CN114803517A - Collapsible formula glass-frame riser is placed conveyer - Google Patents

Abstract

The invention discloses a retractable glass lifting, placing and transporting device which comprises a rotary pneumatic control type driving assembly, an inner rod rotary type supporting assembly and an outer rod fixed type supporting assembly. The invention belongs to the field of carrying of building glass, and particularly relates to a retractable glass lifting, placing and transporting device; the traditional vertical placing method is changed into the horizontal placing method by controlling the air bag to absorb the building glass, so that the gravity center of the building glass is balanced, the risk of side turning during the transportation of the building glass can be effectively prevented, the capacity of the device for transporting the building glass is greatly increased, and the labor cost is reduced; meanwhile, based on the method for changing harm into benefit, the directions of the two groups of fixed pulleys and the direction of the movable twisting pulley mechanism are different in different using stages, harmful factors which are easy to turn over are converted into beneficial factors which can stably advance, and the possibility of scratching of the building glass in the process of carrying from bottom to top is reduced to the minimum.

Description

Collapsible formula glass-frame riser is placed conveyer

Technical Field

The invention belongs to the technical field of building glass carrying, and particularly relates to a retractable glass lifting, placing and transporting device.

Background

In the building engineering, often after the house construction is accomplished, need begin to install glass, glass need be transported to the building site by the transport vechicle, and glass usually can place in ground, because glass's surface is smooth to it is very inconvenient when leading to glass to take.

Generally, glass is placed in sequence in a mode of one piece of glass and one piece of spacing paper and then packaged and transported to a construction area, in a high-rise building, an individual carries the glass in sequence in a lifting mode, and a corresponding amount of glass is placed on each floor.

Similarly, when a building with a low floor or a single floor and a large floor area is constructed, a crane is not arranged on the construction site, the manual glass conveying mode is wasted, and more human resources are required to be added for large-area glass; and rely on the manpower alone to carry glass, can lead to the fact fish tail and breakage unavoidably, once take place, the economy of building side is difficult to compensate.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the retractable glass lifting, placing and transporting device, the traditional vertical placing method is changed into the horizontal placing method by controlling the air bag to absorb the building glass, so that the gravity center of the building glass is balanced, the risk of side turning during the transportation of the building glass can be effectively prevented, the capacity of the device for transporting the building glass is greatly increased, and the labor cost is reduced; the invention relates to a method for changing harm into benefits (harmful factors, particularly harmful factors to the environment are utilized to obtain beneficial results), the directions of two groups of fixed pulleys and the direction of a movable twisting pulley mechanism are different in different using stages, the harmful factors which are easy to generate side turning are converted into beneficial factors which smoothly advance, and meanwhile, the self-locking type rotation control wheels and the glass rotation support rods which are designed according to the invention principle of multi-dimension (a multi-layer structure is utilized to replace a single-layer structure) reduce the possibility of scratching of building glass in the process of carrying the building glass from bottom to top to the lowest.

The technical scheme adopted by the invention is as follows: the invention provides a retractable glass lifting, placing and transporting device which comprises a rotary pneumatic control type driving component, an inner rod rotary type supporting component and an outer rod fixed type supporting component, wherein the rotary pneumatic control type driving component is arranged on the outer upper wall of the outer rod fixed type supporting component, the rotary pneumatic control type driving component is a central control system of the retractable glass lifting, placing and transporting device and is used for controlling the operation of the inner rod rotary type supporting component and the outer rod fixed type supporting component and the adsorption and movement of building glass, one end of the inner rod rotary type supporting component is rotatably arranged on the rotary pneumatic control type driving component, the other end of the inner rod rotary type supporting component penetrates through the outer rod fixed type supporting component and is arranged outside the inner rod rotary type supporting component, the rotary inner rod supporting component is controlled by the rotary pneumatic control type driving component and rotates and resets within the range of the outer rod fixed type supporting component according to the requirements of a user, when the glass building frame is in an initial position, the rotary type supporting component and the fixed supporting component of the outer rod in the control are mutually overlapped, when the glass building frame is in use, the rotary type supporting component and the fixed supporting component of the outer rod in the control are mutually perpendicular to support four edges of building glass, and after the glass building frame is used, the rotary type supporting component and the fixed supporting component of the outer rod in the control are driven to return to the original position through the rotary pneumatic control type driving component.

Furthermore, the outer rod fixed type supporting assembly comprises an outer rod control top plate and an outer rod control cylinder, the outer rod control cylinders are arranged in a pair mode, the outer rod control cylinders are arranged in an axial symmetry mode, one end of each outer rod control cylinder is arranged on the side wall of the outer rod control top plate, and a supporting outer rod mechanism is arranged at the other end of each outer rod control cylinder; the inner rod rotary type supporting component comprises an inner rod control top plate and an inner rod control cylinder, the inner rod control cylinders are arranged in a pair mode, the inner rod control cylinders are arranged in an axial symmetry mode, one end of each inner rod control cylinder is arranged on the side wall of the inner rod control top plate, and a supporting inner rod mechanism is arranged at the other end of each inner rod control cylinder; when glass is transported to each floor of each building site from factory, glass with packing paper is stably placed between the ground and the device at the entrance of each floor, the packing paper is removed, then the rotary pneumatic control type driving assembly is started, the rotary pneumatic control type driving assembly operates to drive the inner rod control top plate and the outer rod control top plate to be vertical to each other, the outer rod control air cylinder and the inner rod control air cylinder are respectively started to enable the device to be matched with building glass with different sizes, then the rotary pneumatic control type driving assembly can sequentially suck the building glass, the building glass is sequentially and stably placed on the outer rod supporting mechanism and the inner rod supporting mechanism from bottom to top, and when the device operates, a user needs to be near the body and collects the packing paper and the partition paper between the building glass, and discards the packing paper and the partition paper at the entrance of each floor, reducing the generation of building rubbish in the floor.

Furthermore, the outer supporting rod supporting mechanism comprises a compensation type outer supporting rod, an outer rod embedded plate and a pulley extending plate, the outer rod embedded plate is arranged on the outer side wall of the compensation type outer supporting rod, the pulley extending plate is arranged on the outer bottom wall of the compensation type outer supporting rod, a sleeve rod is arranged on the outer upper wall of the compensation type outer supporting rod, the compensation type outer supporting rod is connected with an outer rod control cylinder through the sleeve rod, fixed pulleys are arranged on the pulley extending plate, and the fixed pulleys are arranged in two groups and have the same direction; the support inner rod mechanism comprises a filling type inner support rod, an inner rod caulking groove and an inner rod body extension plate, the inner rod caulking groove is formed in the outer side wall of the filling type inner support rod, the inner rod body extension plate is arranged on the outer side wall of the filling type inner support rod, a sleeve rod is arranged on the outer upper wall of the filling type inner support rod, the filling type inner support rod is connected with the inner rod control cylinder through the sleeve rod, and a movable twisting pulley mechanism is arranged on the outer bottom wall of the filling type inner support rod; the outer rod embedded plate and the inner rod embedded groove are matched with each other, the outer rod embedded plate is clamped in the inner rod embedded groove in an initial state, the device can not load building glass, the directions of the two groups of fixed pulleys are the same as the direction of the movable twisting pulley mechanism, the device can be placed on a wall under the condition, even if the device turns over, the device can not cause influence, when the rotary air control type driving assembly is started, the inner rod embedded groove is gradually far away from the outer rod embedded plate, meanwhile, the building glass is transported when the inner rod rotary type supporting assembly and the outer rod fixed type supporting assembly are controlled to be mutually vertical, the directions of the two groups of fixed pulleys are mutually vertical to the direction of the movable twisting pulley mechanism, under the condition, the fixed pulleys and the movable twisting pulley mechanism with mutually vertical directions can effectively avoid turning over, even if the gravity center position of the building glass is changed by accident in the delivery or transportation stage, the side turning over can not happen in the transportation process of the device, the economic loss caused by accidents in the transfer process of the building glass is avoided.

Wherein, the movable twisting pulley mechanism comprises a rotating rod rotating groove, a rotating shaft sleeve, a sliding wheel control rotating rod, a sliding wheel fixed base, a sliding wheel control base, a movable sliding wheel and a sliding wheel control torsion spring, the rotating rod rotating groove is arranged on the bottom wall of the filled inner supporting rod, the rotating shaft is sleeved on the inner upper wall of the rotating rod rotating groove, one end of the sliding wheel control rotating rod is rotatably arranged on the rotating shaft sleeve, the sliding wheel fixed base is arranged on the outer bottom wall of the filled inner supporting rod, the other end of the sliding wheel control rotating rod penetrates through the sliding wheel fixed base and is arranged outside the filled inner supporting rod, one end of the sliding wheel control base is arranged on the other end of the sliding wheel control rotating rod, the movable sliding wheel is rotatably arranged on the other end of the sliding wheel control base, one end of the sliding wheel control torsion spring is arranged on the inner side wall of the rotating rod rotating groove, the other end of the sliding wheel control torsion spring is arranged on the inner side wall of the rotating groove of the rotating rod through a sliding wheel control rotating rod; in the initial state, the directions of the two groups of fixed pulleys are the same as the direction of the movable twisting pulley mechanism, in the final state in the use state, the directions of the two groups of fixed pulleys are mutually vertical to the direction of the movable twisting pulley mechanism, when the rotary pneumatic control type driving component is started, the rotary pneumatic control type driving component operates, the inner rod control top plate drives the inner rod control cylinder to rotate, the inner rod control cylinder drives the filling type inner supporting rod to rotate due to the connection of the sleeve rod, the sliding wheel control rotating rod is driven to rotate along the direction of the inner rod control cylinder under the action of the external force of the rotary pneumatic control type driving component, the sliding wheel control rotating rod drives the movable sliding wheel to do circular motion, the sliding wheel control torsion spring is controlled to contract, and when the inner rod control top plate is mutually vertical to the outer rod control top plate, the rotary pneumatic control type driving component stops operating, the sliding wheel control torsion spring resets to drive the sliding wheel control rotating rod to rotate, the direction of the movable sliding wheel is vertical to the direction of the two groups of fixed pulleys, so that the purpose of avoiding side turning is achieved.

Preferably, an outer supporting rod moving mechanism is arranged on the outer rod embedded plate, the supporting rod moving mechanism is composed of a plurality of groups of supporting rod moving parts in a vertical array, each supporting rod moving part comprises a movable inner groove, a rotating wheel through hole, a hidden rotating shaft, a self-locking rotating control wheel and a rotating wheel torsion spring, the movable inner groove is arranged in the outer rod embedded plate, one end of the rotating wheel through hole is arranged on the side wall of the movable inner groove, the other end of the rotating wheel through hole penetrates through the outer rod embedded plate and is arranged on the outer side wall of the outer rod embedded plate, two ends of the hidden rotating shaft are arranged on the inner side wall of the movable inner groove, a control wheel inner hole is arranged on the self-locking rotating control wheel, one end of the self-locking rotating control wheel is rotatably arranged on the hidden rotating shaft through the control wheel inner hole, the other end of the self-locking rotating control wheel is arranged outside the outer rod embedded plate through the rotating wheel through hole, one end of the rotating wheel torsion spring is arranged on the side wall of the control wheel inner hole, the other end of the rotating wheel torsion spring is arranged on the side wall of the inner hole of the control wheel through a hidden rotating shaft; when the inner rod control top plate is vertical to the outer rod control top plate, the rotary pneumatic control type driving component sucks the building glass to enable the building glass to move from bottom to top and be sucked upwards in sequence, when the building glass is in contact with the self-locking type rotary control wheel, the self-locking type rotary control wheel is stirred upwards by the building glass, when the building glass reaches a proper height, the rotary pneumatic control type driving component stops sucking the building glass, the self-locking type rotary control wheel can support and lift the building glass, meanwhile, due to the special structure of the self-locking type rotary control wheel, the self-locking type rotary control wheel can be limited by the rotation angle of the adjacent self-locking type rotary control wheel, when the building glass is taken down from the device, the outer rod control cylinder is controlled to extend, and meanwhile, the rotary pneumatic control type driving component operates to drive the device to recover to the original position, so that the inner rod control top plate is coincided with the outer rod control top plate, the user can draw out the architectural glass to install.

As a further preference of the application, a glass fixing support rod is arranged on the self-locking type rotation control wheel, a support rod control hinge is arranged on the glass fixing support rod, and a glass rotation support rod is arranged on the support rod control hinge; in order to prevent the construction glass from being scratched to influence use when the construction glass is contacted with the self-locking type rotation control wheel, the construction glass is firstly contacted with the glass rotation supporting rod when moving from bottom to top, and the glass rotation supporting rod is driven to rotate by taking the supporting rod control hinge as a circle center to be far away from the glass fixing supporting rod, and when the construction glass is far away from the glass rotation supporting rod, the glass rotation supporting rod can restore to the original position to be contacted with the glass fixing supporting rod.

Furthermore, the inner support rod extending plate is provided with inner support rod moving mechanisms, the structures of the inner support rod moving mechanisms and the outer support rod moving mechanisms are the same, and the inner support rod moving mechanisms are arranged in two groups; the double-group inner support rod moving mechanism can ensure that building glass cannot turn over on one side when the inner rod control top plate and the outer rod control top plate are overlapped and restored to the original position even if the outer rod control top plate rotates.

Furthermore, the rotary pneumatic control type driving assembly comprises an angle rotation control mechanism and a pneumatic control type glass suction mechanism, the angle rotation control mechanism comprises a control box, an isolation box, a two-way motor and a main control rod, the control box is arranged on an outer rod control top plate, the isolation box is arranged on the inner bottom wall of the control box, a top plate through hole is formed in the outer rod control top plate, the two-way motor is arranged on the inner upper wall of the isolation box, one end of the main control rod is arranged on the outer upper wall of the inner rod control top plate, and the other end of the main control rod penetrates through the top plate through hole and is connected with the output shaft end of the two-way motor; at initial state, interior pole control roof coincides mutually with outer pole control roof, start two-way motor, two-way motor rotates and drives the rotation of master control pole, the master control pole rotates and drives interior pole control roof and rotates, when interior pole control roof is perpendicular with outer pole control roof, can carry out architectural glass's transport, when using the end, control two-way motor reverse rotation, two-way motor drives through the master control pole and coincides each other until interior pole control roof and outer pole control roof, outer pole panel joint returns the normal position in interior pole caulking groove.

Further, the air pressure control type glass suction mechanism comprises a control air bag, a servo motor, a supporting rotating shaft, an auxiliary rotating disc, a first driving belt, a winding rod and a first control rotating disc, the control air bag is arranged on the inner upper wall of the control box, the servo motor is arranged on the inner side wall of the control box, the supporting rotating shaft is rotatably arranged on the inner side wall of the control box, the auxiliary rotating disc is rotatably arranged on the supporting rotating shaft, one end of the first driving belt is arranged on the auxiliary rotating disc, the other end of the first driving belt is arranged on the first control rotating disc, the winding rod is oppositely arranged on the supporting rotating shaft, one end of the winding rod is arranged on the auxiliary rotating disc, the other end of the first control rotating disc is arranged on the supporting rotating shaft through the supporting rotating shaft, one end of the first control rotating disc is connected with the first driving belt, and the other end of the first control rotating disc is connected with the output shaft end of the servo motor, the control device comprises a control box, a control turntable I, a control box and a control turntable II, wherein the control turntable I is provided with an external control gear I, the inner side wall of the control box is rotatably provided with an auxiliary rotating shaft, the auxiliary rotating shaft is rotatably provided with the control turntable II, one end of the control turntable II is provided with an external control gear II, the other end of the control turntable II is provided with a transmission belt II, the transmission belt II is connected with the auxiliary turntable, and the external control gear II is meshed with the external control gear I; when the device is used, the servo motor is started, the servo motor rotates to drive the first control turntable to rotate, the first control turntable drives the transmission belt to rotate and the first external control gear to rotate, the first external control gear rotates to drive the second external control gear to rotate, and the second external control gear rotates to drive the second control turntable to rotate. And the first transmission belt and the second transmission belt rotate to drive the winding rods on the two sides to rotate along the supporting rotating shaft.

Furthermore, an air pipe is arranged on the control air bag, an air control through hole is formed in the outer side wall of the control box, one end of the air pipe is connected with the control air bag, the other end of the air pipe is arranged outside the control box through the winding rod and the air control through hole, and a sucker is arranged at the other end of the air pipe; along with the rotation of wire winding pole along supporting the axis of rotation, can drive the outside trachea of control box and receive and close, adsorb building glass with the sucking disc on, the control gasbag breathes in, then drives building glass up-and-down motion and carries.

The invention with the structure has the following beneficial effects:

1. when the glass leaves a factory, the traditional vertical placing method is changed into a horizontal placing method by controlling the mode that the air bags adsorb the building glass at the entrances of all floors, so that the gravity center of the building glass is balanced, the risk of side turning during the carrying of the building glass can be effectively prevented, the capacity of carrying the building glass by the device is greatly increased, the labor cost is reduced, the task of collecting the partition paper between the glass packing paper and each building glass is solved at the entrances of the floors, and the generation of building garbage in the floors is reduced.

2. The invention method based on harm changing to benefit (harmful factors, especially harmful factors to environment are utilized to obtain beneficial results) enables the directions of the two groups of fixed pulleys and the direction of the movable twisting pulley mechanism to be different in different using stages, so that the mobility of the pulleys is maintained, the harmful factors which are easy to turn over are converted into beneficial factors which can stably advance, the building glass cannot turn over in the carrying process of the device even if the gravity center position of the building glass is changed due to accidents in the delivery or transportation stage, and the economic loss caused by accidents in the transferring process of the building glass is avoided.

3. The self-locking type rotary control wheel and the glass rotary supporting rod which are designed according to the invention principle of multi-dimension (a multi-layer structure is used for replacing a single-layer structure) can reduce the possibility of scratching building glass in the process of carrying the building glass from bottom to top to the lowest, and meanwhile, the inner supporting rod movable mechanisms arranged in two groups can ensure that the building glass cannot be laterally turned over even if the outer rod control top plate rotates and the inner rod control top plate and the outer rod control top plate are superposed and restored to the original position.

Drawings

FIG. 1 is a schematic view of a retractable window lift system according to the present invention;

FIG. 2 is a schematic view of a retractable window lift system according to the present invention in a retracted position;

FIG. 3 is a first schematic structural diagram of an inner rod rotary type supporting component and an outer rod fixed type supporting component of the retractable glass lifting/lowering/transporting device provided by the present invention;

FIG. 4 is a second schematic structural view of an inner rod rotary type supporting assembly and an outer rod fixed type supporting assembly of the retractable glass lifting/lowering/transporting device of the present invention;

FIG. 5 is a cross-sectional view of FIG. 3;

FIG. 6 is a schematic perspective view of a retractable window lift system with a filled inner support rod according to the present invention;

FIG. 7 is a cross-sectional view of FIG. 6;

FIG. 8 is a schematic perspective view of a compensating outer support rod of a retractable glass lifting/lowering device according to the present invention;

FIG. 9 is a cross-sectional view of FIG. 8;

FIG. 10 is a schematic perspective view of a self-locking rotary control wheel of the retractable window regulator transport device according to the present invention;

fig. 11 is a schematic perspective view of an air pressure control type glass suction mechanism of a retractable glass lifting/lowering transporting device according to the present invention.

Wherein, 1, a rotary pneumatic control type driving component, 2, an inner rod rotary type supporting component, 3, an outer rod fixed type supporting component, 4, an outer rod control top plate, 5, an outer rod control cylinder, 6, a supporting outer rod mechanism, 7, an inner rod control top plate, 8, an inner rod control cylinder, 9, a supporting inner rod mechanism, 10, a compensation type outer supporting rod, 11, an outer rod panel, 12, a pulley extension plate, 13, a loop bar, 14, a fixed pulley, 15, a filling type inner supporting rod, 16, an inner rod caulking groove, 17, an inner rod body extension plate, 18, a movable twisting pulley mechanism, 19, a rotating rod rotating groove, 20, a rotating shaft sleeve, 21, a sliding wheel control rotating rod, 22, a sliding wheel fixed base, 23, a sliding wheel control base, 24, a movable sliding wheel, 25, a sliding wheel control torsion spring, 26, an outer supporting rod moving mechanism, 27, a movable inner groove, 28, a rotating wheel through hole, 29. the glass vacuum cleaner comprises a hidden rotating shaft, 30, a self-locking rotating control wheel, 31, a rotating wheel torsion spring, 32, a control wheel inner hole, 33, a glass fixed supporting rod, 34, a supporting rod control hinge, 35, a glass rotating supporting rod, 36, an inner supporting rod moving mechanism, 37, an angle rotating control mechanism, 38, an air pressure control type glass suction mechanism, 39, a control box, 40, an isolation box, 41, a bidirectional motor, 42, a main control rod, 43, a top plate through hole, 44, a control air bag, 45, a servo motor, 46, a supporting rotating shaft, 47, an auxiliary rotating disk, 48, a first driving belt, 49, a winding rod, 50, a first control rotating disk, 51, a first outer control gear, 52, a rotating auxiliary shaft, 53, a second control rotating disk, 54, a second outer control gear, 55, a second driving belt, 56, an air pipe, 57, an air control through hole, 58 and a suction cup.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1, 2 and 3, the retractable glass lifting, placing and transporting device provided by the invention comprises a rotary pneumatic control type driving component 1, an inner rod rotary type supporting component 2 and an outer rod fixed type supporting component 3, wherein the rotary pneumatic control type driving component 1 is arranged on the outer upper wall of the outer rod fixed type supporting component 3, one end of the inner rod rotary type supporting component 2 is rotatably arranged on the rotary pneumatic control type driving component 1, and the other end of the inner rod rotary type supporting component 2 penetrates through the outer rod fixed type supporting component 3 and is arranged outside the inner rod rotary type supporting component 2.

As shown in fig. 1, 2 and 3, the inner rod rotary type support assembly 2 includes an inner rod control top plate 7 and an inner rod control cylinder 8, the inner rod control cylinders 8 are arranged in pair, the inner rod control cylinders 8 are arranged in axial symmetry, one end of the inner rod control cylinder 8 is arranged on the side wall of the inner rod control top plate 7, and the other end of the inner rod control cylinder 8 is provided with a support inner rod mechanism 9; the fixed supporting component 3 of outer pole includes outer pole control roof 4 and outer pole control cylinder 5, and outer pole control cylinder 5 is to setting up, and outer pole control cylinder 5 is the axisymmetric setting, and on outer pole control roof 4's lateral wall was located to the one end of outer pole control cylinder 5, it supported outer pole mechanism 6 to be equipped with on the other end of outer pole control cylinder 5.

As shown in fig. 1, 2, 3 and 4, the outer supporting rod mechanism 6 includes a compensation type outer supporting rod 10, an outer rod panel 11, and a pulley extension plate 12, the outer rod panel 11 is disposed on the outer sidewall of the compensation type outer supporting rod 10, the pulley extension plate 12 is disposed on the outer bottom wall of the compensation type outer supporting rod 10, a sleeve rod 13 is disposed on the outer upper wall of the compensation type outer supporting rod 10, the compensation type outer supporting rod 10 is connected to the outer rod control cylinder 5 through the sleeve rod 13, a fixed pulley 14 is disposed on the pulley extension plate 12, and two sets of fixed pulleys 14 are disposed and have the same direction; the support inner rod mechanism 9 comprises a filling type inner support rod 15, an inner rod caulking groove 16 and an inner rod body extension plate 17, the inner rod caulking groove 16 is arranged on the outer side wall of the filling type inner support rod 15, the inner rod body extension plate 17 is arranged on the outer side wall of the filling type inner support rod 15, a sleeve rod 13 is arranged on the outer upper wall of the filling type inner support rod 15, the filling type inner support rod 15 is connected with the inner rod control cylinder 8 through the sleeve rod 13, and a movable twisting pulley mechanism 18 is arranged on the outer bottom wall of the filling type inner support rod 15; the movable twisting pulley mechanism 18 comprises a rotating rod rotating groove 19, a rotating shaft sleeve 20, a sliding wheel control rotating rod 21, a sliding wheel fixing base 22, a sliding wheel control base 23, a movable sliding wheel 24 and a sliding wheel control torsion spring 25, wherein the rotating rod rotating groove 19 is arranged on the bottom wall of the filled inner supporting rod 15, the rotating shaft sleeve 20 is arranged on the inner upper wall of the rotating rod rotating groove 19, one end of the sliding wheel control rotating rod 21 is rotatably arranged on the rotating shaft sleeve 20, the sliding wheel fixing base 22 is arranged on the outer bottom wall of the filled inner supporting rod 15, the other end of the sliding wheel control rotating rod 21 penetrates through the sliding wheel fixing base 22 and is arranged outside the filled inner supporting rod 15, one end of the sliding wheel control base 23 is arranged on the other end of the sliding wheel control rotating rod 21, the movable sliding wheel 24 is rotatably arranged on the other end of the sliding wheel control base 23, one end of the sliding wheel control torsion spring 25 is arranged on the inner side wall of the rotating rod rotating groove 19, the other end of the sliding wheel control torsion spring 25 is arranged on the inner side wall of the rotating rod rotating groove 19 through the sliding wheel control rotating rod 21.

As shown in fig. 6, 7, 8 and 9, the outer rod panel 11 is provided with an outer support rod moving mechanism 26, the support rod moving mechanism is composed of a plurality of sets of vertical arrays of support rod moving members, each of the support rod moving members includes a moving inner groove 27, a rotating wheel through hole 28, a hidden rotating shaft 29, a self-locking rotating control wheel 30 and a rotating wheel torsion spring 31, the moving inner groove 27 is arranged in the outer rod panel 11, one end of the rotating wheel through hole 28 is arranged on the side wall of the moving inner groove 27, the other end of the rotating wheel through hole 28 penetrates through the outer rod panel 11 and is arranged on the outer side wall of the outer rod panel 11, both ends of the hidden rotating shaft 29 are arranged on the inner side wall of the moving inner groove 27, the self-locking rotating control wheel 30 is provided with a control wheel inner hole 32, one end of the self-locking rotating control wheel 30 is rotatably arranged on the hidden rotating shaft 29 through the control wheel inner hole 32, the other end of the self-locking rotating control wheel 30 penetrates through the rotating wheel through hole 28 and is arranged outside the outer rod panel 11, one end of the rotating wheel torsion spring 31 is arranged on the side wall of the control wheel inner hole 32, and the other end of the rotating wheel torsion spring 31 is arranged on the side wall of the control wheel inner hole 32 through the hidden rotating shaft 29.

As shown in fig. 5, 6, 7, 8 and 9, the rotary air-controlled driving assembly 1 includes an angle rotation control mechanism 37 and an air-controlled glass suction mechanism 38, the angle rotation control mechanism 37 includes a control box 39, an isolation box 40, a bidirectional motor 41 and a main control rod 42, the control box 39 is disposed on the outer rod control top plate 4, the isolation box 40 is disposed on the inner bottom wall of the control box 39, a top plate through hole 43 is disposed on the outer rod control top plate 4, the bidirectional motor 41 is disposed on the inner upper wall of the isolation box 40, one end of the main control rod 42 is disposed on the outer upper wall of the inner rod control top plate 7, and the other end of the main control rod 42 penetrates through the top plate through hole 43 and is connected with the output shaft end of the bidirectional motor 41.

As shown in fig. 5, 6, 7, 8 and 9, the air pressure control type glass suction mechanism 38 includes a control air bag 44, a servo motor 45, a support rotation shaft 46, an auxiliary rotation disc 47, a first transmission belt 48, a wire winding rod 49 and a first control rotation disc 50, the control air bag 44 is arranged on the inner upper wall of the control box 39, the servo motor 45 is arranged on the inner side wall of the control box 39, the support rotation shaft 46 is arranged on the inner side wall of the control box 39 in a way of facing, the support rotation shaft 46 is arranged on the inner side wall of the control box 39 in a way of rotating, the auxiliary rotation disc 47 is arranged on the support rotation shaft 46 in a way of rotating, one end of the first transmission belt 48 is arranged on the auxiliary rotation disc 47, the other end of the first transmission belt 48 is arranged on the first control rotation disc 50, the wire winding rod 49 is arranged on the support rotation shaft 46 in a way of facing, one end of the wire winding rod 49 is arranged on the auxiliary rotation disc 47, the other end of the wire winding rod 49 is arranged on the support rotation shaft 46 through the support rotation shaft 46, one end of a first control turntable 50 is connected with a first transmission belt 48, the other end of the first control turntable 50 is connected with the output shaft end of a servo motor 45, a first external control gear 51 is arranged on the first control turntable 50, a second rotating auxiliary shaft 52 is rotatably arranged on the inner side wall of a control box 39, a second control turntable 53 is rotatably arranged on the second rotating auxiliary shaft 52, a second external control gear 54 is arranged at one end of the second control turntable 53, a second transmission belt 55 is arranged at the other end of the second turntable, the second transmission belt 55 is connected with an auxiliary turntable 47, and the second external control gear 54 is meshed with the first external control gear 51.

As shown in fig. 5, an air tube 56 is provided on the control air bag 44, an air control through hole 57 is provided on the outer side wall of the control box 39, one end of the air tube 56 is connected with the control air bag 44, the other end of the air tube 56 is provided outside the control box 39 through the wire winding rod 49 and the air control through hole 57, and a suction cup 58 is provided on the other end of the air tube 56.

As shown in fig. 10, the self-locking rotation control wheel 30 is provided with a glass fixing support rod 33, the glass fixing support rod 33 is provided with a support rod control hinge 34, and the support rod control hinge 34 is provided with a glass rotation support rod 35.

As shown in fig. 6, the inner body extension plate 17 is provided with inner support rod moving mechanisms 36, the inner support rod moving mechanisms 36 and the outer support rod moving mechanisms 26 have the same structure, and the inner support rod moving mechanisms 36 are arranged in two groups.

When the glass is transported to each floor of each building site from factory, firstly, at the entrance of each floor, the glass with the packing paper is stably placed between the ground and the device, and the packing paper is removed, when in an initial state, the outer rod panel 11 is clamped in the inner rod caulking groove 16, the inner rod control top plate 7 is superposed with the outer rod control top plate 4, the two-way motor 41 is started, the two-way motor 41 rotates to drive the main control rod 42 to rotate, the main control rod 42 rotates to drive the inner rod control top plate 7 to rotate until the inner rod control top plate 7 is vertical to the outer rod control top plate 4, the outer rod control cylinder 5 and the inner rod control cylinder 8 are respectively started, so that the device can be matched with building glass with different sizes, then the servo motor 45 is started, the servo motor 45 rotates to drive the control turntable 50 to rotate, the control turntable 50 drives the transmission belt 48 and the outer control gear 51 to rotate, the first external control gear 51 rotates to drive the second external control gear 54 to rotate, and the second external control gear 54 rotates to drive the second control turntable 53 to rotate. The second control turntable 53 rotates to drive the second transmission belt 55 to rotate, the first transmission belt 48 and the second transmission belt 55 rotate to drive the wire winding rods 49 on two sides to rotate along the supporting rotating shaft 46, further drive the air pipe 56 outside the control box 39 to be collected, rotate the servo motor 45 in the forward direction, extend the air pipe 56, adsorb the suction disc 58 on the building glass, control the air bag 44 to suck air, then drive the building glass to move from bottom to top and be adsorbed upwards in sequence, when the building glass is contacted with the self-locking rotation control wheel 30, the self-locking rotation control wheel 30 is stirred upwards by the building glass, when the building glass reaches a proper height, the air bag 44 is controlled to stop sucking air, the self-locking rotation control wheel 30 can lift the building glass, and simultaneously due to the special structure of the self-locking rotation control wheel 30, the self-locking rotation control wheel 30 can be limited by the rotating angle of the adjacent self-locking rotation control wheel 30, can not rotate excessively, building glass can rotate the bracing piece 35 with glass earlier and contact when moving from bottom to top, and drive glass and rotate the bracing piece 35 and use bracing piece control hinge 34 to rotate as the centre of a circle and keep away from with glass fixed support bar 33, when building glass rotated the bracing piece 35 with glass and kept away from mutually, glass rotated the bracing piece 35 and can resume the normal position and contact with glass fixed support bar 33, in this device operation, the user need near the department and collect the paper at a distance from between wrapping paper and each building glass, and abandon them at each floor entrance, reduce the production of building rubbish in the floor.

Then, when the building glass is to be taken down from the device, the outer rod control cylinder 5 is controlled to extend, the bidirectional motor 41 is controlled to rotate reversely, the bidirectional motor 41 is driven by the main control rod 42 until the inner rod control top plate 7 and the outer rod control top plate 4 coincide with each other, the outer rod panel 11 is clamped in the inner rod embedding groove 16 and returns to the original position, the building glass is supported by the inner support rod moving mechanisms 36 arranged in the two groups, side turning cannot occur, and a user can take out the building glass for installation.

Wherein, in the initial state, the device can not load building glass, the direction of the two groups of fixed pulleys 14 is the same as the direction of the movable twisting pulley mechanism 18, under the condition, the device can be placed on the wall, even if the device is turned over, the device can not be influenced, when the device is operated, the inner rod control cylinder 8 drives the filling type inner supporting rod 15 to rotate, the sliding wheel control rotating rod 21 is driven to rotate along the direction of the inner rod control cylinder 8 under the action of the external force of the rotary pneumatic control type driving component 1, the sliding wheel control rotating rod 21 drives the movable sliding wheel 24 to do circular motion, the sliding wheel control torsion spring 25 is controlled to contract until the inner rod control top plate 7 is vertical to the outer rod control top plate 4, the rotary pneumatic control type driving component 1 stops operating, the sliding wheel control torsion spring 25 resets to drive the sliding wheel control rotating rod 21 to rotate, so that the direction of the movable sliding wheel 24 is vertical to the direction of the two groups of fixed pulleys 14, under the condition, the fixed pulleys 14 and the movable twisting pulley mechanisms 18 which are mutually vertical can effectively avoid side turning, so that the side turning cannot happen in the carrying process of the device even if the gravity center position of the building glass is changed due to accidents in the delivery or transportation stage, and the economic loss caused by the accidents in the transferring process of the building glass is avoided.

The above is the overall working process of the invention, and the steps are repeated when the device is used next time.

It is noted that, herein, relational terms such as first and second, and the like may be 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 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.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a conveyer is placed in collapsible formula glass-frame riser which characterized in that: including rotating gas accuse formula drive assembly (1), interior pole rotary type supporting component (2) and the fixed supporting component of outer pole (3), rotate on the outer upper wall that gas accuse formula drive assembly (1) was located the fixed supporting component of outer pole (3), the one end of pole supporting component (2) is rotated and is located on rotating gas accuse formula drive assembly (1) in the rotary type, the other end of interior pole rotary type supporting component (2) runs through the fixed supporting component of outer pole (3) and locates outside pole rotary type supporting component (2).

2. A retractable window lift placement and transportation device as in claim 1 wherein: the outer rod fixed type supporting assembly (3) comprises an outer rod control top plate (4) and an outer rod control cylinder (5), the outer rod control cylinders (5) are arranged in a pair mode, the outer rod control cylinders (5) are arranged in an axial symmetry mode, one end of each outer rod control cylinder (5) is arranged on the side wall of the outer rod control top plate (4), and a supporting outer rod mechanism (6) is arranged at the other end of each outer rod control cylinder (5); interior pole rotary type supporting component (2) are including interior pole control roof (7) and interior pole control cylinder (8), interior pole control cylinder (8) are to setting up, interior pole control cylinder (8) are the axisymmetric setting, on the lateral wall of interior pole control roof (7) is located to the one end of interior pole control cylinder (8), be equipped with pole mechanism (9) in the support on the other end of interior pole control cylinder (8).

3. A retractable window lift placement and transportation device as in claim 2, wherein: the outer supporting rod mechanism (6) comprises a compensation type outer supporting rod (10), an outer rod embedded plate (11) and a pulley extending plate (12), the outer rod embedded plate (11) is arranged on the outer side wall of the compensation type outer supporting rod (10), the pulley extending plate (12) is arranged on the outer bottom wall of the compensation type outer supporting rod (10), a sleeve rod (13) is arranged on the outer upper wall of the compensation type outer supporting rod (10), the compensation type outer supporting rod (10) is connected with an outer rod control cylinder (5) through the sleeve rod (13), fixed pulleys (14) are arranged on the pulley extending plate (12), and the directions of the two groups of fixed pulleys (14) are the same; the support inner rod mechanism (9) comprises a filling type inner supporting rod (15), an inner rod caulking groove (16) and an inner rod body extending plate (17), the inner rod caulking groove (16) is formed in the outer side wall of the filling type inner supporting rod (15), the inner rod body extending plate (17) is formed in the outer side wall of the filling type inner supporting rod (15), a sleeve rod (13) is arranged on the outer upper wall of the filling type inner supporting rod (15), the filling type inner supporting rod (15) is connected with an inner rod control cylinder (8) through the sleeve rod (13), and a movable twisting pulley mechanism (18) is arranged on the outer bottom wall of the filling type inner supporting rod (15).

4. A retractable window lift placement and transportation device as in claim 3 wherein: the movable twisting pulley mechanism (18) comprises a rotating rod rotating groove (19), a rotating shaft sleeve (20), a sliding wheel control rotating rod (21), a sliding wheel fixing base (22), a sliding wheel control base (23), a movable sliding wheel (24) and a sliding wheel control torsion spring (25), wherein the rotating rod rotating groove (19) is formed in the bottom wall of the filled inner supporting rod (15), the rotating shaft sleeve (20) is arranged on the inner upper wall of the rotating rod rotating groove (19), one end of the sliding wheel control rotating rod (21) is rotatably arranged on the rotating shaft sleeve (20), the sliding wheel fixing base (22) is arranged on the outer bottom wall of the filled inner supporting rod (15), the other end of the sliding wheel control rotating rod (21) penetrates through the sliding wheel fixing base (22) and is arranged outside the filled inner supporting rod (15), one end of the sliding wheel control base (23) is arranged at the other end of the sliding wheel control rotating rod (21), the movable sliding wheel (24) rotates and is arranged at the other end of the sliding wheel control base (23), one end of the sliding wheel control torsion spring (25) is arranged on the inner side wall of the rotating rod rotating groove (19), and the other end of the sliding wheel control torsion spring (25) is arranged on the inner side wall of the rotating rod rotating groove (19) through the sliding wheel control rotating rod (21).

5. A retractable window lift placement and transportation device as in claim 4, wherein: an outer supporting rod moving mechanism (26) is arranged on the outer rod embedded plate (11), the supporting rod moving mechanism is composed of a plurality of groups of vertical supporting rod moving parts in an array mode, each supporting rod moving part comprises a movable inner groove (27), a rotating wheel through hole (28), a hidden rotating shaft (29), a self-locking rotating control wheel (30) and a rotating wheel torsion spring (31), each movable inner groove (27) is arranged in the outer rod embedded plate (11), one end of each rotating wheel through hole (28) is arranged on the side wall of each movable inner groove (27), the other end of each rotating wheel through hole (28) penetrates through the outer rod embedded plate (11) and is arranged on the outer side wall of the outer rod embedded plate (11), two ends of each hidden rotating shaft (29) are arranged on the inner side wall of each movable inner groove (27), a control wheel inner hole (32) is arranged on the self-locking rotating control wheel (30), one self-locking end of each rotating control wheel (30) is rotatably arranged on the hidden rotating shaft (29) through the control wheel inner hole (32), the other end of the self-locking type rotation control wheel (30) penetrates through the rotation wheel through hole (28) and is arranged outside the outer rod embedded plate (11), one end of the rotation wheel torsion spring (31) is arranged on the side wall of the control wheel inner hole (32), and the other end of the rotation wheel torsion spring (31) is arranged on the side wall of the control wheel inner hole (32) through the hidden type rotating shaft (29).

6. A retractable window lift placement and transportation device as in claim 5, wherein: the self-locking type rotary control wheel (30) is provided with a glass fixing support rod (33), a support rod control hinge (34) is arranged on the glass fixing support rod (33), and a glass rotary support rod (35) is arranged on the support rod control hinge (34).

7. A retractable window lift placement and transportation device as in claim 6, wherein: the inner support rod extending plate (17) is provided with inner support rod moving mechanisms (36), the inner support rod moving mechanisms (36) and the outer support rod moving mechanisms (26) have the same structure, and the inner support rod moving mechanisms (36) are arranged in two groups.

8. A retractable window lift placement and transportation device as in claim 7 wherein: the rotary pneumatic control type driving assembly (1) comprises an angle rotation control mechanism (37) and a pneumatic control type glass suction mechanism (38), the angle rotation control mechanism (37) comprises a control box (39), an isolation box (40), a two-way motor (41) and a main control rod (42), the control box (39) is arranged on an outer rod control top plate (4), the isolation box (40) is arranged on the inner bottom wall of the control box (39), a top plate through hole (43) is formed in the outer rod control top plate (4), the two-way motor (41) is arranged on the inner upper wall of the isolation box (40), one end of the main control rod (42) is arranged on the outer upper wall of the inner rod control top plate (7), and the other end of the main control rod (42) penetrates through the top plate through hole (43) and is connected with the output shaft end of the two-way motor (41).

9. A retractable window lift placement and transportation device as in claim 8 wherein: the air pressure control type glass suction mechanism (38) comprises a control air bag (44), a servo motor (45), a support rotating shaft (46), an auxiliary rotating disc (47), a first transmission belt (48), a wire winding rod (49) and a first control rotating disc (50), wherein the control air bag (44) is arranged on the inner upper wall of the control box (39), the servo motor (45) is arranged on the inner side wall of the control box (39), the support rotating shaft (46) is arranged on the inner side wall of the control box (39) in a rotating way, the auxiliary rotating disc (47) is arranged on the support rotating shaft (46) in a rotating way, one end of the first transmission belt (48) is arranged on the auxiliary rotating disc (47), the other end of the first transmission belt (48) is arranged on the first control rotating disc (50), the wire winding rod (49) is arranged on the support rotating shaft (46), one end of the winding rod (49) is arranged on the auxiliary turntable (47), the other end of the winding rod (49) is arranged on the supporting rotating shaft (46) through the supporting rotating shaft (46), one end of the first control rotating disc (50) is connected with the first transmission belt (48), the other end of the first control rotating disc (50) is connected with the output shaft end of the servo motor (45), an external control gear I (51) is arranged on the control turntable I (50), a rotation auxiliary shaft (52) is rotatably arranged on the inner side wall of the control box (39), a second control turntable (53) is rotatably arranged on the auxiliary rotating shaft (52), one end of the second control turntable (53) is provided with a second external control gear (54), a second transmission belt (55) is arranged at the other end of the second rotating disc, the second transmission belt (55) is connected with the auxiliary rotating disc (47), the second external control gear (54) is meshed with the first external control gear (51).

10. A retractable window lift placement and transportation device as in claim 9 wherein: be equipped with trachea (56) on control gasbag (44), be equipped with gas accuse through-hole (57) on the lateral wall of control box (39), the one end of trachea (56) links to each other with control gasbag (44), outside control box (39) was located through wire wrapping rod (49) and gas accuse through-hole (57) to the other end of trachea (56), be equipped with sucking disc (58) on the other end of trachea (56).

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