CN211168754U - Thimble assembly material loading tilting mechanism in advance - Google Patents

Abstract

The utility model discloses a thimble assembly material loading tilting mechanism in advance belongs to thimble assembly technical field. The device comprises a pre-feeding table, a turnover shaft mechanism, a feeding table and a U-shaped support, wherein the pre-feeding table is located on one side of the feeding table, the pre-feeding table is rotatably connected with the U-shaped support through the turnover shaft mechanism, the number of the pre-feeding table is two, one of the pre-feeding table is provided with a left end sleeve cover positioning clamping groove and the other pre-feeding table is provided with a right end sleeve cover positioning clamping groove, and a sleeve support piece is fixedly mounted at the middle position of the U-shaped support. The utility model discloses accomplish material loading work in advance before the material loading, when treating that the follow-up operating procedure of material loading platform completion gets back to the initial position, directly shift the material to the material loading platform through the material loading platform in advance, saved the material loading time greatly, improved work efficiency, finally improved output.

Description

Thimble assembly material loading tilting mechanism in advance

Technical Field

The utility model relates to a thimble assembly material loading tilting mechanism in advance belongs to thimble assembly technical field.

Background

With the progress of science and technology, robots are more and more commonly applied to various industries, at present, the production line of automobile inhaul cables also introduces an automation technology, the initial feeding process still cannot reach the full automation degree, and therefore, the manual feeding speed directly influences the working progress of equipment.

The conventional sleeve assembly feeding equipment is operated purely manually, the equipment is started after the conventional sleeve assembly feeding equipment is installed in place, and then the conventional sleeve assembly feeding equipment enters the next station, the feeding speed is relatively low, and the speed of the feeding speed directly determines the yield.

Disclosure of Invention

The utility model discloses the technical problem that will solve lies in: the utility model provides a thimble assembly material loading tilting mechanism in advance, it has solved at present, and the material loading mode that adopts is direct material loading on the charging apparatus to lead to the material loading speed slow, then lead to reducing the problem of output.

The utility model discloses the technical problem that will solve takes following technical scheme to realize:

the sleeve assembly pre-feeding turnover mechanism comprises a pre-feeding platform, a turnover shaft mechanism, a feeding platform and a U-shaped bracket, the pre-feeding table is positioned at one side of the feeding table, the pre-feeding table is rotationally connected with the U-shaped bracket through a turnover shaft mechanism, the number of the pre-feeding tables is two, wherein one of the pre-feeding tables is provided with a left end sleeve cover positioning clamping groove, the other pre-feeding table is provided with a right end sleeve cover positioning clamping groove, a sleeve supporting piece is fixedly arranged in the middle of the U-shaped bracket, the bottom of the left sleeve cover positioning clamping groove is fixed on one side of the top of one pre-feeding table, the right sleeve cover positioning clamping groove is connected with the other side of the top of the other pre-feeding table in a sliding way through a spring, the sleeve supporting piece is located between the two pre-feeding tables, and pushing mechanisms are further arranged at the bottoms of the left sleeve cover positioning clamping groove and the right sleeve cover positioning clamping groove respectively.

As a preferred example, the pushing mechanism includes a pushing cylinder and a sleeve cap top block, the sleeve cap top block includes a bottom plate, a first connecting plate, a sleeve cap ejecting end portion and a sleeve ejecting end portion, the fixed end of the pushing cylinder is fixedly sleeved with the bottom plate, the telescopic end of the pushing cylinder is fixed to the first connecting plate, the bottoms of the sleeve cap ejecting end portion and the sleeve ejecting end portion are fixed to the first connecting plate, the sleeve cap ejecting end portion is located on one side of the sleeve ejecting end portion, and when the sleeve cap is mounted on the left end sleeve cap positioning slot and/or the right end sleeve cap positioning slot, the sleeve cap abuts against the sleeve cap ejecting end portion, and the sleeve abuts against the sleeve ejecting end portion.

Adopt above-mentioned scheme, the purpose starts the promotion cylinder, promotes the cylinder and promotes bottom plate upward movement to promote first connecting plate upward movement, promote sleeve pipe lid ejecting tip and sleeve pipe ejecting tip upward movement together then, thereby ejecting in left end sleeve pipe lid positioning groove and/or right-hand member sleeve pipe lid positioning groove respectively with the both ends of thimble assembly, thereby accomplish the unloading.

As a preferred example, the pre-feeding table is fixedly connected with one end of a spring, and the right sleeve cover positioning clamping groove is fixed with the spring.

Adopt above-mentioned scheme, the purpose is to have elastic connection between material loading platform and the right-hand member casing cover positioning groove in advance, and the purpose is for making the thimble assembly place and have the elasticity buffering on left end casing cover positioning groove and right-hand member casing cover positioning groove, then effectual protection thimble assembly not damaged.

As a preferred example, the turnover shaft mechanism comprises a turnover shaft, slide blocks and a fine adjustment nut, wherein a left end sleeve cover positioning clamping groove and a right end sleeve cover positioning clamping groove are both positioned in U-shaped brackets, two ends of the turnover shaft are sequentially fixed with the two U-shaped brackets, a fixed block is fixedly sleeved at the middle position of the turnover shaft and is rotatably connected with one end of the fine adjustment nut, a slide plate is sleeved at the other end of the fine adjustment nut in a threaded manner and is movably sleeved on the turnover shaft, a hand wheel is fixedly connected at the other end of the fine adjustment nut, the slide plate and the hand wheel are close to the right end sleeve cover positioning clamping groove, the slide blocks are slidably sleeved on the turnover shaft, the number of the slide blocks is two, one side of each slide block is fixedly connected with a second connecting plate, the top of the second connecting plate is respectively fixed with the left end sleeve cover positioning clamping groove and/or the right end sleeve cover positioning clamping groove, and the bottom of the second connecting plate is also fixedly provided with a turnover handle.

By adopting the scheme, firstly, the hand wheel is rotated to drive the fine adjustment nut to move along with the hand wheel, and the sliding plate and the fine adjustment nut are in threaded sleeve joint, so that the sliding plate moves on the turnover shaft, the sliding distance of the right sleeve cover positioning clamping groove on the turnover shaft through the sliding block connected with the second connecting plate is limited, and the distance between the left sleeve cover positioning clamping groove and the right sleeve cover positioning clamping groove is changed, so that the pre-feeding operation of sleeve assemblies with different lengths on the pre-feeding table can be met;

secondly, the upset handle is held to both hands to drive the upset of second connecting plate, drive left end sleeve pipe cover positioning channel section and/or drive right-hand member sleeve pipe cover positioning channel section and overturn on the trip shaft then, thereby make the thimble assembly position change around the upset.

As a preferable example, the two ends of the U-shaped support are both fixed with a rotary fastening cylinder, the telescopic end of the rotary fastening cylinder is fixedly connected with a rotary fastening pressing block, each end of the U-shaped support is also fixedly provided with an inductive switch, and the inductive switches are respectively positioned on one side of the rotary fastening cylinder.

Adopt above-mentioned scheme, the purpose utilizes inductive switch to sense in advance material loading platform and material loading platform compound die after, and the propelling movement cylinder starts to drive both ends sleeve cover kicking block simultaneously and push up to the thimble assembly, shift the thimble assembly to the material loading platform by material loading platform in advance.

As a preferable example, the shape of the sleeve cover ejection end part is matched with that of the sleeve cover, the sleeve ejection end part is in a long strip shape, and the sleeve cover ejection end part and the sleeve ejection end part are fixed into a whole.

By adopting the scheme, the purpose of ejecting the end part of the sleeve cover is to prevent the sleeve cover from falling off and simultaneously not damaging the sleeve cover; the sleeve ejection end part is designed into a long strip shape, the purpose is to push the two ends of the sleeve assembly conveniently and timely out, and the sleeve cover ejection end part and the sleeve ejection end part are designed into an integrated mechanism to synchronously work, so that the consistency of pushing and pressing the sleeve assembly is ensured.

The utility model has the advantages that: the utility model discloses accomplish material loading work in advance before the material loading, when treating that the follow-up operating procedure of material loading platform completion gets back to the initial position, directly shift the material to the material loading platform through the material loading platform in advance, saved the material loading time greatly, improved work efficiency, finally improved output.

Drawings

Fig. 1 is a schematic structural view of the pre-loading platform of the present invention before turning;

FIG. 2 is a schematic structural view of portion A of FIG. 1;

FIG. 3 is a schematic structural diagram of portion B of FIG. 1;

fig. 4 is a state diagram of the pre-loading table of the present invention after being turned over;

fig. 5 is a schematic structural view of a portion C in fig. 4.

In the figure: the device comprises a pre-feeding table 1, a left end sleeve cover positioning clamping groove 1.1, a right end sleeve cover positioning clamping groove 1.2, a spring 1.3, a pushing cylinder 1.4, a sleeve cover top block 1.5, a sleeve cover ejection end part 1.5.1, a sleeve ejection end part 1.5.2, a bottom plate 1.5.3, a first connecting plate 1.5.4, a sleeve support piece 1.6, an overturning handle 1.7, a sliding block 2.1, a fine adjustment nut 2.2, a rotary fastening cylinder 2.3, a rotary fastening pressing block 2.4, an induction switch 2.5, an overturning shaft 2.6, a second connecting plate 2.7, a sliding plate 2.8, a feeding table 3 and a U-shaped support 4.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the functions of the present invention easy to understand and understand, the present invention is further explained by combining the following specific drawings.

As shown in fig. 1-5, the sleeve assembly pre-feeding turnover mechanism comprises a pre-feeding table 1, a turnover shaft mechanism, a feeding table 3 and a U-shaped bracket 4, wherein the pre-feeding table 1 is positioned at one side of the feeding table 3, the pre-feeding table 1 is rotatably connected with the U-shaped bracket 4 through the turnover shaft mechanism, the number of the pre-feeding tables is two, one of them is equipped with left end casing cover positioning groove 1.1 in advance on material loading platform 1, another is equipped with right-hand member casing cover positioning groove 1.2 in advance on the material loading platform, the intermediate position of U type support 4 still fixed mounting has sleeve pipe support piece 1.6, one side at one of them material loading platform 1 top in advance is fixed to left end casing cover positioning groove 1.1's bottom, right-hand member casing cover positioning groove 1.2 is through spring 1.3 and another opposite side sliding connection at material loading platform 1 top in advance, sleeve pipe support piece 1.6 is located between two material loading platforms 1 in advance, left end casing cover positioning groove 1.1 and right-hand member casing cover positioning groove 1.2's bottom still is equipped with push mechanism respectively.

The pushing mechanism comprises a pushing cylinder 1.4 and a sleeve cover top block 1.5, the sleeve cover top block 1.5 comprises a bottom plate 1.5.3, a first connecting plate 1.5.4, a sleeve cover ejection end part 1.5.1 and a sleeve ejection end part 1.5.2, a fixed end of the pushing cylinder 1.4 is fixedly sleeved with the bottom plate 1.5.3, a telescopic end of the pushing cylinder 1.4 is fixed with the first connecting plate 1.5.4, bottoms of the sleeve cover ejection end part 1.5.1 and the sleeve ejection end part 1.5.2 are fixed with the first connecting plate 1.5.4, the sleeve cover ejection end part 1.5.1 is located on one side of the sleeve ejection end part 1.5.2, and when the sleeve cover is installed on the left end sleeve cover positioning clamping groove 1.1 and/or the right end sleeve cover positioning clamping groove 1.2, the sleeve cover abuts against the sleeve cover ejection end part 1.5.1, and the sleeve abuts against the sleeve ejection end part 1.5.2.

The pre-feeding table 1 is fixedly connected with one end of a spring 1.3, and a positioning clamping groove 1.2 of a sleeve cover at the right end is fixed with the spring 1.3.

The turnover shaft mechanism comprises a turnover shaft 2.6, a slide block 2.1 and a fine adjustment nut 2.2, wherein a left end sleeve cover positioning clamping groove 1.1 and a right end sleeve cover positioning clamping groove 1.2 are respectively positioned in the U-shaped support 4, two ends of the turnover shaft 2.6 are sequentially fixed with the U-shaped support 4, a fixed block is fixedly sleeved at the middle position of the turnover shaft 2.6 and is rotatably connected with one end of the fine adjustment nut 2.2, a sliding plate 2.8 is sleeved at the other end of the fine adjustment nut 2.2 in a threaded manner, the sliding plate 2.8 is movably sleeved on the turnover shaft 2.6, a hand wheel is fixedly connected at the other end of the fine adjustment nut 2.2, the sliding plate 2.8 and the hand wheel are close to the right end sleeve cover positioning clamping groove 1.2, the slide block 2.1 is slidably sleeved on the turnover shaft 2.6, the number of the slide blocks 2.1 is two, one side of each slide block 2.1 is fixedly connected with a second clamping groove 2.7, the top of the second connecting plate 2.7 is respectively positioned with the left end sleeve cover positioning clamping groove 1 and/or the right end, the bottom of the second connecting plate 2.7 is also fixedly provided with a turnover handle 1.7.

Both ends of the U-shaped support 4 are also fixedly provided with a rotary fastening cylinder 2.3, the telescopic end of the rotary fastening cylinder 2.3 is fixedly connected with a rotary fastening pressing block 2.4, each end of the U-shaped support 4 is also fixedly provided with an inductive switch 2.5, and the inductive switches 2.5 are respectively positioned on one side of the rotary fastening cylinder 2.3.

The shape of the sleeve cover ejecting end part 1.5.1 is matched with that of the sleeve cover, the shape of the sleeve ejecting end part 1.5.2 is strip-shaped, and the sleeve cover ejecting end part 1.5.1 and the sleeve ejecting end part 1.5.2 are fixed into a whole.

The joint of the turnover shaft 2.6 and the sliding block 2.1 is flat, so that the sliding force of the turnover shaft and the sliding block can be improved, and deviation can be prevented.

Left end casing lid positioning groove 1.1 establishes to a mould multicavity, and right-hand member casing lid positioning groove 1.2 is independent parallel structure, can guarantee that mutually support mutually and mutually noninterference again when thimble assembly material loading.

When the turnover shaft mechanism is turned over for 180 degrees, the fixing block is separated from the sleeve supporting piece, and when the turnover mechanism is not turned over, the bottom of the fixing block is in lap joint with the sleeve supporting piece.

The working principle is as follows:

firstly, placing one end of a sleeve assembly which finishes the previous procedure in a right sleeve cover positioning clamping groove 1.2 on a pre-feeding table 1, then placing the other end of the sleeve assembly in a left sleeve cover positioning clamping groove 1.1, and enabling a sleeve cover ejection end part 1.5.1 inside a right sleeve cover positioning clamping groove 1.2 and/or a left sleeve cover positioning clamping groove 1.1 at the bottom of the sleeve assembly to be in contact with a sleeve ejection end part 1.5.2, and enabling the middle position of the sleeve assembly to be supported on a sleeve support part 1.6;

II, after the sleeve assembly is completely filled on the pre-feeding table 1, holding the overturning handle 1.7 with both hands to overturn the pre-feeding table 1 for 180 degrees along the overturning shaft 2.6, so that the position of the overturned sleeve assembly is also overturned for 180 degrees relative to the position of the overturned sleeve assembly, the pre-feeding table 1 and the feeding table 3 are matched, and then the rotary fastening pressing block 2.4 downwards presses the matched die positions at two ends between the pre-feeding table 1 and the feeding table 3 under the action of the rotary fixing mechanism 2.3, so that the pre-feeding table 1 and the feeding table 3 are tightly pressed and matched;

III, utilize inductive switch 2.5 to sense in advance behind material loading platform 1 and the 3 compound dies of material loading platform, propelling movement cylinder 1.4 starts to drive both ends sleeve pipe lid kicking blocks 1.5 simultaneously and push up to the thimble assembly, shift the thimble assembly to material loading platform 3 by material loading platform 1 in advance, thereby accomplish the material loading operation.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and such changes and modifications fall within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. Thimble assembly material loading tilting mechanism in advance, its characterized in that: comprises a pre-feeding platform, a turnover shaft mechanism, a feeding platform and a U-shaped bracket, wherein the pre-feeding platform is positioned at one side of the feeding platform, the pre-feeding tables are rotationally connected with the U-shaped bracket through a turnover shaft mechanism, the number of the pre-feeding tables is two, wherein one pre-feeding platform is provided with a left end sleeve cover positioning clamping groove, the other pre-feeding platform is provided with a right end sleeve cover positioning clamping groove, a sleeve supporting piece is fixedly arranged in the middle of the U-shaped bracket, the bottom of the left sleeve cover positioning clamping groove is fixed on one side of the top of one pre-feeding table, the right sleeve cover positioning clamping groove is connected with the other side of the top of the other pre-feeding table in a sliding way through a spring, the sleeve supporting piece is located between the two pre-feeding tables, and pushing mechanisms are further arranged at the bottoms of the left sleeve cover positioning clamping groove and the right sleeve cover positioning clamping groove respectively.

2. The ferrule assembly pre-loading canting mechanism of claim 1, wherein: the pushing mechanism comprises a pushing cylinder and a casing cover ejecting block, the casing cover ejecting block comprises a bottom plate, a first connecting plate, a casing cover ejecting end part and a casing pipe ejecting end part, the fixed end of the pushing cylinder is fixedly sleeved with the bottom plate, the telescopic end of the pushing cylinder is fixed with the first connecting plate, the bottoms of the casing cover ejecting end part and the casing pipe ejecting end part are fixed with the first connecting plate, the casing cover ejecting end part is located on one side of the casing pipe ejecting end part, the casing cover abuts against the casing cover ejecting end part when the casing cover is installed on the left casing cover positioning clamping groove and/or the right casing cover positioning clamping groove, and the casing pipe abuts against the casing pipe ejecting end part.

3. The ferrule assembly pre-loading canting mechanism of claim 1, wherein: the other pre-feeding table is fixedly connected with one end of the spring, and the right sleeve cover positioning clamping groove is fixed with the spring.

4. The ferrule assembly pre-loading canting mechanism of claim 1, wherein: the turnover shaft mechanism comprises a turnover shaft, sliding blocks and a fine adjustment nut, wherein a left end sleeve cover positioning clamping groove and a right end sleeve cover positioning clamping groove are both positioned in the U-shaped supports, two ends of the turnover shaft are sequentially fixed with the two U-shaped supports, a fixed block is fixedly sleeved at the middle position of the turnover shaft and is rotatably connected with one end of the fine adjustment nut, a sliding plate is sleeved at the other end of the fine adjustment nut in a threaded manner and is movably sleeved on the turnover shaft, a hand wheel is fixedly connected at the other end of the fine adjustment nut, the sliding plate and the hand wheel are both close to the right end sleeve cover positioning clamping groove, the sliding blocks are slidably sleeved on the turnover shaft, the number of the sliding blocks is two, one side of each sliding block is fixedly connected with a second connecting plate, the top of the second connecting plate is respectively fixed with the left end sleeve cover positioning clamping groove and/or the right end sleeve cover positioning clamping groove, and the bottom of the second connecting plate is also fixedly provided with a turnover handle.

5. A sleeve assembly pre-loading inverting mechanism as claimed in claim 3, wherein: the U-shaped support is characterized in that rotary fastening cylinders are fixed at two ends of the U-shaped support, rotary fastening pressing blocks are fixedly connected with telescopic ends of the rotary fastening cylinders, induction switches are fixedly mounted at each end of the U-shaped support, and the induction switches are located on one sides of the rotary fastening cylinders respectively.

6. The ferrule assembly pre-loading canting mechanism of claim 2, wherein: the shape of the sleeve cover ejection end part is matched with that of the sleeve cover, the sleeve ejection end part is in a long strip shape, and the sleeve cover ejection end part and the sleeve ejection end part are fixed into a whole.

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