CN205343049U - Transport equipment mechanism - Google Patents

Abstract

The utility model provides a transport equipment mechanism, including outer frame and internal frame, the both ends and the internal frame of outer frame pass through the rotation axis and are connected, the rotation axis of one end drives through upset motor and speed reducer, the both sides that the internal frame is on a parallel with the rotation axis all are equipped with the electric liquid push rod in front and back with one end, extrude the crossbeam around two between the electric liquid push rod around being connected with, crossbeam perpendicular to rotation axis is extrudeed to the front and back, the both ends on every limit of interior rack mount rotation axis all are equipped with controls electric liquid push rod, and the output shaft of the electric liquid push rod of the left and right sides at both ends sets up relatively, extrusion crossbeam about connecting between per two electric liquid push rods of the left and right sides that the drive direction is the same. The utility model discloses an around electric liquid push rod drives about with around on the internal frame about with the extrusion crossbeam press from both sides tightly the wallboard to drive the operation of waiting for next process after the internal frame upset 180 degrees through the upset motor, realize equipment transship function, and realized the automation that simple structure, efficiency and precision are high.

Description

Transhipment assembling mechanism

Technical field

This utility model belongs to machining wallboard apparatus field, specifically, relates to transhipment assembling mechanism.

Background technology

Indoor partition and indoor partition, for the partition wall system of non-bearing wall body, mainly segmentation room and building interior space, thus realize ventilating, the purpose of daylighting, body of wall needs to be easy to tear shifting open, has certain degree of hardness and compartment ability simultaneously.

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

Utility model content

In view of this, this utility model is directed to a kind of wallboard splicing and sets alternate transport assembling mechanism, to improve wallboard assembly efficiency and precision.

For reaching above-mentioned purpose, the technical solution of the utility model is achieved in that

Transhipment assembling mechanism, including 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 overturning motor and speed reducer, described inner frame is parallel to the both sides of described rotating shaft and is equipped with front and back Electrohydraulic push rod with one end, extruding crossbeam before and after being connected between Electrohydraulic push rod before and after described two, described front and back extruding beam vertical is in described rotating shaft, the two ends on each limit that described inner frame installs 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 each two driving direction is identical.

Between the left and right Electrohydraulic push rod that described each two driving direction is identical, the zigzag connector by being oppositely arranged connects left and right extruding crossbeam.

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

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 at described front and back extrude beam vertical on, and described travel switch away from described front and back extrude crossbeam arrange.

Relative to prior art, transhipment assembling mechanism described in the utility model has the advantage that

1. this utility model drives front and back and left and right extruding crossbeam that wallboard is clamped by the front and back on inner frame and left and right Electrohydraulic push rod, and after turning over turnback by upset driven by motor inner frame, wait the operation of subsequent processing, realize assembling transport function, and achieving automatization, simple in construction, efficiency and precision are high.

2. between the left and right Electrohydraulic push rod that each two driving direction is identical, the zigzag connector by being oppositely arranged connects left and right extruding crossbeam, it is possible to when reducing the size of outside framework as far as possible, meets the clamping of different size wallboard, improves adaptability.

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

Accompanying drawing explanation

The accompanying drawing constituting a part of the present utility model is further appreciated by of the present utility model for providing, and schematic description and description of the present utility model is used for explaining this utility model, is not intended that improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is this utility model top view；

Fig. 2 is Fig. 1 left view；

Fig. 3 is Fig. 1 front view.

In figure: 1. outside framework, 2. inner frame, about 3., extrude crossbeam, Electrohydraulic push rod before and after 4., 5. upset 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 this utility model and the feature in embodiment can be mutually combined.

Describe this utility model below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

Transhipment assembling mechanism, including 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 overturning motor and speed reducer, described inner frame is parallel to the both sides of described rotating shaft and is equipped with front and back Electrohydraulic push rod with one end, extruding crossbeam before and after being connected between Electrohydraulic push rod before and after described two, described front and back extruding beam vertical is in described rotating shaft, the two ends on each limit that described inner frame installs 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 each two driving direction is identical.

Between the left and right Electrohydraulic push rod that described each two driving direction is identical, the zigzag connector by being oppositely arranged connects left and right extruding crossbeam.

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

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 at described front and back extrude beam vertical on, and described travel switch away from described front and back extrude crossbeam arrange.

Work process: when wallboard runs to this station place, start each Electrohydraulic push rod wallboard is clamped, 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, starting upset driven by motor inner frame and overturn 180 °, wallboard also overturns 180 ° therewith and prepares for lock screw operation below.

The foregoing is only preferred embodiment of the present utility model; not in order to limit this utility model; all within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., should be included within protection domain of the present utility model.

Claims (5)

1. transhipment assembling mechanism, it is characterized in that: include 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 overturning motor and speed reducer, described inner frame is parallel to the both sides of described rotating shaft and is equipped with front and back Electrohydraulic push rod with one end, extruding crossbeam before and after being connected between Electrohydraulic push rod before and after described two, described front and back extruding beam vertical is in described rotating shaft, the two ends on each limit that described inner frame installs 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 each two driving direction is identical.

2. transhipment assembling mechanism according to claim 1, it is characterised in that: between the left and right Electrohydraulic push rod that described each two driving direction is identical, the zigzag connector by being oppositely arranged connects left and right extruding crossbeam.

3. transhipment assembling mechanism according to claim 1, it is characterised in that: described front and back extruding crossbeam is bilevel frame structure, and described left and right extruding crossbeam extrudes up and down between two-layer of crossbeam in described front and back.

4. transhipment assembling mechanism 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. transhipment assembling mechanism 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 extrudes crossbeam away from described front and back and arranges.