CN210558541U

CN210558541U - Net twine is received line section of thick bamboo for network engineering construction

Info

Publication number: CN210558541U
Application number: CN201921145643.XU
Authority: CN
Inventors: 杨贤
Original assignee: Lanzhou Lingxin Network Information Technology Co Ltd
Current assignee: Lanzhou Lingxin Network Information Technology Co Ltd
Priority date: 2019-07-19
Filing date: 2019-07-19
Publication date: 2020-05-19
Anticipated expiration: 2029-07-19

Abstract

The utility model relates to the technical field of a network wire take-up drum, in particular to a network wire take-up drum for network engineering construction, which aims to solve the defects in the prior art and provide a network wire take-up drum for network engineering construction; it includes the support, install in the support and receive a line section of thick bamboo mechanism, its characterized in that: an optical axis and a lead screw mechanism are sequentially arranged on the left lower side of the take-up drum mechanism from top to bottom along the vertical direction, a first transmission mechanism is arranged on the outer side surface of the support, and a tensioning guide mechanism is connected to the optical axis in a sliding manner; the beneficial effects are that: under the action of the second transmission device, the mesh wire can be input and tightened under the meshing action of the first wire guide roller and the second wire guide roller; the winding drum and the bidirectional reciprocating lead screw are divided into two parts by the partition plate, and meanwhile, each part is provided with the tensioning guide mechanism, so that the winding of the mesh wires with two specifications can be realized, and the usability of the mesh wire take-up drum for network engineering construction is improved.

Description

Net twine is received line section of thick bamboo for network engineering construction

Technical Field

The utility model relates to a line section of thick bamboo technical field is received to the net twine specifically is a line section of thick bamboo is received to net twine for network engineering construction.

Background

The existing net wire winding device has the problems that the net wires are unevenly distributed in the winding grooves of the winding wheel in the process of winding the net wires, the winding grooves are partially wound and even separated from the winding grooves, and the other part of the net wires are not wound to the half of the clamping grooves, so that the net wire winding effect is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve the defect that exists among the prior art, provide a network engineering is with net twine receipts line section of thick bamboo.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme:

the utility model provides a section of thick bamboo is received with net twine to network engineering construction, includes support 1, install in support 1 and receive a section of thick bamboo mechanism 2, its characterized in that: an optical axis 4 and a lead screw mechanism 3 are sequentially installed on the left lower side of the take-up drum mechanism 2 from top to bottom along the vertical direction, a first transmission mechanism 6 is arranged on the outer side face of the support 1, a tensioning guide mechanism 5 is connected on the optical axis 4 in a sliding manner, the tensioning guide mechanism 5 comprises a sliding seat 501, a through hole 503 penetrating the optical axis 4 is formed in the middle of the sliding seat 501, a sliding block 502 in threaded connection with the lead screw mechanism 3 is arranged at the bottom of the sliding seat 501, a first side plate 504 and a second side plate 505 are arranged at the top of the sliding seat 501, a first rotating shaft 506 and a second rotating shaft 508 are sequentially installed between the first side plate 504 and the second side plate 505 along the vertical direction from bottom to top, a first guide roller 507 is fixedly connected on the first rotating shaft 506, a second guide roller 509 is fixedly connected on the second rotating shaft 508, and the upper and lower edges of the cross sections of the first guide roller 507 and the, a wire inlet hole 5013 is formed between the first wire guide roller 507 and the second wire guide roller 509, and a second transmission mechanism is arranged on the outer side of the first side plate 504 or the second side plate 505.

The second transmission mechanism comprises a second motor 5012, an output shaft of the second motor 5012 is connected with a first rotating shaft 506 through a coupler, a first gear 5010 is fixedly connected to the first rotating shaft 506, the first gear 5010 is in meshing connection with a second gear 5011, and the second gear 5011 is fixedly connected to the end portion of the first rotating shaft 506.

The outer surfaces of the first guide roller 507 and the second guide roller 509 are sleeved with rubber sleeves.

The second motor 5012 is a bidirectional motor.

The winding drum mechanism 2 comprises a winding drum shaft 201, two ends of the winding drum shaft 201 are fixedly connected to the side wall of the support 1 through bearings, the winding drum 202 is fixedly connected to the winding drum shaft 201, baffles 203 are fixedly connected to two end faces of the winding drum 202, a first partition plate 204 is fixedly connected to the middle of the winding drum 202, and the winding drum 202 is divided into a left part and a right part by the first partition plate 204.

The screw mechanism 3 comprises a bidirectional reciprocating screw 301, limiting plates 302 corresponding to the baffles 203 are arranged at two ends of the bidirectional reciprocating screw 301, a second partition plate 303 corresponding to the first partition plate 204 is arranged in the middle of the bidirectional reciprocating screw 301, and the bidirectional reciprocating screw 301 is divided into a left part and a right part by the second partition plate 303.

The number of the tension guide mechanisms 5 is two, and corresponds to the left and right portions of the bobbin 202 and the multi-filament bar 301.

The first transmission mechanism 6 comprises a first motor 601, an output shaft of the first motor 601 is connected with an intermediate rotating shaft 602 through a coupling, the other end of the intermediate rotating shaft 602 is connected to the side wall of the support 1 through a bearing, the intermediate rotating shaft 602 is fixedly connected with a first belt pulley 603 and a third belt pulley 606, the first belt pulley 603 is connected with a second belt pulley 605 through a first belt 604 in a transmission manner, the second belt pulley 605 is fixedly connected to the end part of the winding drum shaft 201, the third belt pulley 606 is connected with a fourth belt pulley 608 through a second belt 607 in a transmission manner, and the fourth belt pulley 608 is fixedly connected to the end part of the bidirectional reciprocating lead screw 301.

The beneficial effects of the utility model reside in that: 1. under the action of the bidirectional reciprocating screw rod 301, the net wires can be wound in order; 2. under the action of the second transmission device, the mesh action of the first guide roller 507 and the second guide roller 509 can realize the input and the tightening of the mesh wire; 3. the winding reel 202 and the bidirectional reciprocating screw 301 are divided into two parts by the partition plate, and meanwhile, each part is provided with one tensioning guide mechanism 5, so that cables of two specifications can be wound, and the usability of the network cable winding reel for network engineering construction is improved.

Drawings

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

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a partial enlarged view A of FIG. 2;

fig. 4 is a partial enlarged view B of fig. 1.

Shown in the figure: the wire winding device comprises a support 1, a wire winding drum mechanism 2, a lead screw mechanism 3, an optical axis 4, a tensioning guide mechanism 5, a first transmission mechanism 6, a wire winding drum shaft 201, a wire winding drum 202, a baffle 203, a first partition plate 204, a bidirectional reciprocating lead screw 301, a limiting plate 302, a second partition plate 303, a sliding seat 501, a sliding block 502, a through hole 503, a first side plate 504, a second side plate 505, a first rotating shaft 506, a first wire guide roller 507, a second rotating shaft 508, a second wire guide roller 509, a first gear 5010, a second gear 5011, a second motor 5012, a wire inlet hole 5013, a first motor 601, an intermediate rotating shaft 602, a first belt pulley 603, a first belt 604, a second belt pulley 605, a third belt pulley 606, a second belt 607 and a fourth belt pulley 608.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

The components, structures, mechanisms and the like described in the following examples are all conventional commercially available products unless otherwise specified.

Example 1:

a network cable winding drum for network engineering construction is shown in figures 1-4 and comprises a support 1, a winding drum mechanism 2 is installed in the support 1, an optical axis 4 and a screw mechanism 3 are sequentially installed on the left lower portion of the winding drum mechanism 2 from top to bottom along a vertical direction, two ends of the optical axis 4 are fixedly connected to the side wall of the support 1, a first transmission mechanism 6 is arranged on the outer side surface of the support 1, a tensioning guide mechanism 5 is connected to the optical axis 4 in a sliding mode, the tensioning guide mechanism 5 comprises a sliding seat 501, a through hole 503 penetrating the optical axis 4 is formed in the middle of the sliding seat 501, a sliding block 502 in threaded connection with the screw mechanism 3 is arranged at the bottom of the sliding seat 501, a first side plate 504 and a second side plate 505 are arranged at the top of the sliding seat 501, a first rotating shaft 506 and a second rotating shaft 508 are sequentially connected between the first side plate 504 and the second side plate 505 from bottom to top along, a first wire guiding roller 507 is fixedly connected to the first rotating shaft 506, a second wire guiding roller 509 is fixedly connected to the second rotating shaft 508, the upper and lower edges of the cross-sections of the first and

second guide rollers

507 and 509 are concave arc-shaped, a wire feed hole 5013 is formed between the first wire guide roller 507 and the second wire guide roller 509, a second transmission mechanism is arranged on the outer side of the first side plate 504 or the second side plate 505, the second transmission mechanism comprises a second motor 5012, the output shaft of the second motor 5012 is connected with a first rotating shaft 506 through a coupler, the first rotating shaft 506 is fixedly connected with a first gear 5010, the first gear 5010 is engaged with a second gear 5011, the second gear 5011 is fixedly connected to an end of the first rotating shaft 506, the outer surfaces of the first wire guiding roller 507 and the second wire guiding roller 509 are sleeved with rubber sleeves, and the second motor 5012 is a bidirectional motor so as to realize input and output of a mesh wire.

The screw mechanism 3 comprises a bidirectional reciprocating screw 301, two ends of the bidirectional reciprocating screw 301 are connected to the side wall of the support 1 through bearings, two ends of the bidirectional reciprocating screw 301 are provided with limiting plates 302 corresponding to the baffle plates 203, the middle of the bidirectional reciprocating screw 301 is provided with a second partition plate 303 corresponding to the first partition plate 204, and the second partition plate 303 divides the bidirectional reciprocating screw 301 into a left part and a right part.

The utility model discloses a theory of operation does: 1. under the action of the first transmission mechanism 6, the rotation of the bidirectional reciprocating lead screw 301 drives the sliding block 502 to do reciprocating linear motion along the bidirectional reciprocating lead screw 301, and then the sliding seat 501 makes reciprocating linear motion on the optical axis 4, so that the net wires can be orderly wound; 2. under the action of the second transmission mechanism, the meshing action of the first wire guide roller 507 and the second wire guide roller 509 can realize input and output of the mesh wire in the wire inlet hole 5013, and meanwhile, the mesh wire between the wire inlet hole 5013 and the wire take-up cylinder mechanism 2 is ensured to be in a tensioning state, so that the mesh wire wound on the wire take-up cylinder is compact and not loose; 3. the winding drum 202 and the bidirectional reciprocating lead screw 301 are divided into two parts by the partition plates, meanwhile, each part is provided with one tensioning guide mechanism 5, the cables with two specifications can be wound, and the size of the wire inlet hole 5013 is adjusted by sleeving rubber sleeves on the outer surfaces of the first wire guide roller 507 and the second wire guide roller 509 so as to adapt to different mesh wire specifications and further improve the usability of the mesh wire winding drum for network engineering construction.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims

1. The utility model provides a section of thick bamboo is received with net twine to network engineering construction, includes support (1), install in support (1) and receive a section of thick bamboo mechanism (2), its characterized in that: optical axis (4) and screw mechanism (3) are installed in proper order along vertical direction from the top down to the left side below of receipts line section of thick bamboo mechanism (2), the lateral surface of support (1) is equipped with first drive mechanism (6), sliding connection has tensioning guiding mechanism (5) on optical axis (4), tensioning guiding mechanism (5) include slide (501), the middle part of slide (501) is equipped with through-hole (503) of wearing to establish optical axis (4), the bottom of slide (501) is equipped with slider (502) with screw mechanism (3) threaded connection, the top of slide (501) is equipped with first curb plate (504) and second curb plate (505), install first pivot (506) and second pivot (508) in proper order along vertical direction from the bottom up between first curb plate (504) and second curb plate (505), fixedly connected with first wire roller (507) on first pivot (506), the wire guide device is characterized in that a second wire guide roller (509) is fixedly connected to the second rotating shaft (508), the upper edge and the lower edge of the cross section of the first wire guide roller (507) and the cross section of the second wire guide roller (509) are in a concave arc shape, a wire inlet hole (5013) is formed between the first wire guide roller (507) and the second wire guide roller (509), and a second transmission mechanism is arranged on the outer side of the first side plate (504) or the second side plate (505).

2. The net wire take-up drum for network engineering construction according to claim 1, characterized in that: the winding drum mechanism (2) comprises a winding drum shaft (201), two ends of the winding drum shaft (201) are fixedly connected to the side wall of the support (1) through bearings, the winding drum shaft (201) is fixedly connected with a winding drum (202), two end faces of the winding drum (202) are fixedly connected with baffles (203), a first partition plate (204) is fixedly connected to the middle of the winding drum (202), and the winding drum (202) is divided into a left part and a right part by the first partition plate (204).

3. The net wire take-up drum for network engineering construction according to claim 2, characterized in that: screw mechanism (3) are including two-way reciprocal lead screw (301), the both ends of two-way reciprocal lead screw (301) are equipped with limiting plate (302) corresponding with baffle (203), the middle part of two-way reciprocal lead screw (301) is equipped with second baffle (303) corresponding with first baffle (204), two-way reciprocal lead screw (301) are cut apart into two parts on the left and right sides in second baffle (303).

4. The net wire take-up drum for network engineering construction according to claim 3, wherein: first drive mechanism (6) include first motor (601), the output shaft of first motor (601) has middle pivot (602) through the coupling joint, the other end of middle pivot (602) passes through the bearing and connects on the lateral wall of support (1), fixedly connected with first belt pulley (603) and third belt pulley (606) on middle pivot (602), first belt pulley (603) are connected with second belt pulley (605) through first belt (604) transmission, second belt pulley (605) fixed connection is at the tip of bobbin axle (201), third belt pulley (606) are connected with fourth belt pulley (608) through second belt (607) transmission, fourth belt pulley (608) fixed connection is at the tip of two-way reciprocal lead screw (301).

5. The net wire take-up drum for network engineering construction according to claim 3, wherein: the number of the tensioning guide mechanisms (5) is two, and the tensioning guide mechanisms correspond to the left part and the right part of the bobbin (202) and the multifilament bar (301).

6. The net wire take-up drum for network engineering construction according to claim 1, characterized in that: the second transmission mechanism comprises a second motor (5012), an output shaft of the second motor (5012) is connected with a first rotating shaft (506) through a coupler, the first rotating shaft (506) is fixedly connected with a first gear (5010), the first gear (5010) is in meshing connection with a second gear (5011), and the second gear (5011) is fixedly connected to the end portion of the first rotating shaft (506).

7. The net wire take-up drum for network engineering construction according to claim 6, wherein: the outer surfaces of the first wire guiding roller (507) and the second wire guiding roller (509) are sleeved with rubber sleeves.

8. The net wire take-up drum for network engineering construction according to claim 6, wherein: the second motor (5012) is a bi-directional motor.