CN115465746A - Anti-drop elevator guide rail support fixing structure and installation method - Google Patents

Abstract

The invention discloses an anti-falling elevator guide rail support fixing structure and an installation method, and belongs to the technical field of elevator guide rail support fixing. The invention discloses an anti-falling elevator guide rail support fixing structure and an installation method, wherein the anti-falling elevator guide rail support fixing structure comprises a second elevator guide rail, and a first elevator guide rail is arranged at the upper end of the second elevator guide rail; the upper end of the wrapping connecting plate is provided with a connecting slot, and the lower end inside the wrapping connecting plate is provided with a connecting jack. The elevator guide rail support fixing structure solves the problems that the existing elevator guide rail support fixing structure can cause the elevator guide rails to shake and easily cause the elevator to fall off due to transmission and the inertia of the elevator in the installation and subsequent continuous use processes, one wrapping connecting plate outside the second elevator guide rail can be used for assisting and fixing one side outside the first elevator guide rail, the assisting and fixing can improve the draught point between the first elevator guide rails and the second elevator guide rails which are fixedly connected, and the stability of the first elevator guide rails and the second elevator guide rails can be improved.

Description

Anti-drop elevator guide rail support fixing structure and installation method

Technical Field

The invention relates to the technical field of fixing of elevator guide rail supports, in particular to an anti-falling elevator guide rail support fixing structure and an installation method.

Background

The elevator is a permanent transportation device serving a plurality of specific floors in a building, a car of the elevator runs in at least two rows of permanent transportation devices vertical to the horizontal plane, friction wheel transmission is adopted at the end of 19 th century, the lifting height of the elevator is greatly increased, in the process of passing through the elevator through the friction wheel transmission, fixed guide rails are needed to guide the transmission position, the guide rails need to bear the weight of the elevator and a user, and in the process of fixing the elevator guide rail support, a fixed structure needs to be used aiming at the installation position.

For example, the Chinese patent with the granted publication number of CN213651540U discloses an efficient connection of an energy-saving elevator guide rail bracket, which comprises a mounting seat, a connecting piece, an anti-torsion piece, a mounting seat assembling bolt, a connecting piece assembling bolt and an anti-torsion piece assembling bolt; the top edge and the bottom edge of the connecting piece are of bent structures, a connecting piece flanging is formed, the mounting seat assembling bolt penetrates through the connecting piece positioning hole and the fixing seat assembling hole and is matched with a fastener to realize the fixation of the mounting seat and the connecting piece flanging, and the connecting piece assembling bolt penetrates through the flange plate assembling hole and the connecting piece second assembling hole and is matched with the fastener to realize the fixation of the connecting piece and the flange plate; the torsion-resistant pieces are arranged on the top surface and the bottom surface of the connecting piece; the anti-torsion piece comprises an angle section, an anti-torsion folding edge and a guide rail limiting folding edge; the side wall of the connector is fitted with a first elevator guide rail and a second elevator guide rail. The invention has the advantages of high structural strength of the joint between the two elevator guide rails, strong shearing resistance and torsion resistance, simple installation, simple part preparation and low preparation cost.

However, in the installation and subsequent continuous use processes of the conventional elevator guide rail support consolidation structure, the elevator guide rail is shaken due to transmission and the inertia of the elevator and the elevator is easy to fall off; therefore, the existing requirements are not met, and the anti-falling elevator guide rail support fixing structure and the installation method are provided for the existing requirements.

Disclosure of Invention

The invention aims to provide an anti-falling elevator guide rail support fixing structure and an installation method, wherein one wrapping connecting plate outside a second elevator guide rail can be used for assisting and fixing one side outside a first elevator guide rail, the assisting and fixing can improve the draught point between a plurality of first elevator guide rails and the second elevator guide rail which are fixedly connected, the draught point can be improved, a plurality of bolt fixing points can be provided while the draught point is improved, the stability of the first elevator guide rails and the second elevator guide rail can be improved due to the bolt fixing points, the situation that the elevator shakes and falls off due to inertia in the using process can be avoided due to the improvement of the stability, the safety and the anti-shaking capability of the device in use are improved, and the problems in the background technology are solved.

In order to achieve the purpose, the invention provides the following technical scheme: an anti-drop elevator guide rail bracket consolidation structure and an installation method thereof comprise a second elevator guide rail, wherein a first elevator guide rail is arranged at the upper end of the second elevator guide rail;

the elevator guide rail fixing device is characterized by further comprising a connecting plate, the connecting plate is arranged at the upper end and the lower end of the outer portion of the first elevator guide rail and the upper end and the lower end of the outer portion of the second elevator guide rail, a connecting slot is formed in the upper end of the wrapping connecting plate and is welded and fixed with the wrapping connecting plate, a connecting jack is arranged at the lower end of the inner portion of the wrapping connecting plate and is connected with an external clamping groove of the connecting slot, a bolt mounting groove is formed in one side of the middle of the upper end of the wrapping connecting plate, four sixth bolt fixing connecting holes are annularly formed in the inner portion of the bolt mounting groove, and the sixth bolt fixing connecting holes penetrate through and extend to the upper end and the lower end of the wrapping connecting plate.

Preferably, the inside both sides of parcel connecting plate all are provided with the fixed folded sheet of supplementary centre gripping, two the outside one side of the fixed folded sheet of supplementary centre gripping is provided with the longitudinal sliding rail, the inside of longitudinal sliding rail is provided with the transmission threaded rod, the outside of transmission threaded rod and the inside one side screw-thread fit of the fixed folded sheet of supplementary centre gripping, the one end of transmission threaded rod is provided with the rotation handle, be provided with the slip restriction strip between fixed folded sheet of supplementary centre gripping and the parcel connecting plate, one side of slip restriction strip and one side fixed connection of the fixed folded sheet of supplementary centre gripping.

Preferably, the lower extreme of the fixed folded sheet of supplementary centre gripping and the inside horizontal evenly distributed of the fixed folded sheet of supplementary centre gripping have three second bolt fixed connection hole, and is three second bolt fixed connection hole runs through and extends to the upper and lower both ends of the fixed folded sheet of supplementary centre gripping and parcel connecting plate.

Preferably, the inside of the connecting slot is annularly provided with four fourth bolt fixing connecting holes, the two sides of the four fourth bolt fixing connecting holes are provided with fifth bolt fixing connecting holes, the fifth bolt fixing connecting holes and the fourth bolt fixing connecting holes penetrate through and extend to the upper end and the lower end of the connecting slot, the two sides inside the first elevator guide rail and the second elevator guide rail are provided with a plurality of third bolt fixing connecting holes in an array mode, and the third bolt fixing connecting holes penetrate through and extend to the upper end and the lower end of the first elevator guide rail and the second elevator guide rail.

Preferably, the upper end of the first elevator guide rail is provided with an upper fixed bearing anti-slip ring, the inside of the upper fixed bearing anti-slip ring is annularly provided with four mounting grooves, the four mounting grooves penetrate through and extend into the inside of the upper fixed bearing anti-slip ring, a plurality of first bolt fixing and connecting holes are transversely arranged in the mounting grooves, and the first bolt fixing and connecting holes penetrate through and extend to two ends of the upper fixed bearing anti-slip ring.

Preferably, the inside upper end of going up the fixed slip ring that bears cyclic annularly is provided with four connection support bars, it is provided with the connection fixed block to go up the outside upper end of fixed slip ring that bears, and connects fixed block, connection support bar and go up the fixed slip ring that bears between the welded fastening.

Preferably, four bearing blocks are arranged at four corners of the lower end of the upper fixed bearing anti-slip ring, and the four bearing blocks are fixedly connected with the lower end of the upper fixed bearing anti-slip ring.

Preferably, the one end of carrier block is provided with fixed anti-shake connecting block, and structure as an organic whole between fixed anti-shake connecting block and the carrier block.

Preferably, the upper end of the outer portion of the upper fixed bearing anti-slip ring is provided with a fixed anti-shake connecting ring, one end of the fixed anti-shake connecting ring is welded and fixed to the upper end of the upper fixed bearing anti-slip ring, fixing bolts are arranged on the outer portions of the first bolt fixing connecting hole, the second bolt fixing connecting hole, the third bolt fixing connecting hole, the fourth bolt fixing connecting hole, the fifth bolt fixing connecting hole and the sixth bolt fixing connecting hole, and the outer portion of each fixing bolt is in threaded fit with the inner portions of the first bolt fixing connecting hole, the second bolt fixing connecting hole, the third bolt fixing connecting hole, the fourth bolt fixing connecting hole, the fifth bolt fixing connecting hole and the sixth bolt fixing connecting hole.

The installation method of the anti-falling elevator guide rail bracket consolidation structure comprises the following steps:

firstly, preferentially fixing a second elevator guide rail, respectively placing two wrapping connecting plates between the second elevator guide rail and a wall, driving a transmission threaded rod to rotate by a rotating handle, and longitudinally adjusting the height of the transmission threaded rod after the transmission threaded rod is limited by a sliding limiting strip, so that the second elevator guide rail can be clamped by matching an auxiliary clamping and fixing folding plate with the wrapping connecting plates;

fixing bolts sequentially penetrate through the second bolt fixing connecting holes and the third bolt fixing connecting holes and are embedded into the wall attached by the wrapping connecting plates, and the wrapping connecting plates at two ends of the outer part of the second elevator guide rail are fixed at the same time, so that the second elevator guide rail can be installed;

step three, when the first elevator guide rail is arranged at the upper end of the second elevator guide rail and continues the track of the second elevator guide rail, another wrapping connecting plate is placed at the upper end of the outer portion of the wrapping connecting plate at the upper end of the outer portion of the second elevator guide rail, one connecting slot is inserted into the other connecting jack, and the other connecting jack is inserted into the wall, sequentially passes through a sixth bolt fixing connecting hole and a fourth bolt fixing connecting hole through a fixing bolt and is embedded into the attached wall;

fourthly, the first elevator guide rail is longitudinally placed at the front ends of the outer portions of the two wrapping connecting plates in a sliding mode, the two wrapping connecting plates are used for assisting in clamping, then the two wrapping connecting plates assist in clamping and fixing the folding plates, the fixing of the lower end of the outer portion of the first elevator guide rail is completed through the penetration of a fixing bolt, the wrapping connecting plates are placed at the upper end of the outer portion of the first elevator guide rail in a sliding mode, and the fixing is completed through the penetration of the fixing bolt;

placing an upper fixed bearing anti-slip ring at the upper end of a track formed by combining the first elevator guide rail and the second elevator guide rail, attaching one side of the inside of the mounting groove to a connecting slot wrapped outside the connecting plate corresponding to the upper end of the track, attaching, sequentially penetrating through a first bolt fixed connecting hole and a fourth bolt fixed connecting hole inside the connecting slot through a fixed bolt, and finally embedding the fixed bolt into a wall to finish fixing the fixed track;

and step six, a plurality of groups of tracks connected with the first elevator guide rails and the second elevator guide rails are transversely arranged in the mounting groove according to the use requirements and the bearing capacity of the elevator.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the wrapping connecting plates are arranged at the upper and lower ends outside the first elevator guide rail and the second elevator guide rail, and in the welding connection and fixing processes of the first elevator guide rail and the second elevator guide rail, one wrapping connecting plate outside the second elevator guide rail can be used for assisting and fixing one side outside the first elevator guide rail, so that the power point between the first elevator guide rail and the second elevator guide rail which are fixedly connected can be improved by assisting and fixing, a plurality of bolt fixing points can be provided while the power point is improved, the stability of the first elevator guide rail and the second elevator guide rail can be improved by providing the bolt fixing points, the stability can be improved, the situation that the elevator shakes and falls off due to inertia in the using process can be avoided, and the safety and the anti-shake capacity of the device in use can be improved.

2. According to the invention, the connecting slot is arranged at one end outside the wrapping connecting plate, the connecting jack is arranged at one side inside the wrapping connecting plate, the bolt mounting groove is arranged at one side of the upper end outside the wrapping connecting plate, the wrapping connecting plate fixes the corresponding second elevator guide rail and assists in fixing the front end of one side outside the first elevator guide rail, the connecting slot of one wrapping connecting plate is clamped into the connecting jack of the other wrapping connecting plate, the two wrapping connecting plates are connected by sequentially penetrating through the sixth bolt fixing connecting hole and the fifth bolt fixing connecting hole and being embedded into the wall surface while being clamped, and the auxiliary connection between the two wrapping connecting plates can improve the stability between the connected first elevator guide rail and the second elevator guide rail, so that the elevator can be directly prevented from shaking in the moving process by improving the stability, the falling off is avoided, and the safety in use is improved.

3. According to the elevator fixing structure, the fixed anti-shaking connecting rings are arranged at the upper ends of the first elevator guide rails which are distributed annularly, four mounting grooves are arranged annularly around the outer portions of the fixed anti-shaking connecting rings, the first bolt fixing connecting holes are transversely formed in the mounting grooves, the first elevator guide rails and the second elevator guide rails in corresponding numbers are mounted aiming at elevators with different bearing loads and elevators with different models in the mounting and subsequent transmission processes, a user can complete fixing through the fixing bolts after the fourth bolt fixing connecting holes and the corresponding first bolt fixing connecting holes in the connecting slots at the upper ends of the connecting plates are wrapped at the same center, the mounting and fixing of the user are facilitated, the contact area between the elevator guide rail support and the mounting wall can be increased through uniform connection at the upper ends, the bearing capacity of the elevator can be improved, the shaking resistance of the device can be improved, falling of the elevator caused by shaking can be avoided, and the safety of the fixing structure during integral use can be improved.

4. According to the elevator guide rail fixing structure, the fixed anti-shake connecting rings are arranged at the upper ends of the plurality of upper fixed bearing anti-shake rings, the plurality of connecting support bars are annularly arranged in the middles of the inner parts of the fixed anti-shake connecting rings, one ends of the plurality of connecting support bars are fixedly connected through the connecting fixing blocks, and the fixed anti-shake connecting blocks are arranged at the four corners of the upper end of the outer part of the upper fixed bearing anti-shake ring.

Drawings

FIG. 1 is a perspective view of the integral mounting structure of the present invention;

fig. 2 is a perspective view of the wrap web of the present invention in position with a first elevator guide rail and a second elevator guide rail;

fig. 3 is a top plan view of a first elevator guide rail and wrap web location structure of the present invention;

FIG. 4 is a perspective view of the outer lower end of the upper fixed load-bearing anti-slip ring of the present invention;

FIG. 5 is a perspective view of the outer upper end of the upper fixed load-bearing anti-slip ring of the present invention;

FIG. 6 is a perspective view of the external structure of the wrapping web of the present invention;

fig. 7 is a cross-sectional view of the internal structure of the wrapping web of the present invention.

In the figure: 1. the upper fixed bearing anti-slip ring; 2. connecting a supporting bar; 3. connecting a fixed block; 4. mounting grooves; 5. the first bolt is fixedly connected with the connecting hole; 6. a bearing block; 7. a first elevator guide rail; 8. a second elevator guide rail; 9. wrapping the connecting plate; 10. connecting the slots; 11. the folding plate is clamped and fixed in an auxiliary manner; 12. rotating the handle; 13. the second bolt is fixedly connected with the connecting hole; 14. the third bolt is used for fixing the connecting hole; 15. fixing the bolt; 16. a slide restricting bar; 17. fixing an anti-shake connecting block; 18. fixing an anti-shake connecting ring; 19. a fourth bolt is used for fixing the connecting hole; 20. connecting the jacks; 21. a bolt mounting groove; 22. a fifth bolt is used for fixing the connecting hole; 23. a sixth bolt is used for fixing the connecting hole; 24. a longitudinal sliding rail; 25. the threaded rod is driven.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

For further understanding of the present invention, referring to fig. 1, fig. 2 and fig. 3, the present embodiment provides the following technical solutions:

the installation method of the anti-falling elevator guide rail support consolidation structure comprises a second elevator guide rail 8, wherein a first elevator guide rail 7 is arranged at the upper end of the second elevator guide rail 8;

still include connecting plate 9, it sets up in the outside upper and lower both ends of first elevator guide rail 7 and second elevator guide rail 8, the upper end of parcel connecting plate 9 is provided with connect slot 10, and connect slot 10 and parcel connecting plate 9 welded fastening, the inside lower extreme of parcel connecting plate 9 is provided with interface hole 20, and interface hole 20 is connected with connect slot 10's outside draw-in groove, one side in the middle of parcel connecting plate 9 upper end is provided with bolt mounting groove 21, the inside cyclic annular of bolt mounting groove 21 is provided with four sixth bolt fixed connection hole 23, and sixth bolt fixed connection hole 23 runs through and extends to the upper and lower both ends of parcel connecting plate 9.

In order to solve the technical problem that the existing elevator guide rail bracket fixing structure causes the elevator guide rail to shake and easily causes the elevator to fall off due to transmission and the inertia of the elevator in the installation and subsequent continuous use processes, please refer to fig. 1, 2, 3, 6 and 7, the embodiment provides the following technical solutions:

the inside both sides of parcel connecting plate 9 all are provided with supplementary fixed folded sheet of centre gripping 11, two outside one sides of the fixed folded sheet of supplementary centre gripping 11 are provided with vertical sliding rail 24, vertical sliding rail 24's inside is provided with drive threaded rod 25, drive threaded rod 25's outside and the fixed folded sheet 11 inside one side screw-thread fit of supplementary centre gripping, drive threaded rod 25's one end is provided with rotation handle 12, be provided with slip restriction strip 16 between supplementary fixed folded sheet of centre gripping 11 and the parcel connecting plate 9, one side of slip restriction strip 16 and one side fixed connection of the fixed folded sheet of supplementary centre gripping 11.

Specifically, when fixing first elevator guide rail 7 and second elevator guide rail 8, pass and imbed inside the wall by fixing bolt 15, and the embedding before can accomplish supplementary centre gripping through pressing of supplementary centre gripping fixed folded sheet 11, the cooperation fixing bolt 15 run through can accomplish first elevator guide rail 7 and the fixed of second elevator guide rail 8.

Further, referring to fig. 1, fig. 2, fig. 3, fig. 6 and fig. 7, the present embodiment provides the following technical solutions:

the lower extreme of the fixed folded sheet of supplementary centre gripping 11 and the inside horizontal evenly distributed of the fixed folded sheet of supplementary centre gripping 11 have three second bolt fixed connection hole 13, and three second bolt fixed connection hole 13 runs through and extends to the upper and lower both ends of the fixed folded sheet of supplementary centre gripping 11 and parcel connecting plate 9.

Specifically, the fixing bolt 15 penetrates through the second bolt fixing connection hole 13 and is embedded into the wall, so that the first elevator guide rail 7 and the second elevator guide rail 8 can be fixed, and the rail can be fixed.

Further, referring to fig. 1, fig. 2, fig. 3, fig. 6 and fig. 7, the present embodiment provides the following technical solutions:

the inside cyclic annular of connecting slot 10 is provided with four fourth bolt fixed connection holes 19, the both sides of four fourth bolt fixed connection holes 19 all are provided with fifth bolt fixed connection hole 22, and fifth bolt fixed connection hole 22 and fourth bolt fixed connection hole 19 all run through and extend to the upper and lower both ends of connecting slot 10, the inside both sides of first elevator guide rail 7 and second elevator guide rail 8 all are arrayed and are provided with a plurality of third bolt fixed connection hole 14, and third bolt fixed connection hole 14 runs through and extends to the upper and lower both ends of first elevator guide rail 7 and second elevator guide rail 8.

Specifically, the connection of the two wrapping connection plates 9 can be completed by the fixing bolt 15 passing through the fourth bolt fixing connection hole 19 and the sixth bolt fixing connection hole 23, and the first elevator guide rail 7 and the second elevator guide rail 8 can be fixed in an auxiliary manner by the fifth bolt fixing connection hole 22.

Further, referring to fig. 1, fig. 4 and fig. 5, the present embodiment provides the following technical solutions:

the upper end of first elevator guide rail 7 is provided with fixed anti-slip ring 1 that bears, goes up fixed inside that bears anti-slip ring 1 and cyclic annularly is provided with four mounting grooves 4, and four mounting grooves 4 run through and extend to the inside that the fixed anti-slip ring 1 that bears, and the inside of mounting groove 4 transversely is provided with the first bolt fixed connection hole 5 of a plurality of, and first bolt fixed connection hole 5 runs through and extends to the both ends that the fixed anti-slip ring 1 that bears.

Specifically, the first elevator guide rails 7 and the second elevator guide rails 8 which are connected are converged and fixed through the upper fixed bearing anti-slip ring 1, so that the elevator and the rail are prevented from falling off due to shaking.

Further, referring to fig. 1, fig. 4 and fig. 5, the present embodiment provides the following technical solutions:

go up fixed upper end that bears the inside of antiskid ring 1 and cyclic annularly be provided with four connection support bars 2, go up fixed upper end that bears the outside of antiskid ring 1 and be provided with and connect fixed block 3, connection support bar 2 and go up fixed bearing antiskid ring 1 between welded fastening.

Particularly, the bearing capacity of the upper fixed bearing anti-slip ring 1 can be improved through the connection and the support of the connecting support bars 2 and the connecting fixing blocks 3, and the elevator and the rail can be prevented from falling off due to shaking when the bearing capacity is improved.

Further, referring to fig. 1, fig. 4 and fig. 5, the present embodiment provides the following technical solutions:

four corners of the lower end of the upper fixed bearing anti-slip ring 1 are provided with four bearing blocks 6, and the upper ends of the four bearing blocks 6 are fixedly connected with the lower end of the upper fixed bearing anti-slip ring 1.

Specifically, can accomplish through carrier block 6 and bear the contact between anti-slip ring 1 and the mounted position to last fixed, improve and fixedly bear the stability when anti-slip ring 1 installs, on the other hand, by last fixed joint area who bears between anti-slip ring 1 and the wall improve the stability when fixed.

Further, referring to fig. 1, fig. 4 and fig. 5, the present embodiment provides the following technical solutions:

one end of the bearing block 6 is provided with a fixed anti-shake connecting block 17, and the fixed anti-shake connecting block 17 and the bearing block 6 are integrated.

Specifically, the bearing capacity of the upper fixed bearing anti-slip ring 1 is improved through the fixed anti-shake connecting block 17, and the bearing capacity of the elevator is improved while the bearing capacity of the upper fixed bearing anti-slip ring 1 is improved.

Further, referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7, the present embodiment provides the following technical solutions:

the upper end of the outer portion of the upper fixed bearing anti-slip ring 1 is provided with a fixed anti-shake connecting ring 18, one end of the fixed anti-shake connecting ring 18 is welded and fixed with the upper end of the upper fixed bearing anti-slip ring 1, the first bolt fixing connecting hole 5, the second bolt fixing connecting hole 13, the third bolt fixing connecting hole 14, the fourth bolt fixing connecting hole 19, the outer portions of the fifth bolt fixing connecting hole 22 and the sixth bolt fixing connecting hole 23 are provided with fixing bolts 15, and the outer portions of the fixing bolts 15 are in threaded fit with the inner portions of the first bolt fixing connecting hole 5, the second bolt fixing connecting hole 13, the third bolt fixing connecting hole 14, the fourth bolt fixing connecting hole 19, the fifth bolt fixing connecting hole 22 and the sixth bolt fixing connecting hole 23.

Specifically, the fixing of the rail and the fixing structure can be completed by the penetration of the fixing bolt 15.

The installation method of the anti-falling elevator guide rail bracket consolidation structure comprises the following steps:

firstly, preferentially fixing a second elevator guide rail 8, respectively placing two wrapping connecting plates 9 at positions between the second elevator guide rail 8 and a wall, driving a transmission threaded rod 25 to rotate by a rotating handle 12, and finishing longitudinal height adjustment after the transmission threaded rod 25 rotates and limits the wrapping connecting plates 9 by a sliding limiting strip 16, so that the second elevator guide rail 8 can be clamped by matching an auxiliary clamping and fixing folding plate 11 with the wrapping connecting plates 9;

step two, fixing bolts 15 sequentially penetrate through the second bolt fixing connecting holes 13 and the third bolt fixing connecting holes 14 and are embedded into the wall attached by the wrapping connecting plates 9, and the wrapping connecting plates 9 at the two outer ends of the second elevator guide rail 8 are fixed at the same time, so that the second elevator guide rail 8 can be installed;

step three, when the first elevator guide rail 7 is arranged at the upper end of the second elevator guide rail 8 and continues the track of the second elevator guide rail 8, another wrapping connecting plate 9 is placed at the upper end of the outer portion of the wrapping connecting plate 9 at the upper end of the outer portion of the second elevator guide rail 8, one connecting slot 10 is inserted into the other connecting jack 20, and the first elevator guide rail and the second elevator guide rail are inserted into and sequentially pass through a sixth bolt fixing connecting hole 23 and a fourth bolt fixing connecting hole 19 through a fixing bolt 15 and are embedded into the attached wall;

fourthly, the first elevator guide rail 7 is longitudinally placed at the front ends of the outer portions of the two wrapping connecting plates 9 in a sliding mode, the two wrapping connecting plates 9 are clamped in an auxiliary mode through auxiliary clamping and fixing folding plates 11 on the outer portions of the two wrapping connecting plates 9 and then penetrate through fixing bolts 15 to finish fixing of the lower end of the outer portion of the first elevator guide rail 7, and the wrapping connecting plates 9 are placed at the upper end of the outer portion of the first elevator guide rail 7 in a sliding mode and finish fixing through penetrating of the fixing bolts 15;

placing an upper fixed bearing anti-slip ring 1 at the upper end of a track formed by combining a first elevator guide rail 7 and a second elevator guide rail 8, attaching a connecting slot 10 which is wrapped outside a connecting plate 9 and corresponds to the upper end of the track to one side inside a mounting groove 4, attaching, sequentially penetrating a first bolt fixed connecting hole 5 and a fourth bolt fixed connecting hole 19 inside the connecting slot 10 through a fixing bolt 15, and finally embedding into a wall to finish fixing the fixed track;

and step six, a plurality of groups of tracks connected with the first elevator guide rails 7 and the second elevator guide rails 8 are transversely arranged in the installation groove 4 according to the use requirement and the bearing capacity of the elevator.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An anti-falling elevator guide rail bracket consolidation structure comprises a second elevator guide rail (8), wherein a first elevator guide rail (7) is arranged at the upper end of the second elevator guide rail (8);

the elevator car body is characterized by further comprising a connecting plate (9) which is arranged at the upper end and the lower end of the outer portion of the first elevator guide rail (7) and the second elevator guide rail (8), a connecting slot (10) is arranged at the upper end of the wrapping connecting plate (9), the connecting slot (10) is welded and fixed with the wrapping connecting plate (9), a connecting jack (20) is arranged at the lower end of the inner portion of the wrapping connecting plate (9), the connecting jack (20) is connected with an external clamping groove of the connecting slot (10), a bolt mounting groove (21) is formed in one side of the middle of the upper end of the wrapping connecting plate (9), four sixth bolt fixing connecting holes (23) are annularly arranged in the inner portion of the bolt mounting groove (21), and the sixth bolt fixing connecting holes (23) penetrate through and extend to the upper end and the lower end of the wrapping connecting plate (9).

2. The anti-drop elevator guide rail bracket fixing structure according to claim 1, characterized in that: the inside both sides of parcel connecting plate (9) all are provided with supplementary fixed folded sheet of centre gripping (11), two the outside one side of supplementary fixed folded sheet of centre gripping (11) is provided with vertical sliding rail (24), the inside of vertical sliding rail (24) is provided with drive threaded rod (25), the outside of drive threaded rod (25) and the inside one side screw-thread fit of supplementary fixed folded sheet of centre gripping (11), the one end of drive threaded rod (25) is provided with rotation handle (12), be provided with slip restriction strip (16) between supplementary fixed folded sheet of centre gripping (11) and parcel connecting plate (9), one side of slip restriction strip (16) and one side fixed connection of the fixed folded sheet of supplementary centre gripping (11).

3. The anti-drop elevator guide rail bracket fixing structure according to claim 2, wherein: the lower extreme of the fixed folded sheet of supplementary centre gripping (11) and the inside horizontal evenly distributed of the fixed folded sheet of supplementary centre gripping (11) have three second bolt fixed connection hole (13), and are three second bolt fixed connection hole (13) run through and extend to the upper and lower both ends of the fixed folded sheet of supplementary centre gripping (11) and parcel connecting plate (9).

4. The anti-drop elevator guide rail bracket fixing structure according to claim 3, wherein: the elevator guide rail connecting structure is characterized in that four fourth bolt fixing connecting holes (19) are annularly arranged inside the connecting slot (10), four fourth bolt fixing connecting holes (19) are formed in the two sides of each fourth bolt fixing connecting hole (19) and are provided with fifth bolt fixing connecting holes (22), the fifth bolt fixing connecting holes (22) and the fourth bolt fixing connecting holes (19) penetrate through and extend to the upper end and the lower end of the connecting slot (10), a plurality of third bolt fixing connecting holes (14) are formed in the two sides inside the first elevator guide rail (7) and the second elevator guide rail (8) in an array mode, and the third bolt fixing connecting holes (14) penetrate through and extend to the upper end and the lower end of the first elevator guide rail (7) and the upper end and the lower end of the second elevator guide rail (8).

5. The anti-drop elevator guide rail bracket fixing structure according to claim 4, wherein: the anti-slip ring fixing device is characterized in that an upper fixing bearing anti-slip ring (1) is arranged at the upper end of the first elevator guide rail (7), four mounting grooves (4) are annularly arranged in the upper fixing bearing anti-slip ring (1), the mounting grooves (4) penetrate through and extend to the inside of the upper fixing bearing anti-slip ring (1), a plurality of first bolt fixing connecting holes (5) are transversely formed in the inside of the mounting grooves (4), and the first bolt fixing connecting holes (5) penetrate through and extend to the two ends of the upper fixing bearing anti-slip ring (1).

6. The anti-drop elevator guide rail bracket fixing structure according to claim 5, characterized in that: go up the inside upper end of fixed bearing anti-slip ring (1) and cyclic annularly be provided with four connection support bars (2), go up the outside upper end of fixed bearing anti-slip ring (1) and be provided with and connect fixed block (3), connection support bar (2) and go up fixed bearing anti-slip ring (1) between welded fastening.

7. The anti-drop elevator guide rail bracket fixing structure according to claim 6, characterized in that: four corners of the lower end of the upper fixed bearing anti-slip ring (1) are provided with four bearing blocks (6), and the upper ends of the four bearing blocks (6) are fixedly connected with the lower end of the upper fixed bearing anti-slip ring (1).

8. The anti-drop guide rail bracket fixing structure of an elevator according to claim 7, wherein: one end of the bearing block (6) is provided with a fixed anti-shaking connecting block (17), and the fixed anti-shaking connecting block (17) and the bearing block (6) are integrated.

9. The anti-drop elevator guide rail bracket fixing structure according to claim 8, characterized in that: the anti-shake device is characterized in that a fixed anti-shake connecting ring (18) is arranged at the upper end of the outer portion of the upper fixed bearing anti-shake ring (1), one end of the fixed anti-shake connecting ring (18) is fixedly welded with the upper end of the upper fixed bearing anti-shake ring (1), a first bolt fixed connecting hole (5), a second bolt fixed connecting hole (13), a third bolt fixed connecting hole (14), a fourth bolt fixed connecting hole (19), a fifth bolt fixed connecting hole (22) and a sixth bolt fixed connecting hole (23) are all provided with a fixing bolt (15), and the outer portion of the fixing bolt (15) is in threaded fit with the inner portions of the first bolt fixed connecting hole (5), the second bolt fixed connecting hole (13), the third bolt fixed connecting hole (14), the fourth bolt fixed connecting hole (19), the fifth bolt fixed connecting hole (22) and the sixth bolt fixed connecting hole (23).

10. The installation method of the anti-drop elevator guide rail bracket fixing structure according to claim 9, characterized in that: the method comprises the following steps:

firstly, preferentially fixing a second elevator guide rail (8), placing two wrapping connecting plates (9) at positions between the second elevator guide rail (8) and a wall respectively, driving a transmission threaded rod (25) to rotate by a rotating handle (12), and finishing longitudinal height adjustment after the transmission threaded rod (25) rotates by limiting the wrapping connecting plates (9) through a sliding limiting strip (16), so that the second elevator guide rail (8) can be clamped by matching an auxiliary clamping and fixing folding plate (11) with the wrapping connecting plates (9);

step two, fixing bolts (15) sequentially penetrate through second bolt fixing connecting holes (13) and third bolt fixing connecting holes (14) and are embedded into the wall attached by the wrapping connecting plates (9), and the wrapping connecting plates (9) at two ends of the outer portion of the second elevator guide rail (8) are fixed at the same time, so that the second elevator guide rail (8) can be installed;

step three, when the first elevator guide rail (7) is arranged at the upper end of the second elevator guide rail (8) and continues the track of the second elevator guide rail (8), another wrapping connecting plate (9) is placed at the upper end of the outer portion of the wrapping connecting plate (9) at the upper end of the second elevator guide rail (8), one connecting slot (10) is inserted into the other connecting jack (20), and the first elevator guide rail and the second elevator guide rail are inserted into and sequentially pass through a sixth bolt fixing connecting hole (23) and a fourth bolt fixing connecting hole (19) through a fixing bolt (15) and are embedded into the attached wall;

fourthly, longitudinally placing the first elevator guide rail (7) in a sliding manner at the front ends of the outer portions of the two wrapping connecting plates (9), performing auxiliary clamping by using auxiliary clamping and fixing folding plates (11) on the outer portions of the two wrapping connecting plates (9), penetrating through fixing bolts (15) to finish fixing of the lower end of the outer portion of the first elevator guide rail (7), placing the wrapping connecting plates (9) at the upper end of the outer portion of the first elevator guide rail (7) in a sliding manner, and finishing fixing by penetrating through the fixing bolts (15);

placing an upper fixed bearing anti-slip ring (1) at the upper end of a track formed by combining a first elevator guide rail (7) and a second elevator guide rail (8), attaching a connecting slot (10) corresponding to the outside of a wrapping connecting plate (9) at the upper end of the track to one side inside an installation groove (4), attaching, sequentially penetrating through a first bolt fixed connecting hole (5) and a fourth bolt fixed connecting hole (19) inside the connecting slot (10) through a fixing bolt (15), and finally embedding into a wall to finish fixing the fixed track;

and step six, a plurality of groups of tracks connected with the first elevator guide rails (7) and the second elevator guide rails (8) are transversely arranged in the installation groove (4) according to the use requirement and the bearing capacity of the elevator.

Images