CN214137430U - Inert gas applied clamping force control device for tire vulcanizer - Google Patents

Abstract

The utility model provides an inert gas application clamping force control device for tire vulcanizer, it includes: the inert gas source is used for providing inert gas with required pressure; a pressurizing device for applying a mold clamping force during tire vulcanization; a pressure sensor for sensing a pressure within the pressurizing device; the pressurization-allowable cut-off valve is arranged on a pipeline between the inert gas source and the pressurizing device, the pressurization-allowable cut-off valve is a three-way cut-off valve, a first interface of the pressurization-allowable cut-off valve is used for being communicated with the inert gas source, a second interface of the pressurization-allowable cut-off valve is used for being communicated with the pressurizing device, and a third interface of the pressurization-allowable cut-off valve is used for being communicated with the inert gas recovery device; a pressure increase cut-off valve arranged on a pressure increase pipeline between the pressure increase cut-off valve and the pressure device; and a pressurizing valve provided on a pressurizing line between the pressure-increasing-permitting cutoff valve and the pressurizing device, the pressurizing valve being for adjusting a pressure of the pressurizing device.

Description

Inert gas applied clamping force control device for tire vulcanizer

Technical Field

The utility model relates to a tire vulcanizer field especially relates to an inert gas applies compound die force controlling means for tire vulcanizer.

Background

In the production of tires, hydraulic oil pushes a pressurizing oil cylinder to provide mold clamping force when the tires are vulcanized. In the hydraulic control device, corresponding oil cylinders, oil inlet paths, oil return paths, control valves and the like are usually required to be arranged, the risk of hydraulic oil leakage is easy to occur in the actual production process, and the installation, debugging and maintenance of the hydraulic control device are complex.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model discloses an inert gas exerts compound die force controlling means and control method for tire vulcanizer, it utilizes inert gas to exert the required compound die force of tire vulcanization, through adopting the inert gas drive, does not have electric arc and spark, and the security is higher, has reduced the risk of hydraulic pressure oil leak, and installation, debugging and maintenance are more convenient moreover.

In order to achieve the above object, the technical scheme of the utility model provides: an inert gas applied clamping force control apparatus for a tire vulcanizer, the inert gas applied clamping force control apparatus comprising: the inert gas source is used for providing inert gas with required pressure; a pressurizing device for applying a mold clamping force during tire vulcanization; a pressure sensor for sensing a pressure within the pressurizing device; the pressurization-allowing shut-off valve is arranged on a pipeline between an inert gas source and the pressurizing device, the pressurization-allowing shut-off valve is a three-way shut-off valve, a first interface of the pressurization-allowing shut-off valve is used for being communicated with the inert gas source, a second interface of the pressurization-allowing shut-off valve is used for being communicated with the pressurizing device, and a third interface of the pressurization-allowing shut-off valve is used for being communicated with an inert gas recovery device; a pressure increase cut-off valve arranged on a pressure increase pipeline between the pressure increase cut-off valve and the pressure device; and a pressurizing valve provided on a pressurizing line between the pressure-increasing-permission cutoff valve and the pressurizing device, the pressurizing valve being used for adjusting the pressure of the pressurizing device.

Further, the pressure boost allowing cut-off valve, the pressure boost cut-off valve and the pressure valve are pneumatic control cut-off valves, the caliber of the pressure valve is smaller than the calibers of the pressure boost allowing cut-off valve and the pressure boost cut-off valve, and the pressure boost allowing cut-off valve, the pressure boost cut-off valve and the pressure valve are respectively communicated with a control air source through corresponding electromagnetic valves.

Further, the pressure boost allows the trip valve with the pressure boost trip valve is the pneumatic control trip valve, the pressure valve is the pneumatic control governing valve, the pressure boost allows the trip valve with the pressure boost trip valve communicates with the control air supply through corresponding solenoid valve respectively, the pressure valve passes through the IP valve and communicates with the control air supply.

Further, a check valve is also provided between the inert gas source and the pressure increase permission cutoff valve.

Further, a safety valve is arranged on the pressurizing pipeline and the rear end pipeline of the pressurizing pipeline.

The utility model discloses an embodiment still provides: an inert gas applied clamping force control apparatus for a tire vulcanizer, the inert gas applied clamping force control apparatus comprising: the inert gas source is used for providing inert gas with required pressure; a pressurizing device for applying a mold clamping force during tire vulcanization; a pressure sensor for sensing a pressure within the pressurizing device; a pressure-increasing-permitting shut-off valve provided on a pipeline between the inert gas source and the pressurizing device; a pressure increase cut-off valve arranged on a pressure increase pipeline between the pressure increase cut-off valve and the pressure device; a pressurizing valve provided on a pressurizing line between the pressure-increase-permitting cutoff valve and the pressurizing means, the pressurizing valve being for adjusting a pressure of the pressurizing means; and the pressure relief cut-off valve is arranged on a pressure relief pipeline between the pressurizing device and the inert gas recovery device.

Further, a check valve is further provided between the inert gas source and the pressure increase permission cutoff valve, and a safety valve is further provided on the pressure increase line and the rear end line of the pressure increase line.

The utility model discloses an embodiment still provides: an inert gas applied clamping force control apparatus for a tire vulcanizer, the inert gas applied clamping force control apparatus comprising: the inert gas source is used for providing inert gas with required pressure; a pressurizing device for applying a mold clamping force during tire vulcanization; a pressure sensor for sensing a pressure within the pressurizing device; the pressurization allowing cut-off valve is arranged on a pipeline between the inert gas source and the pressurization device; a regulating valve provided on a pipeline between the pressure increase permission cutoff valve and the pressurizing device; and the pressure relief cut-off valve is arranged on a pressure relief pipeline between the pressurizing device and the inert gas recovery device.

Further, the regulating valve is a pneumatic control regulating valve, and the regulating valve is communicated with a control air source through an IP valve.

Further, a check valve is further arranged between the inert gas source and the pressure increase allowing cut-off valve, and a safety valve is further arranged on a rear end pipeline of the regulating valve.

Drawings

Fig. 1 is a schematic structural view of an inert gas applied clamping force control apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural view of an inert gas applied clamping force control device according to an embodiment of the present invention;

fig. 3 is a schematic structural view of an inert gas applied clamping force control apparatus according to an alternative embodiment of the present invention;

fig. 4 is a schematic structural view of an inert gas applied clamping force control device according to another alternative embodiment of the present invention.

Detailed Description

The technical solution of the present invention will be further described with reference to the following specific examples, but the present invention is not limited to these examples.

The technical scheme of the utility model provides: an inert gas applied clamping force control apparatus for a tire vulcanizer, the inert gas applied clamping force control apparatus comprising: the inert gas source is used for providing inert gas with required pressure; a pressurizing device for applying a mold clamping force during tire vulcanization; a pressure sensor for sensing a pressure within the pressurizing device; the pressurization-allowing shut-off valve is arranged on a pipeline between an inert gas source and the pressurizing device, the pressurization-allowing shut-off valve is a three-way shut-off valve, a first interface of the pressurization-allowing shut-off valve is used for being communicated with the inert gas source, a second interface of the pressurization-allowing shut-off valve is used for being communicated with the pressurizing device, and a third interface of the pressurization-allowing shut-off valve is used for being communicated with an inert gas recovery device; a pressure increase cut-off valve arranged on a pressure increase pipeline between the pressure increase cut-off valve and the pressure device; and a pressurizing valve provided on a pressurizing line between the pressure-increasing-permission cutoff valve and the pressurizing device, the pressurizing valve being used for adjusting the pressure of the pressurizing device.

Further, the pressure boost allowing cut-off valve, the pressure boost cut-off valve and the pressure valve are pneumatic control cut-off valves, the caliber of the pressure valve is smaller than the calibers of the pressure boost allowing cut-off valve and the pressure boost cut-off valve, and the pressure boost allowing cut-off valve, the pressure boost cut-off valve and the pressure valve are respectively communicated with a control air source through corresponding electromagnetic valves.

Further, the pressure boost allows the trip valve with the pressure boost trip valve is the pneumatic control trip valve, the pressure valve is the pneumatic control governing valve, the pressure boost allows the trip valve with the pressure boost trip valve communicates with the control air supply through corresponding solenoid valve respectively, the pressure valve passes through the IP valve and communicates with the control air supply.

Further, a check valve is also provided between the inert gas source and the pressure increase permission cutoff valve.

Further, a safety valve is arranged on the pressurizing pipeline and the rear end pipeline of the pressurizing pipeline.

The utility model discloses an embodiment still provides: an inert gas applied clamping force control apparatus for a tire vulcanizer, the inert gas applied clamping force control apparatus comprising: the inert gas source is used for providing inert gas with required pressure; a pressurizing device for applying a mold clamping force during tire vulcanization; a pressure sensor for sensing a pressure within the pressurizing device; a pressure-increasing-permitting shut-off valve provided on a pipeline between the inert gas source and the pressurizing device; a pressure increase cut-off valve arranged on a pressure increase pipeline between the pressure increase cut-off valve and the pressure device; a pressurizing valve provided on a pressurizing line between the pressure-increase-permitting cutoff valve and the pressurizing means, the pressurizing valve being for adjusting a pressure of the pressurizing means; and the pressure relief cut-off valve is arranged on a pressure relief pipeline between the pressurizing device and the inert gas recovery device.

Further, a check valve is further provided between the inert gas source and the pressure increase permission cutoff valve, and a safety valve is further provided on the pressure increase line and the rear end line of the pressure increase line.

The utility model discloses an embodiment still provides: an inert gas applied clamping force control apparatus for a tire vulcanizer, the inert gas applied clamping force control apparatus comprising: the inert gas source is used for providing inert gas with required pressure; a pressurizing device for applying a mold clamping force during tire vulcanization; a pressure sensor for sensing a pressure within the pressurizing device; the pressurization allowing cut-off valve is arranged on a pipeline between the inert gas source and the pressurization device; a regulating valve provided on a pipeline between the pressure increase permission cutoff valve and the pressurizing device; and the pressure relief cut-off valve is arranged on a pressure relief pipeline between the pressurizing device and the inert gas recovery device.

Further, the regulating valve is a pneumatic control regulating valve, and the regulating valve is communicated with a control air source through an IP valve.

Further, a check valve is further arranged between the inert gas source and the pressure increase allowing cut-off valve, and a safety valve is further arranged on a rear end pipeline of the regulating valve.

As shown in fig. 1 and 2, the inert gas applying clamping force control apparatus according to the present invention includes: an inert gas source 101 for providing inert gas at a desired pressure (the particular pressure value being dependent on the tire curing requirements); a pressing device 102 for applying a mold clamping force when the tire is vulcanized; a pressure sensor 103 for sensing the pressure inside the pressurizing means 102; a pressure increase permission cut-off valve 104 provided on a pipeline between the inert gas source 101 and the pressurizing device 102, as shown in fig. 1, the pressure increase permission cut-off valve 104 being a three-way cut-off valve, a first interface (i.e., 1 port shown in the figure) of the pressure increase permission cut-off valve 104 being for communication with the inert gas source 101, a second interface (i.e., 2 ports shown in the figure) of the pressure increase permission cut-off valve 104 being for communication with the pressurizing device 102, and a third interface (i.e., 3 ports shown in the figure) of the pressure increase permission cut-off valve 104 being for communication with an inert gas recovery apparatus (not shown in the figure); a pressure increase cutoff valve 105 provided on a pressure increase line 107 between the pressure increase permission cutoff valve 104 and the pressure device 102; and a pressurizing valve 106 provided on a pressurizing line 108 between the pressure increase permission cutoff valve 104 and the pressurizing device 102, the pressurizing valve 106 being used for adjusting the pressure of the pressurizing device 102.

As described above, the inert gas applied mold clamping force control device of the present invention has the following specific control modes:

(1) after the vulcanizer mold closing lock is in place, controlling the first interface of the pressurization-allowing shut valve 104 to be communicated with the second interface and simultaneously communicating the pressurization shut valve 105, so that the inert gas flows into the pressurizing device 102 through the pressurization-allowing shut valve 104 and the pressurization shut valve 105;

(2) the pressure sensor 103 is used for acquiring the pressure value of the pressurizing device 2, and when the pressure value reaches a switching set value, the pressure-increasing cut-off valve 105 is controlled to be disconnected, so that the inert gas cannot flow into the pressurizing device 102 through the pressure-increasing pipeline 107;

(3) supplementing the pressure device 102 with the leakage pressure via the pressure line 108 by controlling the pressure valve 106 according to the pressure value of the pressure device 102 sensed by the pressure sensor 103, thereby keeping the pressure in the pressure device 102 stable;

(4) after the vulcanization of the vulcanizer is completed, the pressurization valve 106 is controlled to be turned off, and the second port and the third port of the pressurization-permitting cutoff valve 104 are controlled to be turned on, while the pressurization cutoff valve 105 is controlled to be turned on, so that the inert gas of the pressurization device 2 is discharged to the inert gas recovery apparatus through the pressurization cutoff valve 105 and the pressurization-permitting cutoff valve 104.

When the pressure in the pressurizing device 2 is lower than a set value allowing unlocking and mold opening, the vulcanizing machine can unlock and mold the mold. As for the pressure-increasing cutoff valve 105, a common one-in one-out two-way cutoff valve may be used, and of course, as shown in fig. 1 and 2, a three-way cutoff valve may be used, and 3 ports of the pressure-increasing cutoff valve 105 may be blocked, in which case, when it is necessary to flow the inert gas into the pressurizing device 102 or discharge the inert gas from the pressurizing device 102 through the pressure-increasing line 107 (i.e., the above-described steps (1) and (4)), it suffices to control 1 port and 2 ports of the pressure-increasing cutoff valve 105 to be connected, and similarly, when it is necessary to cut off the pressure-increasing line 107 (i.e., the above-described step (2)), it suffices to control 2 ports and 3 ports of the pressure-increasing cutoff valve 105 to be connected.

In addition, as for the pressure-increase permission cut-off valve 104, the pressure-increase cut-off valve 105, and the pressure valve 106, electrically controlled cut-off valves may be employed, but in view of safety and cost performance, it is preferable that, as shown in fig. 1, all of the pressure-increase permission cut-off valve 104, the pressure-increase cut-off valve 105, and the pressure valve 106 may be pneumatically controlled cut-off valves, and the caliber of the pressure valve 106 is smaller than those of the pressure-increase permission cut-off valve 104 and the pressure valve 105. For example, the pressure-increasing permission cutoff valve 104 and the pressure-increasing cutoff valve 105 may be cutoff valves of the type TPC2312-20 manufactured by ROCKY company, and the pressure-increasing valves 106 may be cutoff valves of the type TPC2312-15 manufactured by ROCKY company. In this case, the pressure increase permission cut-off valve 104, the pressure increase cut-off valve 105, and the pressure increasing valve 106 are respectively communicated with the control gas source 201 through the corresponding solenoid valves (SV1-SV3), so that the cutting off of the pressure increase permission cut-off valve 104, the pressure increase cut-off valve 105, and the pressure increasing valve 106 is controlled through the corresponding solenoid valves (SV1-SV 3).

In the case where the pressurizing valve 106 is a pneumatically controlled shut-off valve (as shown in fig. 1), in the above-described step (3), the inert gas is supplied into the pressurizing device 2 by controlling the on or off of the pressurizing valve 106 in accordance with the sensed pressure value in the pressurizing device 2.

In a preferred embodiment, as shown in fig. 2, the pressurization valve 106 may be a pneumatically controlled regulator valve, such as a membrane regulator valve available from ROCKY corporation as model number DC1212-15(CV 1). In this case, the pressurizing valve 106 communicates with the control gas source 201 through the IP valve 109. As the IP valve, for example, an IP valve of the SMC company, model number ITV2030-0CS2, can be used.

In the case where the pressurizing valve 106 is a pneumatically controlled regulating valve, in the step (3) described above, the PLC controller outputs a corresponding control signal to the IP valve by receiving the pressure value in the pressurizing device 2 sensed by the pressure sensor, thereby supplementing the leakage pressure into the pressurizing device 2 by controlling the opening degree of the pressurizing valve 106.

Further, in order to prevent the back flow of the inert gas, a check valve 110 may be provided between the inert gas source 101 and the pressure-increasing permission cutoff valve 104.

In addition, a relief valve (1AF)111 may be provided on the rear end lines of the pressure-increasing line 107 and the pressure-increasing line 108, so that the relief valve 111 can open the exhaust when the pressure in the pressure device 2 is excessively high.

Alternative embodiment 1

Referring to fig. 3, an alternate embodiment of an inert gas applied tonnage control apparatus according to the present invention is shown.

As shown in fig. 3, the inert gas applying clamping force control apparatus according to the present invention includes: an inert gas source 101 for providing an inert gas at a desired pressure; a pressing device 102 for applying a mold clamping force when the tire is vulcanized; a pressure sensor 103 for sensing the pressure inside the pressurizing means 102; a pressure increase permission cutoff valve 104 provided on a pipeline between the inert gas source 101 and the pressurizing device 102; a pressure increase cutoff valve 105 provided on a pressure increase line 107 between the pressure increase permission cutoff valve 104 and the pressure device 102; a pressurizing valve 106 provided on a pressurizing line 108 between the pressure-increase-permitting cutoff valve 104 and the pressurizing device 102, the pressurizing valve 106 being used to adjust the pressure of the pressurizing device 102; and a pressure release shut-off valve 112 provided on a pressure release line 113 between the pressurizing device 102 and the inert gas recovery apparatus.

Obviously, it is understood that, as for the pressure increase permission cut-off valve 104, the pressure increase cut-off valve 105, the pressure valve 106 and the pressure release cut-off valve 112, a one-in one-out two-way pneumatic cut-off valve may be adopted, and the pressure increase permission cut-off valve 104, the pressure increase cut-off valve 105, the pressure valve 106 and the pressure release cut-off valve 112 are respectively communicated with the control air source 201 through corresponding solenoid valves. In addition, as for the pressurizing valve 106, it is also preferable to employ a pneumatic regulating valve as described above, in which case the pressurizing valve 106 communicates with the control gas source 201 through an IP valve.

In addition, the relief valve 111 as described above may also be provided on the lines at the rear ends of the pressure-increasing line 107 and the pressure-increasing line 108, so that the relief valve 111 opens the exhaust gas when the pressure in the pressure device 2 is excessively high

In this alternative embodiment 1, the control method of the inert gas applied clamping force control device is as follows:

(1) after the clamping lock of the vulcanizer is in place, the pressurization-allowing cutoff valve 104 is controlled to be turned on while the pressurization cutoff valve 105 is turned on, so that the inert gas is turned on by the pressurization-allowing cutoff valve 104 while the pressurization cutoff valve 105 flows into the pressurizing device 102;

(2) collecting the pressure value of the pressurizing device 102 through a pressure sensor 103, and controlling the pressurization shut-off valve 105 to be disconnected when the pressure value reaches a switching set value;

(3) supplementing the pressure device 102 with the leakage pressure via the pressure line 108 by controlling the pressure valve 106 according to the pressure value of the pressure device 102, thereby keeping the pressure inside the pressure device 102 stable;

(4) after the vulcanization of the vulcanizer is completed, the pressurization valve 106 and the pressurization-permitting cutoff valve 104 are controlled to be turned off, and the pressure-release cutoff valve 112 is controlled to be turned on, so that the inert gas of the pressurization device 102 is discharged to the inert gas recovery apparatus through the pressure-release cutoff valve 112.

When the pressure in the pressurizing device 2 is lower than a set value allowing unlocking and mold opening, the vulcanizing machine can unlock and mold the mold.

Alternative embodiment 2

Referring to fig. 4, another alternate embodiment of an inert gas applied tonnage control apparatus in accordance with the present invention is shown.

As shown in fig. 4, the inert gas applying clamping force control apparatus according to the present invention includes: an inert gas source 101 for providing an inert gas at a desired pressure; a pressurizing device 102 for applying a mold clamping force to the tire vulcanizer; a pressure sensor 103 for sensing the pressure inside the pressurizing means 102; a pressure increase permission cutoff valve 104 provided on a pipeline between the inert gas source 101 and the pressurizing device 102; a pressure-increasing valve 106, the pressure-increasing valve 106 being a regulating valve provided on a line between the pressure-increase-permitting cutoff valve 104 and the pressure-increasing device 102; and a pressure release shut-off valve 112 provided on a pressure release line 113 between the pressurizing device 102 and the inert gas recovery apparatus.

Obviously, it will be appreciated that with respect to the pressure increase permitting shut-off valve 104 and the pressure relief shut-off valve 112, an in-out two-way pneumatic shut-off valve may also be employed. In this case, the pressure increase permission cut-off valve 104 and the pressure release cut-off valve 112 are respectively communicated with the control air source 201 through corresponding solenoid valves.

As for the regulator valve 106, it may be a pneumatically controlled regulator valve as described above, in which case the regulator valve 106 communicates with a control gas source through an IP valve 109.

In this alternative embodiment 2, the control method of the inert gas applied clamping force control device is as follows:

(1) after the clamping lock of the vulcanizer is in place, controlling the pressurization-permitting cutoff valve 104 to be on while adjusting the opening degree of the regulating valve 106 to the maximum, so that the inert gas flows into the pressurizing device 102 through the pressurization-permitting cutoff valve 104 and the regulating valve 106;

(2) collecting the pressure value of the pressurizing device 102 through a pressure sensor 103, and controlling the regulating valve 106 to be switched off when the pressure value reaches a switching set value;

(3) controlling the opening size of the regulating valve 106 according to the pressure value of the pressurizing device 102 to supplement the leakage pressure to the pressurizing device 102, so as to keep the pressure in the pressurizing device 102 stable;

(4) after the vulcanization of the vulcanizer is completed, the control valve 106 and the pressure increase permission cutoff valve 104 are turned off, and the pressure release cutoff valve 112 is turned on, so that the inert gas of the pressurization device 102 is discharged to the inert gas recovery apparatus through the pressure release cutoff valve 112.

According to the utility model discloses an inert gas application clamping force control device of above-mentioned embodiment has following advantage: the inert gas has stable physical and chemical properties and small expansion coefficient under the influence of temperature; no matter what kind of reason causes the pressure drop of the pressure maintaining loop, the pressurizing valve or the regulating valve can supplement the leakage pressure and keep the loop pressure constant; the device is driven by inert gas, and has no electric arc and spark, so that the safety is high; the inert gas is more convenient to obtain and can be recycled; when the pressure in the pressurizing device is overhigh, the safety valve (1AF) opens to exhaust gas, so that the safety is high; the operation on the vulcanizing machine can be more reliable, the risk of hydraulic oil leakage is reduced, and the installation, debugging and maintenance are more concise.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and improvements can be made without departing from the inventive concept, and all of them belong to the protection scope of the present invention.

Claims (10)

1. An inert gas applied clamping force control apparatus for a tire vulcanizer, comprising:

the inert gas source is used for providing inert gas with required pressure;

a pressurizing device for applying a mold clamping force during tire vulcanization;

a pressure sensor for sensing a pressure within the pressurizing device;

the pressurization-allowing shut-off valve is arranged on a pipeline between an inert gas source and the pressurizing device, the pressurization-allowing shut-off valve is a three-way shut-off valve, a first interface of the pressurization-allowing shut-off valve is used for being communicated with the inert gas source, a second interface of the pressurization-allowing shut-off valve is used for being communicated with the pressurizing device, and a third interface of the pressurization-allowing shut-off valve is used for being communicated with an inert gas recovery device;

a pressure increase cut-off valve arranged on a pressure increase pipeline between the pressure increase cut-off valve and the pressure device;

and a pressurizing valve provided on a pressurizing line between the pressure-increasing-permission cutoff valve and the pressurizing device, the pressurizing valve being used for adjusting the pressure of the pressurizing device.

2. The inert gas applied mold clamping force control device according to claim 1, wherein the pressure increase permission cut-off valve, the pressure increase cut-off valve and the pressure valve are pneumatically controlled cut-off valves, and wherein the apertures of the pressure valves are smaller than the apertures of the pressure increase permission cut-off valve and the pressure increase cut-off valve, the pressure increase permission cut-off valve, the pressure increase cut-off valve and the pressure valve being respectively communicated with a control gas source through respective solenoid valves.

3. The inert gas applied mold clamping force control device according to claim 1, wherein the pressure increase permission cut-off valve and the pressure increase cut-off valve are pneumatically controlled cut-off valves, the pressure valves are pneumatically controlled regulating valves, the pressure increase permission cut-off valve and the pressure increase cut-off valve are respectively communicated with a control gas source through corresponding solenoid valves, and the pressure valves are communicated with the control gas source through IP valves.

4. The inert gas applied mold clamping force control device according to any one of claims 1 to 3, wherein a check valve is further provided between the inert gas source and the pressure increase permission cutoff valve.

5. The inert gas applied mold clamping force control device according to claim 4, wherein a relief valve is further provided on the pressurizing line and a rear end pipe of the pressurizing line.

6. An inert gas applied clamping force control apparatus for a tire vulcanizer, comprising:

the inert gas source is used for providing inert gas with required pressure;

a pressurizing device for applying a mold clamping force during tire vulcanization;

a pressure sensor for sensing a pressure within the pressurizing device;

a pressure-increasing-permitting shut-off valve provided on a pipeline between the inert gas source and the pressurizing device;

a pressure increase cut-off valve arranged on a pressure increase pipeline between the pressure increase cut-off valve and the pressure device;

a pressurizing valve provided on a pressurizing line between the pressure-increase-permitting cutoff valve and the pressurizing means, the pressurizing valve being for adjusting a pressure of the pressurizing means;

and the pressure relief cut-off valve is arranged on a pressure relief pipeline between the pressurizing device and the inert gas recovery device.

7. The inert gas applied mold clamping force control device according to claim 6, wherein a check valve is further provided between said inert gas source and said pressurization permitting cutoff valve, and a relief valve is further provided on said pressurization line and a rear end line of said pressurization line.

8. An inert gas applied clamping force control apparatus for a tire vulcanizer, comprising:

the inert gas source is used for providing inert gas with required pressure;

a pressurizing device for applying a mold clamping force during tire vulcanization;

a pressure sensor for sensing a pressure within the pressurizing device;

the pressurization allowing cut-off valve is arranged on a pipeline between the inert gas source and the pressurization device;

a regulating valve provided on a pipeline between the pressure increase permission cutoff valve and the pressurizing device;

and the pressure relief cut-off valve is arranged on a pressure relief pipeline between the pressurizing device and the inert gas recovery device.

9. The inert gas applied tonnage control apparatus as set forth in claim 8, wherein the regulating valve is a pneumatic control regulating valve, and the regulating valve is in communication with a control gas source through an IP valve.

10. The inert gas applied mold clamping force control device according to claim 9, wherein a check valve is further provided between the inert gas source and the pressure increase permission cutoff valve, and a relief valve is further provided on a rear end pipe of the regulating valve.

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