CN219319968U - Window frame compressive property detection mechanism - Google Patents

Abstract

The utility model discloses a window frame compression resistance detection mechanism, which comprises a delivery flat plate; two rows of longitudinal delivery guide rails, which are arranged on the delivery flat plate in parallel; a first side pushing unit for realizing a pushing action by the outside of the longitudinal delivery guide rail, which is perpendicular to the longitudinal delivery guide rail and is close to the longitudinal delivery guide rail; the second side pushing unit is opposite to the first side pushing unit and is arranged in a mirror symmetry mode, and the second side pushing unit is used for realizing pushing action, which is perpendicular to the longitudinal delivery guide rail from the outer side of the longitudinal delivery guide rail, of the second side pushing unit and is close to the longitudinal delivery guide rail; the first side pushing unit and the second side pushing unit form a clamping space for clamping materials, and a connecting line between the first side pushing unit and the second side pushing unit is perpendicular to the extending direction of the longitudinal delivery guide rail. The device has novel structure, high reliability and high integration, can improve the working efficiency of detection personnel and reduce the labor intensity of the working personnel.

Description

Window frame compressive property detection mechanism

Technical Field

The utility model belongs to the field of building equipment detection tools, and particularly relates to a window frame compression resistance detection mechanism.

Background

Building equipment is especially door and window in the process of leaving the factory, need detect its compressive capacity, but current equipment is in the use, in compressive capacity in-process, generally through setting up a plurality of detection stations, will wait to detect the work piece and shift in proper order to each detection station on detect the operation, adopt hand tool or fixed instrument can carry out stress compression to work piece all directions, the design of this kind of detection process is in actual use, need frequently carry the work piece, and each check out test equipment area is great, operating personnel inefficiency, and current experiment work piece only can realize single scene, like the realization of side pressure scene, to complicated scene, current test equipment throughput is weak, staff's amount of labour is big.

Disclosure of Invention

The utility model provides a window frame compression resistance detection mechanism for solving the problems of repeated labor and poor efficiency in the detection process, and the detection mechanism realizes the effects of rapid detection and comprehensive test.

The technical scheme provided is as follows:

a window frame compressive resistance detection mechanism comprises

A delivery plate;

two rows of longitudinal delivery guide rails, which are arranged on the delivery flat plate in parallel;

the first side pushing unit is used for realizing pushing action of the outer side of the longitudinal delivery guide rail, which is perpendicular to the longitudinal delivery guide rail and is close to the longitudinal delivery guide rail, and the longitudinal delivery guide rail of the first side pushing unit is perpendicular, and a side pushing plate is connected to the telescopic end of the first side pushing unit;

the second side pushing unit is opposite to the first side pushing unit and is arranged in a mirror symmetry mode, the second side pushing unit is used for realizing pushing action which is perpendicular to the longitudinal delivery guide rail from the outer side of the longitudinal delivery guide rail and is close to the longitudinal delivery guide rail relative to the second side pushing unit, the second side pushing unit points to the longitudinal delivery guide rail vertically, and a pushing plate is connected to the telescopic end of the second side pushing unit;

the first side pushing unit and the second side pushing unit form a clamping space for clamping materials, and a connecting line between the first side pushing unit and the second side pushing unit is perpendicular to the extending direction of the longitudinal delivery guide rail.

Further, each column of longitudinal delivery rails is slidably fitted with a carriage.

Further, the first side pushing unit and the second side pushing unit have the same structure;

the first side pushing unit comprises

A diagonal brace support, the top of which has an end plate parallel to the longitudinal delivery rail;

the pushing cylinder body is perpendicular to the end plate and fixed on the end plate, the telescopic end of the pushing cylinder body penetrates through the end plate and extends to the upper portion of the delivery guide rail, and the side pushing plate is connected with the telescopic end of the pushing cylinder body.

Further, the two sides of the side pushing plate are connected with side pushing guide posts, the side pushing guide posts penetrate through guide openings reserved in the side pushing plate, and the penetrating ends of the side pushing guide posts are connected with limit bolts.

Further, the end part of the longitudinal delivery guide rail is provided with an inclined pushing unit, the inclined pushing unit is obliquely arranged above the longitudinal delivery guide rail, the end part of the inclined pushing unit is connected with an inclined pushing end plate, and the inclined pushing end plate is connected with an inclined pushing guide post which is in sliding fit on a bracket of the inclined pushing unit.

Further, the device also comprises a peripheral baffle table, the peripheral baffle table is arranged around the longitudinal delivery guide rail, one end, far away from the inclined pushing unit, of the peripheral baffle table is an opening, and the inclined pushing end plate and the pushing plate are both positioned above the peripheral baffle table.

Further, including the roof pressure unit, roof pressure unit is located the top in clamp setting space, roof pressure unit is including the roof pressure backup pad of level setting, the below of roof pressure backup pad is equipped with parallel arrangement's clamp plate, the four corners department of roof pressure backup pad respectively be connected with a landing leg, the landing leg is located respectively the both sides of vertical delivery guide rail, the clamp plate on be connected with vertical guide post, vertical guide post passes the roof pressure backup pad perpendicularly, be located the fixed electric jar that is provided with on the bottom surface of roof pressure backup pad, the flexible end of electric jar is connected to the clamp plate.

Compared with the prior art, the beneficial effects that it had lie in:

1. the designed pressure resistance detection mechanism has the advantages that the clamping space is formed, the guide rail and the sliding seat can be matched in the clamping space, the material to be detected can be rapidly pushed into the space, the use method is simple, and the use method is convenient.

2. Through redesigning the structure composition of pushing unit, the mechanism composition of each pushing unit is more reasonable, through the mechanism composition of bracing support, push cylinder body and side push plate, it utilizes the end plate to push the cylinder body direction, and side push plate butt clamp work piece realizes the pressure measurement detection of offside push plate.

3. The device integrates side pressure, inclined pushing and jacking, and can replace various detection tools in the prior art by single equipment, and the device has the advantages of novel structure, high reliability and high integration, can improve the working efficiency of detection personnel and reduce the labor intensity of the working personnel.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model.

Fig. 1 is an isometric view of a mechanism for detecting the compressive resistance of a window frame.

Fig. 2 is a schematic view of the right side structure of the window frame compression resistance detecting mechanism.

Fig. 3 is a schematic view of a left side structure of the window frame compression resistance detecting mechanism.

Fig. 4 is a schematic diagram of a rear view structure of the window frame compression resistance detecting mechanism.

Detailed Description

In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

As shown in fig. 1 to 4, there is provided a window frame compressive resistance detection mechanism, which comprises a delivery flat plate 1, wherein the delivery flat plate 1 is a platform body; the device also comprises two rows of longitudinal delivery guide rails 7, which are arranged on the delivery flat plate 1 in parallel, wherein the two rows of longitudinal delivery guide rails 7 are arranged at intervals; the device further comprises a first side pushing unit 2, a second side pushing unit 2 and a first side pushing unit, wherein the first side pushing unit is used for realizing pushing action of the longitudinal delivery guide rail 7, which is perpendicular to the longitudinal delivery guide rail 7, and is close to the longitudinal delivery guide rail 7, the longitudinal delivery guide rail 7 of the first side pushing unit 2 is perpendicular, and a side pushing plate 23 is connected to the telescopic end of the first side pushing unit 2; the device further comprises a second side pushing unit 3, wherein the second side pushing unit 3 is opposite to the first side pushing unit 2 and is arranged in a mirror symmetry mode, the second side pushing unit 3 is used for realizing pushing actions, which are perpendicular to the longitudinal delivery guide rail 7 from the outer side of the longitudinal delivery guide rail 7 and close to the longitudinal delivery guide rail 7, relative to the second side pushing unit 3, of the second side pushing unit 3, the second side pushing unit 3 is vertically directed to the longitudinal delivery guide rail 7, and a pushing plate is connected to the telescopic end of the second side pushing unit 3;

the content to be supplemented is as follows:

the first side pushing unit 2 and the second side pushing unit 3 have the same structure and are arranged in radial symmetry; the first side pushing unit 2 comprises a diagonal support 21 and a pushing cylinder 22, wherein the top of the diagonal support 21 is provided with an end plate parallel to the longitudinal delivery guide rail 7; the pushing cylinder 22 is fixed on an end plate perpendicular to the end plate, the end plate is used for guiding the pushing cylinder 22, the telescopic end of the pushing cylinder 22 passes through the end plate to extend above the delivery guide rail 7, and the pushing plate 23 is connected to the telescopic end of the pushing cylinder 22. The side pushing plate 23 is linearly pushed to the sandwiching space perpendicular to the delivery guide 7 to press both sides of the workpiece to be inspected.

The two sides of the side pushing plate are connected with side pushing guide posts 24, the side pushing guide posts 24 are parallel to the extending and contracting direction of the pushing cylinder body 22, the side pushing guide posts 24 penetrate through guide openings reserved in the side pushing plate, and limiting bolts are connected to the penetrating ends of the side pushing guide posts 24.

As shown in fig. 1, a clamping space for clamping materials is formed between the first side pushing unit 2 and the second side pushing unit 3, and a connecting line between the first side pushing unit 2 and the second side pushing unit 3 is perpendicular to the extending direction of the longitudinal delivery guide rail 7. And a slide 5 is slidably mounted on each column of longitudinal delivery guide rails 77, and a square block-shaped platform is arranged at the top end of the slide 5. The workpiece to be inspected is typically a door or window, which can be laid flat on the slide 5 and pushed into the clamping space.

As shown in fig. 1 and 2, the end of the longitudinal delivery guide rail 7 is provided with a diagonal pushing unit 4, the diagonal pushing unit 4 is obliquely arranged above the longitudinal delivery guide rail 7, the end of the diagonal pushing unit 4 is connected with a diagonal pushing end plate 43, the diagonal pushing unit 4 is provided with a diagonal pushing seat 41, the diagonal pushing seat 41 is provided with a 45-degree inclined plate, one side of the inclined plate is provided with a diagonal pushing cylinder 42, the diagonal pushing cylinder 42 is fixed on the inclined plate, the telescopic end of the diagonal pushing cylinder 42 penetrates through the inclined plate, the telescopic end of the diagonal pushing cylinder 42 is connected with the diagonal pushing end plate 43, and a diagonal pushing guide column is connected with the diagonal pushing end plate 43 through a reserved through hole on the inclined plate so as to be in sliding fit.

In order to ensure that the detected workpiece can smoothly enter the clamping space, the device further comprises a peripheral baffle table 6, the peripheral baffle table 6 is arranged around the longitudinal delivery guide rail 7, one end, away from the inclined pushing unit 4, of the peripheral baffle table 6 is an opening, and the inclined pushing end plate and the pushing plate are both positioned above the peripheral baffle table 6.

As shown in fig. 1, the device further comprises a jacking unit, the jacking unit is located above the clamping space, the jacking unit comprises a jacking supporting plate 8 which is horizontally arranged, a pressing plate 82 which is arranged in parallel is arranged below the jacking supporting plate 8, four corners of the jacking supporting plate 8 are respectively connected with a supporting leg 84, the supporting legs 84 are respectively located at two sides of the longitudinal delivery guide rail 7, the pressing plate 82 is connected with a vertical guide column 81, the vertical guide column 81 vertically penetrates through the jacking supporting plate 8, an electric cylinder 83 is fixedly arranged on the bottom surface of the jacking supporting plate 8, and the telescopic ends of the electric cylinders 83 are connected to the pressing plate 82.

In the course of the use process, the water-soluble fiber is used,

the workpiece to be inspected is placed in the space to be mounted on the slide 5 and pushed into the inner side.

In the action process of the first side pushing unit 2 and the second side pushing unit 3, the pushing cylinder 22 can drive the side pushing plate 23 to clamp the detected workpiece by two sides perpendicular to the delivery guide rail 7, if the vertical pressure on two sides needs to be measured, the pushing cylinder 22 can drive the side pushing plate 23 to continuously press the detected workpiece until reaching the preset pressure to check the damage condition, or the inclined pushing cylinder 42 of the inclined pushing unit 4 of the detected workpiece clamped by the first side pushing unit 2 and the second side pushing unit 3 can drive the inclined pushing end plate 43 to continuously press the frame of the detected workpiece according to the inclined direction to check whether bending occurs, or the electric cylinder 83 can drive the pressing plate 82 to vertically press the detected workpiece until reaching the preset pressure to check whether deformation occurs.

The above model is used to implement the present solution by way of model description, but the present solution is not limited to model-constrained part types.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model.

Claims (7)

1. Window frame compressive resistance detection mechanism, its characterized in that: comprising

A delivery plate;

two rows of longitudinal delivery guide rails, which are arranged on the delivery flat plate in parallel;

the first side pushing unit is used for realizing pushing action of the outer side of the longitudinal delivery guide rail, which is perpendicular to the longitudinal delivery guide rail and is close to the longitudinal delivery guide rail, and the longitudinal delivery guide rail of the first side pushing unit is perpendicular, and a side pushing plate is connected to the telescopic end of the first side pushing unit;

the second side pushing unit is opposite to the first side pushing unit and is arranged in a mirror symmetry mode, the second side pushing unit is used for realizing pushing action which is perpendicular to the longitudinal delivery guide rail from the outer side of the longitudinal delivery guide rail and is close to the longitudinal delivery guide rail relative to the second side pushing unit, the second side pushing unit points to the longitudinal delivery guide rail vertically, and a pushing plate is connected to the telescopic end of the second side pushing unit;

the first side pushing unit and the second side pushing unit form a clamping space for clamping materials, and a connecting line between the first side pushing unit and the second side pushing unit is perpendicular to the extending direction of the longitudinal delivery guide rail.

2. A window frame crush resistance detection mechanism according to claim 1, wherein: a slide is slidably mounted on each of the longitudinal delivery rails.

3. A window frame crush resistance detection mechanism according to claim 1, wherein: the first side pushing unit and the second side pushing unit have the same structure;

the first side pushing unit comprises

A diagonal brace support, the top of which has an end plate parallel to the longitudinal delivery rail;

the pushing cylinder body is perpendicular to the end plate and fixed on the end plate, the telescopic end of the pushing cylinder body penetrates through the end plate and extends to the upper portion of the delivery guide rail, and the side pushing plate is connected with the telescopic end of the pushing cylinder body.

4. A window frame crush resistance detection mechanism according to claim 1, wherein: the two sides of the side pushing plate are connected with side pushing guide posts, the side pushing guide posts penetrate through guide openings reserved in the side pushing plate, and the penetrating ends of the side pushing guide posts are connected with limit bolts.

5. A window frame crush resistance detection mechanism according to claim 1, wherein: the end part of the longitudinal delivery guide rail is provided with an inclined pushing unit, the inclined pushing unit is obliquely arranged above the longitudinal delivery guide rail, the end part of the inclined pushing unit is connected with an inclined pushing end plate, and the inclined pushing end plate is connected with an inclined pushing guide post which is in sliding fit on a bracket of the inclined pushing unit.

6. The window frame crush resistance detection mechanism according to claim 5, wherein: still include the periphery fender platform, the periphery keeps off the setting of platform around vertical delivery guide rail, and the one end that the periphery kept off the unit of pushing away from to one side is the opening, oblique pushing end plate and pushing plate all be located the top of periphery fender platform.

7. The window frame crush resistance detection mechanism according to claim 5, wherein: including the roof pressure unit, roof pressure unit is located the top in clamp setting space, roof pressure unit include the roof pressure backup pad of level setting, the below of roof pressure backup pad is equipped with parallel arrangement's clamp plate, the four corners department of roof pressure backup pad respectively be connected with a landing leg, the landing leg is located respectively the both sides of vertical delivery guide rail, the clamp plate on be connected with vertical guide post, vertical guide post pass vertically the roof pressure backup pad, be located the fixed electric jar that is provided with on the bottom surface of roof pressure backup pad, the flexible end of electric jar is connected to the clamp plate.

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