CN109038179B - A connect electric subassembly for equipment of communication electronic instrument internal component - Google Patents

Abstract

The invention discloses a power connection assembly for assembling internal elements of a communication electronic instrument, which can solve the problems that the traditional communication electronic instrument generally adopts a manual power connection method in the assembling process, the manual power connection is low in efficiency and low in speed, a connected lead is easy to fall off from an element, and meanwhile, the electronic element after manual power connection is extremely inconvenient when power is cut off, needs to be manually disassembled, is troublesome and cannot meet the requirement of rapid power cut. Including the support and be located the side bearer on its one end lateral wall, the support top sets up the horizontal pole, be provided with the Y axle on the horizontal pole lateral wall, Y axle side wall mounting has the Z axle, Z axle side wall mounting has the fly leaf, cavity wiring pipe is installed to the fly leaf bottom, the support bottom is provided with the base, be provided with the X axle on the base, the slide is installed at X axle top, the component case is installed at the slide top.

Description

A connect electric subassembly for equipment of communication electronic instrument internal component

Technical Field

The invention relates to an electronic component power connection assembly, in particular to a power connection assembly for assembling internal components of a communication electronic instrument.

Background

When the internal components of the communication electronic instrument are assembled, the electronic components need to be connected with electricity and connected to a power supply, so that the communication electronic instrument can normally operate.

The method of manual electricity connection is generally adopted in the assembling process of the current communication electronic instrument, the manual electricity connection is low in efficiency and low in speed, a connected wire is easy to fall off from an element, meanwhile, the electronic element after the manual electricity connection is extremely inconvenient in power failure, needs to be manually disassembled, and is not only troublesome but also cannot meet the requirement of rapid power failure.

Disclosure of Invention

The invention aims to provide an electricity connecting assembly for assembling internal elements of a communication electronic instrument, which can solve the problems that the traditional communication electronic instrument generally adopts a manual electricity connecting method in the assembling process, the manual electricity connecting efficiency is low, the speed is low, a connected lead is easy to fall off from the element, and meanwhile, the electronic element after manual electricity connecting is extremely inconvenient when power is cut off, needs to be manually disassembled, is troublesome and cannot meet the requirement of quick power cut.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides an connect electric subassembly for equipment of communication electronics instrument internal component, includes support and the side bearer that is located its one end lateral wall, the support top sets up the horizontal pole, be provided with the Y axle on the horizontal pole lateral wall, install the Z axle on the Y axle lateral wall, install the fly leaf on the Z axle lateral wall, hollow wiring pipe is installed to the fly leaf bottom, the support bottom is provided with the base, be provided with the X axle on the base, the X axle top is installed the slide, the slide top is installed with the component case, its characterized in that, the side bearer lateral wall is inlayed the power, adopt the embedding mode to install P L C controller equally above the power, Y axle hydraulic pump is installed at the side bearer top, be connected with a hydraulic telescoping rod who is connected with the Z axle on the Y axle hydraulic pump lateral wall;

wherein, a motor is arranged on the side wall of the Z shaft close to the Y shaft, two back sliding blocks are welded on the side wall of the motor close to the Y shaft, the outer wall of the other side of the motor is connected with a transmission shaft, a Z-axis hydraulic pump is fixedly welded on the side wall of the top end of the Z axis, the outer wall of the bottom of the Z-axis hydraulic pump is connected with another hydraulic telescopic rod connected with the movable plate, the outer walls of two sides of the Z shaft are respectively provided with a sliding chute, the side wall of the movable plate is welded with two side sliding blocks embedded into the sliding chutes, and the bottom end of the movable plate is welded with a joint, one end of the joint is provided with a jacket, the hollow connecting pipe is connected between the connecting holes at the upper end and the lower end of the jacket in a penetrating way, and the side wall of the hollow wire connecting pipe is provided with an infrared positioner, the side wall of the jacket is provided with a bearing, a rotating shaft penetrates through the bearing, and a synchronous belt is sleeved between the rotating shaft and the transmission shaft;

the top of the element box is provided with a plurality of connector lugs connected with internal elements of the element box, the side wall of the element box is connected with a third hydraulic telescopic rod connected with an X-axis hydraulic pump, and the X-axis hydraulic pump is fixed with the base through a connecting rod of a connecting pipe L type structure in a welded mode.

Preferably, the Z axis is movably connected with the Y axis through the Y axis hydraulic pump and the corresponding hydraulic telescopic rod, and the moving direction of the Z axis is the same as the Y axis direction.

Preferably, the movable plate and the hollow wiring pipe are movably connected with the Z shaft through the Z-shaft hydraulic pump and the corresponding hydraulic telescopic rod, and the movable direction of the movable plate and the hollow wiring pipe is the same as the Z-shaft direction.

Preferably, the component box and the sliding plate are movably connected with the X axis through an X axis hydraulic pump and a corresponding hydraulic telescopic rod, and the directions of the component box and the sliding plate are the same as the X axis.

Preferably, the hollow wiring pipe and the jacket are rotatably connected with each other through a rotating shaft and a joint, and the rotating shaft is in transmission connection with the motor through a synchronous belt.

Preferably, the orientation of the probe at the bottom of the infrared locator is the same as the orientation of the hollow wire barrel.

Preferably, the power is electrically connected with the P L C controller, the Y-axis hydraulic pump, the Z-axis hydraulic pump, the infrared positioner and the Z-axis hydraulic pump through a plurality of wires.

The invention has the beneficial effects that:

1. the side wall of the element box is connected with the X-axis hydraulic pump through the hydraulic telescopic rod, so that the position of the element box can be adjusted along the X-axis direction, and the hollow wiring pipe is conveniently butted with a wiring head at the top of the element box; because the other hydraulic telescopic rod connected with the Y-axis hydraulic pump is connected to the side wall of the Z axis, the Z axis can move along the Y axis direction to adjust the position, and therefore the hollow wiring pipe and the wiring head can be conveniently butted in position; because the top of the movable plate connected with the hollow wiring pipe is connected with the Z-axis hydraulic pump through a hydraulic telescopic rod, the hollow wiring pipe can be close to the wiring head along the Z-axis hydraulic pump.

2. Because the installation has the bearing on the jacket lateral wall of installation cavity wire barrel, bearing one end is connected with the pivot, the pivot is connected with the transmission shaft of motor through the hold-in range, make cavity wire barrel can be under the rotation of motor drive hold-in range and driven the rotation by the pivot, thereby cavity wire barrel can detain on the connector lug, and with its inside wire connector to connect to the connector lug on, make the circular telegram of component box internal component, realize more convenient and quick switching on electronic component, the same is also convenient more quick when the outage.

3. Because the infrared positioner is arranged on the side wall of the hollow wiring tube, the infrared positioner can be utilized to detect the accurate position of the hollow wiring tube at any time when the position of the hollow wiring tube is adjusted.

4. Because the bearing is arranged on the side wall of the clamping sleeve and is connected with the rotating shaft, after the position adjustment is completed, the hollow wiring pipe can be driven by the rotating shaft to rotate under the rotation of the motor-driven synchronous belt, so that the hollow wiring pipe can be buckled on the wiring head, the connection is more convenient and faster, and the butt joint is firm and can not fall off.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

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

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a schematic view of the Z-axis structure of the present invention;

FIG. 4 is a schematic view of a jacket structure according to the present invention;

FIG. 5 is a schematic view of the X-axis configuration of the present invention;

in the figure, the device comprises a bracket 1, a base 2, a base 3, an X axis 4, a sliding plate 5, a component box 6, a side frame 7, a Z axis 8, a P L C controller, a Y axis hydraulic pump 9, a hydraulic telescopic rod 10, a cross rod 11, a cross rod 12, a Y axis 13, a hollow connecting pipe 14, a jacket 15, a synchronous belt 16, a joint 17, a motor 18, a movable plate 19, a sliding chute 19, a side sliding block 20, a back sliding block 21, a back sliding block 22, a connecting hole 23, a bearing 24, a rotating shaft 25, an X axis hydraulic pump 26, a connecting rod 27, a connecting head 28, an infrared positioner 29, a power supply 30 and a Z axis hydraulic pump.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, an electrical connection assembly for assembling internal components of a communication electronic instrument includes a bracket 1 and a side frame 6 located on one side wall of the bracket, a cross bar 11 is arranged on the top of the bracket 1, a Y-axis 12 is arranged on the side wall of the cross bar 11, a Z-axis 7 is mounted on the side wall of the Y-axis 12, the Z-axis 7 can move along the Y-axis 12 to adjust the position, so that the hollow connector 13 and the connector 27 can be connected in a butt joint manner, a movable plate 18 is mounted on the side wall of the Z-axis 7, the hollow connector 13 can approach the connector 27 along the Z-axis 7, a hollow connector 13 is mounted at the bottom end of the movable plate 18, a base 2 is arranged at the bottom of the bracket 1, an X-axis 3 is arranged on the base 2, the X-axis 3, the three of the X-axis 3, the Y-axis 12 and the Z-axis 7 are matched with the auxiliary connector 13 for position adjustment, a sliding plate 4 is mounted on the top of the X-axis 3, a component box 5 is mounted on the top of the sliding plate 4, the component box 5 can adjust the position along the X-axis 3, so that the component box 13 and the connector 27 can be connected to the side frame, a hydraulic pump 358 is mounted;

wherein, a motor 17 is installed on the side wall of the Z-axis 7 close to the Y-axis 12, the motor 17 is used for driving the rotation of a rotating shaft 24, two back sliders 21 are welded on the side wall of the motor 17 close to the Y-axis 12, a transmission shaft is connected on the outer wall of the other side of the motor 17, a Z-axis hydraulic pump 30 is fixedly welded on the side wall of the top end of the Z-axis 7, another hydraulic telescopic rod connected with a movable plate 18 is connected on the outer wall of the bottom of the Z-axis hydraulic pump 30, chutes 19 are respectively arranged on the outer walls of the two sides of the Z-axis 7, two side sliders 20 embedded in the chutes 19 are welded on the side wall of the movable plate 18, a joint 16 is welded at the bottom end of the movable plate 18, a jacket 14 is installed at one end of the joint 16, a hollow wiring pipe 13 is penetrated between connecting holes 22 at the upper end, the synchronous belt 15 is sleeved between the rotating shaft 24 and the transmission shaft, so that the hollow wiring tube 13 can be driven to rotate by the rotating shaft 24 under the driving of the motor 17 to drive the synchronous belt 15 to rotate, the hollow wiring tube 13 can be buckled on the wiring head 27, and a lead connector in the hollow wiring tube is connected to the wiring head 27 in a butt joint mode, so that elements in the element box 5 are electrified, the electronic elements are electrified more conveniently and rapidly, and the same convenience and rapidness are realized when power is cut off;

the top of the component box 5 is provided with a plurality of connector lugs 27 connected with the internal components thereof, which can be respectively used for providing connection points for the components at different positions in the component box 5, the side wall of the component box 5 is connected with a third hydraulic telescopic rod connected with the X-axis hydraulic pump 25, and the X-axis hydraulic pump 25 and the base 2 are welded and fixed through a connecting rod 26 of a connecting pipe L type structure.

Z axle 7 is swing joint through being between Y axle hydraulic pump 9 and the hydraulic telescoping rod 10 that corresponds and the Y axle 12, and Z axle 7's activity direction is the same with Y axle 12 direction for Z axle 7 can move the adjustment position along Y axle 12 direction, thereby is convenient for carry out the position butt joint between cavity wire barrel 13 and the connector lug 27.

The movable plate 18 and the hollow wire connecting pipe 13 are movably connected with the Z-axis 7 through the Z-axis hydraulic pump 30 and the corresponding hydraulic telescopic rod 10, and the movable direction of the movable plate 18 and the hollow wire connecting pipe 13 is the same as the direction of the Z-axis 7, so that the hollow wire connecting pipe 13 can be close to the wire connecting head 27 along the direction of the Z-axis 7.

Component box 5 and slide 4 are swing joint through being between X axle hydraulic pump 25 and the hydraulic telescoping rod 10 that corresponds and the X axle 3, and component box 5 and slide 4 are the same with the direction of X axle 3 for component box 5 can be along the 3 direction adjustment positions of X axle, makes things convenient for to dock between the connector lug 27 at cavity connecting tube 13 and component box 5 top.

Hollow wire barrel 13 all is to rotate between pivot 24 and the joint 16 with pressing from both sides cover 14 and is connected, and pivot 24 is the transmission through between hold-in range 15 and the motor 17 and is connected, pivot 24 is connected with motor 17's transmission shaft through hold-in range 15, make hollow wire barrel 13 can be under motor 17 drive hold-in range 15's rotation and driven rotatoryly by pivot 24, thereby hollow wire barrel 13 can be detained on connector lug 27, and on to connector lug 27 with its inside wire connector, make the circular telegram of component box 5 internal component, it is more convenient and quick to realize to circular telegram electronic component, the same is also convenient more quick when the outage.

The direction of the probe at the bottom of the infrared positioner 28 is the same as the direction of the hollow wire connecting tube 13, when the position of the hollow wire connecting tube 13 is adjusted, the infrared positioner 28 can be used for detecting the accurate position of the hollow wire connecting tube 13 at any time, and feeding the accurate position back to the P L C controller 8, and then the accurate position is adjusted through the control of the P L C controller 8, so that the butt joint between the wire connector inside the hollow wire connecting tube 13 and an electronic element is realized more accurately.

The power supply 29 is electrically connected with the P L C controller 8, the Y-axis hydraulic pump 9, the Z-axis hydraulic pump 30, the infrared positioner 28 and the Z-axis hydraulic pump 30 through a plurality of wires, so that each component in the device has enough power source when in operation.

The invention has the beneficial effects that: the side wall of the component box 5 is connected with the X-axis hydraulic pump 25 through the hydraulic telescopic rod 10, so that the position of the component box 5 can be adjusted along the X-axis 3 direction, and the hollow wiring pipe 13 is conveniently butted with the wiring head 27 at the top of the component box 5; because the side wall of the Z-axis 7 is connected with the other hydraulic telescopic rod 10 connected with the Y-axis hydraulic pump 9, the Z-axis 7 can move along the Y-axis 12 direction to adjust the position, and the hollow wire connecting tube 13 and the wire connecting head 27 can be conveniently butted in position; since the top of the movable plate 18 connected with the hollow wire connecting tube 13 is connected with the Z-axis hydraulic pump 30 through a hydraulic telescopic rod 10, the hollow wire connecting tube 13 can approach the wire connecting head 27 along the Z-axis 7 direction.

Because install bearing 23 on the cover 14 lateral wall of clamp of installation cavity wire barrel 13, bearing 23 one end is connected with pivot 24, pivot 24 is connected with motor 17's transmission shaft through hold-in range 15, make cavity wire barrel 13 can be under motor 17 drive hold-in range 15's rotation and driven rotatoryly by pivot 24, thereby cavity wire barrel 13 can be detained on connector lug 27, and on to connector lug 27 with its inside wire connector, make the circular telegram of component box 5 internal component, it is more convenient and quick to realize to circular telegram electronic component, the same is also convenient more quick when the outage.

Since the infrared positioner 28 is mounted on the side wall of the hollow wire barrel 13, the infrared positioner 28 can be used to detect the exact position of the hollow wire barrel 13 at all times when the hollow wire barrel 13 is adjusted.

Because the bearing 23 is arranged on the side wall of the jacket 14, and the bearing 23 is connected with the rotating shaft 24, after the position adjustment is completed, the hollow wiring tube 13 can be driven to rotate by the rotating shaft 24 under the rotation of the synchronous belt 15 driven by the motor 17, so that the hollow wiring tube 13 can be buckled on the wiring head 27, and the wire connector is more convenient and faster, and is firmly butted without falling off.

When the device is used, the assembly of the whole device is firstly completed, a Z shaft 7 is installed on the side wall of a Y shaft 12 at the top of a bracket 1, a sliding plate 4 of a fixed component box 5 is installed on an X shaft 3 on a base 2, a lead joint connected with internal components of an electronic instrument is connected into a hollow wire connector 13, the side wall of the component box 5 is connected with an X-axis hydraulic pump 25 through a hydraulic telescopic rod 10, so that the component box 5 can adjust the position along the direction of the X shaft 3, the hollow wire connector 13 is conveniently butted with the wire connector 27 at the top of the component box 5, the side wall of the Z shaft 7 is connected with another hydraulic telescopic rod 10 connected with a Y-axis hydraulic pump 9, so that the Z shaft 7 can move the adjusting position along the direction of the Y shaft 12, so that the position is conveniently butted between the hollow wire connector 13 and the wire connector 27, the top of a movable plate 18 connected with the hollow wire connector 13 is connected with the Z-axis hydraulic pump 30 through the hydraulic telescopic rod 10, so that the hollow wire connector 13 can be close to the connector 27 along the direction of the hollow wire connector 27, the hollow wire connector 13 and the hollow wire connector 13, the hollow wire connector 13 is also can be conveniently driven by a rotating shaft 13, the wire connector 13, the hydraulic pump 13 is controlled to be driven by a hollow wire connector 13, the hydraulic pump 13 when the hydraulic pump to rotate along the direction, the Y shaft, the hydraulic pump 13 is controlled to rotate, the Y shaft, the hydraulic connector 13 is controlled by an infrared telescopic rod 13, the infrared telescopic rod 13 is controlled by a telescopic rod 13, the infrared cable connector 13 is controlled to rotate, the infrared cable 13, the infrared cable connector 13 is controlled to rotate, the infrared cable 13 is controlled to control switch 13, the infrared cable connector 13, the infrared cable 13 is controlled to control switch 13, the cable connector 13, the infrared cable 13 is controlled to move, the infrared cable 13 to move, the cable 13 is controlled to control switch 13, the cable 13 is controlled to move quickly, the cable 13 is controlled to control switch 13, the cable 13 is controlled to control switch 13, the cable 13 to move, the cable 13 to control switch 13 to move, the cable 13 to move, the cable 13 to control 3617, the cable 13 to move quickly, the cable 13 to.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (7)

1. The utility model provides an connect electric subassembly for equipment of communication electronic instrument internal component, includes support (1) and side bearer (6) that are located its one end lateral wall, support (1) top sets up horizontal pole (11), be provided with Y axle (12) on horizontal pole (11) lateral wall, install Z axle (7) on the Y axle (12) lateral wall, install fly leaf (18) on the Z axle (7) lateral wall, hollow wiring pipe (13) are installed to fly leaf (18) bottom, support (1) bottom is provided with base (2), be provided with X axle (3) on base (2), slide (4) are installed at X axle (3) top, component case (5) are installed at slide (4) top, its characterized in that, side bearer (6) have inlayed power (29) on the lateral wall, adopt the embedding mode to install P L C controller (8) above power (29) the same time, Y axle hydraulic pump (9) top is installed, be connected with a hydraulic telescoping rod on Y axle hydraulic pump (9) lateral wall, and the hydraulic telescoping rod one end that is connected with Y axle hydraulic pump (9) is connected with Z axle lateral wall;

wherein a motor (17) is installed on the side wall of the Z shaft (7) close to the Y shaft (12), two back sliding blocks (21) are welded on the side wall of the motor (17) close to the Y shaft (12), a transmission shaft is connected on the outer wall of the other side of the motor (17), a Z shaft hydraulic pump (30) is welded and fixed on the side wall of the top end of the Z shaft (7), another hydraulic telescopic rod connected with the movable plate (18) is connected on the outer wall of the bottom of the Z shaft hydraulic pump (30), sliding grooves (19) are formed in the outer walls of the two sides of the Z shaft (7), two side sliding blocks (20) embedded into the sliding grooves (19) are welded on the side wall of the movable plate (18), a joint (16) is welded at the bottom end of the movable plate (18), a clamping sleeve (14) is installed at one end of the joint (16), and the hollow wiring pipe (13) is connected between connecting holes (22) at, an infrared positioner (28) is mounted on the side wall of the hollow wiring pipe (13), a bearing (23) is mounted on the side wall of the jacket (14), a rotating shaft (24) penetrates through the inside of the bearing (23), and a synchronous belt (15) is sleeved between the rotating shaft (24) and the transmission shaft;

the hydraulic component box is characterized in that a plurality of connector lugs (27) connected with internal components of the component box are arranged at the top of the component box (5), a third hydraulic telescopic rod connected with an X-axis hydraulic pump (25) is connected onto the side wall of the component box (5), and the X-axis hydraulic pump (25) is fixed with the base (2) through a connecting rod (26) of a connecting pipe L type structure in a welded mode.

2. The electrical connection assembly for assembling internal components of communication electronic instrument according to claim 1, wherein the Z-axis (7) is movably connected to the Y-axis (12) through the Y-axis hydraulic pump (9) and the corresponding hydraulic telescopic rod, and the moving direction of the Z-axis (7) is the same as the direction of the Y-axis (12).

3. The electrical connection assembly for assembling internal components of communication electronic instrument according to claim 1, wherein the movable plate (18) and the hollow wire connecting tube (13) are movably connected to the Z-axis (7) through the Z-axis hydraulic pump (30) and the corresponding hydraulic telescopic rod (10), and the movable direction of the movable plate (18) and the hollow wire connecting tube (13) is the same as the direction of the Z-axis (7).

4. The electrical connection assembly for assembling internal components of communication electronic instruments according to claim 1, wherein the component box (5) and the sliding plate (4) are movably connected with the X-axis (3) through an X-axis hydraulic pump (25) and a corresponding hydraulic telescopic rod (10), and the directions of the component box (5) and the sliding plate (4) are the same as the X-axis (3).

5. The electrical connection assembly for assembling internal components of communication electronic instruments according to claim 1, wherein the hollow connection tube (13) and the jacket (14) are rotatably connected with the joint (16) through a rotating shaft (24), and the rotating shaft (24) is in transmission connection with the motor (17) through a synchronous belt (15).

6. An electrical connection assembly for assembly of internal components of communication electronics according to claim 1, characterized in that the probe orientation at the bottom of the infrared locator (28) is the same as the hollow connector barrel (13).

7. The electrical connection assembly as claimed in claim 1, wherein the power source (29) is electrically connected to the P L C controller (8), the Y-axis hydraulic pump (9), the Z-axis hydraulic pump (30), the infrared positioner (28) and the Z-axis hydraulic pump (30) through a plurality of wires.

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