CN114888982A

CN114888982A - Construction device and method for reserving added structure inside building enclosure wall

Info

Publication number: CN114888982A
Application number: CN202210635034.2A
Authority: CN
Inventors: 窦学锋; 任春茂; 杨鑫; 王大陆; 孙茂玮; 张栋梁
Original assignee: BEIJING URBAN CONSTRUCTION ENGINEERING TENTH CO LTD
Current assignee: BEIJING URBAN CONSTRUCTION ENGINEERING TENTH CO LTD
Priority date: 2022-06-07
Filing date: 2022-06-07
Publication date: 2022-08-12
Anticipated expiration: 2042-06-07
Also published as: CN114888982B

Abstract

The construction device comprises a plate body, wherein a rod body is arranged on the plate body, a connecting plate is arranged on the rod body in a sliding manner, a slotted piece is arranged on the connecting plate, a driving mechanism used for driving the connecting plate to move along the length direction of the rod body is arranged on the rod body, the construction device further comprises two groups of guide assemblies which are spliced mutually, each group of guide assemblies comprises mutually parallel tracks which are arranged at intervals, a connecting rod used for connecting the tracks at the two sides together is arranged between the tracks at the two sides, an installation part used for detachably connecting the tracks to the wall body in the building is arranged on the tracks, the plate body is arranged on the tracks at the two sides in a sliding manner, and a moving mechanism used for driving the plate body to move along the length direction of the tracks is arranged on the plate body; this application has the manpower of saving the manual work fluting of constructor.

Description

Construction device and method for reserving added structure inside building enclosure wall

Technical Field

The application relates to the field of building construction, in particular to a construction device and a method for reserving an increased structure inside a building enclosure wall.

Background

The old buildings needing to be modified are increased, the outer facades of some buildings have certain characteristics or historical values, and the buildings cannot be damaged in the modification process, and the reinforcing and modifying scheme is particularly important at the moment, so that the safety of the modified structure and the use function of the buildings are ensured, and the outer facades are ensured to keep the original appearance.

The application publication number is CN102383618A, which discloses a permanent reinforcement device and method for old buildings, the reinforcement device comprises a bearing frame arranged in the old building, a plurality of wall attaching posts respectively attached to the inner wall of the old building and connected with the bearing frame, and tie bars for connecting the wall and the wall attaching posts. The invention also discloses a permanent reinforcing method for the old building. As the bearing frame and the wall attaching column are arranged in the old building to reinforce the bearing force, and the wall body is tied and fixed through the tie bars, the damage to the wall body is reduced, the original appearance of the outer vertical surface of the wall body of the old building is kept, and a better permanent reinforcing effect is achieved.

With respect to the related art among the above, there are the following technical drawbacks: when the bearing frame needs to be arranged in a wall inside a building, a grooving machine needs to be adopted in a manual mode for grooving, then the bearing frame needs to be poured in the groove manually, and the manpower is wasted by adopting the manual mode.

Disclosure of Invention

First aspect, in order to save the manual work and be located slotted manpower on the inside wall of building, this application provides one kind and remains the inside construction equipment who increases the structure of building enclosure.

The application provides a keep inside construction equipment who increases structure of building enclosure adopts following technical scheme:

the utility model provides a remain inside construction equipment who increases structure of building enclosure wall, the package rubbing board body, be provided with the body of rod on the plate body, it is provided with the connecting plate to slide on the body of rod, be provided with the fluting piece on the connecting plate, be provided with the actuating mechanism who is used for driving the connecting plate to remove along the length direction of the body of rod on the body of rod, construction equipment still includes two sets of guide assembly that splice each other and form, and every guide assembly of group all includes the track that sets up, both sides parallel to each other and interval be provided with between the track and be used for being connected to both sides track connecting rod together, be provided with on the track and be used for dismantling the installed part of connection on the inside wall body of building with the track, the plate body slides and sets up on the track of both sides, be provided with the moving mechanism who is used for driving the plate body to remove along orbital length direction on the plate body.

Through adopting above-mentioned technical scheme, remove along the length direction of the body of rod through driving actuating mechanism, be convenient for to the position control of fluting piece, make the fluting piece can be located different positions and carry out the fluting, adopt two sets of orbital settings, when the plate body removes to one of them set of track, operating personnel can take off another set of track through the installed part and splice to the orbital other end of last, make whole plate body can be located the wall body through moving mechanism and move, make the fluting piece can further be located different positions and carry out the fluting, the construction range of whole construction equipment has been improved, manual grooving's manpower has been saved.

Optionally, the rod body comprises a first mounting rod and a second mounting rod, the first mounting rod is hinged on the plate body, the first mounting rod is provided with a mounting plate in a sliding way along the length direction of the first mounting rod, the second mounting rod is hinged on the mounting plate, the connecting plate is arranged on the second mounting rod in a sliding manner along the length direction of the second mounting rod, the driving mechanism comprises a first rotating mechanism, a first driving component, a second rotating mechanism and a second driving component, the first rotating mechanism is used for driving a hinge point of the first mounting rod on the plate body to rotate, the first driving assembly is used for driving the mounting plate to move along the length direction of the first mounting rod, the second rotating mechanism is used for driving the hinge point of the second mounting rod on the mounting plate to rotate, and the second driving assembly is used for driving the connecting plate to move along the length direction of the second mounting rod.

Through adopting above-mentioned technical scheme, can drive first installation pole through first slewing mechanism and be located the plate body and rotate, thereby make first installation pole drive fluting piece along plate body annular displacement, second slewing mechanism can drive the second installation pole and be located the mounting panel and rotate, thereby further adjust the position of fluting piece, make fluting piece can further be located the position fluting of keeping away from the plate body, through driving fluting piece rotation, to the position adjustment of fluting piece, make fluting piece can open transverse groove vertical groove or arc wall, the grooved effect has been improved, first actuating mechanism and second actuating mechanism can drive fluting piece and move towards the direction that is close to or keeps away from the plate body, the moving range of fluting piece has further been improved, and realize the fluting groove at the in-process that removes.

Optionally, the fixed first articulated slab that is provided with on the plate body, fixed being provided with on the first installation pole wears to establish and rotates the first articulated shaft of connection on first articulated slab, first rotation mechanism includes first worm wheel, first worm and first rotation motor, first worm wheel cover is established and fixed connection is on first articulated shaft, the fixed setting of first worm is served and is engaged with first worm wheel on the drive of first rotation motor, first rotation motor is fixed to be set up on the plate body.

Through adopting above-mentioned technical scheme, drive first worm through first rotation motor and rotate for first worm drives first worm wheel and rotates, and first worm wheel can drive first articulated shaft and rotate, makes first articulated shaft drive first installation pole and rotates, adopts setting up of first worm wheel and first worm to possess self-locking function, can drive first installation pole and rotate the position automatic fixation after arbitrary rotation, has improved the drive effect to first installation pole.

Optionally, a first chute has been seted up along the length direction of first installation pole on the first installation pole, the fixed first slider that is provided with sliding connection in first chute that is provided with on the mounting panel, first drive assembly includes that the length direction along first chute rotates the first screw rod that sets up in first chute, first slider cover is established and threaded connection is in on the first screw rod, the end fixing that the plate body was kept away from to first installation pole is provided with and is used for driving first screw rod pivoted driving motor.

Through adopting above-mentioned technical scheme, drive first screw rod through a driving motor and rotate, slide because of first slider and set up in first spout for first slider can not rotate along with the rotation of first screw rod, thereby makes first slider be located first screw rod and removes, adopts first screw rod driven mode can drive the mounting panel and remove the position after arbitrary removal automatic fixation, has improved the drive effect to the mounting panel.

Optionally, a side edge of mounting panel is fixed and is provided with the second articulated slab, the fixed second articulated shaft of wearing to establish and rotating the connection on the second articulated slab that is provided with on the second installation pole, second slewing mechanism includes second worm wheel, second worm and second rotation motor, second worm wheel cover is established and fixed connection is on the second articulated shaft, the fixed setting of second worm is served and is engaged with the second worm wheel on the drive that the motor was rotated to the second, the second rotates the fixed setting of motor on the mounting panel.

Through adopting above-mentioned technical scheme, rotate the motor through the second and drive the second worm and rotate for the second worm drives the second worm wheel and rotates, and the second worm wheel can drive the second articulated shaft and rotate, makes the second articulated shaft drive the rotation of second installation pole, and the setting that adopts second worm wheel and second worm possesses self-locking function, can drive the second installation pole and rotate the position automatic fixation after arbitrary rotation, has improved the drive effect to the second installation pole.

Optionally, a second chute is formed in the second mounting rod along the length direction of the second mounting rod, a second slider connected in the second chute in a sliding manner is fixedly arranged on the connecting plate, the second driving assembly comprises a second screw rod which is rotatably arranged in the second chute along the length direction of the second chute, the second slider is sleeved on the second screw rod and is in threaded connection with the second screw rod, and a second driving motor for driving the second screw rod to rotate is fixedly arranged at the end part, far away from the plate body, of the second mounting rod.

Through adopting above-mentioned technical scheme, drive the second screw rod through second driving motor and rotate, because of the second slider slides and sets up in the second spout for the second slider can not rotate along with the rotation of second screw rod, thereby makes the second slider be located the second screw rod and removes, and the mode that adopts second screw rod drive can drive the mounting panel and remove the position after arbitrary removal automatic fixation, has improved the drive effect to the connecting plate.

Optionally, the fluting piece is established and a plurality of fluting knives of sliding connection on the fluting axle including fluting axle and cover, be provided with on the fluting knife and be used for fixing the fluting knife to the mounting that removes the back position wantonly, the fixed fluting motor that is used for driving the fluting axle to drive the fluting knife pivoted that is provided with on the connecting plate.

Through adopting above-mentioned technical scheme, drive adjacent slotting tool through the mounting and adjust its interval to make a plurality of slotting tools of different intervals can open the groove of different width, thereby improved the result of use of a plurality of slotting tools.

Optionally, it is two sets of be provided with curved guide bar between the relative track of direction subassembly, the guide bar is used for supplying the plate body to be located and moves to another group's track on one of them group track, be provided with on the guide bar and be used for fixing the guide bar on the inside wall body of building the installed part, moving mechanism is used for driving the plate body and is located track and guide bar and moves.

Through adopting above-mentioned technical scheme, adopt curved guide bar to make the plate body remove along the arc direction, accessible guide bar adjusts to the horizontal direction and removes when the plate body is located the wall body and removes along vertical direction, need not all parts and all takes off and reset, has further improved the plate body and has driven the displacement range that the fluting spare is located the wall body.

Optionally, the driving mechanism includes a movable rack, an arc-shaped rack, a movable gear and a movable motor, the movable rack is fixedly arranged on the rail along the length direction of the rail, the arc-shaped rack is fixedly arranged on the guide rod along the length direction of the guide rod, the movable gear is fixedly arranged on the driving end of the movable motor and meshed with the movable rack or the arc-shaped rack, and the movable motor is arranged on the plate body and located at the position corresponding to the positions of the rails on the two sides.

Through adopting above-mentioned technical scheme, drive through the removal motor and remove gear revolve for remove the gear and be located removal rack and arc rack and remove, thereby make removal gear drive plate body and remove along the length direction of track and guide bar, make the plate body be convenient for turn to the removal, adopt the setting of removal gear, removal rack and arc rack to make the plate body realize the removal of arc direction.

In order to save manpower for manually slotting on the wall inside a building, the application provides a construction method for reserving an increased structure inside a building enclosure wall.

The application provides a keep inside construction method who increases structure of building enclosure adopts following technical scheme:

a construction method for reserving an increased structure inside a building enclosure wall comprises a construction device for reserving the increased structure inside the building enclosure wall, and comprises the following steps:

firstly, a rail is fixed on a wall body in the building through an installation part, a movable gear is driven to be meshed with a movable rack, at the moment, a movable motor can drive the movable gear to rotate, the movable gear is located on the movable rack to move, so that a plate body is driven to move along the length direction of the rail and a guide rod, a first worm is driven to rotate through a first rotating motor, a first worm wheel drives a first articulated shaft to rotate, so that the position of a slotting cutter is adjusted, a second worm is driven to rotate through a second rotating motor, so that a second articulated shaft is driven to rotate through a second worm wheel, so that the position of the slotting cutter is further adjusted, the first screw is driven to rotate through a first driving motor, so that the slotting cutter moves along the length direction of a first installation rod, a second screw is driven to rotate through a second driving motor, so that the slotting cutter moves along the length direction of a second installation rod, and the position of the slotting cutter is further adjusted, in the moving process of the connecting plate, the grooving motor can drive the grooving shaft to rotate, so that grooving of different shapes and different positions on the wall body can be realized by the plurality of grooving cutters.

Through adopting above-mentioned technical scheme, through the position of adjusting the slotting tool to drive the plate body and be located and remove on the inside wall body of building, increased the displacement range of plate body, make the slotting tool can be located different positions on the wall body and slot, operating personnel only need splice the track, make a plurality of slotting tools can realize automatic fluting, saved the manpower.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the driving mechanism is driven to move along the length direction of the rod body, so that the position of the slotting part can be conveniently adjusted, the slotting part can be positioned at different positions for slotting, the two groups of tracks are arranged, when the plate body moves to one of the two groups of tracks, an operator can take down the other group of tracks through the mounting part to splice the other end of the previous track, the whole plate body can be positioned on the wall body to move through the moving mechanism, the slotting part can be further positioned at different positions for slotting, the construction range of the whole construction device is improved, and the manpower for manual slotting is saved;

2. the first rotating mechanism can drive the first mounting rod to rotate on the plate body, so that the first mounting rod drives the slotting part to move along the annular direction of the plate body, the second rotating mechanism can drive the second mounting rod to rotate on the mounting plate, so that the position of the slotting part is further adjusted, the slotting part can be further slotted at a position far away from the plate body, the position of the slotting part is adjusted by driving the slotting part to rotate, the slotting part can be opened into a transverse slot and a vertical slot or an arc slot, the slotting effect is improved, the first driving mechanism and the second driving mechanism can drive the slotting part to move towards a direction close to or far away from the plate body, the moving range of the slotting part is further improved, and the slotting is realized in the moving process;

3. the fixing piece drives the adjacent slotting tools to adjust the distance between the adjacent slotting tools, so that the multiple slotting tools with different distances can be used for opening grooves with different widths, and the using effect of the multiple slotting tools is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic diagram of an exploded structure for showing a first slider and a second slider according to an embodiment of the present application;

FIG. 3 is a schematic diagram of an embodiment of the present application showing a first worm gear and a second worm gear;

fig. 4 is a schematic structural view for showing a grooved shaft according to an embodiment of the present application.

Description of reference numerals: 1. a plate body; 11. a rod body; 111. a connecting plate; 112. a first mounting bar; 113. a second mounting bar; 114. mounting a plate; 12. grooving shafts; 121. an adjustment groove; 122. an adjusting block; 123. fixing the bolt; 124. an adjustment hole; 125. a slot motor; 126. a slotting cutter; 13. a first hinge plate; 131. a first hinge shaft; 132. a first worm gear; 133. a first worm; 134. a first rotating electric machine; 14. a first chute; 141. a first slider; 142. a first screw; 143. a first drive motor; 15. a second hinge plate; 151. a second hinge shaft; 152. a second worm gear; 153. a second worm; 154. a second rotating electric machine; 16. a second chute; 161. a second slider; 162. a second screw; 163. a second drive motor; 17. a track; 171. a connecting rod; 172. a guide bar; 173. a suction cup; 18. a moving groove; 181. a moving block; 182. moving the rack; 183. an arc-shaped rack; 184. a moving gear; 185. the motor is moved.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses keep building enclosure wall inside construction equipment who increases structure. Referring to fig. 1, a construction device for reserving an increased structure inside a building enclosure wall comprises a plate body 1, wherein a rod body 11 is arranged on the plate body 1, a connecting plate 111 is arranged on the rod body 11 in a sliding manner, a slotted piece is arranged on the connecting plate 111, the rod body 11 comprises a first mounting rod 112 and a second mounting rod 113, the first mounting rod 112 is arranged on the plate body 1 in a hinged manner, a mounting plate 114 is arranged on the first mounting rod 112 in a sliding manner along the length direction of the first mounting rod 112, the second mounting rod 113 is arranged on the mounting plate 114 in a hinged manner, and the connecting plate 111 is arranged on the second mounting rod 113 in a sliding manner along the length direction of the second mounting rod 113; the first mounting rod 112 and the second mounting rod 113 both rotate in a direction parallel to the wall.

With reference to fig. 1 and fig. 2, a driving mechanism for driving the connecting plate 111 to move along the length direction of the rod body 11 is disposed on the rod body 11, the driving mechanism includes a first rotating mechanism, a first driving component, a second rotating mechanism and a second driving component, the first rotating mechanism is used for driving a hinge point of the first mounting rod 112 on the plate body 1 to rotate, the first driving component is used for driving the mounting plate 114 to move along the length direction of the first mounting rod 112, the second rotating mechanism is used for driving a hinge point of the second mounting rod 113 on the mounting plate 114 to rotate, and the second driving component is used for driving the connecting plate 111 to move along the length direction of the second mounting rod 113.

With reference to fig. 2 and 3, in order to hinge the first mounting rod 112 on the plate body 1, the first hinge plate 13 is fixedly disposed on the plate body 1, the first mounting rod 112 is fixedly disposed with a first hinge shaft 131 penetrating through and rotatably connected to the first hinge plate 13, the first rotating mechanism includes a first worm wheel 132, a first worm 133 and a first rotating motor 134, the first worm wheel 132 is sleeved on and fixedly connected to the first hinge shaft 131, the first worm 133 is fixedly disposed on a driving end of the first rotating motor 134 and engaged with the first worm wheel 132, and the first rotating motor 134 is fixedly disposed on the plate body 1.

With reference to fig. 2 and fig. 3, in order to drive the mounting plate 114 to be slidably disposed on the first mounting rod 112 along the length direction of the first mounting rod 112, a first sliding slot 14 is disposed on the first mounting rod 112 along the length direction of the first mounting rod 112, a first sliding block 141 slidably connected in the first sliding slot 14 is fixedly disposed on the mounting plate 114, in this embodiment, the cross section of the first sliding slot 14 is a "T" shape, and the first sliding block 141 is disposed in cooperation with the "T" shaped first sliding slot 14; the first driving assembly includes a first screw 142 rotatably disposed in the first sliding slot 14 along the length direction of the first sliding slot 14, a first slider 141 is sleeved on the first screw 142 and is threadedly connected to the first screw, and a first driving motor 143 for driving the first screw 142 to rotate is fixedly disposed at the end of the first mounting rod 112 away from the plate body 1.

Referring to fig. 2 and fig. 3, in order to drive the second mounting rod 113 to be hinged to the mounting plate 114, a second hinge plate 15 is fixedly disposed at a side edge of the mounting plate 114, a second hinge shaft 151 penetrating through and rotatably connected to the second hinge plate 15 is fixedly disposed on the second mounting rod 113, the second rotating mechanism includes a second worm wheel 152, a second worm 153 and a second rotating motor 154, the second worm wheel 152 is sleeved on and fixedly connected to the second hinge shaft 151, the second worm 153 is fixedly disposed at a driving end of the second rotating motor 154 and engaged with the second worm wheel 152, and the second rotating motor 154 is fixedly disposed on the mounting plate 114.

With reference to fig. 2 and fig. 3, in order to drive the connecting plate 111 to be slidably disposed on the second mounting rod 113, a second sliding slot 16 is disposed on the second mounting rod 113 along the length direction of the second mounting rod 113, a second slider 161 slidably connected in the second sliding slot 16 is fixedly disposed on the connecting plate 111, in this embodiment, the cross section of the second sliding slot 16 is "T" shaped, and the second slider 161 is disposed in cooperation with the "T" shaped second sliding slot 16; the second driving assembly includes a second screw 162 rotatably disposed in the second sliding groove 16 along the length direction of the second sliding groove 16, a second slider 161 is sleeved on the second screw 162 and threadedly connected to the second screw 162, and a second driving motor 163 for driving the second screw 162 to rotate is fixedly disposed at the end of the second mounting rod 113 away from the plate body 1.

Referring to fig. 1 and 4, the grooving member includes a grooving shaft 12 and a plurality of grooving cutters 126 sleeved on and slidably connected to the grooving shaft 12, in this embodiment, an adjusting groove 121 is formed in the grooving shaft 12 along a length direction of the grooving shaft 12, the grooving shaft 12 is perpendicular to the connecting plate 111, an end portion of the adjusting groove 121 far from the connecting plate 111 penetrates through the grooving shaft 12, an adjusting block 122 slidably connected in the adjusting groove 121 is disposed on an inner wall of the grooving cutter 126, a cross section of the adjusting groove 121 is disposed in a "T" shape, the adjusting block 122 is disposed in cooperation with the "T" shaped adjusting groove 121, a fixing member for fixing the grooving cutter 126 to an arbitrarily moved rear position is disposed on the grooving cutter 126, the fixing member includes a fixing bolt 123 threaded on the adjusting block 122, a plurality of adjusting holes 124 for moving in a rod portion of the fixing bolt 123 are formed in a bottom wall of the adjusting groove 121 along the length direction of the adjusting groove 121, a slotting motor 125 for driving the slotting shaft 12 to drive the slotting cutter 126 to rotate is fixedly arranged on the connecting plate 111.

As shown in fig. 1, in order to drive the plate body 1 to move on the wall, so that the plate body 1 drives the slotting cutter 126 to further adjust the position, the construction apparatus further includes two groups of guide assemblies spliced with each other, each group of guide assemblies includes the rails 17 arranged in parallel and at intervals, a connecting rod 171 for connecting the rails 17 on both sides together is arranged between the rails 17 on both sides, an arc-shaped guide rod 172 is arranged between the rails 17 opposite to the two groups of guide assemblies, a connecting rod 171 is also arranged between the guide rods 172 on both sides, the guide rods 172 are used for allowing the plate body 1 to move on one group of rails 17 to the other group of rails 17, and when the guide rods 172 are located between the rails 17 on both sides, the rails 17 on both sides are arranged in a mutually perpendicular manner; the track 17 is provided with a mounting part for detachably connecting the track 17 to the inner wall of the building, the guide rod 172 is provided with a mounting part for fixing the guide rod 172 to the inner wall of the building, and the mounting part comprises a sucker 173 arranged on the surfaces, facing the wall, of the track 17 and the guide rod 172; in other embodiments, the guide bar 172 may not be used, and the two sets of rails 17 may be directly butted.

With reference to fig. 1 and 3, in order to drive the plate body 1 to be slidably disposed on the rail 17 and the guide bar 172, moving grooves 18 which are communicated with each other are formed in the rail 17 and the guide bar 172 along the length direction of the rail 17 and the guide bar 172, a moving block 181 slidably connected in the moving grooves 18 is fixedly disposed on the plate body 1, in order to prevent the moving block 181 from being separated from the moving grooves 18 along the length direction perpendicular to the moving grooves 18, the cross section of the moving grooves 18 is formed in a "T" shape, and the moving block 181 is disposed in cooperation with the "T" shaped moving grooves 18.

Referring to fig. 1 and 3, in order to drive the plate body 1 to move along the length direction of the rail 17 and the guide rod 172, a moving mechanism for driving the plate body 1 to move along the length direction of the rail 17 is provided on the plate body 1; the moving mechanism is used for driving the plate body 1 to move on the track 17 and the guide rod 172; the driving mechanism comprises a moving rack 182, an arc-shaped rack 183, a moving gear 184 and a moving motor 185, wherein the moving rack 182 is fixedly arranged on the track 17 along the length direction of the track 17, the arc-shaped rack 183 is fixedly arranged on the guide rod 172 along the length direction of the guide rod 172, the moving gear 184 is fixedly arranged on the driving end of the moving motor 185 and meshed with the moving rack 182 or the arc-shaped rack 183, and the moving motors 185 are arranged on the plate body 1 and located at positions corresponding to the tracks 17 on the two sides.

firstly, the rail 17 is fixed on a wall body inside a building through a mounting member, the moving gear 184 is driven to be meshed with the moving rack 182, at this time, the moving motor 185 can drive the moving gear 184 to rotate, so that the moving gear 184 is located on the moving rack 182 to move, thereby driving the plate body 1 to move along the length direction of the rail 17 and the guide bar 172, the first worm 133 is driven to rotate by the first rotating motor 134, so that the first worm wheel 132 drives the first hinge shaft 131 to rotate, thereby adjusting the position of the slotting cutter 126, the second worm 153 is driven to rotate by the second rotating motor 154, so that the second worm wheel 152 drives the second hinge shaft 151 to rotate, thereby further adjusting the position of the slotting cutter 126, the first screw 142 is driven to rotate by the first driving motor 143, so that the slotting cutter 126 moves along the length direction of the first mounting bar 112, and the second screw 162 is driven to rotate by the second driving motor 163, make the slotting tool 126 remove along the length direction of second installation pole 113, thereby further adjust the position of slotting tool 126, connecting plate 111 is at the in-process that removes, fluting motor 125 can drive fluting axle 12 and rotate, make the fluting of different shapes and different positions on a plurality of slotting tools 126 realization wall body, need not the manual work and slot, the manpower has been saved, after slotting, set up the steel column through the mode of pouring the grout material at the inslot, set up the girder steel between each steel column, in order to realize the reinforcement to house inside.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a keep inside construction equipment who increases structure of building enclosure wall which characterized in that: comprises a plate body (1), a rod body (11) is arranged on the plate body (1), the rod body (11) is provided with a connecting plate (111) in a sliding way, the connecting plate (111) is provided with a slotted piece, the construction device comprises a rod body (11), a driving mechanism used for driving a connecting plate (111) to move along the length direction of the rod body (11) is arranged on the rod body (11), two groups of guide assemblies spliced with each other are further included, each group of guide assemblies comprises rails (17) which are parallel to each other and arranged at intervals, a connecting rod (171) used for connecting the rails (17) at the two sides together is arranged between the rails (17) at the two sides, the track (17) is provided with a mounting piece used for detachably connecting the track (17) to the wall body in the building, the plate body (1) is arranged on the rails (17) on the two sides in a sliding mode, and a moving mechanism used for driving the plate body (1) to move along the length direction of the rails (17) is arranged on the plate body (1).

2. The apparatus for constructing a building enclosure wall to retain an added structure therein as claimed in claim 1, wherein: the utility model discloses a plate body, including the body of rod (11), first installation pole (112) and second installation pole (113), first installation pole (112) are articulated to be set up on plate body (1), the length direction slip of first installation pole (112) is provided with mounting panel (114) on first installation pole (112), second installation pole (113) are articulated to be set up on mounting panel (114), connecting plate (111) are along the length direction slip setting of second installation pole (113) on second installation pole (113), actuating mechanism includes first slewing mechanism, first drive assembly, second slewing mechanism and second drive assembly, first slewing mechanism is used for driving first installation pole (112) to be located the pin joint rotation on plate body (1), first drive assembly is used for driving mounting panel (114) to move along the length direction of first installation pole (112), second slewing mechanism is used for driving the pin joint rotation that second installation pole (113) is located mounting panel (114), the second driving component is used for driving the connecting plate (111) to move along the length direction of the second mounting rod (113).

3. The construction equipment for preserving the inside of the building enclosure wall for adding the structure according to claim 2, wherein: fixed first articulated hinge board (13) that is provided with on plate body (1), fixed being provided with on first installation pole (112) wears to establish and rotates first articulated shaft (131) of connection on first articulated hinge board (13), first rotation mechanism includes first worm wheel (132), first worm (133) and first rotation motor (134), first worm wheel (132) cover is established and fixed connection is on first articulated shaft (131), fixed setting of first worm (133) is served and is engaged with first worm wheel (132) on the drive of first rotation motor (134), first rotation motor (134) is fixed to be set up on plate body (1).

4. A construction apparatus for retaining an added structure inside a building enclosure wall according to claim 3, wherein: first spout (14) have been seted up along the length direction of first installation pole (112) on first installation pole (112), fixed first slider (141) of sliding connection in first spout (14) that are provided with on mounting panel (114), first drive assembly includes that the length direction along first spout (14) rotates first screw rod (142) of setting in first spout (14), first slider (141) cover is established and threaded connection is in on first screw rod (142), the end fixing that plate body (1) was kept away from in first installation pole (112) is provided with and is used for driving first screw rod (142) pivoted first driving motor (143).

5. The construction equipment for preserving the inside of the building enclosure wall for adding the structure according to claim 4, wherein: the fixed second articulated plate (15) that is provided with in a side edge of mounting panel (114), fixed being provided with on second installation pole (113) wears to establish and rotates second articulated shaft (151) of connection on second articulated plate (15), second slewing mechanism includes second worm wheel (152), second worm (153) and second rotation motor (154), second worm wheel (152) cover is established and fixed connection is on second articulated shaft (151), fixed setting of second worm (153) is served and is engaged with second worm wheel (152) on the drive of second rotation motor (154), the second rotates motor (154) and fixes the setting on mounting panel (114).

6. The apparatus for constructing a building enclosure wall to retain an added structure therein as claimed in claim 5, wherein: second spout (16) have been seted up along the length direction of second installation pole (113) on second installation pole (113), fixed second slider (161) of sliding connection in second spout (16) that is provided with on connecting plate (111), second drive assembly includes that length direction along second spout (16) rotates second screw rod (162) of setting in second spout (16), second slider (161) cover is established and threaded connection is in on second screw rod (162), the end fixing that plate body (1) was kept away from in second installation pole (113) is provided with and is used for driving second screw rod (162) pivoted second driving motor (163).

7. The apparatus for constructing a building enclosure wall to retain an added structure therein as claimed in claim 6, wherein: the grooving piece includes that grooved shaft (12) and cover are established and a plurality of necking tool (126) of sliding connection on grooved shaft (12), be provided with on necking tool (126) and be used for fixing necking tool (126) to the mounting of arbitrary removal back position, fixed being provided with on connecting plate (111) is used for driving grooved shaft (12) and drives necking tool (126) pivoted fluting motor (125).

8. The apparatus for constructing a building enclosure wall to retain an added structure therein as claimed in claim 7, wherein: two sets of be provided with curved guide bar (172) between the relative track of direction subassembly (17), guide bar (172) are used for supplying plate body (1) to be located one of them group track (17) and move to another group track (17) on, be provided with on guide bar (172) and be used for fixing guide bar (172) on the inside wall body of building the installed part, moving mechanism is used for driving plate body (1) and is located track (17) and guide bar (172) and move.

9. The apparatus for constructing a building enclosure wall to retain an added structure therein as claimed in claim 8, wherein: the driving mechanism comprises a moving rack (182), an arc-shaped rack (183), a moving gear (184) and a moving motor (185), wherein the moving rack (182) is fixedly arranged on the track (17) along the length direction of the track (17), the arc-shaped rack (183) is fixedly arranged on the guide rod (172) along the length direction of the guide rod (172), the moving gear (184) is fixedly arranged on the driving end of the moving motor (185) and meshed with the moving rack (182) or the arc-shaped rack (183), and the plate body (1) is provided with the moving motor (185) at the position corresponding to the tracks (17) on the two sides.

10. A construction method for reserving an increased structure inside a building enclosure wall is characterized by comprising the following steps of: a construction apparatus for retaining an added structure inside a building enclosure including the structure of claim 9, comprising the steps of:

firstly, a track (17) is fixed on a wall body in the interior of a building through a mounting part, a moving gear (184) is driven to be meshed with a moving rack (182), at the moment, a moving motor (185) can drive the moving gear (184) to rotate, so that the moving gear (184) is positioned on the moving rack (182) to move, a plate body (1) is driven to move along the length directions of the track (17) and a guide rod (172), a first worm (133) is driven to rotate through a first rotating motor (134), a first worm wheel (132) drives a first articulated shaft (131) to rotate, so that the position of a slotting cutter (126) is adjusted, a second worm (153) is driven to rotate through a second 8F6C moving motor (154), a second worm wheel (152) drives a second articulated shaft (151) to rotate, so that the position of the slotting cutter (126) is further adjusted, and a first screw (142) is driven to rotate through a first driving motor (143), the slotting tool (126) is enabled to move along the length direction of the first mounting rod (112), the second screw (162) is driven to rotate through the second driving motor (163), the slotting tool (126) is enabled to move along the length direction of the second mounting rod (113), the position of the slotting tool (126) is further adjusted, the slotting shaft (12) can be driven to rotate by the slotting motor (125) in the moving process of the connecting plate (111), and slotting in different shapes and different positions on a wall body is achieved by the aid of the slotting tools (126).