CN112838525A - Temporary cable supporting device for building construction - Google Patents

Abstract

The invention relates to the technical field of building construction, in particular to a temporary cable supporting device for building construction, which comprises: flatbed vehicle; the handrail is arranged at one end of the flat car and used for driving the flat car to move; the supporting mechanism is arranged on the flat car and used for fixing the flat car; the cable turning positioning mechanism is arranged on the flat car and used for positioning the cable and enabling one end of the cable to turn; elevating system sets up on the flatbed for the lift process that the actuating cable positioning mechanism turned round, this technical scheme has solved the problem that the building construction supports the cable temporarily, and this equipment can be stable supports the cable temporarily, and can turn round the degree of curvature automatic adjustment according to the cable needs and support, improves support stability and support efficiency.

Description

Temporary cable supporting device for building construction

Technical Field

The invention relates to the technical field of building construction, in particular to a temporary cable supporting device for building construction.

Background

The construction is to carry out the activities of new construction, extension or reconstruction on the construction project according to the requirements of the design file of the construction project; as is known, temporary electricity utilization plays a decisive role in the building construction process, the completion of each process in the construction process is closely related to the temporary electricity utilization, and the potential safety hazard of electricity utilization exists on the temporary electricity utilization cables in the building construction site in China, which brings potential danger to the building construction industry, so that a supporting device of the temporary electricity utilization cables for building construction is needed;

when present building construction site needs interim power consumption, because do not have a device of standardization, mostly need the constructor manual work to carry out the laying of cable, however, such laying process can make constructor intensity of labour increase, lay inefficiency, because handheld cable laying, direct and cable contact, the power consumption accident takes place easily, constructor's work burden has been increased, and current cable support equipment can not be with the nimble adjustment of cable, if need carry out crooked support with the cable in the corner, generally need erect respectively through two cable support equipment and support with the two places of corner, the cost is higher, and influence support efficiency, consequently, we have provided a cable temporary support device for construction, so that solve above-mentioned problem that proposes.

Disclosure of Invention

For solving above-mentioned technical problem, provide a temporary strutting arrangement of cable for construction, this technical scheme has solved the problem of the temporary supporting cable of construction, and this equipment can be stable supports the cable temporarily to can turn round the degree of curvature automatic adjustment according to the cable needs and support, improve support stability and support efficiency.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

a temporary supporting device for a cable for construction, comprising:

flatbed vehicle;

the handrail is arranged at one end of the flat car and used for driving the flat car to move;

the supporting mechanism is arranged on the flat car and used for fixing the flat car;

the cable turning positioning mechanism is arranged on the flat car and used for positioning the cable and enabling one end of the cable to turn;

and the lifting mechanism is arranged on the flat car and used for executing the lifting process of the cable turning positioning mechanism.

Preferably, the lifting mechanism includes:

the vertical rectangular frame is vertically arranged at the top of the flat car;

the lifter plate is the inside that the level lies in vertical rectangular frame, and its one end extends outwards, and the both sides of lifter plate all are equipped with first slider, all are equipped with on the inner wall of vertical rectangular frame and supply the gliding first spout of every first slider.

Preferably, the lifting mechanism further comprises:

the first one-way screws are provided with a pair of first one-way screws which are vertically and symmetrically positioned in the middle of two sides of the vertical rectangular frame, two ends of each first one-way screw are respectively connected with a bearing seat, and each bearing seat is arranged on the side wall of the vertical rectangular frame;

the first screw rod sliding sleeves are the same in number with the first one-way screw rods, each first screw rod sliding sleeve is sleeved on each first one-way screw rod, each first one-way screw rod is in threaded connection with each first screw rod sliding sleeve, each first screw rod sliding sleeve is connected with the two sides of the lifting plate through the mounting plates respectively, and the vertical rectangular frame is provided with a bar-shaped avoiding opening for the movement of each mounting plate.

Preferably, the lifting mechanism further comprises:

the double-shaft motor is horizontally arranged at the top of the vertical rectangular frame, and two output ends of the double-shaft motor respectively correspond to the top of each first one-way screw;

the rotating rods are provided with a pair of rotating rods and are respectively horizontally arranged at each output end of the double-shaft motor, and one end of each rotating rod extends towards the top direction of each first one-way screw rod;

the number of the first bevel teeth is the same as that of the rotating rods, and the first bevel teeth are respectively arranged at one end, away from the double-shaft motor, of each rotating rod;

and the second conical teeth are the same as the first conical teeth in number and are respectively arranged at the top of each first one-way screw, and each second conical tooth is respectively meshed with each first conical tooth.

Preferably, the cable corner positioning mechanism includes:

the transverse frame is horizontally arranged at the extending end of the lifting plate, and the cross sections of the transverse frame and the lifting plate are of a T-shaped structure;

the translation plate is horizontal and can translate along the length direction of the transverse frame and is positioned above the transverse frame;

the sliding rails are provided with a pair of sliding rails and are arranged on two sides of the top of the transverse frame in parallel, and sliding blocks capable of sliding in the sliding rails are respectively arranged at the bottoms of the translation plates;

the second one-way screw is positioned inside the transverse frame along the length direction of the transverse frame, and two ends of the second one-way screw are respectively in shaft connection with the inner wall of the transverse frame;

the second screw rod sliding sleeve is arranged on the second one-way screw rod, the second screw rod sliding sleeve is in threaded connection with the second one-way screw rod, and one end of the second screw rod sliding sleeve is connected with the bottom of the translation plate;

and the output end of the first motor is in transmission connection with one end of the second one-way screw rod.

Preferably, the cable corner positioning mechanism further comprises:

the second motor is vertically arranged at the bottom of the translation plate, and the output end of the second motor can rotatably penetrate through the flat plate and extend upwards;

and the horizontal turnover plate is horizontally arranged at the output end of the second motor, and the output end of the second motor is arranged in the middle of the bottom of the horizontal turnover plate in a transmission manner.

Preferably, cable positioning mechanism that turns round still includes two locating component, and one of them locating component sets up on horizontal returning face plate, and another one locating component passes through the fixing base setting and keeps away from horizontal frame's top one end at the lifter plate, and two locating component mechanisms are the same, and every locating component all includes:

the rectangular hollow bracket on each positioning component is respectively arranged on the horizontal turnover plate and the fixed seat;

the bottom clamping jig is arranged at the bottom of the rectangular hollow support;

the first lower pressing plate is positioned inside the rectangular hollow support and right above the bottom clamping jig, second sliding blocks are respectively arranged on two sides of the first lower pressing plate, and second sliding grooves for the second sliding blocks to slide are respectively arranged on two sides inside the rectangular hollow support;

the second lower pressing plate is positioned right below the first lower pressing plate, and each corner of the second lower pressing plate is in buffer connection with the first lower pressing plate through a buffer piece;

and the top clamping jig is arranged at the bottom of the second lower pressing plate and vertically corresponds to the bottom clamping jig.

Preferably, each of the positioning assemblies further comprises:

the two-way screw is horizontally positioned at the upper end of the interior of the rectangular hollow bracket, and two ends of the two-way screw are respectively in shaft connection with two sides of the interior of the rectangular hollow bracket;

the third screw rod sliding sleeves are symmetrically arranged on the bidirectional screw rods, and each third screw rod sliding sleeve is in threaded connection with the bidirectional screw rod;

the number of the hinged connecting rods is the same as that of the third screw rod sliding sleeves, one end of each hinged connecting rod is hinged with the bottom of each third screw rod sliding sleeve, the bottom of each hinged connecting rod is hinged with the middle position of the top of the first lower pressing plate, and the cross sections of the two hinged connecting rods are of a V-shaped structure;

and the third motor is arranged on one side of the rectangular hollow support, and the output end of the third motor is in transmission connection with one end of the bidirectional screw rod.

Preferably, the support mechanism includes:

at least four thread sleeves are arranged and are respectively arranged at each corner of the flat car;

the number of the threaded columns is the same as that of the threaded sleeves and corresponds to that of the threaded sleeves one by one, and each threaded column is vertically in threaded connection with each threaded sleeve;

the number of the rotating handles is the same as that of the threaded columns and corresponds to that of the threaded columns one by one, and each rotating handle is arranged at the top of each threaded column;

the number of the locking nuts is the same as that of the threaded columns, the locking nuts correspond to the threaded columns one by one, each locking nut is in threaded connection with the upper end of each threaded column, and the lower surface of each locking nut can be abutted to the top of the adjacent threaded sleeve respectively;

and the supporting seats are the same as the threaded columns in number and are respectively horizontally arranged at the bottom of each threaded column.

Compared with the prior art, the invention has the beneficial effects that: a temporary cable supporting device for building construction is provided, during operation, a flat car is moved to a required position through a handrail, then a rotating handle, a threaded column and supporting seats are sequentially rotated by manpower until the supporting seats are contacted with the ground, then a locking nut is sequentially rotated to lock each threaded column, each supporting seat is fixed, a double-shaft motor is started, each rotating rod is respectively driven to rotate through the double-shaft motor, each first bevel gear is respectively driven to rotate through each rotating rod, each second bevel gear is simultaneously driven to rotate through each first bevel gear, each first unidirectional screw is respectively driven to rotate through each second bevel gear, when each first unidirectional screw rotates, each first screw sliding sleeve is respectively driven to move up and down along each first unidirectional screw through each first unidirectional screw, and a lifting plate is simultaneously driven to lift up and down through each mounting plate, and further make the lifting plate adjust to the required height and stop, when the lifting plate goes up and down, each first slide block arranged respectively carries out the limit movement along each first sliding chute to play the limit role, one end of the cable sequentially passes through the two positioning components, the cable is respectively positioned between the bottom clamping jig and the top clamping jig, the third motor on each positioning component is started to drive the two-way screw rod to rotate, the two-way screw rod simultaneously drives the two third screw rod sliding sleeves to move oppositely, the first lower pressing plate moves downwards through the bottoms of the two hinged connecting rods, the second lower pressing plate and the top pressing jig are respectively driven to move downwards through each buffer piece arranged, and then the top clamping jig and the bottom clamping jig fix the cable, after the single cable is fixed, the first motor is started according to the angle that the cable needs to turn, the second one-way screw rod is driven to rotate through the first motor, through the translation of the one-way screw rod of second screw rod drive second lead screw sliding sleeve along the one-way screw rod of second, drive the translation board translation simultaneously through second lead screw sliding sleeve, every sliding block that sets up is respectively along every slide rail spacing removal, the angle that turns round according to the cable needs, start the second motor, carry out horizontal rotation through the horizontal returning face plate of second motor drive, stop after the angle that turns over the extension end of cable to needs, the problem of the interim supporting cable of construction has been solved to this technical scheme, this equipment can be stable supports the cable temporarily, and can turn round according to the cable needs the degree of curvature automatic adjustment and support, improve support stability and support efficiency.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is an enlarged view of the invention at A in FIG. 1;

FIG. 3 is a schematic perspective view of the present invention;

FIG. 4 is an enlarged view of the invention at B in FIG. 3;

FIG. 5 is a top view of the present invention;

FIG. 6 is a side view of the present invention;

FIG. 7 is a partial perspective view of the first embodiment of the present invention;

FIG. 8 is a partial perspective view of the second embodiment of the present invention;

fig. 9 is a partial front view of the cable corner positioning mechanism of the present invention.

The reference numbers in the figures are:

1-a flat car; 2-a handrail; 3-a support mechanism; 4-cable turning positioning mechanism; 5-a lifting mechanism; 6-vertical rectangular frame; 7-a lifting plate; 8-a first slider; 9-a first chute; 10-a first unidirectional screw; 11-a bearing seat; 12-a first lead screw sliding sleeve; 13-strip-shaped avoiding through openings; 14-a two-shaft motor; 15-rotating rod; 16-a first bevel gear; 17-second taper teeth; 18-a transverse frame; 19-a translation plate; 20-a slide rail; 21-a second unidirectional screw; 22-a second screw rod sliding sleeve; 23-a first motor; 24-a second motor; 25-horizontal turning plate; 26-a fixed seat; 27-a rectangular hollow support; 28-bottom clamping fixture; 29-a first lower platen; 30-a second slide; 31-a second lower platen; 32-top clamping jig; 33-a buffer; 34-a bidirectional screw; 35-a third screw rod sliding sleeve; 36-a hinged link; 37-a third motor; 38-thread bush; 39-threaded post; 40-turning the handle; 41-locking nut; 42-support seat.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 9, a temporary supporting apparatus for a cable for construction includes:

a flat car 1;

the handrail 2 is arranged at one end of the flat car 1 and is used for driving the flat car 1 to move;

the supporting mechanism 3 is arranged on the flat car 1 and used for fixing the flat car 1;

the cable turning positioning mechanism 4 is arranged on the flat car 1 and used for positioning a cable and enabling one end of the cable to turn;

and the lifting mechanism 5 is arranged on the flat car 1 and used for executing the lifting process of the cable turning positioning mechanism 4.

The lifting mechanism 5 includes:

the vertical rectangular frame 6 is vertically arranged at the top of the flat car 1;

lifter plate 7 is the level and is located the inside of vertical rectangular frame 6, and its one end outwards extends, and lifter plate 7's both sides all are equipped with first slider 8, all are equipped with on the inner wall of vertical rectangular frame 6 and supply the gliding first spout 9 of every first slider 8.

When the lifting plate 7 is lifted, each first sliding block 8 is limited to move along each first sliding groove 9, so that the limiting effect is achieved.

The lifting mechanism 5 further includes:

the first one-way screws 10 are provided with a pair of first one-way screws which are vertically and symmetrically positioned in the middle of two sides of the vertical rectangular frame 6, two ends of each first one-way screw 10 are respectively connected with a bearing seat 11, and each bearing seat 11 is installed on the side wall of the vertical rectangular frame 6;

the number of the first screw rod sliding sleeves 12 is the same as that of the first one-way screw rods 10, each first screw rod sliding sleeve 12 is respectively sleeved on each first one-way screw rod 10, each first one-way screw rod 10 is respectively in threaded connection with each first screw rod sliding sleeve 12, each first screw rod sliding sleeve 12 is respectively connected with two sides of the lifting plate 7 through mounting plates, and the vertical rectangular frame 6 is provided with a strip-shaped avoiding port 13 for each mounting plate to move.

When each first unidirectional screw 10 rotates, each first screw sliding sleeve 12 is driven by each first unidirectional screw 10 to move up and down along each first unidirectional screw 10, and the lifting plate 7 is driven by each mounting plate to lift up and down, so that the lifting plate 7 is adjusted to a required height to stop.

The lifting mechanism 5 further includes:

the double-shaft motor 14 is horizontally arranged at the top of the vertical rectangular frame 6, and two output ends of the double-shaft motor respectively correspond to the top of each first unidirectional screw 10;

a pair of rotating rods 15 horizontally arranged at each output end of the double-shaft motor 14, wherein one end of each rotating rod 15 extends towards the top of each first unidirectional screw 10;

the number of the first bevel teeth 16 is the same as that of the rotating rods 15, and the first bevel teeth are respectively arranged at one end, far away from the double-shaft motor 14, of each rotating rod 15;

second conical teeth 17, the number of which is the same as the number of the first conical teeth 16, are respectively arranged on the top of each first unidirectional screw 10, and each second conical tooth 17 is respectively meshed with each first conical tooth 16.

The double-shaft motor 14 is started, each rotating rod 15 is driven to rotate through the double-shaft motor 14, each first bevel gear 16 is driven to rotate through each rotating rod 15, each second bevel gear 17 is driven to rotate through each first bevel gear 16, and each first unidirectional screw 10 is driven to rotate through each second bevel gear 17.

The cable turning positioning mechanism 4 includes:

the transverse frame 18 is horizontally arranged at the extending end of the lifting plate 7, and the cross sections of the transverse frame 18 and the lifting plate 7 are of a T-shaped structure;

a translation plate 19, which is horizontal and can translate along the length direction of the transverse frame 18, above the transverse frame 18;

a pair of slide rails 20 arranged in parallel on both sides of the top of the transverse frame 18, and the bottom of the translation plate 19 is provided with a slide block capable of sliding inside each slide rail 20;

a second one-way screw 21 located inside the transverse frame 18 along the length direction of the transverse frame 18, both ends of which are respectively coupled to the inner wall of the transverse frame 18;

the second screw rod sliding sleeve 22 is arranged on the second one-way screw rod 21, the second screw rod sliding sleeve 22 is in threaded connection with the second one-way screw rod 21, and one end of the second screw rod sliding sleeve 22 is connected with the bottom of the translation plate 19;

and the first motor 23 is arranged at one end of the transverse frame 18, and the output end of the first motor is in transmission connection with one end of the second one-way screw 21.

After the single cable is fixed, the first motor 23 is started according to the turning angle of the cable, the first motor 23 drives the second one-way screw 21 to rotate, the second screw rod sliding sleeve 22 is driven to translate along the second one-way screw 21 through the second one-way screw 21, the translation plate 19 is driven to translate simultaneously through the second screw rod sliding sleeve 22, and each sliding block is limited to move along each sliding rail 20.

The cable turning positioning mechanism 4 further includes:

the second motor 24 is vertically arranged at the bottom of the translation plate 19, and the output end of the second motor can rotatably penetrate through the flat plate and extend upwards;

and the horizontal turnover plate 25 is horizontally arranged at the output end of the second motor 24, and the output end of the second motor 24 is arranged in the middle of the bottom of the horizontal turnover plate 25 in a transmission manner.

And starting the second motor 24 according to the angle of the cable needing to be turned, driving the horizontal turnover plate 25 to horizontally rotate through the second motor 24 until the extending end of the cable is turned to the required angle, and stopping.

Cable positioning mechanism 4 that turns round still includes two locating component, and one of them locating component sets up on horizontal returning face plate 25, and another one locating component passes through fixing base 26 setting and keeps away from the top one end of horizontal frame 18 at lifter plate 7, and two locating component mechanisms are the same, and every locating component all includes:

the rectangular hollow bracket 27 on each positioning component is respectively arranged on the horizontal turnover plate 25 and the fixed seat 26;

a bottom clamping jig 28 disposed at the bottom of the rectangular hollow bracket 27;

the first lower pressing plate 29 is positioned inside the rectangular hollow bracket 27 and right above the bottom clamping jig 28, the two sides of the first lower pressing plate are respectively provided with a second sliding block 30, and the two sides inside the rectangular hollow bracket 27 are respectively provided with a second sliding groove for each second sliding block 30 to slide;

the second lower pressing plate 31 is positioned right below the first lower pressing plate 29, and each corner of the second lower pressing plate 31 is in buffer connection with the first lower pressing plate 29 through a buffer 33;

and the top clamping jig 32 is arranged at the bottom of the second lower pressing plate 31 and corresponds to the bottom clamping jig 28 up and down.

One end of the cable is sequentially threaded through the two positioning assemblies so that the cable is respectively positioned between the bottom clamping jig 28 and the top clamping jig 32.

Each positioning assembly further comprises:

a bidirectional screw 34 horizontally positioned at the upper end of the interior of the rectangular hollow bracket 27, and two ends of the bidirectional screw are respectively coupled with two sides of the interior of the rectangular hollow bracket 27;

the third screw rod sliding sleeves 35 are symmetrically arranged on the bidirectional screw rod 34, and each third screw rod sliding sleeve 35 is in threaded connection with the bidirectional screw rod 34;

the number of the hinged connecting rods 36 is the same as that of the third screw rod sliding sleeves 35, one end of each hinged connecting rod 36 is hinged with the bottom of each third screw rod sliding sleeve 35, the bottom of each hinged connecting rod 36 is hinged with the middle position of the top of the first lower pressing plate 29, and the cross sections of the two hinged connecting rods 36 are in a V-shaped structure;

and the third motor 37 is arranged on one side of the rectangular hollow bracket 27, and the output end of the third motor is in transmission connection with one end of the bidirectional screw 34.

The third motor 37 on each positioning assembly is started to drive the two-way screw 34 to rotate, the two-way screw 34 simultaneously drives the two third screw sliding sleeves 35 to move oppositely, the first lower pressing plate 29 moves downwards through the bottoms of the two hinged connecting rods 36, the second lower pressing plate 31 and the top pressing jig are respectively driven by each buffering piece 33 to move downwards, and then the top clamping jig 32 and the bottom clamping jig 28 fix the cable.

The support mechanism 3 includes:

at least four threaded sleeves 38 are arranged at each corner of the flat car 1;

the number of the threaded columns 39 is the same as that of the threaded sleeves 38, and the threaded columns 39 correspond to the threaded sleeves 38 one by one, and each threaded column 39 is vertically in threaded connection with each threaded sleeve 38;

the number of the rotating handles 40 is the same as that of the threaded columns 39 and corresponds to that of the threaded columns 39 one by one, and each rotating handle 40 is arranged at the top of each threaded column 39 respectively;

the number of the locking nuts 41 is the same as that of the threaded columns 39 and corresponds to one, each locking nut 41 is in threaded connection with the upper end of the threaded column 39, and the lower surface of each locking nut 41 can be abutted to the top of the adjacent threaded sleeve 38;

the supporting seats 42, the number of which is the same as that of the threaded columns 39, are respectively horizontally arranged at the bottom of each threaded column 39.

In operation, the flat car 1 is moved to a desired position by the armrest 2, and then the turning handle 40, the threaded columns 39 and the support seats 42 are manually turned in turn until the support seats 42 are in contact with the ground, and then the lock nuts 41 are turned in turn to lock each threaded column 39 and fix it by each support seat 42.

The working principle of the invention is as follows: during operation, the flat car 1 is moved to a required position through the handrail 2, then the rotating handle 40, the threaded columns 39 and the supporting seats 42 are sequentially rotated by manpower until the supporting seats 42 are contacted with the ground, then the locking nuts 41 are sequentially rotated to lock each threaded column 39, each supporting seat 42 is fixed, the dual-shaft motor 14 is started, each rotating rod 15 is respectively driven to rotate through the dual-shaft motor 14, each first bevel gear 16 is respectively driven to rotate through each rotating rod 15, each second bevel gear 17 is simultaneously driven to rotate through each first bevel gear 16, each first one-way screw 10 is respectively driven to rotate through each second bevel gear 17, when each first one-way screw 10 rotates, each first screw sliding sleeve 12 is respectively driven to move up and down along each first one-way screw 10 through each first one-way screw 10, and the lifting plate 7 is simultaneously driven to move up and down through each mounting plate, and further make the lifting plate 7 adjust to the required height to stop, when the lifting plate 7 goes up and down, each first slide block 8 set up respectively carries on the spacing movement along each first chute 9, play the spacing role, pass two locating assemblies sequentially one end of the cable, make the cable locate between bottom clamp jig 28 and top clamp jig 32 respectively, start the third electrical machinery 37 on each locating assembly, drive the two-way threaded spindle 34 to rotate, the two-way threaded spindle 34 drives two third lead screw sliding sleeves 35 to move towards each other at the same time, move the first lower pressing plate 29 downwards through the bottom of two articulated connecting rods 36 set up, drive the second lower pressing plate 31, the top compacting jig downwards through each buffer 33 set up respectively, and then make the top clamp jig 32 and bottom clamp jig 28 fix the cable, after the single cable is fixed, according to the angle that the cable needs to turn, start first motor 23, it is rotatory to drive second unidirectional screw 21 through first motor 23, it translates along second unidirectional screw 21 to drive second lead screw sliding sleeve 22 through second unidirectional screw 21, it translates to drive translation board 19 translation simultaneously through second lead screw sliding sleeve 22, every sliding block that sets up is along 20 spacing displacements of every slide rail respectively, the angle that turns round according to the cable needs, start second motor 24, it carries out horizontal rotation to drive horizontal returning face plate 25 through second motor 24, stop after overturning the extension end of cable to required angle.

The foregoing has described the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a temporary strutting arrangement of cable for construction which characterized in that includes:

a flat car (1);

the handrail (2) is arranged at one end of the flat car (1) and is used for driving the flat car (1) to move;

the supporting mechanism (3) is arranged on the flat car (1) and used for fixing the flat car (1);

the cable turning positioning mechanism (4) is arranged on the flat car (1) and used for positioning a cable and enabling one end of the cable to turn;

and the lifting mechanism (5) is arranged on the flat car (1) and is used for executing the lifting process of the cable turning positioning mechanism (4).

2. A temporary supporting device of cable for construction according to claim 1, wherein said elevating mechanism (5) comprises:

the vertical rectangular frame (6) is vertically arranged at the top of the flat car (1);

lifter plate (7), be the inside that the level is located vertical rectangle frame (6), its one end extends outwards, and the both sides of lifter plate (7) all are equipped with first slider (8), all are equipped with on the inner wall of vertical rectangle frame (6) and supply gliding first spout (9) of every first slider (8).

3. A temporary supporting device of cable for construction according to claim 2, wherein said elevating mechanism (5) further comprises:

the first one-way screws (10) are provided with a pair of pairs and are vertically and symmetrically positioned in the middle of two sides of the vertical rectangular frame (6), two ends of each first one-way screw (10) are respectively connected with a bearing seat (11), and each bearing seat (11) is installed on the side wall of the vertical rectangular frame (6);

the screw rod sliding sleeve structure comprises first screw rod sliding sleeves (12), the number of the first screw rod sliding sleeves is the same as that of first one-way screw rods (10), each first screw rod sliding sleeve (12) is sleeved on each first one-way screw rod (10) respectively, each first one-way screw rod (10) is in threaded connection with each first screw rod sliding sleeve (12) respectively, each first screw rod sliding sleeve (12) is connected with the two sides of a lifting plate (7) through mounting plates respectively, and a bar-shaped avoiding opening (13) for each mounting plate to move is formed in a vertical rectangular frame (6).

4. A temporary supporting device of cable for construction according to claim 3, wherein said elevating mechanism (5) further comprises:

the double-shaft motor (14) is horizontally arranged at the top of the vertical rectangular frame (6), and two output ends of the double-shaft motor respectively correspond to the top of each first unidirectional screw (10);

a pair of rotating rods (15) which are horizontally arranged at each output end of the double-shaft motor (14) respectively, and one end of each rotating rod (15) extends towards the top direction of each first one-way screw (10) respectively;

the number of the first bevel teeth (16) is the same as that of the rotating rods (15), and the first bevel teeth are respectively arranged at one end, far away from the double-shaft motor (14), of each rotating rod (15);

and the number of the second conical teeth (17) is the same as that of the first conical teeth (16), the second conical teeth are respectively arranged at the top of each first one-way screw (10), and each second conical tooth (17) is respectively meshed with each first conical tooth (16).

5. A temporary support device for cables for building construction according to claim 4, wherein the cable corner positioning mechanism (4) comprises:

the transverse frame (18) is horizontally arranged at the extending end of the lifting plate (7), and the cross sections of the transverse frame (18) and the lifting plate (7) are of a T-shaped structure;

a translation plate (19) located above the transverse frame (18), horizontal and capable of translating along the length of the transverse frame (18);

the sliding rails (20) are provided with a pair of sliding rails and are arranged on two sides of the top of the transverse frame (18) in parallel, and sliding blocks capable of sliding in each sliding rail (20) are respectively arranged at the bottoms of the translation plates (19);

the second one-way screw (21) is positioned inside the transverse frame (18) along the length direction of the transverse frame (18), and two ends of the second one-way screw are respectively in shaft connection with the inner wall of the transverse frame (18);

the second screw rod sliding sleeve (22) is arranged on the second one-way screw rod (21), the second screw rod sliding sleeve (22) is in threaded connection with the second one-way screw rod (21), and one end of the second screw rod sliding sleeve (22) is connected with the bottom of the translation plate (19);

and the first motor (23) is arranged at one end of the transverse frame (18), and the output end of the first motor is in transmission connection with one end of the second one-way screw (21).

6. A temporary supporting device of cable for building construction according to claim 5, wherein the cable corner positioning mechanism (4) further comprises:

the second motor (24) is vertically arranged at the bottom of the translation plate (19), and the output end of the second motor can rotatably penetrate through the flat plate and extend upwards;

the horizontal turnover plate (25) is horizontally arranged at the output end of the second motor (24), and the output end of the second motor (24) is arranged in the middle of the bottom of the horizontal turnover plate (25) in a transmission manner.

7. The temporary cable supporting device for building construction according to claim 6, wherein the cable turning positioning mechanism (4) further comprises two positioning assemblies, one of the positioning assemblies is arranged on the horizontal turnover plate (25), the other positioning assembly is arranged at one end of the top of the lifting plate (7) far away from the transverse frame (18) through a fixed seat (26), the two positioning assemblies are identical in mechanism, and each positioning assembly comprises:

the rectangular hollow bracket (27) on each positioning assembly is respectively arranged on the horizontal turnover plate (25) and the fixed seat (26);

the bottom clamping jig (28) is arranged at the bottom of the rectangular hollow bracket (27);

the first lower pressing plate (29) is positioned inside the rectangular hollow support (27) and right above the bottom clamping jig (28), second sliding blocks (30) are respectively arranged on two sides of the first lower pressing plate, and second sliding grooves for the sliding of the second sliding blocks (30) are respectively arranged on two sides inside the rectangular hollow support (27);

the second lower pressing plate (31) is positioned right below the first lower pressing plate (29), and each corner of the second lower pressing plate is in buffer connection with the first lower pressing plate (29) through a buffer piece (33);

and the top clamping jig (32) is arranged at the bottom of the second lower pressing plate (31) and corresponds to the bottom clamping jig (28) up and down.

8. A construction cable temporary support apparatus according to claim 7, wherein each of said positioning assemblies further comprises:

the two-way screw (34) is horizontally positioned at the upper end of the interior of the rectangular hollow bracket (27), and two ends of the two-way screw are respectively in shaft connection with two sides of the interior of the rectangular hollow bracket (27);

the third screw rod sliding sleeves (35) are symmetrically arranged on the bidirectional screw rod (34), and each third screw rod sliding sleeve (35) is in threaded connection with the bidirectional screw rod (34);

the number of the hinged connecting rods (36) is the same as that of the third screw rod sliding sleeves (35), one end of each hinged connecting rod (36) is hinged with the bottom of each third screw rod sliding sleeve (35), the bottom of each hinged connecting rod (36) is hinged with the middle position of the top of the first lower pressing plate (29), and the sections of the two hinged connecting rods (36) are of a V-shaped structure;

and the third motor (37) is arranged on one side of the rectangular hollow bracket (27), and the output end of the third motor is in transmission connection with one end of the bidirectional screw (34).

9. A temporary support device for cables for building construction according to claim 8, wherein said support mechanism (3) comprises:

the thread sleeves (38) are at least four and are respectively arranged at each corner of the flat car (1);

the number of the threaded columns (39) is the same as that of the threaded sleeves (38) and corresponds to that of the threaded sleeves one by one, and each threaded column (39) is vertically in threaded connection with each threaded sleeve (38);

the number of the rotating handles (40) is the same as that of the threaded columns (39) and corresponds to that of the threaded columns one by one, and each rotating handle (40) is arranged at the top of each threaded column (39);

the number of the locking nuts (41) is the same as that of the threaded columns (39) and corresponds to that of the threaded columns one by one, each locking nut (41) is in threaded connection with the upper end of each threaded column (39), and the lower surface of each locking nut (41) can be abutted to the top of the adjacent threaded sleeve (38);

the number of the supporting seats (42) is the same as that of the threaded columns (39), and the supporting seats are horizontally arranged at the bottom of each threaded column (39).

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