CN216553514U

CN216553514U - Translation door driving mechanism with rapid assembly function

Info

Publication number: CN216553514U
Application number: CN202123225369.7U
Authority: CN
Inventors: 徐冀
Original assignee: Jiangsu Deper Automate Door & Window Co ltd
Current assignee: Jiangsu Deper Automate Door & Window Co ltd
Priority date: 2021-12-21
Filing date: 2021-12-21
Publication date: 2022-05-17
Anticipated expiration: 2031-12-21

Abstract

The utility model relates to a translation door assembly, in particular to a translation door driving mechanism with a rapid assembly function. It comprises a driving device and a horizontally arranged supporting beam. The support beam is characterized in that a limiting pipe longitudinally arranged along the support beam is fixed at the bottom of the support beam, and a notch longitudinally arranged along the support beam is arranged on one side of the limiting pipe. The outer side of the limiting pipe corresponding to the notch is provided with a strip-shaped plate which is horizontally arranged, the long edge of the strip-shaped plate corresponding to the notch is provided with a flange which is longitudinally arranged along the strip-shaped plate, the section of the flange is inverted V-shaped, and the flange penetrates through the notch and extends into the limiting pipe. The middle parts of two end faces of the strip-shaped plate are provided with openings, a support beam corresponding to the openings is connected with a buckle, the buckle and the support beam are matched in a longitudinal sliding mode along the support beam, and the buckle is clamped in the corresponding openings, so that the strip-shaped plate is fixedly connected with the support beam. The driving device is fixed on the lower plate surface of the strip-shaped plate. The driving mechanism is simple and convenient in assembly process and high in working efficiency.

Description

Translation door driving mechanism with rapid assembly function

Technical Field

The utility model relates to a translation door assembly, in particular to a translation door driving mechanism which is convenient and fast to install and has a rapid assembling function.

Background

The translation door driving mechanism is a power device for driving a door plate of a translation door to reciprocate as the name implies. At present, a traditional translation door driving mechanism comprises a driving device and a horizontally arranged supporting beam, wherein the driving device is directly and fixedly connected with the supporting beam. The drive mechanism of a sliding door drive mechanism typically has a number of components. Each part of a driving device in a traditional translation door driving mechanism is required to be directly connected with a supporting beam in sequence, so that the assembling process of the driving device and the supporting beam is complex, the consumed time is more, and the working efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a translation door driving mechanism with a rapid assembly function, which is simple and convenient in assembly process and high in working efficiency.

In order to solve the problems, the following technical scheme is provided:

the translation door driving mechanism with the rapid assembly function comprises a driving device and a horizontally arranged supporting beam. The support beam is characterized in that a limiting pipe longitudinally arranged along the support beam is fixed at the bottom of the support beam, and a notch longitudinally arranged along the limiting pipe is arranged on one side of the limiting pipe. The outer side of the limiting pipe corresponding to the notch is provided with a strip-shaped plate which is horizontally arranged, the long edge of the strip-shaped plate corresponding to the notch is provided with a flange which is longitudinally arranged along the strip-shaped plate, the section of the flange is inverted V-shaped, and the flange penetrates through the notch and extends into the limiting pipe. The middle parts of two end faces of the strip-shaped plate are provided with openings, a support beam corresponding to the openings is connected with a buckle, the buckle and the support beam are matched in a longitudinal sliding mode along the support beam, and the buckle is clamped in the corresponding openings, so that the strip-shaped plate is fixedly connected with the support beam. The driving device is fixed on the lower plate surface of the strip-shaped plate.

The cross section of the supporting beam is 7-shaped, and the limiting pipe is fixed on the lower surface of the transverse part of the supporting beam. L-shaped limiting plates are fixed on the lower surfaces of the transverse parts of the supporting beams on the two sides of the notch, the two limiting plates are arranged face to face, and a space is reserved between the transverse parts of the two limiting plates. The buckle includes the round pin axle of vertical arrangement, and the round pin axle upper end is located two limiting plates, and the round pin axle lower extreme passes the interval and the opening of two limiting plates in proper order and stretches out to the opening below, and round pin axle upper end is fixed with the slider, and the width of slider is greater than the interval of two bar shaped plate horizontal parts, and the lower extreme processing of round pin axle has the external screw thread, and the lower extreme threaded connection of round pin axle has the nut, and the width of nut is greater than the width of opening.

The both ends of spacing pipe and strip shaped plate all align with the both ends of a supporting beam horizontal part, and spacing pipe and strip shaped plate all are an organic whole with a supporting beam and are connected.

The driving device comprises a controller, a motor, a transformer and a power line box which are sequentially arranged along the longitudinal direction of the strip-shaped plate.

By adopting the scheme, the method has the following advantages:

the bottom of the support beam of the translation door driving mechanism with the rapid assembly function is fixed with the limiting tube, one side of the limiting tube is provided with the edge notch, the outer side of the limiting tube corresponding to the notch is provided with the strip-shaped plate, the long edge of the strip-shaped plate corresponding to the notch is provided with the protruding edge longitudinally arranged along the strip-shaped plate, the cross section of the protruding edge is in an inverted V shape, the protruding edge penetrates through the notch and extends into the limiting tube, the middle parts of two end surfaces of the strip-shaped plate are respectively provided with the notch, the support beam corresponding to the notch is respectively connected with the buckle, the buckle and the support beam are in longitudinal sliding fit along the support beam, the buckles are all clamped in the corresponding notches, and the driving device is fixed on the lower plate surface of the strip-shaped plate. The driving device of the translation door driving mechanism is integrated on the strip-shaped plate, and when the driving device is connected with the supporting beam, the protruding edge of the strip-shaped plate is firstly inserted into the limiting pipe from the notch; then, turning upwards to enable the strip-shaped plates to be horizontally arranged; and finally, adjusting the positions of the two buckles to enable the buckles to be clamped into the gaps at the two ends of the strip-shaped plate respectively. The process of installing the driving device on the supporting beam by the translation door driving mechanism is simple and convenient, the assembly time is greatly shortened, and the assembly efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of a sliding door driving mechanism with a quick-assembly function according to the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic view of the connection between the strip plate and the driving device in the sliding door driving mechanism with the quick assembly function of the present invention;

fig. 4 is a schematic structural diagram of a buckle in the sliding door driving mechanism with the rapid assembly function of the utility model.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 4, the sliding door driving mechanism with quick assembly function of the present invention comprises a driving device and a horizontally arranged supporting beam 1. The bottom of the support beam 1 is fixed with a limit pipe 4 arranged along the longitudinal direction, and one side of the limit pipe 4 is provided with a gap 3 arranged along the longitudinal direction. The outside of the spacing pipe 4 that the breach 3 corresponds has a bar 2 of horizontal arrangement, and the 2 long sides of the bar that the breach 3 corresponds have along 2 longitudinal arrangement's of bar flange 10, and the cross-section of flange 10 is the shape of falling V, and flange 10 passes breach 3 and stretches into in the spacing pipe 4. The middle parts of two end faces of the strip-shaped plate 2 are respectively provided with an opening 11, a support beam 1 corresponding to the opening 11 is respectively connected with a buckle 9, the buckles 9 and the support beam 1 are in longitudinal sliding fit along the support beam 1, and the buckles 9 are all clamped in the corresponding openings 11, so that the strip-shaped plate 2 is fixedly connected with the support beam 1. The driving device comprises a controller 8, a motor 7, a transformer 6 and a power line box 5 which are sequentially fixed on the lower surface of the strip-shaped plate 2 along the longitudinal direction of the strip-shaped plate 2.

The section of the supporting beam 1 is 7-shaped, and the limiting pipe 4 is fixed on the lower surface of the transverse part of the supporting beam 1. L-shaped limiting plates 12 are fixed on the lower surfaces of the transverse parts of the supporting beams 1 on the two sides of the notch 11, the two limiting plates 12 are arranged face to face, and a space is reserved between the transverse parts of the two limiting plates 12. The buckle 9 comprises a pin shaft 9-2 which is vertically arranged, the upper end of the pin shaft 9-2 is positioned between two limiting plates 12, the lower end of the pin shaft 9-2 sequentially penetrates through the space between the two limiting plates 12 and the gap 11 and extends out of the gap 11, a sliding block 9-1 is fixed at the upper end of the pin shaft 9-2, the width of the sliding block 9-1 is larger than the space between the transverse parts of the two strip-shaped plates 2, an external thread is processed at the lower end of the pin shaft 9-2, a nut 9-3 is in threaded connection with the lower end of the pin shaft 9-2, and the width of the nut 9-3 is larger than the width of the gap 11.

The both ends of spacing pipe 4 and strip shaped plate 2 all align with the both ends of a supporting beam 1 horizontal part, and spacing pipe 4 and strip shaped plate 2 all are an organic whole with a supporting beam 1 and are connected.

During installation, the controller 8, the motor 7, the transformer 6 and the power line box 5 are integrated on the lower plate surface of the strip-shaped plate 2. Then, the flange 10 of the strip-shaped plate 2 is inserted into the limiting pipe 4 from the notch 3; then, turning upwards to enable the strip-shaped plates 2 to be horizontally arranged; then, adjusting the positions of the two pin shafts 9-2 to enable the pin shafts 9-2 to enter the gaps 11 at the two ends of the strip-shaped plate 2; and finally, screwing the nut 9-3 to enable the nut 9-3 to be abutted against the strip-shaped plates 2 on the two sides of the notch 11.

Claims

1. The translation door driving mechanism with the rapid assembly function comprises a driving device and a horizontally arranged supporting beam (1); the device is characterized in that a limiting pipe (4) which is longitudinally arranged along the supporting beam is fixed at the bottom of the supporting beam (1), and a notch (3) which is longitudinally arranged along the limiting pipe is arranged at one side of the limiting pipe (4); the outer side of the limiting pipe (4) corresponding to the notch (3) is provided with a strip-shaped plate (2) which is horizontally arranged, the long edge of the strip-shaped plate (2) corresponding to the notch (3) is provided with a flange (10) which is longitudinally arranged along the strip-shaped plate (2), the section of the flange (10) is inverted V-shaped, and the flange (10) penetrates through the notch (3) and extends into the limiting pipe (4); the middle parts of two end faces of the strip-shaped plate (2) are respectively provided with a notch (11), a support beam (1) corresponding to the notches (11) is respectively connected with a buckle (9), the buckles (9) and the support beam (1) are in longitudinal sliding fit along the support beam (1), and the buckles (9) are respectively clamped in the corresponding notches (11), so that the strip-shaped plate (2) is fixedly connected with the support beam (1); the driving device is fixed on the lower plate surface of the strip-shaped plate (2).

2. The translation door driving mechanism with the rapid assembly function according to claim 1, wherein the cross section of the supporting beam (1) is 7-shaped, and the limiting pipe (4) is fixed on the lower surface of the transverse part of the supporting beam (1); l-shaped limiting plates (12) are fixed on the lower surfaces of the transverse parts of the supporting beams (1) on the two sides of the notch (11), the two limiting plates (12) are arranged face to face, and a space is reserved between the transverse parts of the two limiting plates (12); the buckle (9) comprises a pin shaft (9-2) which is vertically arranged, the upper end of the pin shaft (9-2) is located between two limiting plates (12), the lower end of the pin shaft (9-2) sequentially penetrates through the space between the two limiting plates (12) and the opening (11) and extends to the lower side of the opening (11), a sliding block (9-1) is fixed at the upper end of the pin shaft (9-2), the width of the sliding block (9-1) is larger than the space between the transverse parts of the two strip-shaped plates (2), an external thread is processed at the lower end of the pin shaft (9-2), a nut (9-3) is in threaded connection with the lower end of the pin shaft (9-2), and the width of the nut (9-3) is larger than the width of the opening (11).

3. The sliding door driving mechanism with the rapid assembly function as claimed in claim 2, wherein both ends of the limiting tube (4) and the strip-shaped plate (2) are aligned with both ends of the cross portion of the supporting beam (1), and the limiting tube (4) and the strip-shaped plate (2) are integrally connected with the supporting beam (1).

4. The sliding door driving mechanism with the rapid assembly function as claimed in any one of claims 1-3, wherein the driving device comprises a controller (8), a motor (7), a transformer (6) and a power supply line box (5) which are sequentially arranged along the longitudinal direction of the strip-shaped plate (2).