CN112864954A - Intelligent home decoration construction method - Google Patents

Abstract

The invention discloses an intelligent home decoration construction method, wherein a wire groove for installing wires is dug on the ground and the wall surface according to a drawing; connecting the outlets of the indoor electric lines by pipelines, and laying pipelines for connection in the wire slots; laying the electric wire along the pipeline by using a threading machine; filling concrete into the wire grooves to bury the electric line pipelines; installing intelligent household equipment at an outlet of the electric circuit; according to the invention, the electric wire is inserted between the pipelines in a threading machine mode, so that the labor cost is reduced, the wire stringing process of an electrician is facilitated, and the working difficulty is reduced; according to the invention, through the arrangement of the first rotating block, the separation and combination are completed through rotation, the convenience in disassembly and assembly of the steel wire is ensured, meanwhile, the reverse displacement of the first rotating block in the clamping direction is avoided, the clamping firmness is ensured, the stability of the steel wire conveying is ensured, and the effect and efficiency of pipeline threading are ensured.

Description

Intelligent home decoration construction method

Technical Field

The invention belongs to the technical field of home construction, and particularly relates to an intelligent home decoration construction method.

Background

Need design to putting or placing of equipment commonly used according to intelligent house in the fitment process at intelligent house to will set up electric circuit according to the regulation, but long adoption of construction usually passes the pipeline with the electric wire through artificial mode after laying the pipeline and sets up, this mode operation degree of difficulty is great, damage the electric wire easily and need great strength simultaneously and can realize, it is too high to workman's health quality requirement, and, because the equipment that the construction used is great heavier, inconvenient carrying is great to the construction degree of difficulty.

Disclosure of Invention

The invention provides a construction method for intelligent home decoration, aiming at overcoming the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a construction method for intelligent home decoration comprises the following steps:

1. digging out wire grooves for mounting wires on the ground and the wall surface according to a drawing;

2. connecting the outlets of the indoor electric lines by pipelines, and laying pipelines for connection in the wire slots;

3. laying the electric wire along the pipeline by using a threading machine;

4. filling concrete into the wire grooves to bury the electric line pipelines;

5. installing intelligent household equipment at an outlet of the electric circuit;

wherein the threading machine in the step 3 comprises a gun body, a handle arranged below the gun body, a button arranged on the handle, a battery arranged below the handle, a first motor arranged below the gun body, first rotating pieces arranged at two sides of the gun body, a first rotating block arranged on the first rotating piece, a thread outlet nozzle arranged on the first rotating block, a steel wire arranged between the first rotating blocks in a penetrating way, and a conveying structure arranged on the first rotating block and used for conveying the steel wire, the gun body comprises a first rotating block, a first sliding chute, a first limiting groove, a first cavity, a first sliding block, a first block body, a limiting rod, a first threaded rod, an adjusting block and a steel wire supply structure, wherein the first sliding chute is arranged below the first rotating block; the first rotating blocks on two sides are mutually spliced to form a complete steel wire conveying channel, the adjusting block is screwed to control the up-and-down movement of the first threaded rod, when the first threaded rod moves upwards, the first sliding block moves upwards along the first cavity at the moment, so that the first block moves upwards, the limiting rod penetrating through the first block slides towards the other end from the end, far away from the first sliding block, of the limiting groove, in the process, the first rotating block rotates around the first rotating piece, so that the first rotating blocks on two sides are opened upwards, the steel wire can be taken down or installed at the moment, the adjusting block is screwed to rotate reversely after the steel wire is taken down or installed, so that the first sliding block is controlled to move downwards, so that the first rotating blocks on the two sides are reset, and the first rotating blocks on the two sides are mutually attached; through the setting of first commentaries on classics piece, through the rotatory mode of accomplishing deciliter, the easy dismounting of steel wire has been guaranteed, the mode of rotation simultaneously is for the mode of translation, effectively guaranteed the distance between two first commentaries on classics pieces in fixed back, it effectively to have guaranteed that the gyro wheel can be stable carry out the centre gripping to the steel wire to have restricted the distance between the two, the stability of carrying the steel wire has been guaranteed to the fastness of having guaranteed the centre gripping, the effect and the efficiency of pipeline threading have been guaranteed, this mode will make the steel wire can dismantle effectively and make things convenient for holistic accomodating of equipment simultaneously, the space of taking the toolbox is littleer.

The conveying structure comprises a second cavity arranged in the first rotating block, a plurality of groups of rollers arranged in the second cavity, roller shafts penetrating into the rollers, shaft holes arranged at the top and the bottom of the second cavity, a groove arranged on the rollers, a third cavity arranged at the lower end of the roller shaft, a clamping block capable of moving back and forth in the third cavity, a first elastic part arranged in the third cavity and used for resetting the clamping block, a fourth cavity arranged on the gun body, a first gear arranged in the fourth cavity, a clamping port arranged on the first gear, a second gear arranged below the first gear, one-way teeth arranged on the second gear, a third gear arranged in the fourth cavity and matched with the second gear, a power rod arranged on the first motor and connected with the third gear, and a counting structure arranged on a group of rollers close to the handle end; when the steel wire is output outwards, the first motor rotates positively to drive the power rod to drive the third gear to rotate, so that the third gear drives the second gear meshed with the third gear to rotate, the second gear rotates to drive the first gear fixedly connected with the second gear to rotate, a clamping block which can stretch and retract through the first elastic piece is arranged below the roller shaft and is clamped in the clamping port, so that the connection between the roller shaft and the first gear is completed, the rotation of the motor finally drives the roller to rotate, grooves are formed in the roller, the steel wire is provided with enough strong pressure, the rotation of the first motor enables a group of rollers at the far handle end to rotate actively, so that the steel wire is driven to move, the rollers at the rear part are in a passive state, the active rotation speed of the roller is higher than the passive speed, and the steel wire is tensioned and straightened, the reverse rotation of the motor drives any one group of rollers of the non-roller group, which is farthest away from the handle end and closest to the handle end, to rotate, so that the steel wire is reversely collected into the steel wire supply structure, and the roller positioned on the driving roller and far away from the handle does not have power and becomes a driven wheel, namely, the switching of the steel wire collection and release between the two groups of rollers is realized through the forward and reverse rotation of the first motor; through the setting of this structure, thereby make the steel wire all receive the extrusion of speed difference between action wheel and the follower at the in-process that receive and releases, thereby make the steel wire between the two extruded tensile, thereby make the drawing straight of steel wire certain degree, when its outside seeing off, the steel wire can keep rectilinear state, thereby avoided the steel wire to buckle in the pipeline inside and carry out the condition emergence of blockking in the pipeline, thereby the threading effect and the efficiency of steel wire have been guaranteed, the steel wire can be seen off with comparatively straight state when having guaranteed steel wire output on the one hand, on the other hand can coil back the steel wire supply structure better when it inwards retracts, the stability of equipment has been guaranteed, its threading effect and quality have been guaranteed.

The counting structure comprises a shell arranged above a first rotary block, a first through groove arranged on the shell, a glass sheet arranged in the first through groove, a first belt wheel arranged above a roller shaft, a second belt wheel arranged at the bottom of the shell and matched with the first belt wheel, a belt sleeved on the first belt wheel and the second belt wheel, a rotating shaft fixedly connected with the second belt wheel, a plurality of number indicating wheels sleeved on the rotating shaft, a support ring arranged at the top of the shell, a rolling piece arranged below the support ring, an inner support arranged inside the shell, a second rotary block rotatably arranged on the support, a central rod arranged on the second rotary block, a fluted disc sleeved on the central rod, a first convex tooth arranged above the fluted disc, a first boss arranged below the fluted disc, a plurality of clamping cambered surfaces arranged on the first boss, clamping sliding grooves arranged between two adjacent clamping cambered surfaces, and a second convex tooth arranged below the number indicating wheels, The second boss is arranged above the number indicating wheel, the notch is arranged on the second boss, the clamping column is arranged on the number indicating wheel, the reset structure is used for resetting the number indicating wheel, and the fixing structure is arranged on the rotating block; when the steel wire is sent out, the rotation of the roller shaft drives the first belt wheel to rotate, so that the second belt wheel which is matched with the first belt wheel through the belt rotates simultaneously, the rotation in the second belt path drives the number indicating wheel arranged above the second belt wheel to rotate, the number indicating wheel and the number indicating wheel are meshed with each other through the fluted disc, when the number indicating wheel below the second belt wheel rotates, the second lug boss is clamped in the clamping arc surface to fix the fluted disc, when the notch rotates to the clamping arc surface, the clamping arc surface is in an unlocking state, the clamping column slides along the clamping chute below the fluted disc in the process of continuous rotation, so as to drive the fluted disc to rotate, after the rotation is finished, the clamping column moves out from the clamping chute, the second lug boss is clamped in the clamping chute again to fix the fluted disc, and the rotation of the fluted disc drives the number indicating disc above to rotate by a certain angle, the jump of the reading shows the moving length of the steel wire in a scale mode; thereby the setting through this structure will carry out the measurement of the volume of sending out to the steel wire that stretches into in the pipeline, can more audio-visual see out that the steel wire length of sending out measures for what, also can retrieve when retrieving the steel wire what simultaneously, perhaps it can possess good judgment ability to block the homoenergetic at which part of pipeline probably the object, thereby can carry out an estimation to the length of pipeline, thereby the length of judging the electric wire is the condition such as enough accord with, the convenience of construction has been guaranteed, and can effectively utilize the electric wire, reduce the waste of electric wire, the cost is saved, thereby avoid the electric wire that pipeline length unknown leads to long the condition emergence of doing over again inadequately, thereby make threading efficiency higher, the effect is better.

The reset structure comprises a cam arranged above the number indicating wheel, a plane arranged on the cam, round corners arranged at two sides of the plane of the cam, an extrusion piece fixedly connected to the second rotating block, an outer support arranged outside the shell, a lever sleeved on the outer support, a second through groove and a third through groove arranged on the shell, a stop block with one end rotatably connected to one end of the lever, a push block with one end rotatably connected to the lever, a fifth cavity arranged on the push block, a second sliding block capable of moving back and forth in the fifth cavity, and a second elastic piece arranged in the fifth cavity and used for resetting the second sliding block; when the reading needs to be reset, the lever is pressed at the moment so that the stop block slides outwards along the second through groove, the stop block used for fixing the second rotating block retracts, the second rotating block is in a free rotating state, in the process, the lever drives the push block to move inwards along the third through groove, the second sliding block is in contact with the extrusion piece, energy is stored in a mode of extruding the second elastic piece, the second rotating block rotates at the moment that the stop block is completely separated from the position of the second rotating block, the rotary disc is separated from the reading wheel, the second sliding block pops outwards and pushes the extrusion piece to be in contact with the cam, and then the cam rotates until the extrusion piece is in contact with the plane on the cam; through the setting of this structure, will effectively guarantee the operation convenience that resets, simultaneously through the form of lever, can accomplish the fixed unblock and the promotion to the second commentaries on classics piece through simple pressing for equipment is more stable, and is more accurate good to the count of electric wire, has guaranteed its work efficiency.

2, the pipeline is laid by adopting a power pipeline made of cpvc materials.

4, the concrete comprises the following raw materials: the cement-based waste calcining material comprises cement, sand, broken stone, a waste calcining material, an additive and water, wherein the waste calcining material is prepared by the following method: mixing waste concrete and waste bricks according to the mass ratio of 10:3, crushing and grinding the mixture into powder smaller than 30mm for later use; soaking the powder in water for 2-3 days, and oven drying; calcining the dried crushed powder for 4-5h at the temperature of 1000-1100 ℃, cooling, grinding and screening, and respectively taking calcined products with the particle sizes of 0.15-3mm and 5-10mm as waste calcined materials; the additive is prepared from the following raw materials in parts by weight: 40-50 parts of a polycarboxylic acid water reducing agent, 15-20 parts of a cellulose grafted shell polymer, 15-20 parts of flue sediment, 5-10 parts of a silane coupling agent, 1-5 parts of polyvinylpyrrolidone, 1-5 parts of silicon carbide, 3-6 parts of hollow glass beads, 5-10 parts of silicon dioxide coated titanium dioxide and 2-8 parts of gelatin powder; the flue deposit is volatile substances deposited in the flue when borosilicate glass is produced by flame heating.

The fixing structure comprises a sixth cavity arranged on the first rotating block, a third sliding block capable of moving back and forth in the sixth cavity, a third elastic piece arranged in the sixth cavity and used for resetting the third sliding block, a second sliding groove arranged on the first rotating block, an extension block sleeved on the roller shaft, a seventh cavity arranged on the side wall of the second sliding groove, a fourth sliding block capable of moving back and forth in the seventh cavity, an extrusion inclined plane arranged on the fourth sliding block, a fixing column arranged on the fourth sliding block and a tension wheel arranged on the fourth sliding block; the extension block is sleeved on the roller shaft and connected with the third sliding block, namely, the roller at the position can move back and forth along the direction of the second sliding groove, namely when the roller is clamped by a steel wire, the roller is extruded to slide along the other end of the second sliding groove, the third sliding block extrudes the third elastic part in the process, the roller shaft extrudes the fourth sliding block to retract into the seventh cavity, so that the fixed column is pushed to move, and finally the fixed column is moved to the included angle between the second rotating block and the extrusion sheet, so that the second rotating block is limited to move, at the moment, due to the movement of the roller shaft, the first belt wheel and the second belt wheel are close to each other, the distance of the fourth sliding block drives the tension wheel arranged on the fourth sliding block to be far away, and the belt is always in a tight state; through the setting of this structure, make the steel wire when having the state of steel wire centre gripping, the second commentaries on classics piece is in fixed state, the state that can't reset promptly, it is spacing to changeing the piece through this structure to the second, thereby make the state that has the steel wire can't use the count reset function when operating condition promptly, thereby guaranteed can not touch because of the mistake when operating condition, thereby lead to stretching out the volume and by the zero clearing, thereby lead to this step need recalculation's possibility, the equipment stability has been guaranteed, the possibility of doing over again has been avoided, and make subsequent threading performance better.

The steel wire supply structure comprises a base arranged on the gun body, a rotary rod rotatably connected to the base, an eighth cavity arranged on the gun body, a second threaded rod penetrating into the eighth cavity, a threaded block sleeved on the second threaded rod, a screwing block arranged on the second threaded rod, a fourth through groove arranged above the eighth cavity, a fixed block capable of moving back and forth in the fourth through groove, a notch arranged on the fixed block, a connecting rod with two ends respectively rotatably connected to the threaded block and the fixed block, a fixed port arranged on the rotary rod, a ninth cavity arranged in the rotary rod, a fifth sliding block capable of moving back and forth in the ninth cavity, a fourth elastic element arranged in the ninth cavity and used for resetting the fifth sliding block, and a vertical take-up reel arranged on the rotary rod; the rotary rod can rotate around the base, so that the rotary rod can be erected and stored, the rotary rod is toppled over on the gun body when the rotary rod is stored, the fixing block is retracted into the fourth through groove at the moment, the fifth sliding block is embedded into the notch, so that the whole rotary rod can be stored, when the support needs to be erected, the rotary rod is rotated to enable the rotary rod to be perpendicular to the gun body, the screwing block is screwed, the second threaded rod is rotated, the threaded block moves relatively, the fixing block is pushed through the connecting rod, the fourth through groove is moved out, the rotary rod is fixed and limited, then two ends of the vertical take-up reel are placed in the fixing holes, the fixing block continuously ascends to push the third sliding block to move upwards, the fixing hole is sealed and locked when the third sliding block moves upwards, and therefore the vertical take-up reel is limited, and clamping work is completed; the setting through this structure will effectively facilitate demolising or installing vertical take-up reel, can empty the mode of accomodating to the bull stick, the occupation space of equipment will effectively be guaranteed, simultaneously through the setting of vertical take-up reel, thereby the tapping silk form that makes the take-up reel is seen off for the tangent line form in bottom, this mode will effectively reduce the amount of buckling of steel wire at the in-process that is seen off, the burden of gyro wheel has been alleviateed, thereby make the steel wire that sees off straighter, the threading effect is more, thereby the possibility of overlapping has been avoided excessively buckling in the pipeline, the work efficiency and the effect of threading machine have been guaranteed.

The vertical take-up reel comprises a rod body, a disk body sleeved on the rod body, an extrusion disk sleeved on the rod body, a side block arranged on the disk body, an inclined plane arranged on the side block, a baffle arranged in the disk body, a third sliding groove arranged on the gun body, a guide block capable of moving in the third sliding groove, a guide slope arranged on the guide block, a limiting block arranged at the bottom of the third sliding groove and a limiting sliding groove arranged below the wire block; the guide block is placed into the third chute, the limiting block is clamped into the limiting chute at the moment, then the guide block is moved until the limiting block slides to the tail end of the limiting chute, so that the installation of the guide block is completed, when the paying-off step is carried out, the steel wire passes through the edge block along the inclined plane between the tray body and the baffle plate to be sent out and finally enters the roller set along the limiting chute to be conveyed, and vice versa, when the steel wire is recycled, the steel wire bends to a certain degree along the guide slope and under the extrusion action of the extrusion disc corresponding to the guide slope, finally gradually enters between the tray body and the baffle plate and drives the turntable to rotate through the force generated in the process, however, due to the arrangement of the baffle plate, the steel wire only can enter between the baffle plate and the tray body to be stored, when the storage is finished and the dismounting, the extrusion disc slides along the rod body, so as to cover the tray body, covering and accommodating the tray body; therefore, the condition that the steel wire in the tray body extends outwards due to external vibration is avoided when the steel wire is stored, and the stability of equipment is ensured; the setting on inclined plane will guarantee that the steel wire can be stably located inside, avoid the condition that the steel wire outwards popped out or spills, the power that sets up the take-up reel through this structure comes from receiving and releasing of steel wire, the rolling position of steel wire will effectively be restricted through setting up of baffle simultaneously, make inside steel wire arrange neatly to have avoided the winding condition of steel wire to take place, set up through guide block and direction slope effectively to have carried out certain extrusion deformation to the steel wire, thereby make the steel wire can joint get into between disk body and the baffle more easily, the stability of effectively having guaranteed equipment has improved the work efficiency of equipment.

The invention penetrates the electric wire between the pipelines in a threading machine mode, thereby reducing the labor cost, facilitating the threading process of electricians and reducing the working difficulty.

According to the invention, through the arrangement of the first rotating block, the separation and combination are completed through rotation, the convenience in disassembly and assembly of the steel wire is ensured, meanwhile, the reverse displacement of the first rotating block in the clamping direction is avoided, the clamping firmness is ensured, the stability of the steel wire conveying is ensured, and the effect and efficiency of pipeline threading are ensured.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a rear view of the present invention.

Fig. 3 is a right side view of the present invention.

Fig. 4 is a schematic plan sectional view taken along line a-a of fig. 2.

Fig. 5 is a partially enlarged schematic view of fig. 4.

Fig. 6 is a perspective cross-sectional view of fig. 2 taken along line B-B.

Fig. 7 is a partially enlarged schematic view of fig. 6.

Fig. 8 is a partially enlarged schematic view of fig. 7.

Fig. 9 is a perspective cross-sectional view of fig. 2 taken along line C-C.

Fig. 10 is a partially enlarged schematic view of fig. 9.

Fig. 11 is a perspective cross-sectional view of fig. 2 taken along line D-D.

Fig. 12 is a partially enlarged schematic view of fig. 11.

Fig. 13 is a perspective cross-sectional view of fig. 2 taken along line E-E.

Fig. 14 is a partially enlarged schematic view of fig. 13.

Fig. 15 is a partially enlarged schematic view of fig. 14.

Fig. 16 is a schematic plan sectional view taken along line F-F in fig. 2.

Fig. 17 is a schematic perspective cross-sectional view taken along line G-G in fig. 3.

Fig. 18 is a partially enlarged schematic view of fig. 17.

Fig. 19 is a schematic plan sectional view taken along line H-H in fig. 3.

Fig. 20 is a partially enlarged schematic view of fig. 19.

Fig. 21 is a schematic structural view of fig. 20 with the first pulley, the second pulley, and the tension pulley hidden.

Fig. 22 is a first structural diagram of the fluted disc.

Fig. 23 is a second schematic view of the fluted disc structure.

Fig. 24 is a first structural view of the number indicating wheel.

Fig. 25 is a schematic view of the structure of the number wheel.

Detailed Description

As shown in fig. 1-25, a construction method for smart home decoration includes the following steps:

1. digging out wire grooves for mounting wires on the ground and the wall surface according to a drawing;

2. connecting the outlets of the indoor electric lines by pipelines, and laying pipelines for connection in the wire slots; the pipeline is laid by adopting a cpvc material electric power pipeline;

3. laying the electric wire along the pipeline by using a threading machine;

4. filling concrete into the wire grooves to bury the electric line pipelines; the concrete comprises the following raw materials: the cement-based waste calcining material comprises cement, sand, broken stone, a waste calcining material, an additive and water, wherein the waste calcining material is prepared by the following method: mixing waste concrete and waste bricks according to the mass ratio of 10:3, crushing and grinding the mixture into powder smaller than 30mm for later use; soaking the powder in water for 2-3 days, and oven drying; calcining the dried crushed powder for 4-5h at the temperature of 1000-1100 ℃, cooling, grinding and screening, and respectively taking calcined products with the particle sizes of 0.15-3mm and 5-10mm as waste calcined materials; the additive is prepared from the following raw materials in parts by weight: 40-50 parts of a polycarboxylic acid water reducing agent, 15-20 parts of a cellulose grafted shell polymer, 15-20 parts of flue sediment, 5-10 parts of a silane coupling agent, 1-5 parts of polyvinylpyrrolidone, 1-5 parts of silicon carbide, 3-6 parts of hollow glass beads, 5-10 parts of silicon dioxide coated titanium dioxide and 2-8 parts of gelatin powder; the flue sediment is volatile substances deposited in the flue when borosilicate glass is produced in a flame heating mode;

5. installing intelligent household equipment at an outlet of the electric circuit;

the threading machine in the step 3 comprises a gun body 1, a handle 11, a key 12, a battery 13, a first motor 14, a first rotating piece 15, a first rotating block 16, a wire outlet nozzle 17, a steel wire 18, a transmission structure 2, a first sliding groove 19, a first limiting groove 110, a first cavity 111, a first sliding block 112, a first block body 113, a limiting rod 114, a first threaded rod 115, an adjusting block 116 and a steel wire supply structure 3; the handle 11 is arranged below the gun body, the key 12 is arranged on the handle 11, the battery 13 is arranged below the handle 11, the first motor 14 is arranged below the gun body, the battery 13 and the first motor 14 are both commercially available prior art and are not repeated here, the first rotating piece 15 is arranged on two sides of the gun body, the first rotating piece 15 is arranged in a hinged mode, the first rotating piece 16 is arranged on the first rotating piece 15, the wire outlet nozzle 17 is arranged on the first rotating piece 16, the wire outlet nozzle 17 is also divided into two pieces, the steel wire 18 penetrates between the first rotating pieces 16, the transmission structure 2 is arranged on the first rotating piece 16 and is used for conveying the steel wire 18, the first chute 19 is arranged below the first rotating piece 16, the first limiting groove 110 is arranged on the side wall of the first chute 19, the first cavity 111 is arranged on the gun body, the first sliding block 112 is arranged on the first sliding block 112, the limiting rod 114 penetrates through two ends of the first block 113 and can move back and forth in the first limiting groove 110, the first threaded rod 115 is arranged below the first sliding block 112, the adjusting block 116 is sleeved on the first threaded rod 115, the adjusting block is a block body which is rotatably connected below the gun body, and the steel wire supply structure 3 is detachably arranged on the gun body; the first rotating blocks 16 on two sides are mutually spliced to form a complete steel wire 18 conveying channel, the adjusting block 116 is screwed to control the up-and-down movement of the first threaded rod 115, when the first threaded rod 115 moves upwards, the first sliding block 112 moves upwards along the first cavity 111, so that the first block 113 moves upwards, the limiting rod 114 penetrating the first block 113 slides towards the other end from the end of the first sliding block 112 far away from the limiting groove, in the process, the first rotating block 16 rotates around the first rotating piece 15, so that the first rotating blocks 16 on two sides are opened upwards, the steel wire 18 can be taken down or installed, the adjusting block 116 is screwed to rotate reversely after the steel wire 18 is taken down or installed, so that the first sliding block 112 is controlled to move downwards, so that the first rotating blocks 16 are reset, and the first rotating blocks 16 on two sides are mutually attached, through the setting of first commentaries on classics piece 16, through the rotatory mode of accomplishing deciliter, the easy dismounting of steel wire 18 has been guaranteed, rotatory mode is for the mode of translation simultaneously, effectively guaranteed the distance between two first commentaries on classics pieces 16 of fixed back, it effectively guarantees carrying out the centre gripping to steel wire 18 that gyro wheel 22 can be stable to have restricted the distance between the two, the stability of carrying steel wire 18 has been guaranteed to the fastness of having guaranteed the centre gripping, the effect and the efficiency of pipeline threading have been guaranteed, this mode will make steel wire 18 can dismantle effectively and make things convenient for holistic accomodating of equipment simultaneously, the space of taking the toolbox is littleer.

The conveying structure 2 comprises a second cavity 21, a roller 22, a roller shaft 23, a shaft hole 24, a groove 25, a third cavity 26, a clamping block 27, a first elastic part 28, a fourth cavity 29, a first gear 210, a clamping interface 211, a second gear 212, a one-way tooth 213, a third gear 214, a power rod 215 and a counting structure 4; the second cavity 21 is arranged in the first rotating block 16, the rollers 22 are provided with a plurality of groups, 3 groups are arranged here, the groups can be added according to requirements, the rollers are arranged in the second cavity 21, the roller shaft 23 is arranged in the rollers 22 in a penetrating way, the shaft holes 24 are arranged at the top and the bottom of the second cavity 21, the grooves 25 are arranged on the rollers 22, the third cavity 26 is arranged at the lower end of the roller shaft 23, the clamping block 27 can move back and forth in the third cavity 26, the first elastic part 28 is arranged in the third cavity 26 for resetting the clamping block 27, the first elastic part 28 is arranged as a spring part, the fourth cavity 29 is arranged on the gun body, the first gear 210 is arranged in the fourth cavity 29, the clamping port 211 is arranged on the first gear 210, the second gear 212 is arranged below the first gear 210, the one-way tooth 213 is arranged on the second gear 212, the third gear 214 is arranged in the fourth cavity 29 and is matched with the second gear 212, the power rod 215 is arranged on the first motor 14 and is connected with the third gear 214, the counting structure 4 is arranged on a group of rollers 22 at the end close to the handle 11; when the steel wire 18 is output outwards, the first motor 14 rotates forward to drive the power rod 215 to drive the third gear 214 to rotate, so that the third gear 214 drives the second gear 212 engaged with the third gear 214 to rotate, the rotation of the second gear 212 drives the first gear 210 fixedly connected with the second gear to rotate, the clamping block 27 which can be extended and retracted through the first elastic member 28 is arranged below the roller shaft 23, the clamping block 27 is clamped in the clamping interface 211 to complete the connection between the roller shaft 23 and the first gear 210, so that the rotation of the motor finally drives the roller 22 to rotate, the groove 25 is arranged on the roller 22 to give a sufficiently strong pressure to the steel wire 18, the rotation of the first motor 14 enables the group of rollers 22 far away from the handle 11 to actively rotate, so as to drive the steel wire 18 to move, and the rollers 22 behind the first motor are all in a passive state, the active rotation speed of the roller 22 is higher than the passive speed, at this time, the steel wire 18 is tensioned and straightened, and the reverse rotation of the motor drives any one group of rollers 22 of the non-roller 22 group, which is farthest from the end of the handle 11 and closest to the end of the handle 11, to rotate, so that the steel wire 18 is reversely collected into the steel wire 18 supply structure, and at this time, the roller 22 positioned at the active roller 22 and far from the handle 11 no longer has power and becomes a driven wheel, namely, the switching of collecting and releasing the steel wire 18 between the two groups of rollers 22 is realized through the forward and reverse rotation of the first motor 14; through the setting of this structure, thereby make steel wire 18 all receive the extrusion of speed difference between action wheel and the follower at the in-process of receiving and releasing, thereby make steel wire 18 between the two extruded tensile, thereby make the quilt of steel wire 18 certain degree straighten, when its outside seeing off, steel wire 18 can keep rectilinear state, thereby it takes place to have avoided steel wire 18 to buckle the condition of carrying out the jam in the pipeline inside the pipeline, thereby the threading effect and the efficiency of steel wire 18 have been guaranteed, steel wire 18 can be seen off with comparatively straight state when having guaranteed steel wire 18 output on the one hand, on the other hand can roll up back steel wire 18 supply structure better when it inwards retracts, the stability of equipment has been guaranteed, its threading effect and quality have been guaranteed.

The counting structure 4 comprises a housing 41, a first through groove 42, a glass sheet 43, a first belt wheel 44, a second belt wheel 45, a belt 46, a rotating shaft 47, a counting wheel 48, a supporting ring 49, a rolling member 410, an inner support 411, a second rotating block 412, a central rod 413, a fluted disc 414, a first convex tooth 415, a first boss 416, a clamping arc 417, a clamping sliding groove 418, a second convex tooth 419, a second boss 420, a notch 421, a clamping column 422, a resetting structure 5 and a fixing structure 6; the shell 41 is arranged above the first rotating block 16, the first through groove 42 is arranged on the shell 41, the glass sheet 43 is arranged in the first through groove 42, the first belt wheel 44 is arranged above the roller shaft 23, the second belt wheel 45 is arranged at the bottom of the shell 41 and is matched with the first belt wheel 44, the belt 46 is sleeved on the first belt wheel 44 and the second belt wheel 45, the rotating shaft 47 is fixedly connected on the second belt wheel, a plurality of number indicating wheels 48 are arranged, 3 number indicating wheels are arranged at the position and are sleeved on the rotating shaft 47, the number indicating wheels 48 are provided with numerical values which can measure the length in a decimal mode, the supporting ring 49 is arranged at the top of the shell 41, the rolling piece 410 is arranged below the supporting ring 49, the rolling piece 410 is of a ball structure, the inner bracket 411 is arranged in the shell 41, the second rotating block 412 is rotatably arranged on the bracket, the central rod 413 is arranged on the second rotating block 412, the fluted disc 414 is sleeved on the central rod 413, the first, the first boss 416 is arranged below the fluted disc 414, a plurality of clamping arc surfaces 417 are arranged on the first boss 416, the clamping sliding grooves 418 are arranged between two adjacent clamping arc surfaces 417, the second convex teeth 419 are arranged below the number indicating wheel 48, the second boss 420 is arranged above the number indicating wheel 48, the notch 421 is arranged on the second boss 420, the clamping columns 422 are arranged on the number indicating wheel 48, the resetting structure 5 is used for resetting the number indicating wheel 48, and the fixing structure 6 is arranged on the rotating block; when the steel wire 18 is fed out, the rotation of the roller shaft 23 will drive the first pulley 44 to rotate, so as to rotate the second pulley 45, which is engaged with the first pulley 44 via the belt 46, at the same time, the rotation in the second belt will drive the index wheel 48 disposed above the second pulley to rotate, the index wheel 48 and the index wheel 48 are engaged with each other via the toothed disc 414, when the index wheel 48 below rotates, the second boss 420 will be engaged with the engaging arc 417 to fix the toothed disc 414, when the notch 421 rotates to the engaging arc 417, the engaging arc 417 will be in the unlocking state, and the engaging column 422 will slide along the engaging chute 418 below the toothed disc 414 during the continuous rotation process, so as to drive the toothed disc 414 to rotate, after the rotation, the engaging column 422 will move out from the engaging chute 418, and the second boss 420 will be engaged with the engaging chute 418 again to fix the toothed disc 414, the rotation of the fluted disc 414 drives the dial above to rotate a certain angle, namely, the dial jumps, and the moving length of the steel wire 18 is displayed in a scale mode; thereby the setting through this structure will carry out the measurement of the volume of sending out to the steel wire 18 that stretches into in the pipeline, can more audio-visually see out that 18 length measure of steel wire of sending out is for what, also can retrieve when retrieving steel wire 18 simultaneously and how much, perhaps there is the object to block homoenergetic in which part of pipeline and can possess good judgment ability, thereby can carry out an estimation to the length of pipeline, thereby the length of judging the electric wire is the condition such as enough accord with, the convenience of construction has been guaranteed, and can effectively utilize the electric wire, reduce the waste of electric wire, the cost is saved, thereby avoid the electric wire that pipeline length is unknown to lead to long the condition emergence of doing over again inadequately, thereby make threading efficiency higher, and the effect is better.

The reset structure 5 comprises a cam 51, a plane 52, a round corner 53, a pressing piece 54, an outer bracket 55, a lever 56, a second through groove 57, a third through groove 58, a stop 59, a push block 510, a fifth cavity 511, a second slide block 512 and a second elastic piece 513; the cam 51 is arranged above the number indicating wheel 48, the plane 52 is arranged on the cam 51, the round corners 53 are arranged at two sides of the plane 52 of the cam 51, the extruding sheet 54 is fixedly connected on the second rotating block 412, the outer bracket 55 is arranged outside the shell 41, the lever 56 is sleeved on the outer bracket 55, the second through groove 57 and the third through groove 58 are arranged on the shell, one end of the stop block 59 is rotatably connected with one end of the lever 56, one end of the push block 510 is rotatably connected on the lever 56, the fifth cavity 511 is arranged on the push block 510, the second sliding block 512 can move back and forth in the fifth cavity 511, the second elastic element 513 is arranged in the fifth cavity 511 and used for resetting the second sliding block 512, and the second elastic element 513 is arranged as a spring element; when the reading needs to be reset, the lever 56 is pressed at the moment so that the stopper 59 slides outwards along the second through groove 57, the stopper 59 for fixing the second rotating block 412 is retracted, the second rotating block 412 is in a freely rotatable state, in the process, the lever 56 simultaneously drives the push block 510 to move inwards along the third through groove 58, the second sliding block 512 and the pressing piece 54 are in contact with each other, energy is stored by pressing the second elastic piece 513, at the moment when the stopper 59 is completely separated from the position of the second rotating block 412, the second rotating block 412 rotates, so that the rotating disc and the reading wheel 48 are separated, the second sliding block 512 springs outwards and pushes the pressing piece 54 to be in contact with the cam 51, and then the cam 51 rotates until the pressing piece 54 is in contact with the plane 52 on the cam 51; through the setting of this structure, will effectively guarantee the operation convenience that resets, simultaneously through the form of lever 56, can accomplish the fixed unblock and the promotion to second commentaries on classics piece 412 through simple pressing for equipment is more stable, and is more accurate good to the count of electric wire, has guaranteed its work efficiency.

The fixing structure 6 comprises a sixth cavity 61, a third sliding block 62, a third elastic piece 63, a second sliding chute 64, an extension block 65, a seventh cavity 66, a fourth sliding block 67, an extrusion inclined plane 68, a fixing column 69 and a tension wheel 610; the sixth cavity 61 is arranged on the first rotating block 16, the third sliding block 62 can move back and forth in the sixth cavity 61, the third elastic piece 63 is arranged in the sixth cavity 61 and used for resetting the third sliding block 62, the second sliding groove 64 is arranged on the first rotating block 16, the extension block 65 is sleeved on the roller shaft 23, the seventh cavity 66 is arranged on the side wall of the second sliding groove 64, the fourth sliding block 67 can move back and forth in the seventh cavity 66, the extrusion inclined surface 68 is arranged on the fourth sliding block 67, the fixed column 69 is arranged on the fourth sliding block 67, and the tensioning wheel 610 is arranged on the fourth sliding block 67; the extension block 65 is sleeved on the roller shaft 23 and connected with the third slider 62, that is, the roller 22 here is in a state of being capable of moving back and forth along the direction of the second chute 64, that is, when the roller 22 is clamped by the steel wire 18, the roller 22 is extruded to slide along the other end of the second chute 64, in the process, the third slider 62 extrudes the third elastic member 63, the roller shaft 23 extrudes the fourth slider 67 to retract into the seventh cavity 66, so as to push the fixed column 69 to move and finally move the fixed column 69 to the included angle between the second rotating block 412 and the extrusion sheet 54, so as to limit the movement of the second rotating block 412, at this time, due to the movement of the roller shaft 23, the first belt pulley 44 and the second belt pulley 45 approach each other, the distance of the fourth slider 67 will drive the tension pulley arranged thereon to move away, so as to keep the belt 46 in a tight state; through the setting of this structure, make the steel wire 18 when having the state of steel wire 18 centre gripping, second commentaries on classics piece 412 is in the fixed state, the state that can't reset promptly, it is spacing to have carried out second commentaries on classics piece 412 through this structure, thereby make the state that has the steel wire 18 unable count reset function when operating condition promptly, thereby guaranteed can not touch because of the mistake when operating condition, thereby lead to the volume of stretching out to be clear, thereby lead to the possibility that this step need recalculate, the equipment stability has been guaranteed, the possibility of doing over again has been avoided, and make subsequent threading effect performance better.

The steel wire supply structure 3 comprises a base 31, a rotary rod 32, an eighth cavity 33, a second threaded rod 34, a threaded block 35, a screwing block 36, a fourth through groove 37, a fixing block 38, a notch 39, a connecting rod 310, a fixing port 311, a ninth cavity 312, a fifth sliding block 313, a fourth elastic element 314 and a vertical take-up reel 7; the base 31 is arranged on the gun body, the rotary rod 32 is rotatably connected on the base 31, the eighth cavity 33 is arranged on the gun body, the second threaded rod 34 is arranged in the eighth cavity 33 in a penetrating manner, the threaded block 35 is sleeved on the second threaded rod 34, the screwing block 36 is arranged on the second threaded rod 34, the fourth through groove 37 is arranged above the eighth cavity 33, the fixed block 38 can move back and forth in the fourth through groove 37, the notch 39 is arranged on the fixed block 38, two ends of the connecting rod 310 are respectively rotatably connected with the threaded block 35 and the fixed block 38, the fixed port 311 is arranged on the rotary rod 32, the ninth cavity 312 is arranged in the rotary rod 32, the fifth slide block 313 can move back and forth in the ninth cavity 312, the fourth elastic element 314 is arranged in the ninth cavity 312 and used for resetting the fifth slide block 313, the fourth elastic element 314 is arranged as a spring element, and the vertical take-up reel 7 is arranged on the rotary rod 32; the rotary rod 32 can rotate around the base 31, so that the rotary rod 32 can be erected and stored, when the rotary rod 32 is dumped on the gun body during storage, the fixing block 38 retracts into the fourth through groove 37, the fifth sliding block 313 is embedded into the notch 39, so that the whole rotary rod 32 can be stored, when the support needs to be erected, the rotary rod 32 is rotated to be perpendicular to the gun body, then the screwing block 36 is screwed, the second threaded rod 34 is rotated, the threaded block 35 relatively moves, the fixing block 38 is pushed by the connecting rod 310 to move out of the fourth through groove 37, so that the rotary rod 32 is fixed and limited, then the two ends of the vertical take-up reel are placed in the fixing opening 311, the third sliding block 62 is pushed to move upwards as the fixing block 38 continues to rise, the fixing opening 311 is sealed and locked while the third sliding block 62 moves upwards, so that the vertical take-up reel is limited, thereby completing the clamping work; the setting through this structure will effectively facilitate demolising or installing perpendicular take-up reel, can empty the mode of accomodating to swing arm 32, the occupation space of equipment will effectively be guaranteed, simultaneously through the setting of perpendicular take-up reel, thereby the play steel wire 18 form that makes the take-up reel is seen off for the tangent line form in bottom, this mode will effectively reduce the amount of buckling of steel wire 18 at the in-process that is seen off, the burden of gyro wheel 22 has been alleviateed, thereby the steel wire 18 that makes to see off is more straight, the threading effect is more, thereby the possibility of excessive buckling in the pipeline overlapping has been avoided, the work efficiency and the effect of threading machine have been guaranteed.

The vertical take-up reel 7 comprises a rod body 71, a reel body 72, an extrusion reel 73, a side block 74, an inclined plane 75, a baffle 76, a third sliding groove 77, a guide block 78, a guide slope 79, a limiting block 711 and a limiting sliding groove 712; the body 72 is sleeved on the body 71, the extrusion disc 73 is sleeved on the body 71, the side block 74 is arranged on the body 72, the inclined plane 75 is arranged on the side block 74, the baffle 76 is arranged in the body 72, the third chute 77 is arranged on the gun body, the guide block 78 can move in the third chute 77, the guide slope 79 is arranged on the guide block 78, the limiting block 711 is arranged at the bottom of the third chute 77, and the limiting chute 712 is arranged below the wire block; the guide block 78 is put into the third chute 77, the limit block 711 is clamped into the limit chute 712 and is a projection arranged at the end of the third chute, which is used for limiting the position of the guide block and fixing the guide block, then the guide block 78 is moved until the limit block 711 slides to the end of the limit chute 712, so that the installation of the guide block 78 is completed, when the wire releasing step is carried out, the steel wire 18 is sent out from between the plate body 72 and the baffle plate 76 along the inclined plane 75 and over the edge block 74, and finally enters the roller 22 group along the limit chute 712 for conveying, and vice versa, when the steel wire 18 is recovered, the steel wire 18 bends to a certain degree along the guide slope 79 under the extrusion action of the extrusion plate 73 corresponding to the guide slope 79, and finally gradually enters between the plate body 72 and the baffle plate 76 and drives the turntable to rotate through the force generated in the process, however, due to the arrangement of the baffle 76, the steel wire 18 can only enter between the baffle 76 and the tray body 72 for storage, when the storage is finished and the disassembly is finished, the extrusion tray 73 slides along the rod body 71, so that the tray body 72 is covered, the tray body 72 is covered and stored, the condition that the steel wire 18 extends outwards due to external vibration during the storage of the steel wire 18 in the tray body 72 is ensured, and the stability of the equipment is ensured; the setting of inclined plane 75 will guarantee that steel wire 18 can be stably located inside, avoid the condition that steel wire 18 outwards popped out or spills, the power of setting up the take-up reel through this structure comes from receiving and releasing of steel wire 18, the rolling position of steel wire 18 will effectively be restricted through the setting of baffle 76 simultaneously, make inside steel wire 18 arrange neatly and avoided the winding condition of steel wire 18 to take place, the effective extrusion deformation to certain degree has been carried out to steel wire 18 through setting up of guide block 78 and direction slope 79, thereby make steel wire 18 can the joint more easily get into between disk body 72 and the baffle 76, the stability of effectively having guaranteed equipment has improved the work efficiency of equipment.

The specific operation flow is as follows:

the up-and-down movement of the first threaded rod 115 is controlled by screwing the adjusting block 116, when the first threaded rod 115 moves upwards, the first slider 112 moves upwards along the first cavity 111, so that the first block 113 moves upwards, the limiting rod 114 penetrating the first block 113 slides towards the other end from the end of the first slider 112 far away from the limiting groove, in the process, the first rotating block 16 rotates around the first rotating member 15, so that the first rotating blocks 16 at two sides open upwards, the steel wire 18 can be taken down or installed, after the installation is finished, when the steel wire 18 is output outwards, the first motor 14 rotates forwards to drive the power rod 215 to drive the third gear 214 to rotate, so that the third gear 214 drives the second gear 212 meshed with the third gear 214 to rotate, and the rotation of the second gear 212 drives the first gear 210 fixedly connected with the second gear 210 to rotate, a clamping block 27 which can be extended and contracted through a first elastic piece 28 is arranged below the roller shaft 23, the clamping block 27 is clamped in a clamping opening 211, so that the connection between the roller shaft 23 and a first gear 210 is completed, the roller 22 is finally driven to rotate by the rotation of the motor, a groove 25 is arranged on the roller 22, a sufficiently strong pressure is provided for the steel wire 18, the rotation of the first motor 14 enables a group of rollers 22 at the end far away from the handle 11 to actively rotate, so that the steel wire 18 is driven to move, the rollers 22 behind the rollers are in a passive state, the active rotation speed of the rollers 22 is higher than the passive speed, at the moment, the steel wire 18 is tensioned and straightened, in the process, the rotation of the roller shaft 23 drives a first belt wheel 44 to rotate, so that a second belt wheel 45 which is mutually matched with the first belt wheel 44 through a belt 46 simultaneously rotates, the rotation in a second belt path drives a number indicating wheel 48 arranged above the first belt wheel to rotate, the dial wheel 48 and the dial wheel 48 are meshed with each other through the fluted disc 414, when the dial wheel 48 below rotates, the second boss 420 is clamped in the clamping arc surface 417, the toothed disc 414 is fixed, when the notch 421 rotates to the clamping arc surface 417, the clamping arc surface 417 will be in the unlocking state, and the clamping column 422 slides along the clamping chute 418 below the fluted disc 414 in the process of continuing to rotate, thereby driving the gear disc 414 to rotate, after the rotation is completed, the clamping column 422 moves out from the clamping chute 418 and the second boss 420 is clamped in the clamping chute 418 again to fix the gear disc 414, and the rotation of the gear disc 414 will drive the dial above to rotate a certain angle, i.e., the run-out of the indicator, indicates the length of travel of the wire 18 in a graduated manner, at which point the wire 18 will be fed outwardly from between the tray 72 and the stop 76 along the ramp 75 over the edge block 74 and ultimately down the stop channel 712 into the set of rollers 22 for transport.

Claims (9)

1. The construction method for the intelligent home decoration is characterized by comprising the following steps: the method comprises the following steps:

1. digging out wire grooves for mounting wires on the ground and the wall surface according to a drawing;

2. connecting the outlets of the indoor electric lines by pipelines, and laying pipelines for connection in the wire slots;

3. laying the electric wire along the pipeline by using a threading machine;

4. filling concrete into the wire grooves to bury the electric line pipelines;

5. installing intelligent household equipment at an outlet of the electric circuit;

wherein the threading machine in 3 includes body of a gun (1), locate handle (11) of body of a gun below, locate button (12) on handle (11), locate battery (13) of handle (11) below, locate first motor (14) of body of a gun below, locate first rotating member (15) of body of a gun both sides, locate first commentaries on classics piece (15) on first commentaries on classics piece (16), locate play line mouth (17) on first commentaries on classics piece (16), wear to locate steel wire (18) between first commentaries on classics piece (16), locate on first commentaries on classics piece (16) and be used for carrying transport steel wire (18) transport structure (2), set up first spout (19) below first commentaries on classics piece (16), locate first spacing groove (110) on first spout (19) lateral wall, locate first cavity (111) on the body of a gun, locate first slider (112) in first cavity (111), locate first block (113) on first slider (112), The limiting rod (114) penetrates through two ends of the first block body (113) and can move back and forth in the first limiting groove (110), the first threaded rod (115) is arranged below the first sliding block (112), the adjusting block (116) is sleeved on the first threaded rod (115), and the steel wire supply structure (3) is detachably arranged on the gun body; the first rotating blocks (16) on two sides are mutually spliced to form a complete steel wire (18) conveying channel, the adjusting block (116) is screwed to control the first threaded rod (115) to move up and down, when the first threaded rod (115) moves upwards, the first sliding block (112) moves upwards along the first cavity (111) so as to enable the first block body (113) to move upwards, the limiting rod (114) penetrating through the first block body (113) slides towards the other end from the end, far away from the first sliding block (112), of the limiting groove, in the process, the first rotating block (16) rotates around the first rotating piece (15), so that the first rotating blocks (16) on two sides are opened upwards, at the moment, the steel wire (18) can be taken down or installed, the adjusting block (116) is screwed to rotate reversely after the steel wire (18) is taken down or installed, and the first sliding block (112) is controlled to move downwards, thereby resetting the first rotating block (16) and enabling the first rotating blocks (16) at two sides to be attached to each other.

2. The intelligent home decoration construction method according to claim 1, wherein: the conveying structure (2) comprises a second cavity (21) arranged in the first rotating block (16), a plurality of groups of rollers (22) arranged in the second cavity (21), roller shafts (23) arranged in the rollers (22) in a penetrating manner, shaft holes (24) arranged at the top and the bottom of the second cavity (21), a groove (25) arranged on the rollers (22), a third cavity (26) arranged at the lower end of the roller shafts (23), a clamping block (27) capable of moving back and forth in the third cavity (26), a first elastic part (28) arranged in the third cavity (26) and used for resetting the clamping block (27), a fourth cavity (29) arranged on the gun body, a first gear (210) arranged in the fourth cavity (29), a clamping port (211) arranged on the first gear (210), a second gear (212) arranged below the first gear (210), and one-way teeth (213) arranged on the second gear (212), A third gear (214) which is arranged in the fourth cavity (29) and is matched with the second gear (212), a power rod (215) which is arranged on the first motor (14) and is connected with the third gear (214), and a counting structure (4) which is arranged on a group of rollers (22) at the end close to the handle (11); when the steel wire (18) is output outwards, the first motor (14) rotates forwards to drive the power rod (215) to drive the third gear (214) to rotate, so that the third gear (214) drives the second gear (212) meshed with the third gear (214) to rotate, the second gear (212) rotates to drive the first gear (210) fixedly connected with the second gear to rotate, a clamping block (27) which can stretch and retract through the first elastic piece (28) is arranged below the roller shaft (23), the clamping block (27) is clamped in the clamping interface (211) to complete the connection between the roller shaft (23) and the first gear (210), so that the rotation of the motor finally drives the roller (22) to rotate, a groove (25) is formed in the roller (22), the steel wire (18) is provided with strong enough pressure, and the rotation of the first motor (14) enables a group of rollers (22) far away from the handle (11) to actively rotate, thereby drive steel wire (18) and remove, and gyro wheel (22) at its rear are passive state, the initiative slew velocity of gyro wheel (22) is greater than passively, steel wire (18) are taut and straight, and the reverse rotation of motor, will drive non-gyro wheel (22) group and keep away from any group gyro wheel (22) of handle (11) end and be closest to handle (11) end furthest and rotate, thereby in retrieving steel wire (18) reverse income steel wire (18) supply structure, and lie in at this moment gyro wheel (22) and keep away from gyro wheel (22) of handle (11) no longer possess power, become the follower, through the positive and negative rotation of first motor (14), thereby realize receiving and releasing the switching of steel wire (18) between two sets of gyro wheel (22).

3. The intelligent home decoration construction method according to claim 2, wherein: the counting structure (4) comprises a shell (41) arranged above the first rotating block (16), a first through groove (42) arranged on the shell (41), a glass sheet (43) arranged in the first through groove (42), a first belt wheel (44) arranged above the roller shaft (23), a second belt wheel (45) arranged at the bottom of the shell (41) and matched with the first belt wheel (44), a belt (46) sleeved on the first belt wheel (44) and the second belt wheel (45), a rotating shaft (47) fixedly connected with the second belt wheel, a plurality of number indicating wheels (48) sleeved on the rotating shaft (47), a supporting ring (49) arranged at the top of the shell (41), a rolling piece (410) arranged below the supporting ring (49), an inner support (411) arranged in the shell (41), a second rotating block (412) rotatably arranged on the support, a central rod (413) arranged on the second rotating block (412, The numerical control machine comprises a fluted disc (414) sleeved on a central rod (413), a first convex tooth (415) arranged above the fluted disc (414), a first boss (416) arranged below the fluted disc (414), a plurality of clamping arc surfaces (417) arranged on the first boss (416), a clamping sliding chute (418) arranged between every two adjacent clamping arc surfaces (417), a second convex tooth (419) arranged below a number indicating wheel (48), a second boss (420) arranged above the number indicating wheel (48), a notch (421) arranged on the second boss (420), a clamping column (422) arranged on the number indicating wheel (48), a reset structure (5) used for resetting the number indicating wheel (48) and a fixing structure (6) arranged on a rotating block; when the steel wire (18) is sent out outwards, the rotation of the roller shaft (23) drives the first belt wheel (44) to rotate, so that the second belt wheel (45) which is matched with the first belt wheel (44) through the belt (46) rotates simultaneously, the rotation in the second belt path drives the number indicating wheel (48) arranged above the second belt wheel to rotate, the number indicating wheel (48) and the number indicating wheel (48) are meshed with each other through the fluted disc (414), when the number indicating wheel (48) below the second belt wheel rotates, the second lug boss (420) is clamped in the clamping cambered surface (417) to fix the fluted disc (414), when the notch (421) rotates to the clamping cambered surface (417), the clamping cambered surface (417) is in an unlocking state, and in the process of continuing rotation, the clamping column (422) slides along the clamping sliding groove (418) below the fluted disc (414), so as to drive the fluted disc (414) to rotate, after the rotation is completed, the clamping column (422) moves out of the clamping sliding groove (418) and the second boss (420) is clamped in the clamping sliding groove (418) again to fix the fluted disc (414), and the rotation of the fluted disc (414) drives the counting disc positioned above to rotate by a certain angle, namely the counting jumps, so that the moving length of the steel wire (18) is displayed in a system mode.

4. The intelligent home decoration construction method according to claim 3, wherein: the reset structure (5) comprises a cam (51) arranged above the number indicating wheel (48), a plane (52) arranged on the cam (51) of the reset structure (1), round corners (53) arranged at two sides of the plane (52) of the cam (51), a pressing sheet (54) fixedly connected on the second rotating block (412), an outer support (55) arranged outside the shell (41), and a lever (56) sleeved on the outer support (55), a second through groove (57) and a third through groove (58) which are arranged on the shell, a stop block (59) with one end rotatably connected with one end of the lever (56), a push block (510) with one end rotatably connected with the lever (56), a fifth cavity (511) which is arranged on the push block (510), a second sliding block (512) which can move back and forth in the fifth cavity (511), and a second elastic element (513) which is arranged in the fifth cavity (511) and is used for resetting the second sliding block (512); when the reading needs to be reset, the lever (56) is pressed at the moment so that the stop block (59) slides outwards along the second through groove (57), the stop block (59) for fixing the second rotating block (412) is retracted, the second rotating block (412) is in a freely rotatable state, in the process, the lever (56) simultaneously drives the push block (510) to move inwards along the third through groove (58), the second sliding block (512) is in contact with the pressing sheet (54), energy is stored in a mode of pressing the second elastic piece (513), at the moment when the stop block (59) is completely separated from the position of the second rotating block (412), the second rotating block (412) rotates, so that the rotating disc is separated from the reading wheel (48), the second sliding block (512) pops outwards and pushes the pressing sheet (54) to be in contact with the cam (51), and then the cam (51) rotates, until the pressing sheet (54) contacts with the plane (52) on the cam (51).

5. The intelligent home decoration construction method according to claim 1, wherein: 2, the pipeline is laid by adopting a power pipeline made of cpvc materials.

6. The intelligent home decoration construction method according to claim 1, wherein: 4, the concrete comprises the following raw materials: the cement-based waste calcining material comprises cement, sand, broken stone, a waste calcining material, an additive and water, wherein the waste calcining material is prepared by the following method: mixing waste concrete and waste bricks according to the mass ratio of 10:3, crushing and grinding the mixture into powder smaller than 30mm for later use; soaking the powder in water for 2-3 days, and oven drying; calcining the dried crushed powder for 4-5h at the temperature of 1000-1100 ℃, cooling, grinding and screening, and respectively taking calcined products with the particle sizes of 0.15-3mm and 5-10mm as waste calcined materials; the additive is prepared from the following raw materials in parts by weight: 40-50 parts of a polycarboxylic acid water reducing agent, 15-20 parts of a cellulose grafted shell polymer, 15-20 parts of flue sediment, 5-10 parts of a silane coupling agent, 1-5 parts of polyvinylpyrrolidone, 1-5 parts of silicon carbide, 3-6 parts of hollow glass beads, 5-10 parts of silicon dioxide coated titanium dioxide and 2-8 parts of gelatin powder; the flue deposit is volatile substances deposited in the flue when borosilicate glass is produced by flame heating.

7. The intelligent home decoration construction method according to claim 3, wherein: the fixing structure (6) comprises a sixth cavity (61) arranged on the first rotating block (16), a third sliding block (62) capable of moving back and forth in the sixth cavity (61), a third elastic piece (63) arranged in the sixth cavity (61) and used for resetting the third sliding block (62), a second sliding chute (64) arranged on the first rotating block (16), an extension block (65) sleeved on the roller shaft (23), a seventh cavity (66) arranged on the side wall of the second sliding chute (64), a fourth sliding block (67) capable of moving back and forth in the seventh cavity (66), an extrusion inclined surface (68) arranged on the fourth sliding block (67), a fixing column (69) arranged on the fourth sliding block (67), and a tension wheel (610) arranged on the fourth sliding block (67); the extension block (65) is sleeved on the roller shaft (23) and connected with the third sliding block (62), namely the roller (22) is in a state of being capable of moving back and forth along the direction of the second sliding chute (64), namely when the steel wire (18) is clamped between the rollers (22), the rollers (22) are extruded to slide along the other end of the second sliding chute (64), the third sliding block (62) extrudes the third elastic piece (63), the roller shaft (23) extrudes the fourth sliding block (67) to retract into the seventh cavity (66), so that the fixing column (69) is pushed to move, and finally the fixing column (69) is moved to the included angle between the second rotating block (412) and the extrusion sheet (54), so that the second rotating block (412) is limited to move, and at the moment, due to the movement of the roller shaft (23), the first belt wheel (44) and the second belt wheel (45) are close to each other, the moving away of the fourth slide block (67) drives the tension and static wheel arranged on the fourth slide block to move away, so that the belt (46) is always in a tight state.

8. The intelligent home decoration construction method according to claim 1, wherein: the steel wire supply structure (3) comprises a base (31) arranged on the gun body, a rotary rod (32) rotatably connected onto the base (31), an eighth cavity (33) arranged on the gun body, a second threaded rod (34) arranged in the eighth cavity (33) in a penetrating manner, a threaded block (35) sleeved on the second threaded rod (34), a screwing block (36) arranged on the second threaded rod (34), a fourth through groove (37) arranged above the eighth cavity (33), a fixed block (38) capable of moving back and forth in the fourth through groove (37), a notch (39) arranged on the fixed block (38), a connecting rod (310) with two ends respectively rotatably connected onto the threaded block (35) and the fixed block (38), a fixing port (311) arranged on the rotary rod (32), a ninth cavity (312) arranged in the rotary rod (32), and a fifth sliding block (313) capable of moving back and forth in the ninth cavity (312), A fourth elastic piece (314) arranged in the ninth cavity (312) and used for resetting the fifth sliding block (313), and a vertical take-up reel (7) arranged on the rotating rod (32); the rotary rod (32) can rotate around the base (31), so that the rotary rod (32) is erected and stored, when the rotary rod (32) is stored, the rotary rod (32) is poured onto the gun body, at the moment, the fixing block (38) retracts into the fourth through groove (37), the fifth sliding block (313) is embedded into the notch (39), so that the whole rotary rod (32) is stored, when the support is required to be erected, the rotary rod (32) is rotated to be perpendicular to the gun body, the screwing block (36) is screwed, so that the second threaded rod (34) is rotated, so that the threaded block (35) relatively moves, the fixing block (38) is pushed through the connecting rod (310) to move out of the fourth through groove (37), so that the rotary rod (32) is fixed and limited, then the two ends of the vertical take-up reel are placed in the fixing port (311), and the third sliding block (62) is pushed to move upwards by the continuous rising of the fixing block (38), the third sliding block (62) moves upwards and locks the fixing port (311) at the same time, so that the vertical take-up reel is limited, and the clamping work is completed.

9. The intelligent home decoration construction method according to claim 8, wherein: the vertical take-up reel (7) comprises a rod body (71), a tray body (72) sleeved on the rod body (71), an extrusion tray (73) sleeved on the rod body (71), a side block (74) arranged on the tray body (72), an inclined plane (75) arranged on the side block (74), a baffle (76) arranged in the tray body (72), a third sliding groove (77) arranged on the gun body, a guide block (78) capable of moving in the third sliding groove (77), a guide slope (79) arranged on the guide block (78), a limiting block (711) arranged at the bottom of the third sliding groove (77) and a limiting sliding groove (712) arranged below the wire block; the guide block (78) is placed into the third sliding groove (77), the limiting block (711) is clamped into the limiting sliding groove (712), then the guide block (78) is moved until the limiting block (711) slides to the tail end of the limiting sliding groove (712), so that the guide block (78) is installed, when the paying-off step is carried out, the steel wire (18) is sent out from the position between the disc body (72) and the baffle plate (76) along the inclined plane (75) and across the edge block (74), and finally enters the roller (22) group along the limiting sliding groove (712) for conveying, and vice versa, when the steel wire (18) is recovered, the steel wire (18) bends to a certain degree along the guiding slope (79) under the extrusion action of the extrusion disc (73) corresponding to the guiding slope (79), finally gradually enters the position between the disc body (72) and the baffle plate (76), and the rotary disc is driven to rotate by the force generated in the process, however, due to the arrangement of the baffle plate (76), the steel wire (18) can only enter between the baffle plate (76) and the tray body (72) for storage, and when the storage is finished and the steel wire is removed, the extrusion tray (73) slides along the rod body (71) so as to cover the tray body (72) and cover the tray body (72) for storage.

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