CN105459050A - Assembling transfer equipment for rapid forming wall - Google Patents

Abstract

The invention provides assembling transfer equipment for a rapid forming wall. The assembling transfer equipment comprises a turnover motor and a speed reducer. The turnover motor and the speed reducer enable an inner frame arranged on an outer frame to be turned over through rotary shafts at the two ends. Front-back electric-hydraulic push rods are arranged at the same ends of the two sides, parallel to the rotary shafts, of the inner frame, and a front-back extrusion cross beam is connected between the two front-back electric-hydraulic push rods and is perpendicular to the rotary shafts. Left-right electric-hydraulic push rods are arranged at the two ends of each side, with the corresponding rotary shaft, of the inner frame, force output shafts of the left-right electric-hydraulic push rods at the two ends are arranged oppositely, and a left-right extrusion cross beam is connected between every two left-right electric-hydraulic push rods in the same drive direction. After a wallboard is automatically clamped, the wallboard is driven by the inner frame to be turned over by 180 degrees and then waits for operation of the next procedure, the assembling transfer function is achieved, the structure is simple, and efficiency and precision are high. By means of a proximity switch and a travel switch, the safety of the equipment is improved, and the service life of the equipment is prolonged.

Description

Rapid shaping body of wall assembling transloading equipment

Technical field

The invention belongs to machining wallboard apparatus field, specifically, relate to rapid shaping body of wall assembling transloading equipment.

Background technology

Indoor partition and indoor partition are the partition wall system of non-bearing wall body, mainly split room and building interior space, thus realize ventilating, the object of daylighting, body of wall needs to be convenient to tear open to move, have certain degree of hardness and compartment ability simultaneously.

Existing partition wall is all site operation assembling usually, artificial installation, waste time and energy, installation accuracy is difficult to ensure simultaneously, if partition wall can be assembled in factory, simple assembling is carried out at scene just can be time saving and energy saving, and can ensure assembly precision, so the splicing equipment how designing a kind of wallboard becomes the problem of those skilled in the art's research.

Summary of the invention

In view of this, the present invention is intended to propose a kind of wallboard splicing equipment rapid shaping body of wall assembling transloading equipment, to improve the assembled efficiency of wallboard and precision.

For achieving the above object, technical scheme of the present invention is achieved in that

Rapid shaping body of wall assembling transloading equipment, comprise outside framework and inner frame, the two ends of described outside framework are connected by rotating shaft with described inner frame, the described rotating shaft of one end is driven by upset motor and speed reducer, the both sides that described inner frame is parallel to described rotating shaft are equipped with front and back Electrohydraulic push rod with one end, extruding crossbeam before and after being connected with between Electrohydraulic push rod before and after described two, described front and back extruding beam vertical is in described rotating shaft, the two ends that described inner frame installs each limit of described rotating shaft are equipped with left and right Electrohydraulic push rod, and the force-output shaft of the described left and right Electrohydraulic push rod at two ends is oppositely arranged, left and right extruding crossbeam is connected between the left and right Electrohydraulic push rod that every two driving directions are identical.

Zigzag connector by being oppositely arranged between the left and right Electrohydraulic push rod that described every two driving directions are identical connects left and right extruding crossbeam.

Described front and back extruding crossbeam is bilevel frame structure, described left and right extruding crossbeam described front and back extruding crossbeam two-layer up and down between.

Described outside framework is provided with proximity switch support, and described proximity switch support is provided with proximity switch, and described proximity switch lays respectively at the extreme position moved forward and backward of each described left and right Electrohydraulic push rod.

Described outside framework is provided with travel switch bracket, and described travel switch bracket is provided with travel switch, described travel switch be positioned to extrude with described front and back beam vertical on, and described travel switch is arranged away from described front and back extruding crossbeam.

Relative to prior art, rapid shaping body of wall assembling transloading equipment of the present invention has following advantage:

1. before and after the present invention is driven by the front and back on inner frame and left and right Electrohydraulic push rod and left and right extrudes crossbeam and clamps wallboard, and after turning over turnback by upset driven by motor inner frame, wait for the operation of subsequent processing, realize assembling transport function, and achieve automation, structure is simple, efficiency and precision high.

2. the zigzag connector by being oppositely arranged between the left and right Electrohydraulic push rod that every two driving directions are identical connects left and right extruding crossbeam, when reducing the size of outside framework as far as possible, can meet the clamping of different size wallboard, improve adaptability.

3. the security that raising equipment is set of proximity switch and travel switch and service life.

Accompanying drawing explanation

The accompanying drawing forming a part of the present invention is used to provide a further understanding of the present invention, and schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is top view of the present invention;

Fig. 2 is Fig. 1 left view;

Fig. 3 is Fig. 1 front view.

In figure: 1. outside framework, 2. inner frame, extrude crossbeam 3., Electrohydraulic push rod 4., 5. overturns motor, 6. Electrohydraulic push rod about, 7. reductor base plate, 8. reductor, 9. proximity switch support, 10. proximity switch, 11. travel switches, 12. travel switch brackets, extrude crossbeam before and after 13..

Detailed description of the invention

It should be noted that, when not conflicting, the embodiment in the present invention and the feature in embodiment can combine mutually.

Below with reference to the accompanying drawings and describe the present invention in detail in conjunction with the embodiments.

Rapid shaping body of wall assembling transloading equipment, comprise outside framework and inner frame, the two ends of described outside framework are connected by rotating shaft with described inner frame, the described rotating shaft of one end is driven by upset motor and speed reducer, the both sides that described inner frame is parallel to described rotating shaft are equipped with front and back Electrohydraulic push rod with one end, extruding crossbeam before and after being connected with between Electrohydraulic push rod before and after described two, described front and back extruding beam vertical is in described rotating shaft, the two ends that described inner frame installs each limit of described rotating shaft are equipped with left and right Electrohydraulic push rod, and the force-output shaft of the described left and right Electrohydraulic push rod at two ends is oppositely arranged, left and right extruding crossbeam is connected between the left and right Electrohydraulic push rod that every two driving directions are identical.

Zigzag connector by being oppositely arranged between the left and right Electrohydraulic push rod that described every two driving directions are identical connects left and right extruding crossbeam.

Described front and back extruding crossbeam is bilevel frame structure, described left and right extruding crossbeam described front and back extruding crossbeam two-layer up and down between.

Described outside framework is provided with proximity switch support, and described proximity switch support is provided with proximity switch, and described proximity switch lays respectively at the extreme position moved forward and backward of each described left and right Electrohydraulic push rod.

Described outside framework is provided with travel switch bracket, and described travel switch bracket is provided with travel switch, described travel switch be positioned to extrude with described front and back beam vertical on, and described travel switch is arranged away from described front and back extruding crossbeam.

The course of work: when wallboard runs to this station place, start each Electrohydraulic push rod to clamp wallboard, when travel switch encountered by wallboard, front and back Electrohydraulic push rod stops continuing to advance front and back to extrude crossbeam, wallboard locating clip tight knot bundle, start upset driven by motor inner frame and overturn 180 °, wallboard also overturns 180 ° thereupon and prepares for locking screw operation below.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (5)

1. rapid shaping body of wall assembling transloading equipment, it is characterized in that: comprise outside framework and inner frame, the two ends of described outside framework are connected by rotating shaft with described inner frame, the described rotating shaft of one end is driven by upset motor and speed reducer, the both sides that described inner frame is parallel to described rotating shaft are equipped with front and back Electrohydraulic push rod with one end, extruding crossbeam before and after being connected with between Electrohydraulic push rod before and after described two, described front and back extruding beam vertical is in described rotating shaft, the two ends that described inner frame installs each limit of described rotating shaft are equipped with left and right Electrohydraulic push rod, and the force-output shaft of the described left and right Electrohydraulic push rod at two ends is oppositely arranged, left and right extruding crossbeam is connected between the left and right Electrohydraulic push rod that every two driving directions are identical.

2. rapid shaping body of wall assembling transloading equipment according to claim 1, is characterized in that: the zigzag connector by being oppositely arranged between the left and right Electrohydraulic push rod that described every two driving directions are identical connects left and right extruding crossbeam.

3. rapid shaping body of wall according to claim 1 assembling transloading equipment, is characterized in that: described front and back extruding crossbeam is bilevel frame structure, described left and right extruding crossbeam described front and back extruding crossbeam two-layer up and down between.

4. rapid shaping body of wall assembling transloading equipment according to claim 1, it is characterized in that: described outside framework is provided with proximity switch support, described proximity switch support is provided with proximity switch, and described proximity switch lays respectively at the extreme position moved forward and backward of each described left and right Electrohydraulic push rod.

5. rapid shaping body of wall assembling transloading equipment according to claim 1, it is characterized in that: described outside framework is provided with travel switch bracket, described travel switch bracket is provided with travel switch, described travel switch is positioned at and extrudes on one side of beam vertical with described front and back, and described travel switch is arranged away from described front and back extruding crossbeam.