阅读说明：本技术 单工位式智能翻套设备 (Single-station type intelligent turnover equipment ) 是由 刘钺 岳维华 于 2020-12-17 设计创作，主要内容包括：本发明涉及一种单工位式智能翻套设备,包括：由翻套翻转装置和设置在翻套翻转装置一侧的折角装置组成,其中,翻套翻转装置包括：对应套式肩章的规格设置有一与其相适配的中空圆柱形套筒,套筒固定设置在一驱动部件上,驱动装置的动力输出端固定设置有一杆件,杆件同轴穿设在套筒的空腔中,并与套筒间隔设置；在杆件上对应套筒的空腔固定设置有一翻套塞体,翻套塞体与套筒间隙设置,其间隙量小于套式肩章的厚度；套式肩章的长度大于套筒的高度；本发明通过控制驱动装置带动其上的翻套塞体在套筒空腔内往复动作,利用翻套塞体及配合折角装置的压制作用,将套设在套筒外侧的套式肩章进行翻转操作,本发明结构简单,便于应用。(The invention relates to a single-station type intelligent overturning device, which comprises: constitute by turning over a set turning device and setting at the dog-ear device that turns over a set turning device one side, wherein, turn over a set turning device and include: a hollow cylindrical sleeve matched with the sleeve is arranged corresponding to the specification of the sleeve type epaulet, the sleeve is fixedly arranged on a driving part, a rod piece is fixedly arranged at the power output end of the driving device, and the rod piece coaxially penetrates through a cavity of the sleeve and is arranged at an interval with the sleeve; a turning sleeve plug body is fixedly arranged on the rod piece corresponding to the cavity of the sleeve, and the turning sleeve plug body and the sleeve are arranged in a clearance mode, wherein the clearance is smaller than the thickness of the sleeve type epaulet; the length of the sleeve type epaulet is greater than the height of the sleeve; the sleeve-turning plug body is driven by the control driving device to reciprocate in the cavity of the sleeve, and the sleeve-type epaulet sleeved on the outer side of the sleeve is turned over by utilizing the pressing action of the sleeve-turning plug body and the matched bevel device.)

1. The utility model provides a single station formula intelligence complete sets that turns over which characterized in that: constitute by turning over a set turning device and setting at the dog-ear device that turns over set turning device one side, wherein, turn over set turning device include: a hollow cylindrical sleeve matched with the sleeve type epaulet is arranged corresponding to the specification of the sleeve type epaulet, the sleeve is fixedly arranged on a driving part, a rod piece is fixedly arranged at the power output end of the driving device, and the rod piece is coaxially arranged in a cavity of the sleeve in a penetrating manner; a turning sleeve plug body is fixedly arranged on the rod piece corresponding to the cavity of the sleeve, the turning sleeve plug body and the sleeve are arranged in a clearance mode, and the clearance is smaller than the thickness of the sleeve type epaulet; a limiting part is arranged on the outer side of the sleeve corresponding to the sleeve type epaulet, and the distance from the limiting part to the sleeve opening of the sleeve is smaller than the length of the sleeve type epaulet; the total length from the rod piece to the sleeve turning plug body is greater than the height of the sleeve;

the angle bending device is composed of an angle bending hook hinged to one side of the sleeve and an air cylinder driving the angle bending hook, and a driving end of the air cylinder is hinged to the middle of the angle bending hook.

2. The single-station intelligent turn-over equipment of claim 1, wherein: the turning sleeve plug body is made of rubber materials.

3. The single-station intelligent turn-over equipment of claim 1, wherein: the turning sleeve plug body is of a conical plug structure, and the large-diameter end of the conical plug is close to the outer side of the power output end of the driving device and is fixedly arranged with the outer side of the power output end of the driving device; the clearance between the diameter of the large-diameter end of the conical plug and the inner diameter of the sleeve is smaller than the thickness of the sleeve type epaulet.

4. The single-station intelligent turn-over equipment of claim 1, wherein: the driving device is set to be a hydraulic driving device, a pneumatic driving device or a cam mechanism driving device.

Technical Field

The invention relates to a single-station type intelligent overturning device.

Background

Currently, there are many types of epaulets on the market, and nested epaulets are one common type. When the epaulet is manufactured, the sewn epaulet is turned over to obtain a semi-finished epaulet. In the process, manual operation is usually adopted for turning, and the method is not only labor-intensive in operation, but also low in efficiency.

Disclosure of Invention

In order to overcome the problems, the invention provides a single-station type intelligent overturning device.

In order to achieve the above object, the present invention comprises: a hollow cylindrical sleeve matched with the sleeve is arranged corresponding to the specification of the sleeve type epaulet, the sleeve is fixedly arranged on a driving part, a rod piece is fixedly arranged at the power output end of the driving device, and the rod piece coaxially penetrates through the cavity of the sleeve and is arranged at an interval with the sleeve; a turning sleeve plug body is fixedly arranged on the rod piece corresponding to the cavity of the sleeve, the turning sleeve plug body and the sleeve are arranged in a clearance mode, and the clearance is smaller than the thickness of the sleeve type epaulet; the length of the sleeve type epaulet is greater than the height of the sleeve;

when the driving device controls the rod piece to be in a fully extended state, the bottom surface of the sleeve overturning plug body is higher than the top surface of the sleeve;

constitute by turning over a set turning device and setting at the dog-ear device that turns over set turning device one side, wherein, turn over set turning device include: a hollow cylindrical sleeve matched with the sleeve type epaulet is arranged corresponding to the specification of the sleeve type epaulet, the sleeve is fixedly arranged on a driving part, a rod piece is fixedly arranged at the power output end of the driving device, and the rod piece is coaxially arranged in a cavity of the sleeve in a penetrating manner; a turning sleeve plug body is fixedly arranged on the rod piece corresponding to the cavity of the sleeve, the turning sleeve plug body and the sleeve are arranged in a clearance mode, and the clearance is smaller than the thickness of the sleeve type epaulet; a limiting part is arranged on the outer side of the sleeve corresponding to the sleeve type epaulet, and the distance from the limiting part to the sleeve opening of the sleeve is smaller than the length of the sleeve type epaulet; the total length from the rod piece to the sleeve turning plug body is greater than the height of the sleeve;

the angle bending device is composed of an angle bending hook hinged to one side of the sleeve and an air cylinder driving the angle bending hook, and a driving end of the air cylinder is hinged to the middle of the angle bending hook.

Furthermore, the sleeve turning plug body is made of rubber materials.

Furthermore, the turning sleeve plug body is of a conical plug structure, and the large-diameter end of the conical plug is close to the outer side of the power output end of the driving device and is fixedly arranged with the outer side of the power output end of the driving device; the clearance between the diameter of the large-diameter end of the conical plug and the inner diameter of the sleeve is smaller than the thickness of the sleeve type epaulet.

Further, the driving device is set to be a hydraulic driving device, a pneumatic driving device or a cam mechanism driving device.

The invention has the beneficial effects that: a hollow cylindrical sleeve is fixedly arranged on the driving device, and a power output end of the driving device is coaxially arranged with the sleeve in a clearance penetrating way; the sleeve turning plug body on the sleeve turning plug body is driven to reciprocate in the cavity of the sleeve by the control driving device, and the sleeve type epaulet sleeved on the outer side of the sleeve is turned over by the sleeve turning plug body, so that the sleeve type epaulet turning plug is simple in structure and convenient to apply.

Drawings

Fig. 1 is a front view of the device of the present invention.

Fig. 2 is a top view of the device of the present invention.

Fig. 3 is a cross-sectional view of the device of the present invention.

FIG. 4 is a schematic structural diagram of the device of the present invention in operation in an embodiment (step one).

FIG. 5 is a schematic view of the structure of the apparatus according to the present invention in operation in the example (step two).

FIG. 6 is a schematic view of the structure of the apparatus according to the present invention in operation in the example (step three).

FIG. 7 is a schematic view of the structure of the apparatus of the present invention in operation in the example (step four).

FIG. 8 is a schematic view showing the structure of the apparatus according to the present invention in operation in the example (step five).

FIG. 9 is a schematic view showing the structure of the apparatus according to the present invention in operation in the example (step six).

Fig. 10 is a schematic structural view of the sleeve-type epaulet of the present invention before turning over.

Fig. 11 is a schematic structural view of the sleeve-type epaulet of the present invention after being turned over.

In the figure, 1, a cylinder body, 2, a sleeve, 3, a piston component, 4, a screw, 5, a turning sleeve plug body, 6, a nut, 7, a sleeve type epaulet and 9, a bevel device are arranged.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

Example 1

Embodiment 1 is one of the structures of the present invention, as shown in fig. 1 to 3, including: constitute by turning over a set turning device and setting at the dog-ear device 9 that turns over a set turning device one side, wherein, turn over a set turning device and include: a hollow cylindrical sleeve 2 matched with the sleeve type epaulet 7 is arranged corresponding to the specification of the sleeve type epaulet 7, the sleeve 2 is fixedly arranged on a driving part, a rod piece is fixedly arranged at the power output end of the driving device, and the rod piece is coaxially arranged in a cavity of the sleeve 2 in a penetrating way; a sleeve turning plug body 5 is fixedly arranged on the rod piece corresponding to the cavity of the sleeve 2, and the sleeve turning plug body 5 and the sleeve 2 are arranged in a clearance manner, wherein the clearance amount is smaller than the thickness of the sleeve type epaulet 7; the length of the sleeve type epaulet 7 is greater than the height of the sleeve 2; wherein, the turning sleeve plug body 5 is made of rubber material.

When the driving device controls the rod in the fully extended state in the sleeve 2, the bottom surface of the flip plug body 5 is higher than the top surface of the sleeve 2.

Wherein the driving device is set as a hydraulic driving device, a pneumatic driving device or a cam mechanism driving device. The turning sleeve plug body 5 on the control driving device is driven to reciprocate in the cavity of the sleeve 2, and the turning sleeve plug body 5 is used for turning a sleeve type epaulet 7 sleeved on the outer side of the sleeve 2.

In this embodiment 1, the dog-ear device 9 is composed of a dog-ear hook hinged on one side of the sleeve 2 and a cylinder driving the dog-ear hook, and the driving end of the cylinder is hinged in the middle of the dog-ear hook.

As shown in fig. 6, when the sleeve type epaulet 7 on the sleeve 2 needs to be subjected to angle bending operation, the piston of the control cylinder contracts, and the angle bending hook hinged to the driving end of the piston rod is driven to rotate through the piston rod to press the epaulet; after the pressing is finished, the piston of the control cylinder extends out, the piston rod drives the dog-ear hook hinged to the driving end of the piston rod to rotate reversely, so that the dog-ear hook is far away from the sleeve 2, and the sleeve type epaulet 7 is convenient to turn over.

Example 2

In the present embodiment 2, as shown in fig. 3, the driving device is a pneumatic driving device, and includes: the cylinder body 1 is fixedly connected with the sleeve 2, a piston component 3 is vertically arranged in the cylinder body 1, and a piston rod of the piston component 3 extends out of the cylinder body 1 and is coaxially arranged with the sleeve 2 in a clearance manner; a shaft shoulder structure and an external thread are sequentially arranged at the extending end of the piston rod, an annular sleeve turning plug body 5 is sleeved on the piston rod corresponding to the shaft shoulder structure, and the sleeve turning plug body 5 is fixedly arranged at the extending end of the piston rod of the piston component 3 through a nut 6;

in this embodiment 2, the plug body 5 is a tapered plug structure, wherein the large diameter end of the tapered plug is fixed to the outside of the piston rod of the pneumatic driving device, and the gap between the diameter of the large diameter end of the tapered plug and the inner diameter of the sleeve 2 is smaller than the thickness of the sleeve-type shoulder strap 7. Through the design of the conical plug structure, the conical surface of the conical plug of the sleeve-turning plug body 5 is in stressed contact with the sleeve-type epaulet 7, and when the sleeve-type epaulet 7 turns over and enters the cylinder body 1, the sleeve-type epaulet 7 is guided by the conical surface structure.

The method comprises the following specific operation steps:

1. a sewn sleeve type epaulet 7 is sleeved outside the sleeve 2 of the device, as shown in fig. 4;

2. when the pneumatic driving device is started, one end of a piston rod of the piston component 3 is controlled to completely act in the cylinder body 1, and one end of a sleeve turning plug body 5 fixedly arranged on the pneumatic driving device is driven to sequentially extend out of the cylinder body 1 and the sleeve 2, as shown in fig. 5;

3. meanwhile, starting the angle hook cylinder, driving the angle hook to rotate by a preset angle through a piston rod of the cylinder, so as to angle the sewn sleeve-type epaulet 7 through the angle hook 9, and enabling the other side of the sleeve-type epaulet 7 to cover the opening of the sleeve 2, as shown in fig. 6; after pressing is finished, a piston of the control cylinder extends out, and the piston rod drives the bevel hook hinged to the driving end of the piston rod to rotate reversely, so that the bevel hook is far away from the sleeve 2, and the sleeve type epaulet 7 is convenient to turn over;

4. at the moment, the cylinder driving device is controlled to be reversed, one end of a piston rod of the piston component 3 enters the cylinder body 1, the sleeve type epaulet 7 at the position of the cylinder opening is turned over through the sleeve turning plug body 5 fixedly arranged on the cylinder body, and the turned sleeve type epaulet 7 enters the inner cavity of the sleeve 2, as shown in fig. 7 and 8;

5. controlling the cylinder driving device to reverse again, enabling the piston component 3 to run for a half-way distance in the cylinder body 1, guiding out the turned sleeve type epaulet 7 through the sleeve turning plug body 5, and taking down the turned sleeve type epaulet as shown in fig. 9;

6. and (5) sequentially circulating the steps 1-5, and turning over a large number of sewn sleeve-type epaulets 7, as shown in fig. 10 and 11.

Example 3

In this embodiment 3, the driving device is a cam mechanism driving device, and the operation principle is basically the same as that of embodiment 2, except that: the cylinder drive is replaced by a cam mechanism.