CN111039127B - Positioning and mounting equipment for guide rail inside elevator shaft - Google Patents

Abstract

The invention relates to positioning and mounting equipment for a guide rail in an elevator shaft, which comprises a bottom plate, wherein support columns are mounted at four top corners of the bottom plate, a cover plate is mounted at the upper ends of the support columns, the support columns are connected through a transmission device, and pushing devices are symmetrically mounted on the front side and the rear side of the bottom plate. The invention can solve the following problems existing in the prior installation of the elevator guide rail in the elevator shaft, a, the elevator guide rail needs to be conveyed by manpower with the help of traction equipment during installation, the conveyed guide rail needs to be fixed by manpower with the help of tools, the tool for fixing the guide rail needs to be dismantled manually after installation, b, the efficiency of conveying the elevator guide rail manually is low, only a single elevator guide rail can be conveyed once, the continuous installation operation of the elevator guide rail cannot be carried out, and the conveying path of the elevator guide rail is also continuously increased along with the increase of the installation height, thereby affecting the installation efficiency of the elevator guide rail.

Description

Positioning and mounting equipment for guide rail inside elevator shaft

Technical Field

The invention relates to the technical field of elevators, in particular to positioning and mounting equipment for a guide rail in an elevator shaft.

Background

The elevator guide rail is two or more columns of vertical or inclined rigid rails arranged in an elevator shaft or between floors, ensures that a car and a counterweight move up and down along the rigid rails, ensures that an escalator and a moving sidewalk step move obliquely or horizontally along the rigid rails, and provides guidance for the elevator car, the counterweight device or the step, particularly for an elevator with a car structure, and the elevator guide rail is a main accessory which cannot be lacked.

However, the following difficult problems exist when the elevator guide rail in the elevator shaft is installed currently, a, the elevator guide rail needs to be conveyed by means of traction equipment during installation, the conveyed guide rail needs to be fixed by means of tools manually, the tools for fixing the guide rail need to be dismantled manually after installation, the operation is complex, the stability of the elevator guide rail which is conveyed manually and fixedly is poor, the guide rail which is conveyed easily drops, the safety performance is poor, the efficiency of conveying the elevator guide rail by means of b manual work is low, a single elevator guide rail can only be conveyed once, continuous installation operation can not be carried out on the elevator guide rail, and along with the increase of installation height, the conveying path of the elevator guide rail is also increased continuously, and the installation efficiency of the elevator guide rail is influenced.

For the technical problems existing in the installation process of the elevator guide rail at present, persons in the related technical field make adaptive improvements after research and study, for example, the device for installing, correcting and positioning the elevator guide rail disclosed in the patent No. 2013202956190 is a device for installing, correcting and positioning the elevator guide rail, and can accurately correct and position the elevator guide rail and has high correcting and positioning speed, but the problem existing in the installation process of the elevator guide rail mentioned above is not mentioned.

Disclosure of Invention

In order to solve the problems, the invention provides a positioning and mounting device for an elevator shaft internal guide rail, which can solve the problems of the elevator guide rail in the mounting process.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the positioning and mounting equipment for the guide rail in the elevator shaft comprises a bottom plate, support columns are mounted at four top corners of the bottom plate, a cover plate is mounted at the upper ends of the support columns, the support columns are connected through a transmission device, and pushing devices are symmetrically mounted on the front side and the rear side of the bottom plate;

the transmission device comprises a transmission wheel arranged on the support column through a bearing, the transmission wheel is connected with the transmission belt, a driven gear is sleeved on the transmission wheel positioned on the left side of the front end of the bottom plate, a driving gear is meshed with the driven gear, the driving gear is arranged on an output shaft of a transmission motor, the transmission motor is arranged on a cover plate through a motor base, a clamping mechanism is evenly arranged on the transmission belt, an auxiliary sliding groove is arranged on the bottom plate, and the auxiliary sliding groove is matched with the clamping mechanism to convey the elevator guide rail.

Fixture is including installing the grip block on the transmission band, install the carriage on the grip block, the carriage passes through the sliding fit mode and links to each other with the apron, install the centre gripping frame on the outer wall of grip block, the lift hole has been seted up to the lower extreme of centre gripping frame, install the slip lift post in the lift hole, the cover is equipped with the spring between the lower terminal surface of slip lift post and centre gripping frame, the control frame is installed to the upper end of slip lift post, evenly be provided with the drive block on the control frame, the left and right sides of centre gripping frame is from last the gripper jaw that is provided with down the symmetry, the gripper jaw supports and leans on the drive block, the upper end of control frame supports and leans on guide.

Pusher installs the implementation frame including installing the propelling movement cylinder on the bottom plate on the propelling movement cylinder, and the propelling movement groove has been seted up to the front end of implementation frame, carries out to put up from last propelling movement hole of down having seted up of equidistant, and the propelling movement is downthehole to install the actuating lever, and the cover is equipped with the spring between the outer wall of actuating lever and implementation frame, installs propelling movement frame on the actuating lever.

Preferably, the gripper jaw is installed on the centre gripping frame through the round pin axle, is provided with the spring between gripper jaw and the inner wall of centre gripping frame, and the gripper jaw is Z style of calligraphy structure, has seted up the extrusion hole on the gripper jaw, and the downthehole slip of extrusion is provided with the extrusion frame, is connected with the spring between the outer wall of extrusion frame and gripper jaw, and the line hole has been seted up to the inboard of gripper jaw, has seted up the round hole on the extrusion frame, links to each other with the one end that pulls the rope on the outer wall of gripper jaw, and the other end that pulls the rope is crosstalked and is fixed on.

Preferably, the propelling movement frame is U type structure, install the diaphragm between the inner wall of propelling movement frame, the left and right sides symmetry of propelling movement frame is provided with presses the hole, it is provided with and presses the frame to press the downthehole slip, it is provided with the spring to press between frame and the propelling movement frame, it has the block rubber to wrap up on the frame to press, there is the propelling movement pole through the round pin hub connection on the outer wall of propelling movement frame, the propelling movement pole supports and leans on pressing the frame, be connected with the spring before the outer wall of propelling movement pole and propelling movement frame, the through wires hole has been seted up to the left and right sides symmetry of propelling movement frame, the through wires hole is located the inboard of pressing the hole, install the execution cylinder on the propelling movement frame, install push plate on the execution cylinder, the propelling movement pole.

Preferably, the guide frame is of a square frame structure, and the middle parts of the four side frames of the guide frame are all of an upward protruding structure.

Preferably, the width of the driving block is gradually reduced from top to bottom.

Preferably, the cross-section of supplementary spout is U type structure, evenly is provided with the ball on the inner wall of supplementary spout, and the feed inlet has been seted up to the left and right sides symmetry of supplementary spout, and the front and back bilateral symmetry of supplementary spout is provided with the discharge gate.

1. The invention can solve the following problems existing in the existing elevator guide rail installation in the elevator shaft, a, the elevator guide rail needs to be conveyed by manpower with the help of traction equipment during installation, the conveyed guide rail needs to be fixed by manpower with the help of tools, the tool for fixing the guide rail needs to be manually dismounted after installation, the operation is complex, the stability of the elevator guide rail which is manually fixed and conveyed is poor, the conveyed guide rail is easy to fall off, the safety performance is poor, b, the efficiency of conveying the elevator guide rail by manpower is low, only a single elevator guide rail can be conveyed once, the elevator guide rail cannot be continuously installed, and along with the increase of the installation height, the conveying path of the elevator guide rail is also continuously increased, thereby affecting the installation efficiency of the elevator guide rail. The present invention can solve the problems mentioned above, and has unexpected effects.

2. In the operation of the transmission device designed by the invention, the elevator guide rails are manually placed into the auxiliary chute from the feeding hole, the upper ends of the elevator guide rails are positioned in the clamping mechanism, the transmission motor starts to work and drives the clamping mechanism to move through the mutual matching between the driven gear and the driving gear, the clamping mechanism drives the elevator guide rails to synchronously move in the movement process, the clamping mechanism is controlled by the guide frame to lock the elevator guide rails after the position movement, the elevator guide rails are sequentially placed into the auxiliary chute from the feeding hole, the transmission of the elevator guide rails can be simultaneously controlled, and the installation continuity of the elevator guide rails can be ensured.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a transverse cross-sectional view of the present invention;

FIG. 3 is a schematic view of the structure between the cover plate and the clamping mechanism of the present invention;

FIG. 4 is a schematic structural diagram between the control frame and the driving block of the present invention;

FIG. 5 is a partial block diagram of the clamping mechanism of the present invention;

fig. 6 is a structural view of the pushing frame of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 6, the positioning and mounting equipment for the guide rail in the elevator shaft comprises a bottom plate 1, supporting columns 2 are mounted at four top corners of the bottom plate 1, a cover plate 3 is mounted at the upper ends of the supporting columns 2, the supporting columns 2 are connected through a transmission device 4, and pushing devices 5 are symmetrically mounted on the front side and the rear side of the bottom plate 1.

The transmission device 4 comprises a transmission wheel 41 arranged on the support column 2 through a bearing, the transmission wheel 41 is connected with each other through a transmission belt 42, a driven gear 43 is sleeved on the transmission wheel 41 positioned on the left side of the front end of the bottom plate 1, a driving gear 44 is meshed on the driven gear 43, the driving gear 44 is arranged on an output shaft of a transmission motor 45, the transmission motor 45 is arranged on the cover plate 3 through a motor base, clamping mechanisms 46 are uniformly arranged on the transmission belt 42, an auxiliary sliding groove 47 is arranged on the bottom plate 1, and the auxiliary sliding groove 47 is matched with the clamping mechanisms 46 to convey elevator guide rails.

The cross-section of supplementary spout 47 is U type structure, evenly is provided with the ball on the inner wall of supplementary spout 47, and the feed inlet has been seted up to the left and right sides symmetry of supplementary spout 47, and the front and back bilateral symmetry of supplementary spout 47 is provided with the discharge gate.

The guiding frame 467 is of a square frame structure, and the middle parts of the four side frames of the guiding frame 467 are of an upward protruding structure.

The guide frames 467 corresponding to the upper ends of the feed inlet and the discharge outlet are both parts protruding upwards.

The elevator guide rail is manually placed into the auxiliary sliding groove 47 from the feeding hole, the upper end of the elevator guide rail is located inside the clamping mechanism 46, the transmission motor 45 starts to work and drives the clamping mechanism 46 to move through the mutual matching between the driven gear 43 and the driving gear 44, the clamping mechanism 46 drives the elevator guide rail to synchronously move in the movement, the clamping mechanism 46 is controlled by the guide frame 467 to lock the elevator guide rail after the position moving, the elevator guide rail is sequentially placed into the auxiliary sliding groove 47 from the feeding hole, the conveying of the elevator guide rails can be controlled simultaneously, and the installation continuity of the elevator guide rail can be guaranteed.

The clamping mechanism 46 comprises a clamping plate 461 arranged on the conveying belt 42, a sliding frame 462 is arranged on the clamping plate 461, the sliding frame 462 is connected with the cover plate 3 in a sliding fit mode, a clamping frame 463 is arranged on the outer wall of the clamping plate 461, a lifting hole is formed in the lower end of the clamping frame 463, a sliding lifting column 464 is arranged in the lifting hole, a spring is sleeved between the sliding lifting column 464 and the lower end face of the clamping frame 463, a control frame 465 is arranged at the upper end of the sliding lifting column 464, a driving block 466 is uniformly arranged on the control frame 465, clamping claws 48 are symmetrically arranged on the left side and the right side of the clamping frame 463 from top to bottom, the clamping claws 48 abut against the driving block 466, the upper end of the control frame 465 abuts against a guide frame 467, and the guide frame 467; the width of the driving block 466 is gradually decreased from top to bottom.

The transmission belt 42 controls the clamping plates 461 to move synchronously in the movement, the control frame 465 moves downwards along with the height edge of the guide frame 467 in the movement, the guide frame 467 extrudes the clamping claws 48 outwards through the driving blocks 466 in the downward movement process, and the clamping claws 48 extruded outwards rotate from outside to inside so as to clamp the elevator guide rails.

The gripper jaw 48 is installed on centre gripping frame 463 through the round pin axle, be provided with the spring between the inner wall of gripper jaw 48 and gripper frame 463, gripper jaw 48 is Z style of calligraphy structure, the extrusion hole has been seted up on the gripper jaw 48, it is provided with extrusion frame 481 to extrude downthehole slip, be connected with the spring between the outer wall of extrusion frame 481 and gripper jaw 48, the line hole has been seted up to gripper jaw 48's inboard, the round hole has been seted up on the extrusion frame 481, link to each other with the one end of pulling rope 482 on gripper jaw 48's the outer wall, the other end of pulling rope 482 is crosstalked and is fixed on gripper frame 463 through the.

When the elevator guide rail discharge port is required to be output, the control frame 465 moves the clamping claws 48 upwards to reset, the extrusion frame 481 supports against the two sides of the elevator guide rail under the action of the spring, and the clamping claws 48 pull the ropes 482 to drive the extrusion frame 481 to further support against the two sides of the elevator guide rail when being reset, so that the elevator guide rail in the conveying process cannot incline.

The pushing device 5 comprises a pushing cylinder 51 installed on the bottom plate 1, an execution frame 52 is installed on the pushing cylinder 51, a pushing groove is formed in the front end of the execution frame 52, pushing holes are formed in the execution frame 52 from top to bottom at equal intervals, an execution rod 53 is installed in each pushing hole, a spring is sleeved between the execution rod 53 and the outer wall of the execution frame 52, and a pushing frame 54 is installed on the execution rod 53.

When the elevator guide rail moves to the position of the discharge hole, the pushing cylinder 51 controls the executing frame 52 to stretch, so that the executing frame 52 supports the lower end face of the elevator guide rail, the pushing groove formed in the executing frame 52 facilitates the executing frame 52 to wrap the elevator guide rail fixed to the lower side, the mounted elevator guide rail can be prevented from affecting the conveying of the elevator to be mounted, the pushing cylinder 51 continues to control the executing frame 52 to move forwards, the pushing frame 54 wraps and locks the two sides of the elevator guide rail, and the elevator guide rail can be separated from the extrusion frame 481 when the pushing cylinder 51 controls the elevator guide rail to be conveyed to the mounting position.

The utility model discloses a push frame 54, including push frame 54, push frame 541, push frame 54, the diaphragm is installed between push frame 54's the inner wall, push frame 54's the left and right sides symmetry is provided with presses the hole, it is provided with according to frame 541 to slide in the press hole, it is provided with the spring to press between frame 541 and the push frame 54, it has rubber block 542 to wrap up on the press frame 541, there is push rod 543 through the round pin hub connection on push frame 54's the outer wall, push rod 543 supports and leans on according to frame 541, be connected with the spring before push rod 543 and push frame 54's the outer wall, push frame 54's the left and right sides symmetry has seted up the through wires hole, the through wires hole is located the inboard of pressing the hole, install on the push frame 54 and carry out the cylinder 544, install push plate 546 on carrying out the cylinder 544, push rod 543 links.

After the pushing frame 54 wraps the elevator guide rail, the actuating cylinder 544 operates to control the pushing plate 546 to stretch, the pushing plate 546 drives the pushing rod 543 to rotate through the pushing rope 545 in motion, the pushing rod 543 drives the pressing frame 541 to lock the elevator guide rail in the rotating operation, and the rubber block 542 can effectively increase friction force after the elevator guide rail is locked.

When in work;

in the first step of elevator guide rail placing, the elevator guide rail is manually placed into the auxiliary chute 47 from the feeding hole, the upper end of the elevator guide rail is located inside the clamping mechanism 46, the transmission motor 45 starts to work, the clamping mechanism 46 is driven to move through the mutual matching between the driven gear 43 and the driving gear 44, the clamping mechanism 46 drives the elevator guide rail to synchronously move in the motion, the clamping mechanism 46 is controlled by the guide frame 467 to lock the elevator guide rail after the position moving, and the elevator guide rail is sequentially placed into the auxiliary chute 47 from the feeding hole.

And in the second step, the elevator is dragged and ascended, the elevator shaft is driven by the conventional equipment to move up and down, and constructors can work on the bottom plate 1 of the elevator shaft during operation.

And thirdly, pushing operation is carried out, the pushing cylinder 51 continues to control the execution frame 52 to move forwards, so that the pushing frame 54 wraps and locks two sides of the elevator guide rail, and the pushing cylinder 51 is ensured to control the elevator guide rail to be conveyed to the installation position.

And fourthly, fixing and installing operation, wherein the constructor fixes the elevator guide rail on the inner wall of the elevator shaft through a tool.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. An elevator shaft internal guide rail positioning installation device, comprising a base plate (1), characterized in that: supporting columns (2) are installed at four top corners of the bottom plate (1), a cover plate (3) is installed at the upper ends of the supporting columns (2), the supporting columns (2) are connected through a transmission device (4), and pushing devices (5) are symmetrically installed on the front side and the rear side of the bottom plate (1);

the conveying device (4) comprises driving wheels (41) which are arranged on the supporting column (2) through bearings, the driving wheels (41) are connected through a conveying belt (42), a driven gear (43) is sleeved on the driving wheel (41) on the left side of the front end of the base plate (1), a driving gear (44) is meshed on the driven gear (43), the driving gear (44) is arranged on an output shaft of a conveying motor (45), the conveying motor (45) is arranged on the cover plate (3) through a motor base, clamping mechanisms (46) are uniformly arranged on the conveying belt (42), an auxiliary sliding groove (47) is arranged on the base plate (1), and the auxiliary sliding groove (47) is matched with the clamping mechanisms (46) to convey elevator guide rails;

the clamping mechanism (46) comprises a clamping plate (461) arranged on the conveying belt (42), a sliding frame (462) is arranged on the clamping plate (461), the sliding frame (462) is connected with the cover plate (3) in a sliding fit mode, a clamping frame (463) is arranged on the outer wall of the clamping plate (461), a lifting hole is formed in the lower end of the clamping frame (463), a sliding lifting column (464) is arranged in the lifting hole, a spring is sleeved between the sliding lifting column (464) and the lower end face of the clamping frame (463), a control frame (465) is arranged at the upper end of the sliding lifting column (464), a driving block (466) is uniformly arranged on the control frame (465), clamping claws (48) are symmetrically arranged on the left side and the right side of the clamping frame (463) from top to bottom, the clamping claws (48) abut against the driving block (466), and the upper end of the control frame (465) abuts against a guide frame (467, the guide frame (467) is arranged on the cover plate (3);

pusher (5) are including installing propelling movement cylinder (51) on bottom plate (1), install on propelling movement cylinder (51) and carry out frame (52), carry out the front end of frame (52) and seted up the propelling movement groove, carry out frame (52) and go up from last down equidistant propelling movement hole of having seted up, the downthehole actuating lever (53) of installing of propelling movement, the cover is equipped with the spring between the outer wall of actuating lever (53) and carry out frame (52), install propelling movement frame (54) on actuating lever (53).

2. An elevator shaft internal guide rail positioning and mounting apparatus as defined in claim 1, wherein: the utility model provides a clamping jaw (48) is installed on centre gripping frame (463) through the round pin axle, be provided with the spring between the inner wall of clamping jaw (48) and clamping frame (463), clamping jaw (48) are Z style of calligraphy structure, the extrusion hole has been seted up on clamping jaw (48), it extrudees frame (481) to slide in the extrusion hole to be provided with, be connected with the spring between the outer wall of extrusion frame (481) and clamping jaw (48), the line hole has been seted up to the inboard of clamping jaw (48), the round hole has been seted up on extrusion frame (481), link to each other with the one end that pulls rope (482) on the outer wall of clamping jaw (48), the other end that pulls rope (482) is crosstalked and is crossed the line hole and fix on clamping frame (463) through the.

3. An elevator shaft internal guide rail positioning and mounting apparatus as defined in claim 1, wherein: the push frame (54) is of a U-shaped structure, a transverse plate is installed between the inner walls of the push frame (54), pressing holes are symmetrically formed in the left side and the right side of the push frame (54), a pressing frame (541) is arranged in each pressing hole in a sliding mode, a spring is arranged between each pressing frame (541) and the corresponding push frame (54), rubber blocks (542) are wrapped on each pressing frame (541), a push rod (543) is connected to the outer wall of the push frame (54) through a pin shaft, the push rod (543) abuts against the corresponding pressing frame (541), the spring is connected to the position in front of the outer wall of each push rod (543) and the corresponding push frame (54), threading holes are symmetrically formed in the left side and the right side of the push frame (54), the corresponding threading holes are located on the inner side of the corresponding pressing holes, an execution cylinder (544) is installed on the push frame (54), a push plate (546) is installed on the execution cylinder (546), and the, the other end of the pushing rope (545) passes through the threading hole and is connected to the pushing plate (546).

4. An elevator shaft internal guide rail positioning and mounting apparatus as defined in claim 1, wherein: the guide frame (467) is of a square frame structure, and the middle parts of four side frames of the guide frame (467) are of an upward protruding structure.

5. An elevator shaft internal guide rail positioning and mounting apparatus as defined in claim 1, wherein: the width of the driving block (466) is gradually reduced from top to bottom.

6. An elevator shaft internal guide rail positioning and mounting apparatus as defined in claim 1, wherein: the cross-section of supplementary spout (47) is U type structure, evenly is provided with the ball on the inner wall of supplementary spout (47), and the feed inlet has been seted up to the left and right sides symmetry of supplementary spout (47), and the front and back bilateral symmetry of supplementary spout (47) is provided with the discharge gate.

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