lifting motor, the lifting motor is arranged on the lifting bearing seat (13) at the upper end, the outer side of the upward extending plate (12) is provided with outer support plates (15) in pairs, the inner walls of the outer support plates (15) are provided with trapezoidal strips (150), the lifting lead screw (14) is screwed with a lifting seat (16), the inner side end of the lifting seat (16) is provided with a middle connecting plate (160), well even board (160) are worn in guiding hole (120), and well even board (160) both sides all are equipped with planking (161), and guide (17) are all installed to planking (161), and trapezoidal strip (150) are all located in guide (17) cover, and the other end of well even board (160) is equipped with outer cardboard (18), and outer cardboard (18) are located the opposite side of extending board (12).

4. The TO-CAN assembly transfer posture adjusting device for connector assembly as claimed in claim 3, wherein the traverse assembly (2) is mounted on a mounting boss (20) of the outer clamping plate (18), a traverse plate (21) is mounted at the outer side end of the mounting boss (20), traverse bearing seats (22) are mounted at both ends of the other side of the traverse plate (21), a traverse motor (24) is mounted on one traverse bearing seat (22), a traverse screw (25) is connected TO an output shaft of the traverse motor (24), four traverse guide rods (23) are arranged between the traverse bearing seats (22), and a traverse seat (26) is screwed on the traverse screw (25).

5. The TO-CAN component transfer posture-adjusting device for connector assembly according TO claim 4, wherein the forward moving component (3) comprises a first mounting plate (30) mounted on the lateral moving seat (26), the first mounting plate (30) is provided with a I-shaped long plate (31) extending outwards, forward moving bearing seats (32) are mounted on two sides of the I-shaped long plate (31) in pairs, forward moving motors (33) are mounted on the forward moving bearing seats (32) positioned on the outer ends, the forward moving motors (33) are connected with forward moving rotary rods (34), the forward moving rotary rods (34) are respectively provided with forward moving seats (35) in a rotating mode, a forward moving sleeve (36) is arranged between the forward moving seats (35), the forward moving sleeve (36) is sleeved on the I-shaped long plate (31), and the lower support column (40) is mounted on the forward moving sleeve (36).

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