CN220748085U - Lifting turnover transmission insertion angle of transverse control device of hollow shutter glass window - Google Patents

Abstract

The utility model provides a lifting and overturning transmission inserting angle of a transverse control device of a hollow blind glass window, which comprises a right-angle mounting block, an upper lifting rope pulley, a lower lifting rope pulley and a right-angle transmission piece, wherein the right-angle mounting block is arranged on the right-angle mounting block; the upper lifting rope wheel is rotatably arranged on the first right-angle mounting block, the lower lifting rope wheel is rotatably arranged on the first right-angle mounting block, and the upper lifting rope wheel and the lower lifting rope wheel are positioned on the same vertical plane; the right-angle driving part is arranged on the first right-angle installation block, the input end of the right-angle driving part is connected with the overturning rope, and the output end of the right-angle driving part is connected with the transmission shaft. The bevel gear transmission mechanism is adopted, and the overturning driving rope forms a revolution on the horizontal plane. Thus, the driving force is still in a linear transmission condition, no unbalanced load angle exists, and the efficient utilization of the driving force is realized; the lifting ropes are also arranged on the same plumb face, deflection can not occur during pulling, and the efficient utilization of driving force is realized.

Description

Lifting turnover transmission insertion angle of transverse control device of hollow shutter glass window

Technical Field

The utility model belongs to the technical field of built-in hollow glass window accessories, and particularly relates to a lifting and overturning transmission insertion angle of a built-in hollow glass window transverse control device.

Background

The hollow shutter glass has wide application in various buildings such as civil houses, office buildings, villas, public buildings and the like. For the hollow glass window with built-in blinds, the height is less than or equal to the width, a transverse control device is adopted to realize the lifting and turning of the blinds.

The lifting turnover transmission insertion angle is an important component in the built-in shutter hollow glass window which is transversely controlled and is used for turning and transmitting a lifting rope and a turnover rope on a transverse control device, so that the connection between the lifting rope and the turnover mechanism and the connection between the lifting rope and the turnover mechanism are realized.

The following problems exist in practical use: referring to the structure disclosed in the patent publication CN212958395U, in the prior art, as rollers for lifting and turning ropes are arranged on a right angle member (called corner member or corner inserting member) side by side, and the operating member is coaxial with the corner inserting member, an included angle is necessarily formed between one of the lifting rope a and the turning rope b and the axis, and the driving force transmission efficiency is also affected.

Therefore, there is a need to design a lifting and turning transmission insertion angle of a transverse control device of a hollow glass window with built-in blinds, so as to solve the above technical problems.

Disclosure of Invention

Aiming at the technical problems, the utility model provides a lifting and overturning transmission plug angle of a transverse control device of a hollow glass window with built-in shutters.

The technical scheme of the utility model is as follows: the lifting and overturning transmission insertion angle of the transverse control device of the built-in shutter hollow glass window comprises a right-angle mounting block, an upper lifting rope pulley, a lower lifting rope pulley and a right-angle transmission piece;

the upper lifting rope wheel is rotatably arranged on the first right-angle mounting block, the lower lifting rope wheel is rotatably arranged on the first right-angle mounting block, and the axle lines of the upper lifting rope wheel and the lower lifting rope wheel are parallel;

the right-angle transmission piece is arranged on the first right-angle installation block, the input end of the right-angle transmission piece is connected with the overturning rope, and the output end of the right-angle transmission piece is connected with the transmission shaft.

Preferably, the right angle driving medium includes upset rope sheave, first bevel gear and second bevel gear, on the upset rope sheave was located first bevel gear, first bevel gear rotatable erects and arranges on the first right angle installation piece, the rotatable horizontal of second bevel gear is arranged on the first right angle installation piece, first bevel gear and second bevel gear meshing, second bevel gear output meets with the transmission shaft.

Preferably, the first bevel gear is rotatably arranged on the first right-angle mounting block in a vertical mode through a first bearing.

Preferably, the second bevel gear is rotatably and transversely arranged on the first right-angle mounting block through a second bearing.

Preferably, the output end of the second bevel gear is connected with the transmission shaft through concave-convex fit.

The beneficial effects of the utility model are as follows:

(1) The bevel gear transmission mechanism is adopted, and at the front section of the bevel gear transmission mechanism, as the first bevel gear shaft is in an upright state, the axis of the overturning rope wheel is arranged in an upright state, and the overturning driving rope wound on the axis of the first bevel gear shaft forms the revolution on the horizontal plane. Thus, the driving force is still in a linear transmission condition, no unbalanced load angle exists, and the efficient utilization of the driving force is realized;

(2) The lifting ropes are also arranged on the same plumb face, deflection can not occur during pulling, and efficient utilization of driving force is realized.

Drawings

Figure 1 is a view of the use of the device of the utility model,

figure 2 is a schematic view of the structure of the present utility model,

figure 3 is an exploded schematic view of the present utility model,

figure 4 is a schematic view of the wiring of the device of the present utility model in use,

figure 5 is a schematic view of the prior art,

in the figure, 1 is a right-angle installation block, 2 is an upper lifting rope pulley, 3 is a lower lifting rope pulley, 4 is a right-angle transmission piece, 41 is a turning rope pulley, 42 is a first bevel gear, 43 is a second bevel gear, 44 is a first bearing, 45 is a second bearing, 5 is a lifting rope, 6 is a turning driving rope, 7 is a transverse manipulator, 8 is a tightening insertion angle, 9 is a transmission shaft, 10 is a turning mechanism, a is a lifting rope, and b is a turning rope.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "front", "rear", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The lifting turnover transmission insertion angle of the transverse control device of the hollow blind window in the figures 1 to 4 comprises a right-angle installation block 1, wherein the right-angle installation block 1 is fixed on the inner corner of the hollow blind window, and further comprises an upper lifting rope pulley 2, a lower lifting rope pulley 3 and a right-angle transmission piece 4;

the upper lifting rope wheel 2 is rotatably arranged on the first right-angle installation block 1 through a rotating shaft, the lower lifting rope wheel 3 is rotatably arranged on the first right-angle installation block 1 through a rotating shaft, and the axes of the upper lifting rope wheel 2 and the lower lifting rope wheel 3 are parallel.

The right-angle driving member 4 is arranged on the first right-angle installation block 1, the input end of the right-angle driving member 4 is connected with the overturning rope 6, the output end of the right-angle driving member 4 is connected with the transmission shaft 9, and the transmission shaft is provided with an overturning mechanism 10, in this embodiment an overturning driving seat.

In this embodiment, the right angle driving member 4 includes a turning sheave 41, a first bevel gear 42 and a second bevel gear 43, the turning sheave 41 is disposed on the first bevel gear 42, the first bevel gear 42 is rotatably disposed on the first right angle mounting block 1 through a first bearing 44, the second bevel gear 43 is rotatably disposed on the first right angle mounting block 1 through a second bearing 45, the first bevel gear 42 and the second bevel gear 43 are engaged, and the output end of the second bevel gear 43 is connected with the driving shaft through concave-convex fit.

Working principle: referring to fig. 1, the starting ends of a plurality of lifting ropes 5 are fixed on a right angle installation block 1, the other ends bypass a turning wheel arranged on a transverse manipulator 2, and after passing through an upper lifting rope wheel 2 and a lower lifting rope wheel 33, the lifting ropes respectively pass through corresponding turning mechanisms, in the embodiment, the turning wheels arranged on a turning transmission seat are sequentially connected with blades to control the lifting of the blades, the used turning mechanisms are conventional parts, specific structures and working principles are not repeated, in the embodiment, the lifting ropes 5 are parallel to a glass surface from the starting ends through a surface formed by the upper lifting rope wheel 2 and the lower lifting rope wheel 3, so that the lifting ropes 5 are arranged on the same plumb surface, and the driving force is not deflected during pulling, so that the efficient utilization of the driving force is realized.

One end of the overturning driving rope 6 is fixed on the side face of the transverse manipulator 7, the other end of the overturning driving rope bypasses the tensioning mechanism on the tensioning inserting angle 8, the tensioning mechanism is of the prior art, the specific structure is not repeated, the overturning rope wheel 41 is fixed on the other side of the transverse manipulator 7, the overturning rope 6, the tensioning mechanism and the overturning rope wheel 41 are on the same horizontal plane, the first bevel gear 42 shaft is in an upright state, the axis of the overturning rope wheel 41 is in an upright state, and the overturning driving rope 6 wound on the overturning driving rope 41 forms a revolution on the horizontal plane. Thus, the driving force is still in a straight line transmission condition, no unbalanced load angle exists, and the efficient utilization of the driving force is realized

The utility model is not limited to the above embodiments, and based on the technical solution disclosed in the utility model, a person skilled in the art may make some substitutions and modifications to some technical features thereof without creative effort according to the technical content disclosed, and all the substitutions and modifications are within the protection scope of the utility model.

Claims (5)

1. The lifting and overturning transmission insertion angle of the transverse control device of the built-in shutter hollow glass window comprises a right-angle mounting block and is characterized by further comprising an upper lifting rope pulley, a lower lifting rope pulley and a right-angle transmission piece;

the upper lifting rope wheel is rotatably arranged on the first right-angle mounting block, the lower lifting rope wheel is rotatably arranged on the first right-angle mounting block, and the axle lines of the upper lifting rope wheel and the lower lifting rope wheel are parallel;

the right-angle transmission piece is arranged on the first right-angle installation block, the input end of the right-angle transmission piece is connected with the overturning rope, and the output end of the right-angle transmission piece is connected with the transmission shaft.

2. The lifting and overturning transmission plug angle of the transverse control device for the built-in hollow shutter glass window according to claim 1, wherein the right-angle transmission piece comprises an overturning rope wheel, a first bevel gear and a second bevel gear, the overturning rope wheel is arranged on the first bevel gear, the first bevel gear is rotatably and vertically arranged on a first right-angle installation block, the second bevel gear is rotatably and horizontally arranged on the first right-angle installation block, the first bevel gear is meshed with the second bevel gear, and the output end of the second bevel gear is connected with a transmission shaft.

3. The lift and tilt drive angle of a built-in hollow glass window lateral control device of claim 2, wherein the first bevel gear is rotatably mounted on the first right angle mounting block by a first bearing.

4. The lift and tilt drive angle of a built-in hollow glass window lateral control device of claim 2, wherein the second bevel gear is rotatably mounted laterally to the first right angle mounting block by a second bearing.

5. The lift-overturning transmission plug angle of the transverse control device for the built-in hollow glass window of claim 2, wherein the output end of the second bevel gear is connected with the transmission shaft through concave-convex fit.