CN209308403U - Elevartor shaft aluminum alloy barrel mould structure - Google Patents

Abstract

An aluminum alloy cylinder mould structure for an elevator shaft is characterized in that a cylinder mould is a rectangular cylinder mould frame formed by enclosing and splicing a flat mould and an angle mould; a clamping strip is arranged on the end part of the flat die in the vertical direction; the two end parts of the angle die are provided with limiting flanges corresponding to the vertical through length of the clamping strips; the clamping strip is positioned in the limiting flange and movably connected with the limiting flange; and a frame die is sleeved in the barrel die and is connected with the barrel die through a frame die hydraulic rod. The cylinder mould structure of the utility model utilizes the relative translation of the cylinder mould and the frame mould, the mutual clamping of the flat mould and the frame mould, and the use of the hydraulic rod of the frame mould is matched, thereby realizing the internal and external adjustment of the flat mould relative to the angle mould in the horizontal direction, and when the flat mould contracts inwards, the barrier-free lifting of the cylinder mould can be realized; when the flat formwork is unfolded, the cylinder formwork can be erected rapidly, the construction efficiency is high, and the formwork erection and positioning are accurate; in addition, the top of the frame mold is provided with a protection platform, so that effective protection of the upper-layer hole is realized, and construction safety is guaranteed. But wide application in elevator shaft construction.

Description

Elevator aluminium alloy cylinder mould structure

Technical field

The utility model relates to the realm of building construction, especially a kind of construction of lift well template.

Background technique

Elevator is the hoistway for installing elevator, and the size of hoistway is determined according to elevator selection, is needed on every layer pre- Box out mouth installs elevator door, when pouring construction, needs to install formwork for placing in hoistway, but there is operating space in elevator Limit, meanwhile, as structure height increases, difficulty of construction is also being continuously increased, and for skyscraper, elevator is applied Work also will affect construction speed and construction quality.

Formwork erection construction is carried out by operating platform currently, generally requiring in construction of lift well, still, since operation is empty Between it is limited, carry out that formwork erection difficulty is bigger, construction efficiency is low in operating platform；Template is unable to rapid shaping, removes, turnover Service efficiency is low, and to carry out conevying efficiency in a limited space low for lot of materials；Cylinder mould is also construction to verticality is neutralized In difficult point.

Utility model content

The purpose of the utility model is to provide a kind of elevator aluminium alloy cylinder mould structure, to solve cylinder mould install difficulty it is big, The technical issues of low efficiency.

To achieve the above objectives, the present invention adopts the following technical solutions:

A kind of elevator aluminium alloy cylinder mould structure, the cylinder mould are to enclose the rectangular cylinder being spliced by flat-die and angle mould Mould bases；The end of the flat-die is vertical elongated equipped with strip；The both ends of the angle mould correspond to vertical elongated be equipped with of strip and limit The edge of a wing；The strip is located in the limit edge of a wing and the two is flexibly connected；Frame mould is socketed in the cylinder mould, the two passes through frame mould Hydraulic stem connection.Strip is limited, is cooperated the use of frame mould hydraulic stem by the limit edge of a wing, and when moving outside flat-die, strip apical grafting exists It limits on the edge of a wing, completes the splicing of flat-die and angle mould.

The frame of the frame mould includes four groups of upright bars, passes through one group of horizontal cross bar connection between every group of upright bar；Every group of upright bar In include two upright bars and the horizontal oblique connecting rod being connected between two upright bars；Cross bar and connecting rod, which enclose frame cross-section, is in Centrosymmetric octagon and opposite side is parallel；Wherein cross bar is located on the inside of corresponding flat-die, connecting rod is located in corresponding angle mould Side.

The connection otic placode of described frame mould hydraulic stem one end connect with the column of frame mould, the connection otic placode of the other end and flat-die pair It should connect, and frame mould hydraulic stem is perpendicular to the flat-die being correspondingly connected with.This way it is ensured that pushing flat-die translation in frame mould hydraulic stem During, flat-die vertical stress, will not deviate stability under loading.

The column of the frame mould is vertically at least connected with two frame mould hydraulic stems.

Protective platform is also connected at the top of the upright bar of the frame mould.

The bottom of upright rod of the frame mould is equipped with frame mould connecting plate and is connect by fastener with operating platform.Guarantee frame mould Stability, will not in lifting process or in flat-die translation motion position generate offset.

The flat-die is successively spliced by one group of flat-die unit, and adjacent connection side passes through fastening between flat-die unit Part connects and strip is arranged in the side of the flat-die unit of end.

The strip cross section is L-shaped, and a limb is fixed on flat-die end, and another limb is fitted on the inside of the limit edge of a wing.

The angle mould includes interior angle mould and external angle plate, and the interior angle mould is L-shaped, and lateral surface fitting in corner is provided with L shape External angle plate；The end of the external angle plate forms the limit edge of a wing beyond the end of interior angle mould.

The medial surface of the flat-die is connected with back cord by connector, and the back cord is two-tube composite structure, including two It is connected between the single tube and two single tubes of parallel interval distribution by connecting tube, the both ends of the back cord have been correspondingly connected with sliding back Pin.

The sliding slow-selling is slidably connected between two single tubes of back cord, slide the end abutment of slow-selling on angle mould, simultaneously It is fastenedly connected by fastener and back cord, sliding slow-selling is equipped with the slotted hole across fastener.Flat-die and angle mould apical grafting are in place Afterwards, sliding slow-selling protrudes horizontally up back cord, apical grafting on angle mould or apical grafting is in adjacent corresponding sliding slow-selling, realize flat-die with The reinforcing of angle mould.

The connector includes fastening bolt, vertically wears the snap-gauge connect on fastening bolt front end, is fixed on fastening bolt The side plate of end and connection bolt horizontal through side plate, wherein fastening bolt with to connect bolt spatially vertical.

The front end of the fastening bolt passes through back cord and is therefore fastened by snap-gauge and nut, and snap-gauge correspondence is connected to back cord On, wherein snap-gauge is stripe board, and both ends are corresponding to be bent towards back cord；The connection bolt passes through side plate and connect with flat-die.

The bottom of the flat-die is equipped with land wheel, and the land wheel includes the castor of pedestal and pin joint on pedestal.It reduces flat Frictional force between mould and upper mounting plate facilitates the inside and outside translation adjustment of flat-die.

Compared with prior art the utility model have the characteristics that and the utility model has the advantages that

The cylinder mould structure of the utility model utilizes the relative translation of cylinder mould and frame mould, and the mutual clamping of flat-die and frame mould is matched The use of frame mould hydraulic stem is closed, and then realize flat-die to carry out interior external-adjuster in the horizontal direction relative to angle mould, in flat-die When contracting, the accessible lifting of cylinder mould may be implemented；And when flat-die outreach, installing rapidly for cylinder mould may be implemented, construction efficiency is high, Formwork erection accurate positioning；In addition, being equipped with protective platform at the top of frame mould, the effective protection at upper layer hole is realized, guarantees construction Safety.

The utility model can be widely applied to construction of lift well.

Detailed description of the invention

The utility model is described in more detail with reference to the accompanying drawing.

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the overlooking structure diagram of the utility model cylinder mould.

Fig. 3 is the side structure schematic view of the utility model cylinder mould.

Fig. 4 is the structural schematic diagram of the utility model flat-die unit.

Fig. 5 is the side structure schematic view of the utility model angle mould.

Fig. 6 is the overlooking structure diagram of the utility model angle mould.

Fig. 7 is the structural schematic diagram of the utility model back cord.

Fig. 8 is the overlooking structure diagram of the utility model back cord.

Fig. 9 is the structural schematic diagram of the utility model connector.

Figure 10 is the overlooking structure diagram of the utility model connector.

Figure 11 is the structural schematic diagram of the utility model cylinder mould land wheel.

Figure 12 is the overlooking structure diagram of the utility model frame mould.

Figure 13 is the side structure schematic view of the utility model frame mould.

Figure 14 is the constructing structure schematic diagram of the utility model.

Appended drawing reference: 1- cylinder mould, 2- angle mould, 3- flat-die, 4- back cord, 5- limit the edge of a wing, 6- strip, 7- otic placode, 8- Connector, 9- land wheel, 10- frame mould, 11- frame, 12- frame mould hydraulic stem, 13- frame mould connecting plate, 14- operating platform, 15- are anti- Shield platform, 16- have poured structure, 17- structure to be poured, 18- sliding slow-selling.

Specific embodiment

Embodiment is shown in Figure 1, and this elevator aluminium alloy cylinder mould structure, the cylinder mould 1 is by flat-die 3 and angle mould 2 Enclose the rectangular cylinder mould bases being spliced；The end of the flat-die 3 is vertical elongated equipped with strip 6；The both ends of the angle mould 2 Corresponding vertical elongated be equipped with of strip limits the edge of a wing 5；The strip 6 is located in the limit edge of a wing 5 and the two is flexibly connected；The cylinder Frame mould 10 is socketed in mould 1, the two is connected by frame mould hydraulic stem 12.

Referring to shown in Figure 12, Figure 13, the frame 11 of the frame mould includes four groups of upright bars, passes through one group of water between every group of upright bar Flat cross bar connection；It include two upright bars and the horizontal oblique connecting rod being connected between two upright bars in every group of upright bar；Cross bar and company Frame cross-section is enclosed the octagon being centrosymmetric with bar and opposite side is parallel；Wherein cross bar is located on the inside of corresponding flat-die, even Bar is located on the inside of corresponding angle mould.

The connection otic placode of described 12 one end of frame mould hydraulic stem connect with the column of frame mould, the connection otic placode of the other end and flat-die It is correspondingly connected with, and frame mould hydraulic stem, perpendicular to the flat-die being correspondingly connected with, the frame mould hydraulic stem 12 in every group of upright bar is mutually perpendicular to；Institute State the otic placode 7 that connection frame mould hydraulic stem 12 is correspondingly provided on flat-die and column.

The column of the frame mould is vertically at least connected with two frame mould hydraulic stems 12.Between adjacent frame mould hydraulic stem 12 It is spatially interleaved.

It is shown in Figure 1, it is also connected with protective platform 15 at the top of the upright bar of the frame mould, the protective platform is set to cylinder Mould top is connect with the upright bar of frame mould top, including protection chassis, the protection bottom plate being laid on protection chassis, vertical enclosing In the protective fence protected on chassis and the protection skirting board for being connected to protective fence lower end.

The bottom of upright rod of the frame mould is equipped with frame mould connecting plate 13 and is connect by fastener with operating platform 12.

Shown in Figure 4, the flat-die is successively spliced by one group of flat-die unit, adjacent company between flat-die unit Strip 6 is arranged in the side for the flat-die unit that edge fit connects and end by fastener；6 cross section of strip is L-shaped, a limb It is fixed on flat-die end, another limb is fitted on the inside of the limit edge of a wing.

Referring to shown in Fig. 5, Fig. 6, the angle mould includes interior angle mould and external angle plate, and the interior angle mould is L-shaped, on the outside of corner Face paste conjunction is provided with L shape external angle plate；The end of the external angle plate forms the limit edge of a wing 5 beyond the end of interior angle mould.

Referring to shown in Fig. 7, Fig. 8, the medial surface of the flat-die is connected with back cord 4 by connector 8, and the back cord is two-tube Composite structure is connected between single tube and two single tubes including the distribution of two parallel intervals by connecting tube.

The both ends of the back cord 4 have been correspondingly connected with sliding slow-selling 18；The sliding slow-selling 18 is slidably connected at the two of back cord Between single tube, the end abutment of sliding slow-selling 18 is fastenedly connected on angle mould and through fastener and back cord, is slided in slow-selling 18 Equipped with the slotted hole across fastener.

Referring to shown in Fig. 9, Figure 10, the connector 8 includes fastening bolt, vertically wears the card connect on fastening bolt front end Plate, the side plate for being fixed on fastening bolt end and the connection bolt horizontal through side plate, wherein fastening bolt with connect bolt It is spatially vertical；The front end of the fastening bolt passes through back cord and is therefore fastened by snap-gauge and nut, and snap-gauge correspondence is connected to On back cord, wherein snap-gauge is stripe board, and both ends are corresponding to be bent towards back cord；The connection bolt passes through side plate and connect with flat-die.

Shown in Figure 11, the bottom of the flat-die is equipped with land wheel 9, and the land wheel 9 includes pedestal and pin joint on pedestal Castor.

Shown in Figure 14, elevator aluminium alloy cylinder mould structure rises with operating platform 12 is same with drop,

Structure 16 has been poured in step 1, first floor elevator main structure of constructing, formation.

Step 2 completes operating platform assembly.

Step 3, on the operational platform by elevator aluminium alloy cylinder mould structure setting, middle-frame mould is connect with operating platform, Cylinder mould is connect with frame mould by frame mould hydraulic stem 12, and wherein the strip correspondence of cylinder mould is plugged in the limit edge of a wing of frame mould.

Step 4, operating platform rise to upper layer elevation location, and cylinder mould, frame mould are in place simultaneously.

Step 5 starts frame mould hydraulic stem 12, and the flat-die of cylinder mould is flat-pushing outward, holds out against in place with angle mould.

Step 6 pours upper layer structure 17 to be poured.

Step 7, after construction, frame mould hydraulic stem 12 bounces back, and the inside horizontal drawing of flat-die is demoulded.

Step 8 repeats step 3 to step 7, until construction of lift well is completed.

Claims (10)

1. a kind of elevator aluminium alloy cylinder mould structure, it is characterised in that:

The cylinder mould (1) is to enclose the rectangular cylinder mould bases being spliced by flat-die (3) and angle mould (2)；

The end of the flat-die (3) is vertical elongated equipped with strip (6)；

The both ends of the angle mould (2) correspond to vertical elongated be equipped with of strip and limit the edge of a wing (5)；

The strip (6) is located in the limit edge of a wing (5) and the two is flexibly connected；

Frame mould (10) is socketed in the cylinder mould (1), the two is connected by frame mould hydraulic stem (12).

2. elevator aluminium alloy cylinder mould structure according to claim 1, it is characterised in that:

The frame (11) of the frame mould includes four groups of upright bars, passes through one group of horizontal cross bar connection between every group of upright bar；

It include two upright bars and the horizontal oblique connecting rod being connected between two upright bars in every group of upright bar；

The octagon and opposite side that frame cross-section enclosing is centrosymmetric by cross bar and connecting rod are parallel；

Wherein cross bar is located on the inside of corresponding flat-die, connecting rod is located on the inside of corresponding angle mould.

3. elevator aluminium alloy cylinder mould structure according to claim 2, it is characterised in that:

The connection otic placode of described frame mould hydraulic stem (12) one end connect with the column of frame mould, the connection otic placode of the other end and flat-die pair It should connect, and frame mould hydraulic stem is perpendicular to the flat-die being correspondingly connected with；

The column of the frame mould is vertically at least connected with two frame mould hydraulic stems (12).

4. elevator aluminium alloy cylinder mould structure according to claim 2, it is characterised in that:

Protective platform (15) are also connected at the top of the upright bar of the frame mould.

5. elevator aluminium alloy cylinder mould structure according to claim 2, it is characterised in that:

The bottom of upright rod of the frame mould is equipped with frame mould connecting plate (13) and is connect by fastener with operating platform (14).

6. elevator aluminium alloy cylinder mould structure according to claim 1, it is characterised in that:

The flat-die is successively spliced by one group of flat-die unit, and adjacent connection side is connected by fastener between flat-die unit Connect side setting strip (6) of the flat-die unit of and end；

Strip (6) cross section is L-shaped, and a limb is fixed on flat-die end, and another limb is fitted on the inside of the limit edge of a wing.

7. elevator aluminium alloy cylinder mould structure according to claim 1, it is characterised in that:

The angle mould includes interior angle mould and external angle plate, and the interior angle mould is L-shaped, and lateral surface fitting in corner is provided with L shape exterior angle Plate；

The end of the external angle plate forms the limit edge of a wing (5) beyond the end of interior angle mould.

8. elevator aluminium alloy cylinder mould structure according to claim 1, it is characterised in that:

The medial surface of the flat-die is connected with back cord (4) by connector (8), and the back cord is two-tube composite structure, including two It is connected between the single tube and two single tubes of the distribution of root parallel interval by connecting tube, the both ends of the back cord (4) have been correspondingly connected with cunning Dynamic slow-selling (18)；

The sliding slow-selling (18) is slidably connected between two single tubes of back cord, slides the end abutment of slow-selling (18) in angle mould It goes up and passes through fastener and be fastenedly connected with back cord, sliding slow-selling (18) is equipped with the slotted hole across fastener.

9. elevator aluminium alloy cylinder mould structure according to claim 8, it is characterised in that:

The connector (8) includes fastening bolt, vertically wears the snap-gauge connect on fastening bolt front end, is fixed on fastening bolt end The side plate at end and connection bolt horizontal through side plate, wherein fastening bolt with to connect bolt spatially vertical；

The front end of the fastening bolt passes through back cord and is therefore fastened by snap-gauge and nut, and snap-gauge correspondence is connected on back cord, Wherein snap-gauge is stripe board, and both ends are corresponding to be bent towards back cord；

The connection bolt passes through side plate and connect with flat-die.

10. according to claim 1 to elevator aluminium alloy cylinder mould structure described in 9 any one, it is characterised in that:

The bottom of the flat-die is equipped with land wheel (9), and the land wheel (9) includes the castor of pedestal and pin joint on pedestal.