CN115071002A

CN115071002A - Tensioning integrated vulcanization forming die and method for mooring belt

Info

Publication number: CN115071002A
Application number: CN202210570123.3A
Authority: CN
Inventors: 叶海艮; 张德炯; 刘友传
Original assignee: Zhongnan Rubber Group Changzheng Rubber Products Co ltd
Current assignee: Zhongnan Rubber Group Changzheng Rubber Products Co ltd
Priority date: 2022-05-24
Filing date: 2022-05-24
Publication date: 2022-09-20

Abstract

A tie-down belt stretch-draw integrated vulcanization forming die and a method thereof comprise a base, wherein a plurality of vulcanization tanks are arranged on the base, the base positioned at two ends of each vulcanization tank is respectively provided with a fixing device and a stretch-draw device, and a cover plate is detachably arranged on the base; the two sides of the vulcanizing tank are provided with guide grooves which are communicated with the vulcanizing tank through channels. The rubber raw material is wrapped in the acrylic fiber belt and placed into the vulcanizing tank, one end of the acrylic fiber belt is connected to the fixing device, the acrylic fiber belt is tensioned and straightened through the tensioning device, the cover plate is covered, the forming die is placed into the vulcanizing machine to be heated and pressurized, in the vulcanizing process, the excessive rubber enters the diversion trench through the channel, the rubber raw material is uniformly wrapped around the acrylic fiber belt through the vulcanizing tank, and the rubber wrapped mooring belt is quickly formed.

Description

Tensioning integrated vulcanization forming die and method for mooring belt

Technical Field

The invention relates to the technical field of high-performance rubber vulcanization equipment, in particular to a tensioning integrated vulcanization forming die and method for a mooring belt.

Background

The mooring belt is made of high-strength fibers and used for fixing, reinforcing or hanging heavier parts, and the general mooring belt is made of acrylic fibers and can be used for a long time in daily air environments. However, since the marine environment is a complex system, which contains salt, oxygen, organic matter, organisms and other internal factors, along with physical factors such as temperature, pH value, conductivity and other physical factors, and dynamic factors such as flow rate, diffusivity and the like, the mooring belt used in seawater brings great test to the sea-soaking material, and fouling, corrosion and abrasion are the first to come, and the mooring belt has serious influence on the performance and structural integrity of the common mooring belt used in seawater.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the problem that exists among the above-mentioned background art is solved, provide one kind and can make the tie-down strip stretch-draw integral type vulcanization forming die who produces the tie-down strip that is fit for using in the sea water.

The other technical problem to be solved by the invention is as follows: provides a method for manufacturing a mooring belt by adopting a mooring belt tensioning integrated vulcanization forming die. .

In order to achieve the technical features, the invention is realized as follows: a tensioning integrated vulcanization forming die for a mooring belt comprises a base, wherein a plurality of vulcanization grooves are formed in the base, fixing devices and tensioning devices are respectively arranged on the bases located at two ends of the vulcanization grooves, and a cover plate is detachably mounted on the base; one side or both sides of vulcanization groove are equipped with the guiding gutter, communicate through passageway and vulcanization groove.

Fixing device includes the first support of being connected with the base to and install the connection fastener on first support, it is corresponding with the vulcanization groove position to connect the fastener.

Connect fastener one end and be U type structure, the other end sets up the screw rod, and the screw rod inserts in the hole that first support corresponds, fixes on first support through the nut, and the round pin axle can be dismantled is installed to the one end of U type structure.

The tensioning device comprises second supports connected to two sides of the base and tensioning seats connected to the two second supports, one end of the elastic body is connected with the tensioning seats, and the other end of the elastic body is provided with a hook.

The tensioning device comprises second supports connected to two sides of the base and tensioning plates connected to the two second supports, and the tensioning seat is movably connected with the tensioning plates through fasteners; one end of the elastic body is connected with the tensioning seat, and the other end of the elastic body is provided with a hook.

The tensioning device is provided with a guide device.

The guiding device comprises a guiding shaft connected with the second support, and the guiding wheel is movably arranged on the guiding shaft and corresponds to the vulcanizing tank in position.

The cover plate is connected with the base through a fastener.

The cover plate is provided with a handle.

A method for manufacturing a mooring belt by adopting a mooring belt tensioning integrated vulcanization forming die comprises the following steps:

s1, cutting an acrylic tape into a proper length, sewing one end of the acrylic tape into a ring shape, and sewing a hanging buckle in the ring during sewing;

s2, paving a rubber sheet with a proper width in a vulcanization groove of the base, fixing the other end of the acrylic tape with a hook of a tensioning device, bypassing a guide wheel of a guide device, and laying and pulling the acrylic tape along the vulcanization groove to enable a hanging buckle of the acrylic tape to be installed on a connecting fastener of a fixing device;

s3, screwing the first fastener, tensioning the acrylic tape to ensure that the acrylic tape is positioned in the middle of the vulcanization tank, uniformly laying a layer of rubber sheet on the upper part of the acrylic tape of the vulcanization tank, covering the cover plate, and screwing the second fastener;

s4, transferring the forming die with the mounted acrylic tapes to a vulcanization forming machine, and carrying out up-and-down pressing vulcanization forming, wherein the vulcanization temperature is 110-120 ℃, and the vulcanization time is 8-10 minutes, so as to form the mooring tape with the rubber package;

and S5, after vulcanization molding, taking out the molding die, opening the cover plate after the molding die is cooled, taking out the mooring belt, and removing redundant rubber positioned in the diversion trench on two sides of the mooring belt.

The invention has the following beneficial effects:

1. the rubber raw material is wrapped in the acrylic fiber belt and placed into the vulcanizing tank, one end of the acrylic fiber belt is connected to the fixing device, the acrylic fiber belt is tensioned and straightened through the tensioning device, the cover plate is covered, the forming die is placed into the vulcanizing machine to be heated and pressurized, in the vulcanizing process, the excessive rubber enters the diversion trench through the channel, the rubber raw material is uniformly wrapped around the acrylic fiber belt through the vulcanizing tank, and the rubber wrapped mooring belt is quickly formed.

2. The both sides of vulcanization groove are equipped with the guiding gutter, through narrower passageway and vulcanization groove intercommunication, and the outside residual rubber of guiding gutter can easily remove after taking out.

3. The tensioning device comprises second supports connected to two sides of the base and tensioning plates connected to the two second supports, and the tensioning seat is movably connected with the tensioning plates through first fasteners; one end of the elastic body is connected with the tensioning seat, the other end of the elastic body is provided with the hook, the acrylic fiber belt which is installed on the die can be further tensioned, and the force of the acrylic fiber belt when the acrylic fiber belt is installed at the beginning is reduced.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a structural view of the present invention with the cover removed.

Fig. 3 is an enlarged structure diagram of the tensioning device at a position in fig. 2.

Fig. 4 is an enlarged schematic view of the fixing device at a position in fig. 2.

Fig. 5 is a schematic cross-sectional view taken at C-C in fig. 1.

Fig. 6 is a schematic cross-sectional view of fig. 5 at D.

FIG. 7 is a bottom view of the present invention.

Fig. 8 is a schematic structural view after the mooring belt is installed.

FIG. 9 is a schematic diagram of the structure of the present invention using weight traction.

In the figure, the base 10, the vulcanizing trough 11, the diversion trough 111, the channel 112, the fixing device 12, the first bracket 121, the connecting fastener 122, the tensioning device 13, the second bracket 131, the tensioning seat 132, the elastic body 133, the hook 134, the tensioning plate 135, the first fastener 136, the guiding device 14, the guiding shaft 141, the guiding wheel 142, the roller 15 and the weight 16.

A cover plate 20, a second fastener 21, a handle 22 and a tie-down strap 30.

Detailed Description

Embodiments of the present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1-8, a tie-down belt stretch-draw integrated vulcanization forming die comprises a base 10, eight vulcanization tanks 11 are arranged on the base 10, fixing devices 12 and stretch-draw devices 13 are respectively arranged on the base 10 positioned at two ends of the vulcanization tanks 11, and a cover plate 20 is detachably mounted on the base 10; guide grooves 111 are arranged on two sides of the vulcanizing tank 11 and communicated with the vulcanizing tank 11 through a channel 112. Through the structure, the rubber raw material is wrapped in the acrylic fiber belt and placed in the vulcanization groove 11, one end of the acrylic fiber belt is connected to the fixing device 12, the acrylic fiber belt is tensioned and straightened through the tensioning device 13, the cover plate 20 is covered, the forming die is placed in the vulcanizing machine to be heated and pressurized, in the vulcanization process, the excessive rubber enters the diversion groove 111 through the channel 112, and the rubber raw material is uniformly wrapped around the acrylic fiber belt through the vulcanization groove 11 to form the mooring belt 30. The tie-down strap 30 is located in the channel 111 more than the rubber, and since the passage 112 is a small gap, the tie-down strap can be easily torn off after being taken out of the mold.

In a preferred embodiment, as shown in fig. 4, the fixing device 12 includes a first bracket 121 connected to the base frame 10, and a connecting fastener 122 mounted on the first bracket 121, wherein the connecting fastener 122 corresponds to the position of the vulcanization groove 11. The acrylic fiber belt is convenient to be fixed and installed.

Further, connect fastener 122 one end and be U type structure, the other end sets up the screw rod, and the screw rod inserts in the hole that first support 121 corresponds, fixes on first support 121 through the nut, and the round pin axle can be dismantled in the one end of U type structure installation. The acrylic tape is convenient to fix due to the detachable structure.

In a preferred embodiment, the tensioning device 13 includes second brackets 131 connected to both sides of the base 10, and tensioning seats 132 connected to the two second brackets 131, and the elastic body 133 has one end connected to the tensioning seats 132 and the other end provided with a hook 134. The unvulcanized acrylic tapes are tensioned by the elastic bodies 133 so that the acrylic tapes are uniformly positioned in the vulcanizing tank 11 from top to bottom and from left to right. Preferably, the elastic body 133 is a spring, and both ends of the spring are provided with hooks or one end of the spring is provided with a hook 134 to be mounted on the spring. Of course, the elastic body 133 may be rubber having elasticity, and the stretched length may be larger. When in use, one end of the unvulcanized acrylic tape is fixed with the hook 134, and the other end is connected with the connecting fastener 122 after being pulled by force.

In a preferred embodiment, as shown in fig. 3, the tensioning device 13 comprises second brackets 131 connected to both sides of the base 10, and tensioning plates 135 connected to the two second brackets 131, wherein the tensioning base 132 is movably connected to the tensioning plates 135 by first fasteners 136; one end of the elastic body 133 is connected to the tension seat 132, and the other end is provided with a hook 134. The acrylic fiber belt installed on the die can be further tensioned, and the force of the acrylic fiber belt at the beginning of installation is reduced. When the acrylic tape stretching device is used, the first fastening piece 136 is loosened, one end of the unvulcanized acrylic tape is fixed with the hook 134, the other end of the unvulcanized acrylic tape is connected with the connecting fastener 122 after being pulled forcefully or slightly forcefully, and then the first fastening piece 136 is screwed to stretch the acrylic tape.

In a preferred solution, as shown in fig. 3, the tensioning device 13 is provided with a guide device 14. The positioning of the acrylic fiber belt is convenient, the acrylic fiber belt is positioned in the middle of the vulcanizing tank 11, and the tensioning of the acrylic fiber belt is convenient.

The second bracket 131 of the tension device 13 can be designed to have the same horizontal structure as the fixing device 12, the elastic body 133 is aligned with the vulcanization tank 11, or forms a certain angle with the base 10, preferably, as shown in fig. 1 and 2, the second bracket 131 has a structure perpendicular to the base 10, so that the guide device 14 can be conveniently installed, the acrylic fiber tape can be better aligned with the vulcanization tank 11, and the acrylic fiber tape is not easy to shake.

Further, as shown in fig. 9, the acrylic tape may be stretched by a weight 16. The weight hammers with different sizes (weights) are selected according to the acrylic tapes with different specifications, and the structure is simple and the application range is wide.

In a preferred embodiment, the guiding device 14 includes a guiding shaft 141 connected to the second bracket 131, and the guiding wheel 142 is movably mounted on the guiding shaft 141 and corresponds to the position of the vulcanizing tank 11. Simple structure, convenient to use, the outer circumference of leading wheel 142 is equipped with the recess that suits with the acrylic fibre area, fixes a position acrylic fibre area.

In a preferred scheme, the cover plate 20 is connected with the base 10 through a second fastening piece 21, so that the structure is simple and the installation is convenient.

In a preferred embodiment, the cover plate 20 is provided with a handle 22 to facilitate the opening and installation of the cover plate 20.

In a preferred embodiment, the tensioning device 13 is provided with rollers 15 to facilitate handling and movement of the mould.

s1, cutting the acrylic tapes into proper length, sewing one end into a ring shape, and sewing the hanging buckle in the ring during sewing;

s2, paving a rubber sheet with a proper width in the vulcanization groove 11 of the base 10, fixing the other end of the acrylic tape with the hook 134 of the tensioning device 13, bypassing the guide wheel 142 of the guide device 14, and paving and pulling along the vulcanization groove 11 to enable the hanging buckle of the acrylic tape to be installed on the connecting fastener 122 of the fixing device 12;

s3, screwing the first fastener 136, tensioning the acrylic tape to ensure that the acrylic tape is positioned in the middle of the vulcanization tank 11, then uniformly laying a layer of rubber sheet on the upper part of the acrylic tape of the vulcanization tank 11, covering the cover plate 20, and screwing the second fastener 21;

s4, transferring the forming die with the mounted acrylic tapes to a vulcanization forming machine, and carrying out up-and-down pressing vulcanization forming, wherein the vulcanization temperature is 110-120 ℃, and the vulcanization time is 8-10 minutes, so as to form the mooring tape 30 with the rubber package;

and S5, taking out the forming die after vulcanization forming, opening the cover plate 20 after cooling, taking out the mooring belt 30, and removing the redundant rubber on the two sides of the mooring belt 30 in the diversion trench 111.

The working process and principle of the invention are as follows:

the adopted rubber raw material is wrapped on the acrylic fiber belt and placed in the vulcanizing tank 11, one end of the acrylic fiber belt is connected to the hook 134 of the tensioning device 13 firstly, the acrylic fiber belt is pulled after bypassing the guide device 14, the other end of the acrylic fiber belt is installed on the connecting fastener 122, the first fastener 136 is rotated to tension the acrylic fiber belt, the cover plate 20 is covered, and the forming die is placed in a vulcanizing machine for heating and pressurizing. In the vulcanization process, excessive rubber enters the diversion trench 111 through the channel 112, and the rubber raw material is uniformly wrapped around the acrylic fiber belt through the vulcanization trench 11 to form the rubber-wrapped mooring belt 30. The tie-down strap 30 is located in the channel 111 more than rubber, and because the passage 112 is a small gap, after the tie-down strap is removed from the mold, the residual rubber outside the channel 111 is torn off.

Claims

1. The utility model provides a tie and take stretch-draw integral type vulcanization forming die, it includes base (10), its characterized in that: the base (10) is provided with a plurality of vulcanizing tanks (11), the base (10) positioned at two ends of each vulcanizing tank (11) is respectively provided with a fixing device (12) and a tensioning device (13), and a cover plate (20) is detachably arranged on the base (10); one side or two sides of the vulcanizing tank (11) are provided with guide grooves (111) which are communicated with the vulcanizing tank (11) through a channel (112).

2. A tie down strap stretch-draw integrated vulcanization molding die according to claim 1, characterized in that: the fixing device (12) comprises a first bracket (121) connected with the base (10) and a connecting fastener (122) installed on the first bracket (121), wherein the connecting fastener (122) corresponds to the position of the vulcanization groove (11).

3. A tie down strap stretch-draw integrated vulcanization molding die according to claim 2, characterized in that: connect fastener (122) one end and be U type structure, the other end sets up the screw rod, and the screw rod inserts in the hole that first support (121) correspond, fixes on first support (121) through the nut, and the round pin axle can be dismantled is installed to the one end of U type structure.

4. A tie down strap stretch-draw integrated vulcanization molding die according to claim 1, characterized in that: tensioning equipment (13) are including connecting second support (131) in base (10) both sides to with stretch-draw seat (132) of connecting on two second supports (131), elastomer (133) one end is connected with stretch-draw seat (132), and the other end is equipped with couple (134).

5. A tie down strap stretch-draw integrated vulcanization molding die according to claim 1, characterized in that: the tensioning device (13) comprises second supports (131) connected to two sides of the base (10) and tensioning plates (135) connected to the two second supports (131), and the tensioning seat (132) is movably connected with the tensioning plates (135) through first fasteners (136); one end of the elastic body (133) is connected with the tension seat (132), and the other end is provided with a hook (134).

6. A tie down strap stretch-draw integrated vulcanization molding die of claim 1, 4 or 5, characterized in that: the tensioning device (13) is provided with a guide device (14).

7. The tie down strap stretch-draw integrated vulcanization molding die of claim 6, characterized in that: the guide device (14) comprises a guide shaft (141) connected with the second bracket (131), and the guide wheel (142) is movably arranged on the guide shaft (141) and corresponds to the position of the vulcanization groove (11).

8. A tie down strap stretch-draw integrated vulcanization molding die according to claim 1, characterized in that: the cover plate (20) is connected with the base (10) through a second fastener (21).

9. A tension integrated vulcanization forming die for a mooring belt according to claim 1, characterized in that: the cover plate (20) is provided with a handle (22).

10. A method for manufacturing a tie strip by using a tie strip stretch-draw integrated vulcanization molding die according to any one of claims 1 to 9, characterized by comprising the steps of:

s2, paving a rubber sheet with a proper width in a vulcanization groove (11) of the base (10), fixing the other end of the acrylic tape with a hook (134) of a tensioning device (13), then bypassing a guide wheel (142) of a guide device (14), and laying and pulling along the vulcanization groove (11) to enable a hanging buckle of the acrylic tape to be installed on a connecting fastener (122) of a fixing device (12);

s3, screwing the first fastener (136), tensioning the acrylic tape to enable the acrylic tape to be located in the center of the vulcanization tank (11), then uniformly laying a layer of rubber sheet on the upper part of the acrylic tape of the vulcanization tank (11), covering the cover plate (20), and screwing the second fastener (21);

s4, transferring the forming die with the mounted acrylic tapes to a vulcanization forming machine, and carrying out up-and-down pressing vulcanization forming, wherein the vulcanization temperature is 110-120 ℃, and the vulcanization time is 8-10 minutes, so as to form the mooring tape (30) with the rubber package;

and S5, taking out the forming die after vulcanization forming, opening the cover plate (20) after the temperature is cooled, taking out the mooring belt (30), and removing redundant rubber positioned in the diversion trench (111) at two sides of the mooring belt (30).