CN217445579U - Soft or hard high-precision that combines becomes 5G circuit board - Google Patents

Abstract

The utility model discloses a soft and hard combined high-precision 5G circuit board, which belongs to the field of 5G circuit boards, and relates to a soft and hard combined high-precision 5G circuit board, which comprises a soft 5G circuit board and a hard 5G circuit board, wherein the soft 5G circuit board and the hard 5G circuit board are connected through an I-shaped connecting component, the I-shaped connecting component comprises a first I-shaped connecting piece and a second I-shaped connecting piece, the first I-shaped connecting piece and the second I-shaped connecting piece are respectively arranged at the upper side and the lower side of the soft 5G circuit board and the hard 5G circuit board and are used for clamping the soft 5G circuit board and the hard 5G circuit board, four groups of circuit board connecting components are arranged between the first I-shaped connecting piece and the second I-shaped connecting piece, which can be realized, the soft 5G circuit board and the hard 5G circuit board can be simply assembled, and the operation is simple, the installation efficiency is higher, and installation back stability is higher, has the auto-lock nature.

Description

Soft or hard high-precision that combines becomes 5G circuit board

Technical Field

The utility model relates to a 5G circuit board field, more specifically say, relate to a high accuracy that soft or hard combines becomes 5G circuit board.

Background

Although the problem that the connection mode of the soft and hard combined circuit board is not stable enough can be solved, the h-shaped connecting piece is adopted for connecting and fixing the structure, so that the stability of the structure is ensured, the connection surface is wider, the soft and hard combined circuit board cannot be easily damaged and broken, the stability of the connection structure is ensured, and the soft and hard circuit board can normally work;

but the problems that in the prior art, when a soft 5G circuit board and a hard 5G circuit board are assembled, the processes are more, the difficulty is higher, the operation is more complex, and the installation efficiency is lower are not solved, and therefore a soft and hard combined high-precision finished 5G circuit board is provided.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

To the problem that exists among the prior art, the utility model aims to provide a high-accuracy intensive one-tenth 5G circuit board that soft or hard combines, it can realize, comparatively simple assembles soft 5G circuit board and stereoplasm 5G circuit board, and operates comparatively simply, and the installation effectiveness is higher, and installation back stability is higher, has auto-lock nature.

2. Technical scheme

In order to solve the above problems, the utility model adopts the following technical proposal.

A soft and hard combined high-precision 5G circuit board comprises a soft 5G circuit board and a hard 5G circuit board, wherein the soft 5G circuit board and the hard 5G circuit board are connected through an I-shaped connecting assembly, the I-shaped connecting assembly comprises a first I-shaped connecting piece and a second I-shaped connecting piece, and the first I-shaped connecting piece and the second I-shaped connecting piece are respectively placed on the upper side and the lower side of the soft 5G circuit board and the hard 5G circuit board and used for clamping the soft 5G circuit board and the hard 5G circuit board;

four groups of circuit board connecting assemblies are arranged between the first I-shaped connecting piece and the second I-shaped connecting piece, and the four groups of circuit board connecting assemblies are respectively connected with two end angles of the soft 5G circuit board and the hard 5G circuit board which are close to each other;

i-shaped piece fastening assemblies are arranged at the middle positions of the first I-shaped connecting piece and the second I-shaped connecting piece and used for reinforcing the first I-shaped connecting piece and the second I-shaped connecting piece.

Furthermore, circuit board coupling assembling is including three fastening inserted bar and three fastening sleeve, fastening inserted bar and fastening sleeve fixed connection respectively are in the one side that first I-shaped connecting piece and second I-shaped connecting piece are close to each other, just the fastening inserted bar is pegged graft in fastening sleeve's inside, soft 5G circuit board and hard 5G circuit board two extreme angle departments that are close to each other all offer with the three locating hole of fastening sleeve looks adaptation, three fastening sleeve pegs graft respectively in the inside of three locating hole.

Furthermore, the I-shaped part fastening assembly comprises a plurality of first positioning rods, a plurality of second positioning rods, a fastening rope and a positioning assembly for positioning the fastening rope, a first working cavity is arranged in the middle of the first I-shaped connecting piece, a plurality of first positioning rods are arranged in the first working cavity, a second working cavity is arranged in the middle of the second I-shaped connecting piece, a plurality of second positioning rods are arranged in the second working cavity, the first positioning rod and the second positioning rod are arranged at intervals, the positioning group is arranged at the upper side of the first I-shaped connecting piece, one end of the fastening rope is a fixed end, the inner wall of the second working cavity is connected with the fastening rope, the fastening rope is sequentially wound on the first positioning rod and the second positioning rod, and one end, far away from the fixed end, of the fastening rope is a movable end which is connected with the positioning assembly.

Furthermore, the outside of first locating lever and second locating lever all rotates and is connected with the impairment circle, the arc circle has been seted up in the outside of impairment circle.

Furthermore, the positioning assembly comprises a rotating ring which is rotatably connected to the first I-shaped connecting piece, the rotating ring is connected with the movable end of the fastening rope, a positioning fixture block is fixedly connected to the lower side of the rotating ring, and a plurality of positioning clamp grooves matched with the positioning fixture block are formed in the upper side of the first I-shaped connecting piece.

Furthermore, the cross sections of the positioning clamping block and the positioning clamping groove are in a right-angled triangle shape.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages of:

(1) this scheme can be through setting up I-shaped spare fastening component alright with installing first I-shaped connecting piece and second I-shaped connecting piece through pulling fastening rope, accomplish the reinforcement to soft 5G circuit board and stereoplasm 5G circuit board, operate comparatively simply, the installation effectiveness is higher.

(2) This scheme can utilize a plurality of fastening inserted bars and fastening sleeve to fix soft 5G circuit board and stereoplasm 5G circuit board through setting up multiunit circuit board coupling assembling to stability after the hoisting device installation that can be great.

(3) This scheme rotates the circle through setting up and can be comparatively simple stimulate the fastening rope, rotates the circle and can carry on spacingly to rotating the circle through positioning fixture block and positioning groove after accomplishing, makes the device have auto-lock nature.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic diagram of the explosion structure of the present invention;

FIG. 3 is a schematic view of the cutting structure of the loss reduction ring of the present invention;

fig. 4 is a schematic view of a partially-cut structure of the first i-shaped connecting member of the present invention.

The reference numbers in the figures illustrate:

1. a soft 5G circuit board; 2. a hard 5G circuit board; 3. a first I-shaped connector; 4. a second I-shaped connector; 5. a first positioning rod; 6. a second positioning rod; 7. fastening the rope; 8. rotating the ring; 9. positioning holes; 10. fastening the inserted rod; 11. fastening the sleeve; 12. positioning a fixture block; 13. positioning the clamping groove; 14. and (4) a loss reduction ring.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention; obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Example (b):

as shown in fig. 1-4, a soft and hard combined high-precision 5G circuit board comprises a soft 5G circuit board 1 and a hard 5G circuit board 2, and as shown in a soft and hard combined circuit board disclosed by the publication number CN213126586U, the soft 5G circuit board 1 and the hard 5G circuit board 2 can be connected by an i-shaped connecting assembly, so that the problem that the connection mode of the soft and hard combined circuit board is not stable enough can be solved;

as shown in fig. 1-2, the i-shaped connecting assembly includes a first i-shaped connecting member 3 and a second i-shaped connecting member 4, where the first i-shaped connecting member 3 and the second i-shaped connecting member 4 are respectively disposed on the upper side and the lower side of the soft 5G circuit board 1 and the hard 5G circuit board 2, and are used to clamp the soft 5G circuit board 1 and the hard 5G circuit board 2;

four groups of circuit board connecting assemblies are arranged between the first I-shaped connecting piece 3 and the second I-shaped connecting piece 4, and the four groups of circuit board connecting assemblies are respectively connected with two end angles of the soft 5G circuit board 1 and the hard 5G circuit board 2 which are close to each other.

As shown in fig. 2, the circuit board connection assembly includes three fastening insertion rods 10 and three fastening sleeves 11, the fastening insertion rods 10 and the fastening sleeves 11 are respectively and fixedly connected to the sides of the first i-shaped connection member 3 and the second i-shaped connection member 4, which are close to each other, the fastening insertion rods 10 are inserted into the fastening sleeves 11, two end corners of the soft 5G circuit board 1 and the hard 5G circuit board 2, which are close to each other, are respectively provided with three positioning holes 9 adapted to the fastening sleeves 11, and the three fastening sleeves 11 are respectively inserted into the three positioning holes 9;

at this moment, when fixing soft 5G circuit board 1 and stereoplasm 5G circuit board 2, all place soft 5G circuit board 1 and stereoplasm 5G circuit board 2 in the upside of second I-shaped connecting piece 4 to make the inside that the fastening sleeve 11 of second I-shaped connecting piece 4 upside pegged graft and get into locating hole 9, then place first I-shaped connecting piece 3 in the upside of soft 5G circuit board 1 and stereoplasm 5G circuit board 2, and make the inside that fastening inserted bar 10 pegged graft and get into fastening sleeve 11, thereby can be comparatively firm fix soft 5G circuit board 1 and stereoplasm 5G circuit board 2.

Meanwhile, referring to fig. 1-2 again, an i-shaped member fastening assembly is disposed at a middle position of the first i-shaped connecting member 3 and the second i-shaped connecting member 4, and is used for reinforcing the first i-shaped connecting member 3 and the second i-shaped connecting member 4, so that the first i-shaped connecting member 3 and the second i-shaped connecting member 4 move toward a direction in which they approach each other.

The I-shaped part fastening assembly comprises a plurality of first positioning rods 5, a plurality of second positioning rods 6, a fastening rope 7 and a positioning assembly for positioning the fastening rope 7, a first working cavity is formed in the middle of the first I-shaped connecting part 3, the first positioning rods 5 are arranged inside the first working cavity, a second working cavity is formed in the middle of the second I-shaped connecting part 4, the second positioning rods 6 are arranged inside the second working cavity, the first positioning rods 5 and the second positioning rods 6 are arranged at intervals, the positioning assembly is arranged on the upper side of the first I-shaped connecting part 3, one end of the fastening rope 7 is a fixed end and is connected with the inner wall of the second working cavity, the fastening rope 7 is sequentially wound on the first positioning rods 5 and the second positioning rods 6, and the end, far away from the fixed end, of the fastening rope 7 is a movable end and is connected with the positioning assembly;

at this time, when the first i-shaped connecting piece 3 and the second i-shaped connecting piece 4 are fixed, the movable end of the fastening rope 7 is pulled, the fastening rope 7 moves outside the first positioning rod 5 and the second positioning rod 6, and when the fastening rope 7 moves outside the first positioning rod 5 and the second positioning rod 6, horizontal kinetic energy is converted into vertical kinetic energy which drives the first i-shaped connecting piece 3 and the second i-shaped connecting piece 4 to move, so that the first i-shaped connecting piece 3 and the second i-shaped connecting piece 4 are fixed.

Meanwhile, as shown in fig. 2-3, in order to reduce the wear of the fastening rope 7 during use, the first positioning rod 5 and the second positioning rod 6 are rotatably connected to the loss reduction ring 14, and in order to prevent the fastening rope 7 from moving to the edge of the loss reduction ring 14 and from being stuck, an arc-shaped ring is formed on the outer side of the loss reduction ring 14, so that the fastening rope 7 is always located in the middle of the loss reduction ring 14.

In order to further reduce the abrasion of the fastening rope 7 and the deformation of the fastening rope 7, the material of the fastening rope 7 is preferably a steel wire.

Further, as shown in fig. 2 and 4, the positioning assembly includes a rotating ring 8 rotatably connected to the first i-shaped connector 3, the rotating ring 8 is connected to the movable end of the fastening rope 7, a positioning fixture block 12 is fixedly connected to the lower side of the rotating ring 8, and a plurality of positioning slots 13 adapted to the positioning fixture block 12 are formed in the upper side of the first i-shaped connector 3;

when the rotating ring 8 rotates, the movable end head of the fastening rope 7 is driven to rotate on the outer side of the rotating ring 8, the fastening rope 7 is wound on the outer side of the rotating ring 8, and the fastening rope 7 is pulled;

meanwhile, in order to avoid the displacement phenomenon of the positioning clamping block 12 inside the positioning clamping groove 13 and to enable the rotating ring 8 to rotate reversely, the loosening phenomenon of the fastening rope 7 is avoided, and the cross sections of the positioning clamping block 12 and the positioning clamping groove 13 are both right-angled triangles.

When in use: when the soft 5G circuit board 1 and the hard 5G circuit board 2 are fixed, the soft 5G circuit board 1 and the hard 5G circuit board 2 are both placed between the first I-shaped connecting piece 3 and the second I-shaped connecting piece 4, the fastening sleeve 11 on the upper side of the second I-shaped connecting piece 4 is inserted into the positioning hole 9, and the fastening inserted bar 10 is inserted into the fastening sleeve 11, so that the soft 5G circuit board 1 and the hard 5G circuit board 2 can be stably fixed;

then, the rotating ring 8 is rotated, when the rotating ring 8 rotates, the movable end of the fastening rope 7 is driven to rotate on the outer side of the rotating ring 8, the fastening rope 7 is wound on the outer side of the rotating ring 8, the fastening rope 7 is pulled, when the movable end of the fastening rope 7 is pulled, the fastening rope 7 moves on the outer sides of the first positioning rod 5 and the second positioning rod 6, and when the fastening rope 7 moves on the outer sides of the first positioning rod 5 and the second positioning rod 6, horizontal kinetic energy is converted into vertical kinetic energy which drives the first I-shaped connecting piece 3 and the second I-shaped connecting piece 4 to move, so that the first I-shaped connecting piece 3 and the second I-shaped connecting piece 4 are fixed;

after the rotation is finished, the positioning clamping block 12 is clamped into any one positioning clamping groove 13 to position the rotating ring 8, and the self-locking of the rotating ring 8 is realized.

To sum up, the utility model can install the first I-shaped connecting piece 3 and the second I-shaped connecting piece 4 by pulling the fastening rope 7 through the I-shaped piece fastening component, so as to reinforce the soft 5G circuit board 1 and the hard 5G circuit board 2, and has the advantages of simple operation and high installation efficiency;

meanwhile, the soft 5G circuit board 1 and the hard 5G circuit board 2 can be fixed by the plurality of fastening inserted rods 10 and the fastening sleeves 11 through the arrangement of the plurality of groups of circuit board connecting assemblies, so that the stability of the device after installation can be greatly improved;

rotate the pulling to fastening rope 7 that can be comparatively simple through setting up and rotate circle 8, rotate circle 8 and rotate and can carry out spacingly through positioning fixture block 12 and positioning groove 13 to rotating circle 8 after accomplishing, make the device have auto-lock nature.

The above description is only the preferred embodiment of the present invention; the scope of the present invention is not limited thereto. Any person skilled in the art should also be able to cover the protection scope of the present invention by replacing or changing the technical solution and the modified concept of the present invention within the technical scope of the present invention.

Claims (6)

1. The utility model provides a soft or hard high accuracy that combines becomes 5G circuit board, includes soft 5G circuit board (1) and stereoplasm 5G circuit board (2), soft 5G circuit board (1) and stereoplasm 5G circuit board (2) are connected its characterized in that through I-shaped coupling assembling: the I-shaped connecting assembly comprises a first I-shaped connecting piece (3) and a second I-shaped connecting piece (4), wherein the first I-shaped connecting piece (3) and the second I-shaped connecting piece (4) are respectively placed on the upper side and the lower side of the soft 5G circuit board (1) and the hard 5G circuit board (2) and used for clamping the soft 5G circuit board (1) and the hard 5G circuit board (2);

four groups of circuit board connecting assemblies are arranged between the first I-shaped connecting piece (3) and the second I-shaped connecting piece (4), and are respectively connected with two end angles of the soft 5G circuit board (1) and the hard 5G circuit board (2) which are close to each other;

and an I-shaped part fastening assembly is arranged in the middle position of the first I-shaped connecting part (3) and the second I-shaped connecting part (4) and is used for reinforcing the first I-shaped connecting part (3) and the second I-shaped connecting part (4).

2. The soft-hard combined high-precision 5G circuit board according to claim 1, characterized in that: the circuit board connecting assembly comprises three fastening insertion rods (10) and three fastening sleeves (11), the fastening insertion rods (10) and the fastening sleeves (11) are respectively and fixedly connected to one side, close to each other, of the first I-shaped connecting piece (3) and the second I-shaped connecting piece (4), the fastening insertion rods (10) are connected to the inside of the fastening sleeves (11) in an inserting mode, three positioning holes (9) matched with the fastening sleeves (11) are formed in two end angle positions, close to each other, of the soft 5G circuit board (1) and the hard 5G circuit board (2), and the fastening sleeves (11) are connected to the inside of the three positioning holes (9) in an inserting mode.

3. The soft-hard combined high-precision 5G circuit board according to claim 1, characterized in that: the I-shaped part fastening assembly comprises a plurality of first positioning rods (5), a plurality of second positioning rods (6), a fastening rope (7) and a positioning assembly for positioning the fastening rope (7), a first working cavity is formed in the middle of the first I-shaped connecting part (3), the first positioning rods (5) are arranged in the first working cavity, a second working cavity is formed in the middle of the second I-shaped connecting part (4), the second positioning rods (6) are arranged in the second working cavity, the first positioning rods (5) and the second positioning rods (6) are arranged at intervals, the positioning assembly is arranged on the upper side of the first I-shaped connecting part (3), one end of the fastening rope (7) is a fixed end and is connected with the inner wall of the second working cavity, and the fastening rope (7) is sequentially wound on the first positioning rods (5) and the second positioning rods (6), one end of the fastening rope (7) far away from the fixed end is a movable end which is connected with the positioning component.

4. The soft-hard combined high-precision 5G circuit board according to claim 3, characterized in that: the outside of first locating lever (5) and second locating lever (6) is all rotated and is connected with the reduction circle (14), the arc circle has been seted up in the outside of reduction circle (14).

5. The soft-hard combined high-precision 5G circuit board according to claim 3, characterized in that: the positioning assembly comprises a rotating ring (8) which is rotatably connected to the first I-shaped connecting piece (3), the rotating ring (8) is connected with the movable end of the fastening rope (7), a positioning clamping block (12) is fixedly connected to the lower side of the rotating ring (8), and a plurality of positioning clamping grooves (13) matched with the positioning clamping block (12) are formed in the upper side of the first I-shaped connecting piece (3).

6. The hard-soft combined high-precision 5G circuit board according to claim 5, characterized in that: the cross sections of the positioning clamping blocks (12) and the positioning clamping grooves (13) are right-angled triangles.

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