CN211644253U - Compact solderless fast-assembling elevator well of segmentation - Google Patents

Abstract

The utility model discloses a segmentation compact solderless fast-assembling elevator well, including a plurality of first stands, a plurality of second stands, a plurality of first tie-beam and a plurality of second tie-beam, first stand includes first stand body, fix two at least first gussets on first stand body, two adjacent first gussets pass through first bolted connection, the second stand includes second stand body, fix two at least second gussets on second stand body, two adjacent second gussets pass through second bolted connection, first tie-beam includes first tie-beam body, first fixed plate and two first end plates, a plurality of first end plates pass through a plurality of third bolts and first stand body, this body coupling of second stand, the second tie-beam includes second tie-beam body, second fixed plate and two second end plates, a plurality of second end plates pass through a plurality of fourth bolts and first stand body, The second upright post body is connected. The utility model discloses a segmentation concatenation, the installation effectiveness is high, and the space is big.

Description

Compact solderless fast-assembling elevator well of segmentation

Technical Field

The utility model belongs to the technical field of the elevator well, especially, relate to a segmentation compact does not have welding fast-assembling elevator well.

Background

Along with the improvement of living standard of people, the demand of installing elevators in a building is increased day by day, and the elevators are installed and operated by additionally arranging elevator shafts. Most of steel structures of elevator shafts in the current market are welded on site, welding profiles are large, requirements for installation environments are high, requirements for welding processes are high, installation efficiency is low, noise pollution easily exists during welding, and the whole appearance after welding cannot be guaranteed.

Therefore, in view of the above technical problems, there is a need for a segmented compact weldless quick-installation elevator shaft.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model aims to provide a segmentation compact does not have welding fast-assembling elevator well.

In order to achieve the above object, an embodiment of the present invention provides the following technical solutions:

a segmented compact type non-welding fast-assembling elevator hoistway comprises two first stand column assemblies, two second stand column assemblies, a plurality of first connecting beams and a plurality of second connecting beams, wherein each first stand column assembly comprises a plurality of spliced first stand columns, each first stand column comprises a first stand column body, at least two first rib plates fixed on the first stand column body, two adjacent first rib plates of the adjacent first stand columns are connected through at least one first bolt, each second stand column assembly comprises a plurality of spliced second stand columns, each second stand column comprises a second stand column body, at least two second rib plates fixed on the second stand column body, two adjacent second rib plates of the adjacent second stand columns are connected through at least one second bolt, and each first connecting beam comprises a first connecting beam body, Fix first fixed plate and two first end plates on the first tie beam body, it is a plurality of first end plate passes through a plurality of third bolts and is a plurality of first stand body, a plurality of this body coupling of second stand, every the second tie beam includes the second tie beam body, fixes second fixed plate and two second end plates on the second tie beam body, and is a plurality of the second end plate passes through a plurality of fourth bolts and a plurality of first stand body, a plurality of this body coupling of second stand.

As a further improvement of the present invention, it is adjacent that an angular connecting plate is connected between the first connecting beam bodies and between the second connecting beam bodies.

As a further improvement, install two first baffles on the first tie-beam body, a glass's a tip is put into in the space that first fixed plate and first baffle enclose, install a plurality of second baffles on the second tie-beam body, a glass's a tip is put into in the space that second fixed plate and second baffle enclose.

As a further improvement, all be provided with the rubber strip on first tie-beam body, the second tie-beam body, seted up the draw-in groove in the rubber strip.

As a further improvement, the utility model discloses a two first mounting holes have been seted up on the first gusset, two second mounting holes have been seted up on the second gusset.

As a further improvement, the first end plate is provided with two third mounting holes, the first column body is provided with a plurality of fourth mounting holes, the third bolt passes through the third mounting holes and the fourth mounting holes, the second end plate is provided with two fifth mounting holes, the second column body is provided with a plurality of sixth mounting holes, and the fourth bolt passes through the fifth mounting holes and the sixth mounting holes.

As a further improvement, a plurality of seventh mounting holes have been seted up on the first tie-beam body, first baffle passes through the fifth bolt seventh mounting hole locking is in on the first tie-beam body, a plurality of eighth mounting holes have been seted up on the second tie-beam body, the second baffle passes through the sixth bolt eighth mounting hole locking is in on the second tie-beam body.

As a further improvement, a plurality of ninth mounting holes have been seted up on the first tie-beam body, the angle connecting plate passes through the seventh bolt ninth mounting hole locking is in on the first tie-beam body, a plurality of tenth mounting holes have been seted up on the second tie-beam body, the angle connecting plate passes through the eighth bolt tenth mounting hole locking is in on the second tie-beam body.

As a further improvement of the utility model, first stand body includes first L template and the second L template that integrated into one piece connects, the second stand body includes C template and the third L template that integrated into one piece connects, a plurality of waist type holes have been seted up along length direction in the C template, install the regulating plate on second tie-beam body and the C template.

As a further improvement, the first tie-beam body, the second tie-beam body all are the C type, the eleventh mounting hole has been seted up on the first tie-beam body, the twelfth mounting hole has been seted up on the second tie-beam body.

The utility model has the advantages that:

the utility model discloses a sectional type concatenation installation, through high strength bolted connection, compact structure, it is firm reliable, the size is accurate, and the commonality is strong, requires lowly to the installation environment, and the installation is nimble, and the installation effectiveness is high, and greatly reduced cost can direct mount glass, can be convenient for transport and installation to the special surface treatment of glass customization according to customer's requirement, and the well inner space is big and whole pleasing to the eye after having installed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

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

FIG. 3 is an enlarged view of B in FIG. 1;

FIG. 4 is an enlarged schematic view of C of FIG. 1;

FIG. 5 is an enlarged rear side view of D in FIG. 1;

FIG. 6 is an enlarged schematic view of E in FIG. 1;

fig. 7 is a front view of a first connection beam of a preferred embodiment of the present invention;

fig. 8 is a side view of a first connection beam of a preferred embodiment of the present invention;

fig. 9 is a front view of a second coupling beam of the preferred embodiment of the present invention;

fig. 10 is a side view of a second coupling beam of the preferred embodiment of the present invention;

fig. 11 is a schematic structural view of a first upright of the preferred embodiment of the present invention;

fig. 12 is a top view of a first upright of a preferred embodiment of the present invention;

fig. 13 is a schematic structural view of a second upright of the preferred embodiment of the present invention;

fig. 14 is a top view of a second upright of a preferred embodiment of the present invention.

Detailed Description

In order to make the technical solutions in the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

As shown in fig. 1-14, a segmented compact non-welded fast-assembly elevator hoistway includes two first pillar assemblies, two second pillar assemblies, a plurality of first connecting beams 1 and a plurality of second connecting beams 2, wherein the plurality of first connecting beams 1 are connected between the top and bottom of two adjacent first pillar assemblies, two adjacent second pillar assemblies, and the first pillar assemblies and the second pillar assemblies, the plurality of second connecting beams 2 are connected between the two adjacent first pillar assemblies, two adjacent second pillar assemblies, and the middle portions of the first pillar assemblies and the second pillar assemblies, the two first pillar assemblies, the two second pillar assemblies, the plurality of first connecting beams 1 and the plurality of second connecting beams 2 enclose a cubic frame steel structure, each first pillar assembly includes a plurality of first pillars 3, and each first pillar 3 includes a first pillar body 301, At least two first rib plates 302 fixed on the first upright post body 301, two adjacent first rib plates 302 of adjacent first upright posts 3 are connected through at least one first bolt 5, each second upright post assembly comprises a plurality of spliced second upright posts 4, each second upright post 4 comprises a second upright post body 401 and at least two second rib plates 402 fixed on the second upright post body 401, two adjacent second rib plates 402 of adjacent second upright posts 4 are connected through at least one second bolt (not shown in the figure), splicing fixation between adjacent first upright posts 3 and splicing fixation between adjacent second upright posts 4 do not need welding, installation efficiency and installation quality are improved, each first connecting beam 1 comprises a first connecting beam body 101, a first fixing plate 102 fixed on the first connecting beam body 101 and two first end plates 103, the plurality of first end plates 103 are connected with the plurality of first upright posts 3 and the plurality of first upright posts 3 through a plurality of third bolts 6, A plurality of second stands 4 are connected, and every second tie beam 2 includes second tie beam body 201, fixes second fixed plate 202 and two second end plates 203 on second tie beam body 201, and a plurality of second end plates 203 are connected with a plurality of first stands 3, a plurality of second stands 4 through a plurality of fourth bolts 7, and the steadiness is good, and the installation effectiveness is high.

In order to strengthen the stability of the whole steel construction of elevator well, the utility model discloses between the preferred adjacent first tie-beam body 101, all be connected between the adjacent second tie-beam body 201 and have the angle connecting plate 9.

As shown in fig. 1-3, in order to improve the safety of the integral steel structure, the utility model discloses preferably install two first baffles 10 on the first tie-beam body 101, in the space that first fixed plate 102 and first baffle 10 enclose was put into to a tip of first glass 11, install a plurality of second baffles 12 on the second tie-beam body 201, in the space that second fixed plate 202 and second baffle 12 enclose was put into to a tip of second glass 13, the quantity and the size of first glass 11, second glass 13 were adjusted and were set for according to actual conditions. In order to improve the steadiness to the installation of first glass 11 and second glass 13, the utility model discloses all be provided with rubber strip 14 on preferred first tie-beam body 101, the second tie-beam body 201, draw-in groove (not shown in the figure) has been seted up in the rubber strip 14, the tip of some rubber strip 14 is put into the space that first fixed plate 102 and first baffle 10 enclose, the tip of another part rubber strip 14 is put into the space that second fixed plate 202 and second baffle 12 enclose, the chucking is realized through the draw-in groove of putting into rubber strip 14 to the tip of first glass 11, the tip of second glass 13, avoid rocking of first glass 11, second glass 13.

As shown in fig. 11-14, in order to facilitate the fixing of the splicing between the adjacent first upright posts 3 along the length direction and the fixing of the splicing between the adjacent second upright posts 4 along the length direction, the utility model discloses two first mounting holes 3021 have been seted up on the preferred first rib plate 302, two second mounting holes 4021 have been seted up on the second rib plate 402, the first mounting hole 3021 that the first bolt 5 passed two upper and lower first rib plates 302 is locked with the first nut 15 in a matching manner, the solderless fixing between two upper and lower first upright posts 3 is realized, the second mounting hole 4021 that the second bolt passed two upper and lower second rib plates 402 is locked with the second nut (not shown in the figure) in a matching manner, the solderless fixing between two upper and lower second upright posts 4 is realized, and the stability is good. Meanwhile, the first rib plates 302 are also arranged in the middle of the first upright post body 301, and the second rib plates 402 are arranged in the middle of the second upright post body 401, so that the overall strength of the first upright posts 3 and the second upright posts 4 is further improved, and the fixing stability of two vertically adjacent first upright posts 3 and two vertically adjacent second upright posts 4 is improved.

As shown in fig. 7-10, the utility model discloses preferably, two third mounting holes 1031 have been seted up on first end plate 103, a plurality of fourth mounting holes 3011 have been seted up on first stand body 301, pass third mounting hole 1031 through third bolt 6, fourth mounting hole 3011, it is fixed with the locking of third nut 16 cooperation realization first end plate 103 and first stand body 301, two fifth mounting holes 2031 have been seted up on second end plate 203, a plurality of sixth mounting holes 4011 have been seted up on second stand body 401, pass fifth mounting hole 2031 through fourth bolt 7, sixth mounting hole 4011, it is fixed with the locking of second stand body 401 to cooperate realization second end plate 203 with fourth nut 17. Further, it is preferable that the third mounting hole 1031 and the fifth mounting hole 2031 are both kidney-shaped holes, so that the third mounting hole 1031 and the fourth mounting hole 3011 are aligned, and the fifth mounting hole 2031 and the sixth mounting hole 4011 are aligned, thereby improving the rapidity of mounting the third bolt 6 and the fourth bolt 7.

As shown in fig. 2, fig. 3, fig. 7 and fig. 9, the utility model discloses a plurality of seventh mounting holes 1011 have been seted up on the preferred first tie-beam body 101, first baffle 10 passes seventh mounting hole 1011 through fifth bolt 18 and locks on first tie-beam body 101 with the cooperation of fifth nut (not shown in the figure), a plurality of eighth mounting holes 2011 have been seted up on the second tie-beam body 201, second baffle 12 passes eighth mounting hole 2011 through sixth bolt 20 and locks on second tie-beam body 201 with the cooperation of sixth nut (not shown in the figure).

The utility model discloses a plurality of ninth mounting holes 1012 have been seted up on preferred first tie-beam body 101, and angle connecting plate 9 passes ninth mounting hole 1012 and seventh nut (not shown in the figure) cooperation locking on first tie-beam body 101 through seventh bolt 22, has seted up a plurality of tenth mounting holes 2012 on the second tie-beam body 201, and angle connecting plate 9 passes tenth mounting hole 2012 and eighth nut (not shown in the figure) cooperation locking on second tie-beam body 201 through eighth bolt 24.

In order to reserve the position of the elevator door according to the actual situation of a construction site, the first upright column body 301 preferably comprises a first L-shaped plate 3012 and a second L-shaped plate 3013 which are connected in an integrated manner, the second upright column body 401 comprises a C-shaped plate 4012 and a third L-shaped plate 4013 which are connected in an integrated manner, a plurality of kidney-shaped holes 4014 are formed in the C-shaped plate 4012 along the length direction, an adjusting plate 26 is mounted on the second upright column body 201 and the C-shaped plate 4012, the adjusting plate 26 passes through the ninth bolt 27, the tenth mounting hole 2012 is matched with a ninth nut (not shown in the figure), the adjusting plate 26 passes through the tenth bolt 29, the kidney-shaped holes 4014 are matched with a tenth nut (not shown in the figure), so that the adjusting plate 26 is locked on the second upright column body 201 and the second upright column body 401, the position of the second upright column body can be adjusted along the up-down direction through the arrangement of the kidney-shaped holes 4014, and the fixing of the second upright column body 201 and the second upright column body, in this way, the second connecting beam 2 provided between the two second uprights 4 can be installed with its position adjusted according to the actual floor size of the work site.

The utility model discloses preferred first tie-beam body 101, second tie-beam body 201 all are the C type, have seted up eleventh mounting hole 1013 on the first tie-beam body 101, have seted up twelfth mounting hole 2013 on the second tie-beam body 201, first tie-beam body 101, second tie-beam body 201 when the installation in the opening towards the well, be convenient for with elevator guide rail bracket's being connected and installation.

Preferably, the lengths of the first upright post 3 and the second upright post 4 are not more than 3.5 meters, so that the transportation and the installation are convenient.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The segmented compact type non-welding fast-assembling elevator hoistway is characterized by comprising two first stand column assemblies, two second stand column assemblies, a plurality of first connecting beams and a plurality of second connecting beams, wherein each first stand column assembly comprises a plurality of spliced first stand columns, each first stand column comprises a first stand column body and at least two first rib plates fixed on the first stand column body, the adjacent two first rib plates adjacent to the first stand columns are connected through at least one first bolt, each second stand column assembly comprises a plurality of spliced second stand columns, each second stand column comprises a second stand column body and at least two second rib plates fixed on the second stand column body, the adjacent two second rib plates adjacent to the second stand columns are connected through at least one second bolt, and each first connecting beam comprises a first connecting beam body, Fix first fixed plate and two first end plates on the first tie beam body, it is a plurality of first end plate passes through a plurality of third bolts and is a plurality of first stand body, a plurality of this body coupling of second stand, every the second tie beam includes the second tie beam body, fixes second fixed plate and two second end plates on the second tie beam body, and is a plurality of the second end plate passes through a plurality of fourth bolts and a plurality of first stand body, a plurality of this body coupling of second stand.

2. The segmented compact type fast-assembling welding-free elevator shaft according to claim 1, wherein angular connecting plates are connected between the adjacent first connecting beam bodies and between the adjacent second connecting beam bodies.

3. The segmented compact type weldless quick-installation elevator shaft according to claim 1, wherein two first baffle plates are installed on the first connecting beam body, one end part of a first glass is placed in a space defined by the first fixing plate and the first baffle plates, a plurality of second baffle plates are installed on the second connecting beam body, and one end part of a second glass is placed in a space defined by the second fixing plate and the second baffle plates.

4. The segmented compact type non-welding fast-assembling elevator hoistway of claim 3, wherein rubber strips are arranged on the first connecting beam body and the second connecting beam body, and clamping grooves are formed in the rubber strips.

5. The segmented compact type non-welding quick-installation elevator shaft according to claim 1, wherein the first rib plate is provided with two first installation holes, and the second rib plate is provided with two second installation holes.

6. The segmented compact type weldless fast-assembling elevator hoistway of claim 1, wherein two third mounting holes are formed on the first end plate, a plurality of fourth mounting holes are formed on the first vertical column body, the third bolts pass through the third mounting holes and the fourth mounting holes, two fifth mounting holes are formed on the second end plate, a plurality of sixth mounting holes are formed on the second vertical column body, and the fourth bolts pass through the fifth mounting holes and the sixth mounting holes.

7. The segmented compact type fast-assembling welding-free elevator hoistway of claim 3, wherein a plurality of seventh mounting holes are formed in the first connecting beam body, the first baffle plate passes through the seventh mounting holes through fifth bolts to be locked on the first connecting beam body, a plurality of eighth mounting holes are formed in the second connecting beam body, and the second baffle plate passes through the eighth mounting holes through sixth bolts to be locked on the second connecting beam body.

8. The segmented compact type fast-assembling elevator hoistway without welding of claim 2, wherein a plurality of ninth mounting holes are formed on the first connecting beam body, the corner connecting plate is locked on the first connecting beam body by passing through the ninth mounting holes through seventh bolts, a plurality of tenth mounting holes are formed on the second connecting beam body, and the corner connecting plate is locked on the second connecting beam body by passing through the tenth mounting holes through eighth bolts.

9. The segmented compact type non-welding fast-assembling elevator shaft according to claim 1, wherein the first column body comprises a first L-shaped plate and a second L-shaped plate which are connected in an integrated manner, the second column body comprises a C-shaped plate and a third L-shaped plate which are connected in an integrated manner, a plurality of waist-shaped holes are formed in the C-shaped plate along the length direction, and adjusting plates are mounted on the second connecting beam body and the C-shaped plate.

10. The segmented compact type non-welding fast-assembling elevator hoistway of claim 1, wherein the first connecting beam body and the second connecting beam body are both C-shaped, the first connecting beam body is provided with an eleventh mounting hole, and the second connecting beam body is provided with a twelfth mounting hole.

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