CN209337846U - A kind of weak current engineering track laying anchoring - Google Patents

Abstract

The utility model relates to track laying ancillary equipment fields, in particular to a kind of weak current engineering track laying anchoring, including supporting table, support frame is provided with above supporting table, horizontal wind-up roll is provided in the side of support frame, the direction extension for driving the rotation axis of wind-up roll rotation and rotating axially away from support frame is internally provided in wind-up roll, rotation axis and support frame are rotatablely connected, bus cable device is provided with above the wind-up roll, bus cable device includes horizontally disposed cross bar, the side of cross bar is provided with c-type fixed frame, the opening of fixed frame is arranged close to cross bar, glass pulley is rotatably connected on fixed frame, the axis of glass pulley and the axis of wind-up roll are parallel, the sliding assembly for driving glass pulley to move along wind-up roll axis direction is provided with above glass pulley, having reached makes cable in anchoring Portion's ordered arrangement improves the effect of anchoring working efficiency.

Description

A kind of weak current engineering track laying anchoring

Technical field

The utility model relates to track laying ancillary equipment field, in particular to a kind of weak current engineering track laying bracing wire Device.

Background technique

Weak current engineering is a classification of electric power application at present, and electric power is applied can divide according to the power of power Transmission power For forceful electric power and two class of light current, building and groups of building electricity consumption refer generally to 220V50Hz and light current below, mainly provide electricity to people The power energy converts electrical energy into other energy.

The Chinese invention patent of existing Publication No. CN108821018A discloses a kind of weak current engineering track laying use Anchoring is related to weak current engineering technical field.The present invention includes arc bracket, bottom foot pad, upper bracket, wind-up roll, hand , sheave and connecting rod, the lower part of arc bracket are provided with fixed transverse rod, the lower part of fixed transverse rod is equipped with bottom foot pad, arc The top of shape bracket is equipped with upper bracket, and mounting rod is equipped in upper bracket, wind-up roll, wind-up roll are equipped on mounting rod On hand handle is installed, the holding section of hand handle is equipped with grip cover, and the upper end of upper bracket is equipped with upper cross bar, upper cross bar Lower part is equipped with sheave.

Prior art among the above, which has the following deficiencies:, is drawing light current route using existing anchoring When line, cable can be wound on wind-up roll, because winding displacement is not carried out to the cable on wind-up roll, it is possible that will lead to Cable is arranged confusion on wind-up roll, unreel wind-up roll can not when unreeling normally, influences whether the normal use of next time.

Utility model content

The purpose of the utility model is to provide a kind of weak current engineering track laying anchorings, and having reached is drawing cable The arrangement of line apparatus internal order, improves the effect of anchoring working efficiency.

The above-mentioned technical purpose of the utility model has the technical scheme that

A kind of weak current engineering track laying anchoring, including supporting table, are provided with support frame above supporting table, Horizontal wind-up roll is provided in the side of support frame, wind-up roll be internally provided with drive wind-up roll rotation rotation axis and The direction rotated axially away from support frame extends, and rotation axis and support frame are rotatablely connected, and is provided with above the wind-up roll Bus cable device, bus cable device include horizontally disposed cross bar, and the side of cross bar is provided with c-type fixed frame, the opening of fixed frame It is arranged close to cross bar, glass pulley is rotatably connected on fixed frame, the axis of glass pulley and the axis of wind-up roll are parallel, in winding displacement Wheel top is provided with the sliding assembly for driving glass pulley to move along wind-up roll axis direction.

By using above scheme, when staff is laid with using engineering circuit of the anchoring to light current, Then staff makes the head end of cable extend downwardly into wind-up roll first by the head end of cable up around the circumferential surface of glass pulley On circumferential surface, because rotation axis is rotatablely connected with support frame and rotation axis can drive wind-up roll to rotate together, work people Member can will wind cable by rotary motion bar, wind-up roll, during wind-up roll is wound, glass pulley It can be moved under the action of sliding assembly along the central axial direction of wind-up roll, can thus make cable one layer on wind-up roll One layer wind, and cable will not be made to arrange on wind-up roll confusion.Thus having reached makes cable inside anchoring Ordered arrangement improves the effect of anchoring working efficiency.

The utility model is further arranged to, and the sliding assembly includes T-type sliding block, and fixed frame is arranged in T-type sliding block Upper surface and the lower surface for being embedded into cross bar offer sliding slot compatible with T-type sliding block in the lower surface of cross bar, in sliding slot It is internally provided with horizontal rotational lead screw, rotational lead screw and cross bar are rotatablely connected, and rotational lead screw runs through T-type sliding block and and T-type Sliding block is threadedly coupled, and is provided with the actuator for driving rotational lead screw rotation far from the side of cross bar in support frame.

By using above scheme, during wind-up roll is wound, actuator will drive rotational lead screw in sliding slot Inner rotation, because rotational lead screw and cross bar are rotatablely connected, and rotational lead screw is threadedly coupled with T-type sliding block, so rotating During screw rod rotates, it will drive T-type sliding block and moved inside sliding slot along the direction of sliding slot, will drive c-type solid in this way It is mobile in the top of wind-up roll to determine frame and glass pulley, just completes the winding displacement to cable in this way.

The utility model is further arranged to, and the upper surface of the T-type sliding block and fixed frame is connected by central axis rotation, And the axis direction of central axis is identical as the axis direction of wind-up roll.

By using above scheme, such staff using glass pulley and take-up pulley when being wound, glass pulley Central axis rotation can be surrounded by the pulling force effect of cable, the pulling force that cable receives can be reduced indirectly in this way, prevented to line When cable carries out bracing wire, cable is made to deform or even break.

The utility model is further arranged to, and offers arc groove on the circumferential surface of the glass pulley.

By using above scheme, during glass pulley carries out winding displacement, cable can shake on the circumferential surface of glass pulley, By the way that arc groove is arranged, it is possible to reduce the abrasion on cable circumferential surface.

The utility model is further arranged to, and vertical arc bearing frame, bearing frame are provided with below support frame as described above Open Side Down, and two end faces of bearing frame are fixed on the upper surface of supporting table, and bearing frame setting is in supporting table close to branch The position of platform side is supportted, wind-up roll is located at the surface of supporting table.

By using above scheme, bearing frame is fixed on the upper surface of supporting table by the arc bearing frame of lower section, in this way Anchoring can be made more stable at work.

The utility model is further arranged to, and the lower surface of the supporting table is provided with supporting leg, sets below supporting leg It is equipped with the universal wheel with service brake, an end face of supporting table is provided with push rod.

By using above scheme, such staff can be existed according to the work requirements of oneself by promotion push rod The position of anchoring is moved on ground, after being moved to suitable position, is stepping on service brake for anchoring Position is fixed.

The utility model is further arranged to, and one end of support frame is provided with handle in the rotation axis.

By using above scheme, it can be convenient staff in this way and rotation axis rotated.

The utility model is further arranged to, and is equipped with anti-abrasion pad on the circumferential surface of the glass pulley.

By using above scheme, it can be further reduced abrasion of the cable circumferential surface on glass pulley in this way.

In conclusion the utility model has following technical effect that

1. making anchoring when carrying out bracing wire winding to cable, cable is in wind-up roll by being provided with bus cable device Ordered arrangement in layer on circumferential surface, having reached makes cable arrange in anchoring internal order, improves anchoring work effect The effect of rate；

2. expanding the contact area of support frame and supporting table, having reached fills bracing wire by being provided with arc bearing frame Set effect more stable at work；

3. alloing staff according to their own needs to bracing wire by being provided with universal wheel and push rod with service brake Device is moved, and has reached and staff is facilitated to work, and makes the mobile more convenient effect of anchoring.

Detailed description of the invention

Fig. 1 is anchoring overall structure figure；

Fig. 2 is bus cable device cross-sectional view in anchoring.

In figure, 1, supporting table；2, bearing frame；3, support frame；4, rotation axis；41, handle；5, wind-up roll；6, bus cable device； 61, glass pulley；62, cross bar；63, fixed frame；64, sliding assembly；641, T-type sliding block；642, central axis；643, rotational lead screw； 644, rotary electric machine；7, anti-abrasion pad；8, supporting leg；9, universal wheel.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Referring to Fig.1, the utility model provides a kind of weak current engineering track laying anchoring, supporting table 1, bearing frame 2, support frame 3, rotation axis 4, reel 5 and bus cable device 6, supporting table 1 are horizontally set on above the ground, and support frame 3 is vertical The position that proximal side is leaned in 1 upper surface of supporting table is set, and support frame 3 is vertically arranged in 3 top of support frame, and 4 level of rotation axis is set It sets in the side of support frame 3, and is rotatablely connected with support frame 3, rotation axis 4 is located at the surface of supporting table 1, and 5 sets of reel It is located in rotation axis 4 and rotation axis 4 can drive reel 5 to rotate together, bus cable device 6 is arranged above wind-up roll 5 simultaneously And winding displacement can be carried out to wind-up roll 5.When staff is laid with weak current engineering route using anchoring, by cable Head end pass through bus cable device 6 after be fixed on the circumferential surface of wind-up roll 5, then staff's rotary motion axis 4, because of rotation Axis 4 and support frame 3 are rotatablely connected, and are rotated together so rotation axis 4 will drive wind-up roll 5 when rotating, such cable can be wrapped in On the circumferential surface of wind-up roll 5, because being provided with bus cable device 6, the orderly row that cable can be on the circumferential surface of wind-up roll 5 in layer Cloth is not in the situation of winding displacement confusion, and thus having reached makes cable arrange in anchoring internal order, improves bracing wire dress Set the effect of working efficiency.

Referring to Fig.1, it in order to make bearing frame 2 in the more stable of the upper surface of supporting table 1 fixation, sets bearing frame 2 to Arc-shaped, and Open Side Down for bearing frame 2.

Referring to Fig.1, rotation axis 4 is rotated in order to facilitate staff, in the one end of rotation axis 4 far from support frame 3 It is provided with handle 41.

Referring to Figures 1 and 2, bus cable device 6 includes glass pulley 61, cross bar 62, fixed frame 63 and sliding assembly 64, cross bar 62 are horizontally set on the surface of wind-up roll 5, and the extending direction of cross bar 62 is identical as the axis direction of wind-up roll 5, and cross bar 62 leans on One end of nearly support frame 3 is fixedly connected with support frame 3, and the shape of fixed frame 63 is c-type, and fixed frame 63 is vertically arranged in cross bar 62 Lower section, and opening upwards of fixed frame 63, glass pulley 61 is vertically arranged on fixed frame 63 and rotates with fixed frame 63 Connection, the axis direction of glass pulley 61 is identical as the axis direction of wind-up roll 5, and the top of glass pulley 61 is arranged in sliding assembly 64 And fixed frame 63 and glass pulley 61 can be driven to move along the axis direction of glass pulley 61.Winding is used in staff When roller 5 is wound, cable can be from the top of glass pulley 61 by being then wound around on the circumferential surface of wind-up roll 5, in winding bracing wire In the process, sliding assembly 64 will drive fixed frame 63 and glass pulley 61 is moved along the axis direction of glass pulley 61, in fixation During frame 63 and glass pulley 61 are mobile, winding displacement can be carried out to cable.

Referring to Figures 1 and 2, sliding assembly 64 includes T-type sliding block 641, central axis 642, rotational lead screw 643 and driving The upper end of fixed frame 63 is arranged in part, T-type sliding block 641, and T-type sliding block 641 is embedded into the lower surface of cross bar 62, in cross bar 62 Portion offers sliding slot compatible with T-type sliding block 641, and rotational lead screw 643 is horizontally set on inside sliding slot, and rotational lead screw 643 axis direction is identical as the axis direction of glass pulley 61, and rotational lead screw 643 and cross bar 62 are rotatablely connected, rotational lead screw 643 It is threadedly coupled through T-type sliding block 641 and with T-type sliding block 641, side of the support frame 3 far from cross bar 62 is arranged in simultaneously in actuator And rotational lead screw 643 can be driven to rotate.In this way when wind-up roll 5 winds cable, actuator will drive rotational lead screw 643 in 62 inner rotation of cross bar, because rotational lead screw 643 and cross bar 62 are rotatablely connected, rotational lead screw 643 and 641 spiral shell of T-type sliding block Line connection, and rotational lead screw 643 is relatively fixed in 62 interior location of cross bar, so rotating silk when rotational lead screw 643 rotates Thick stick 643 will drive T-type sliding block 641 and move inside sliding slot along the direction of sliding slot, and such T-type sliding block 641 will drive fixation Frame 63 and glass pulley 61 are moved along the axis direction of glass pulley 61, have just carried out winding displacement to cable in this way.

In the present invention, actuator first choice is rotary electric machine 644, other actuators with same effect are still suitable With.

Referring to Fig. 2, central axis 642 is horizontally set between 63 upper surface of T-type sliding block 641 and fixed frame, central axis 642 Axis direction is identical as the axis direction of glass pulley 61, and T-type sliding block 641 is hinged by center-pole with fixed frame 63.In this way in work When making personnel and carrying out winding displacement to cable using anchoring, if the pulling force that cable receives is larger, glass pulley 61 and solid can be made Determine frame 63 to rotate in the lower section of cross bar 62 around the axis of central axis 642, can indirectly reduce cable in this way and actually receive Pulling force, reduce a possibility that cable deforms during winding or bracing wire.

Referring to Fig. 2, the abrasion of generation is shaken on glass pulley 61 in order to reduce cable in winding, in the week of glass pulley 61 The groove of arc is offered on face, and inside grooves are provided with anti-abrasion pad 7.

Referring to Fig.1, anchoring is moved in order to facilitate staff, supporting leg 8 is provided with below supporting table 1, The lower end surface of supporting leg 8 is provided with the universal wheel 9 with service brake, is provided with push rod, and push rod on an end face of supporting table 1 It is tilted upwards along from close to the direction far from supporting table 1.Staff can lead to according to the work requirements of oneself in this way It crosses and push rod is pushed to move on the ground to the position of anchoring, after being moved to suitable position, stepping on service brake The position of anchoring is fixed.

In conclusion the use process of the utility model are as follows: when staff needs using anchoring, staff By pushing push rod to move on the ground to the position of anchoring, after being moved to suitable position, foot is being stepped on The position of anchoring is fixed brake.Then then the head end of cable is made into cable up around the circumferential surface of glass pulley 61 Head end extend downwardly on the circumferential surface of wind-up roll 5 and be fixed, then begin through 41 rotary motion axis 4 of handle, rotate Axis 4 will drive wind-up roll 5 and rotate together, while open rotary electric machine 644, and rotary electric machine 644 drives rotational lead screw 643 to rotate, Because rotational lead screw 643 and cross bar 62 are rotatablely connected, rotational lead screw 643 is threadedly coupled with T-type sliding block 641, and rotational lead screw 643 is relatively fixed in 62 interior location of cross bar, so rotational lead screw 643 will drive T-type sliding block when rotational lead screw 643 rotates 641 move inside sliding slot along the direction of sliding slot, and such T-type sliding block 641 will drive 61 edge of fixed frame 63 and glass pulley Glass pulley 61 axis direction it is mobile, so bus cable device 6 can also carry out cable while wind-up roll 5 is wound Winding displacement.Thus reach cable to arrange in anchoring internal order, improves the effect of anchoring working efficiency.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but As long as all by the protection of Patent Law in the scope of the claims of the utility model.

Claims (8)

1. a kind of weak current engineering track laying anchoring, including supporting table (1), are provided with branch above supporting table (1) Support (3) is provided with horizontal wind-up roll (5) in the side of support frame (3), is internally provided with drive winding in wind-up roll (5) The rotation axis (4) and rotation axis (4) of roller (5) rotation extend to the direction far from support frame (3), rotation axis (4) and support frame (3) it is rotatablely connected, it is characterised in that: be provided with above the wind-up roll (5) bus cable device (6), bus cable device (6) includes Horizontally disposed cross bar (62) is provided with c-type fixed frame (63) in the side of cross bar (62), and the opening of fixed frame (63) is close to horizontal Bar (62) setting, is rotatably connected to glass pulley (61) on fixed frame (63), the axis of glass pulley (61) and the axis of wind-up roll (5) Line is parallel, and the sliding group for driving glass pulley (61) mobile along wind-up roll (5) axis direction is provided with above glass pulley (61) Part (64).

2. a kind of weak current engineering track laying anchoring according to claim 1, it is characterised in that: the sliding group Part (64) includes T-type sliding block (641), and T-type sliding block (641) is arranged the upper surface in fixed frame (63) and is embedded into cross bar (62) Lower surface, offer the compatible sliding slot with T-type sliding block (641) in the lower surface of cross bar (62), be internally provided in sliding slot Horizontal rotational lead screw (643), rotational lead screw (643) and cross bar (62) are rotatablely connected, and rotational lead screw (643) runs through T-type sliding block (641) and with T-type sliding block (641) it is threadedly coupled, the side of cross bar (62) is provided with drive rotation silk in support frame (3) The actuator of thick stick (643) rotation.

3. a kind of weak current engineering track laying anchoring according to claim 2, it is characterised in that: the T-type is sliding The upper surface of block (641) and fixed frame (63) is rotatablely connected by central axis (642), and the axis direction of central axis (642) It is identical as the axis direction of wind-up roll (5).

4. a kind of weak current engineering track laying anchoring according to claim 1, it is characterised in that: in the winding displacement It takes turns and offers arc groove on the circumferential surface of (61).

5. a kind of weak current engineering track laying anchoring according to claim 3, it is characterised in that: in the support Vertical arc bearing frame (2) is provided with below frame (3), Open Side Down for bearing frame (2), and two ends of bearing frame (2) Face is fixed on the upper surface of supporting table (1), and bearing frame (2) setting close to the position of supporting table (1) side, is received in supporting table (1) Winding up roller (5) is located at the surface of supporting table (1).

6. a kind of weak current engineering track laying anchoring according to claim 5, it is characterised in that: in the support The lower surface of platform (1) is provided with supporting leg (8), the universal wheel (9) with service brake is provided with below supporting leg (8), in supporting table (1) An end face be provided with push rod.

7. a kind of weak current engineering track laying anchoring according to claim 1, it is characterised in that: in the rotation Axis (4) is provided with handle (41) far from the one end of support frame (3).

8. a kind of weak current engineering track laying anchoring according to claim 4, it is characterised in that: in the winding displacement It takes turns and is equipped with anti-abrasion pad (7) on the circumferential surface of (61).