CN214827992U - Hose plane lamination coiler - Google Patents

Abstract

The utility model discloses a hose plane stromatolite coiler, its characterized in that: include through the control of electrical control portion in order to carry the hose to hose delivery portion to the hose coiling portion that the hose that will be carried by hose delivery portion and arrive coiled the lapping through electrical control portion control, electrical control portion, hose delivery portion and hose coiling portion all install on the operation panel. The utility model discloses reduce intensity of labour, improved the winding efficiency of hose book to the yield of hose book has been promoted. The utility model is suitable for a technical field of hose coiling lapping technology.

Description

Hose plane lamination coiler

Technical Field

The utility model belongs to the technical field of hose coiling lapping technology, specific theory relates to a hose plane stromatolite coiler.

Background

In the process of hose production, processing and storage, it is often necessary to coil long lengths of hose into coils to meet the requirements of customers, processing operations or storage space. The existing hose pipe coiling mode is that a hose is manually wound on a mould circle by circle, after single-layer winding is finished, the actions are repeated to wind a second layer and a third layer till an Nth layer, the hose is manually coiled to an outermost circle from inside to outside of the first layer, the second layer is stacked, the outermost circle is coiled to an innermost circle, and the actions are sequentially repeated to wind to a specified length. At this time, the hose is wound around the mold, and then the mold is removed to separate the hose reel from the mold. The method for coiling the hose coil is completely pure manual operation, so that the efficiency is extremely low, the labor intensity is high, the operator can feel fatigue after working for a long time, the phenomena of unqualified hose coil winding looseness, disorder and the like frequently occur, the hose can be cut off in advance or in a delayed manner due to misoperation frequently occur, and the length of the hose coil is smaller than or larger than the preset length.

SUMMERY OF THE UTILITY MODEL

The utility model provides a hose plane stromatolite coiler for reduce intensity of labour, improve the winding efficiency that the hose was rolled up, and promote the yield that the hose was rolled up.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides a hose plane stromatolite coiler, includes the hose conveying part through electric control portion control with carry the hose to the hose coiling portion that the hose that will be carried by hose conveying part and reach is coiled the lapping through electric control portion control, electric control portion, hose conveying part and hose coiling portion all install on the operation panel.

Further, hose conveying portion includes that the hose that sets gradually along the direction of delivery of hose measures unit, traction unit, flexible transition unit and hose and goes into a set unit, in install the mounting bracket on the operation panel, hose measures unit, traction unit and flexible transition unit installs on the mounting bracket.

Furthermore, the hose metering unit comprises a metering roller pair which is rotatably arranged on the mounting frame, the hose is drawn by the drawing unit and is rolled by the metering roller pair, and a counter for metering the millimeter number of the metering roller pair is assembled on the metering roller pair.

Furthermore, the traction unit comprises a traction double-roller arranged on the mounting frame, and one of the two traction rollers forming the traction double-roller is coaxially connected with an output shaft of the traction motor.

Furthermore, the hose tray entering unit comprises a feeding groove pipe which is connected with the flexible transition unit and the outlet end and is in an inclined downward extending state, a feeding groove extending along the length direction of the feeding groove pipe is formed in the feeding groove pipe, the hose enters the feeding groove through the flexible transition unit, a power conveying part is installed on the feeding groove, the hose is conveyed at the output end of the power conveying part and is supplied to a hose coiling part through the feeding groove, an adjusting unit is constructed between the operating platform and the feeding groove, and the adjusting unit is used for controlling the horizontal direction swinging and/or vertical lifting of the feeding groove pipe.

Furthermore, the adjusting unit comprises a power swing arm fixedly mounted on the operating platform, a power lifting arm is mounted at the output end of the power swing arm, the power swing arm and the power lifting arm jointly form X, Y-direction cloth movement, and the output end of the power lifting arm is fixedly connected with the feeding groove pipe.

Furthermore, a guiding strip with one end extending into the feeding groove is arranged on the feeding groove pipe and close to the flexible transition unit, the guiding strip is provided with a guiding groove communicated with the feeding groove, and the guiding groove extends along the length direction of the guiding strip.

Further, hose coiling portion is including rotating the coil pipe mould of installing on the operation panel, the coil pipe mould is connected with the mould rotary unit transmission of installing in the operation panel.

Further, the coil pipe mould comprises a mould rotating disc arranged on the table surface of the operating table, an inner supporting piece is constructed at the central position of the mould rotating disc, the mould rotating disc is driven by a mould rotating unit to rotate so as to form that the hose which is discharged from the hose feeding unit is gradually wound on the mould rotating disc, and the inner supporting piece is supported at the center of the hose coil which is wound into a coil.

Further, the mould rotary unit comprises a mould rotary driving piece arranged on a fixing frame inside the operating platform, the output end of the mould rotary driving piece is connected with a mould lifting driving piece, and the output end of the mould lifting driving piece is fixedly connected with the center of the coil pipe mould.

The utility model discloses owing to adopted foretell structure, it compares with prior art, and the technical progress who gains lies in: the utility model discloses an electric control portion controls each part action, and the hose is carried to hose coiling portion through hose conveying portion, and then realizes that the hose twines into the layer and the winding of stromatolite plane helix with the mode of Archimedes plane helix, finally forms the hose book, the utility model discloses an automatic control realizes the coil pipe operation, has avoided the yield that manual work brought low, intensity of labour is big and the problem that winding efficiency is low, moreover, because automatic control, makes the length of the hose book of winding lapping the same with required length, prevents to appear the maloperation because of manual work, causes the hose to cut in advance or postpone, makes the problem that the length of hose book is less than or is greater than predetermined length take place; therefore, the utility model discloses reduce intensity of labour, improved the winding efficiency of hose book to the yield of hose book has been promoted.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic partial structure diagram of an embodiment of the present invention;

fig. 3 is a schematic structural diagram of the connection between the end portion of the hose and the inner support member according to the embodiment of the present invention.

Labeling components: 1-an operation table, 2-an electrical control part, 3-a cooling fan, 4-a fixed frame, 5-a mould rotating driving part, 6-a mould lifting driving part, 7-a mould turntable, 8-an inner supporting part, 9-a mounting frame, 10-a mounting plate, 11-a metering roller pair, 12-a traction roller pair, 13-a traction motor, 14-a flexible transition unit, 15-a guiding strip, 16-a feeding groove pipe, 17-a power swing arm, 18-a power lifting arm, 19-a power conveying part, 20-a feeding roller, 21-a hose end fixing port, 22-a sliding rail, 23-a linear motor and 24-a pressing plate.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for purposes of illustration and explanation only and are not intended to limit the invention.

The utility model discloses a hose plane stromatolite coiler, as shown in fig. 1-2, including electrical control portion 2, hose conveying portion and hose coiling portion. The electric control part 2 is a controller connected with each electric component through a PLC, the controller is connected with a PC end through corresponding programming, the action of each electric component is realized by controlling various parameters on the PC end, and a heat radiation fan 3 is arranged on the side wall of the operation table 1 and positioned at the electric control part 2. The electric control part 2 controls the hose to be conveyed to the hose conveying part, the electric control part 2 supplies the hose conveyed by the hose conveying part to the hose coiling part, and the electric control part 2, the hose conveying part and the hose coiling part are all installed on the operating table 1. The utility model discloses a theory of operation and advantage lie in: the utility model discloses an electrical control portion 2 controls each part action, and the hose is carried to hose coiling portion through hose conveying portion, and then realizes that the hose twines into the dish and twines layer by layer, finally forms the hose book, the utility model discloses an automatic control realizes that the coil pipe operation, has avoided the yield that manual work brought to be low, intensity of labour is big and twine the problem of inefficiency, moreover, because of automatic control, make the model of the hose book of twining the coiling the same with required model, can not appear because the maloperation appears in manual work, cause the hose to cut in advance or postpone, make the problem that the model of hose book is less than or is greater than predetermined model take place; therefore, the utility model discloses reduce intensity of labour, improved the winding efficiency of hose book to the yield of hose book has been promoted.

As a preferred embodiment of the present invention, as shown in fig. 1, the hose conveying portion includes a hose metering unit, a traction unit, a flexible transition unit 14, and a hose reel-in unit, which are sequentially arranged along the conveying direction of the hose, and the mounting frame 9 is installed on the operation table 1, and the hose metering unit, the traction unit, and the flexible transition unit 14 are installed on the mounting frame 9. The working principle of the embodiment is as follows: the hose is measured by a hose measuring unit to measure the length of the hose, specifically, the hose measuring unit comprises a measuring double-roller 11 which is rotatably arranged on the mounting rack 9, the hose is pulled by a pulling unit and is rolled by the measuring double-roller 11, a counter for measuring the millimeter number of the hose conveyed by the measuring double-roller 11 is arranged on the measuring double-roller 11, and the conveyed length of the hose is determined by the number of turns of one measuring roller in the measuring double-roller 11; the flexible transition unit 14 is used for driving the flexible pipe to move forward, so that the flexible pipe smoothly passes through the metering pair roller 11 and is conveyed to the flexible transition unit 14, specifically, the flexible transition unit comprises a traction pair roller 12 which is arranged on the mounting frame 9, one of two traction rollers forming the traction pair roller 12 is coaxially connected with an output shaft of a traction motor 13, the traction motor 13 drives the traction pair roller 12 to roll and push the flexible pipe, so that the flexible pipe is gradually conveyed at a constant speed, and the flexible pipe is rolled by the traction pair roller 12 in the conveying process to have certain deformation, so that the transmission synchronism of the flexible pipe is improved, and the phenomenon of slipping is avoided; the flexible transition unit 14 generally adopts a bendable conveying chain with a channel for the hose to pass through, the hose enters the hose entering tray unit after passing through the conveying chain, and due to the flexible characteristic of the flexible transition unit 14, the flexible transition unit has higher convenience in the aspects of angle adjustment, height adjustment and the like; the hose-in-tray unit uniformly feeds the hose from the flexible transition unit 14 to the hose coiling portion. The upper end of the mounting frame 9 of this embodiment has a mounting plate 10, the metering roller pair 11 and the pulling roller pair 12 are both mounted on the mounting plate 10, and the end of the flexible transition unit 14 away from the hose-in-tray unit is also connected to the mounting plate 10.

As a preferred embodiment of the present invention, as shown in fig. 1-2, the hose-in-tray unit includes a feeding chute 16, a power transmission member 19, and an adjusting unit. Wherein, the feeding groove pipe 16 is connected with the outlet end of the flexible transition unit 14, the feeding groove pipe 16 is in a state of extending obliquely downwards, a feeding groove extending along the length direction of the feeding groove pipe 16 is arranged on the feeding groove pipe 16, and the hose enters the feeding groove through the flexible transition unit 14. The power conveying piece 19 is arranged on the feeding groove pipe 16, the power conveying piece 19 comprises a feeding motor, a feeding roller 20 is arranged at the output end of the feeding motor, the output end of the feeding motor drives the feeding roller 20 to rotate, and then a conveying hose passes through the feeding groove and is supplied to the hose coiling part, the adjusting unit is arranged between the operating platform 1 and the feeding groove pipe 16, and the adjusting unit is used for controlling the horizontal direction swing and/or vertical lifting of the feeding groove pipe 16. The preferred structure of the adjusting unit in this embodiment is: the adjusting unit comprises a power swing arm 17 and a power lifting arm 18, wherein the power swing arm 17 is fixedly arranged on the operating platform 1, the power lifting arm 18 is fixedly arranged on the output end of the power swing arm 17, the output end of the power lifting arm 18 is fixedly connected with the feeding trough pipe 16, and the power swing arm 17 and the power lifting arm 18 jointly form X, Y-direction cloth movement. In the embodiment, the power swing arm 17 is used for winding the single-layer hose ring one by one, namely the power swing arm 17 pulls the feeding groove pipe 16 to move along the radial direction of the hose winding part, so that the hose is gradually wound; after the winding of the single-layer hose coil layer is finished, the power lifting arm 18 adjusts the height of the feeding groove pipe 16, then the next hose coil layer is wound, and the power swinging arm 17 and the power lifting arm 18 are matched with each other repeatedly, so that the hose is wound into a coil finally. In order to avoid the influence of the deflection of the hose on the accuracy of entering the feed chute pipe 16 and entering the tray, the feed chute pipe 16 is provided with an introducing strip 15 at a position close to the flexible transition unit 14, one end of the introducing strip 15 extends into the feed chute, and the introducing strip 15 is provided with an introducing groove communicated with the feed chute, and the introducing groove extends along the length direction of the introducing strip 15.

As a preferred embodiment of the present invention, as shown in fig. 1-2, the hose coiling portion comprises a coil pipe mold and a mold rotating unit, wherein the coil pipe mold is rotatably installed on the operating platform 1, the mold rotating unit is installed in the operating platform 1, and the coil pipe mold is in transmission connection with the output end of the mold rotating unit. The specific structure of the coil pipe mould is as follows: the coil pipe mold comprises a mold turntable 7 installed on the table top of the operation table 1, an inner support member 8 is constructed at the central position of the mold turntable 7, a hose end fixing port 21 is formed in the side wall of the inner support member 8, one end of a hose extends into the hose end fixing port 21 to fix the hose and the inner support member 8, and therefore the phenomena that the hose slips, loosens and the like in the winding process are avoided. The specific fixing mode of the hose end part is as follows: as shown in fig. 3, a slide rail 22 extending vertically downward is provided in the inner support 8, a linear motor 23 is mounted on the slide rail 22, a pressing plate 24 is mounted on an end of the linear motor 23, and the linear motor 23 drives the pressing plate 24 to operate and clamp the hose end at the hose end fixing opening 21. The air cylinder can be used for driving the pressing plate 24 to press the hose, or an electromagnet can be used for the pressing plate. The mould rotary table 7 is driven by the mould rotary unit to rotate, so that the hose which is output by the hose input unit is gradually coiled on the mould rotary table 7, and the inner supporting piece 8 is supported at the center of the coiled hose coil and is used for preventing the deformation and the looseness of the inner part of the hose coil in the coiling process. The specific structure of the mould rotating unit is as follows: the mould rotary unit comprises a mould rotary driving piece 5 arranged on a fixed frame 4 in the operation platform 1, the output end of the mould rotary driving piece 5 is connected with a mould lifting driving piece 6, and the output end of the mould lifting driving piece 6 is fixedly connected with the center of the coil pipe mould. The mould lifting driving piece 6 is used for controlling the up-and-down action of the hose mould to realize the tray taking operation after the hose is coiled, and is also matched with the power lifting arm 18 to realize the winding operation of a plurality of layers of hose ring layers.

As a preferred embodiment of the present invention, in order to facilitate the separation of the inner supporting member from the coiled hose coil, as shown in fig. 1, a hole is formed in the operation table 1 and located at the inner supporting member 8, the mold lifting driving member is an electric cylinder, and the output end of the electric cylinder is fixedly connected to the inner supporting member 8 in the center of the coil pipe mold, so as to drive the inner supporting member 8 to ascend to the operation table 1 or descend to the operation table 1. In order to further separate the hose reel from the inner support 8, as shown in fig. 1, the cross section of the inner support 8 is a regular polygon, and an upper support coaxially disposed with the inner support 8 is configured at the upper end of the inner support 8, and the cross section of the upper support is also a regular polygon, and the upper support is smaller than the inner support 8. Thus, the contact area of the hose coil with the inner support member 8 is much smaller than that of the inner support member 8 having a cylindrical structure, which facilitates the separation of the two members.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the protection of the claims of the present invention.

Claims (10)

1. A hose plane lamination coiler is characterized in that: including the hose conveying part through electric control portion control in order to carry the hose to the hose coiling portion that the hose that will be carried by hose conveying part and reach coiled the lapping through electric control portion control, electric control portion, hose conveying part and hose coiling portion all install on the operation panel.

2. A hose flat laminate coiler as claimed in claim 1, wherein: hose conveying portion includes that the hose that sets gradually along the direction of delivery of hose measures unit, traction unit, flexible transition unit and hose and goes into a set unit in install the mounting bracket on the operation panel, hose measures unit, traction unit and flexible transition unit install on the mounting bracket.

3. A hose flat laminate coiler as claimed in claim 2, wherein: the hose metering unit comprises a metering roller pair which is rotatably arranged on the mounting frame, the hose is pulled by the traction unit and is rolled by the metering roller pair, and a counter for metering the millimeter number of the metering roller pair is assembled on the metering roller pair.

4. A hose flat laminate coiler as claimed in claim 2, wherein: the traction unit comprises a traction pair roller arranged on the mounting frame, and one of the two traction rollers forming the traction pair roller is coaxially connected with an output shaft of the traction motor.

5. A hose flat laminate coiler as claimed in claim 2, wherein: the hose tray-entering unit comprises a feeding groove pipe which is connected with the flexible transition unit and the outlet end and is in an inclined downward extending state, a feeding groove extending along the length direction of the feeding groove pipe is formed in the feeding groove pipe, a hose enters the feeding groove through the flexible transition unit, a power conveying piece is installed on the feeding groove, the hose is conveyed at the output end of the power conveying piece and is supplied to a hose coiling part through the feeding groove, an adjusting unit is constructed between the operating platform and the feeding groove, and the adjusting unit is used for controlling the feeding groove pipe to swing in the horizontal direction and/or lift vertically.

6. The hose flat laminate coiler of claim 5, wherein: the adjusting unit comprises a power swing arm fixedly arranged on the operating platform, a power lifting arm is arranged at the output end of the power swing arm, the power swing arm and the power lifting arm jointly form X, Y-direction cloth movement, and the output end of the power lifting arm is fixedly connected with the feeding groove pipe.

7. The hose flat laminate coiler of claim 5, wherein: and a guiding strip with one end extending into the feeding groove is arranged on the feeding groove pipe and close to the flexible transition unit, the guiding strip is provided with a guiding groove communicated with the feeding groove, and the guiding groove extends along the length direction of the guiding strip.

8. A hose flat laminate coiler as claimed in claim 1, wherein: the hose coiling part comprises a coil pipe die which is rotatably arranged on the operating platform, and the coil pipe die is in transmission connection with a die rotating unit arranged in the operating platform.

9. A hose flat pack coiler as claimed in claim 8, wherein: the coil pipe mould comprises a mould rotary table arranged on the table surface of an operating table, an inner supporting piece is constructed at the center position of the mould rotary table, the mould rotary table is driven by a mould rotating unit to rotate so as to form a hose which is discharged from a hose feeding unit and is gradually wound on the mould rotary table, and the inner supporting piece is supported at the center of a hose coil which is wound into a coil.

10. A hose flat pack coiler as claimed in claim 8, wherein: the mould rotary unit comprises a mould rotary driving piece arranged on a fixing frame inside the operating platform, the output end of the mould rotary driving piece is connected with a mould lifting driving piece, and the output end of the mould lifting driving piece is fixedly connected with the center of the coil pipe mould.

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