JP4014176B2 - Gas pressure adjustment unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gas pressure adjusting unit that adjusts a gas pressure supplied to a gas spring, and in particular, a first stop valve that opens and closes a gas passage extending from a gas pressure introduction portion to a gas pressure supply portion, and a first stop of the gas passage. The present invention relates to a gas pressure adjusting unit having a second stop valve that opens and closes an atmospheric discharge gas passage that communicates with a valve body of the valve on the gas pressure introduction side.
[0002]
[Prior art]
Conventionally, a gas spring has been widely applied to an impact buffering device attached to a press processing device, a punching processing device, or the like. A general gas spring has a cylinder body, a piston slidably fitted in the cylinder body, a rod portion extending from the piston to the outside of the cylinder body, and the like, and a spring action of pressurized gas filled in the cylinder body If the gas pressure of the gas spring is adjusted to an appropriate value according to the structure of the gas spring (volume, pressure receiving area of the piston, etc.) or the impact force acting on the rod part, the impact will be reduced. Can be effectively buffered.
[0003]
When supplying gas pressure to the gas spring, a coupler attached to the tip of the high-pressure hose extending from the gas cylinder is jointed to the gas introduction part of the gas spring, and the regulator etc. is operated while measuring the pressure gauge provided on the gas cylinder side, It is necessary to adjust the gas pressure of the pressurized gas supplied to the gas spring to an appropriate value. However, since a plurality of gas springs are usually attached to a press processing device, a punching processing device, etc., it is very difficult to carry out the above operation on each of the gas springs. It is also very difficult to check the gas pressure of the plurality of gas springs later and to release the gas pressure from the plurality of gas springs.
[0004]
On the other hand, conventionally, a gas pressure introduction part for supplying pressurized gas from a gas cylinder, a gas pressure supply part for supplying gas pressure to a gas spring, a gas passage extending from the gas pressure introduction part to the gas pressure supply part, and opening and closing the gas passage Various gas pressure adjustment units that have a stop valve, a pressure gauge connected to the gas passage, etc., that can be used in a state where a plurality of gas springs and a gas pressure supply unit are connected via a high pressure hose are put to practical use. ing. In this type of gas pressure adjusting unit, pressurized gas can be supplied to a plurality of gas springs, the gas pressure can be adjusted, and the pressure gauge is connected to the gas pressure supply unit in a continuous manner. The gas pressures of the plurality of gas springs after supply can be checked, and the gas pressures of the plurality of gas springs can be released.
[0005]
As shown in FIGS. 17 and 18, in the gas pressure adjusting unit 100 put into practical use by the applicant, the main body block 101 includes a gas pressure introducing unit 102, a gas pressure supplying unit 103, and a gas pressure introducing unit 102. A gas passage 104 extending to the gas pressure supply section 103 is formed, a first stop valve 105 capable of opening and closing the gas passage 104, and the gas pressure introduction section 102 side with respect to the valve section of the first stop valve 105 of the gas passage 104 The atmospheric discharge gas passage 106 and the pressure gauge 108 communicated with each other, the second stop valve 107 which can open and close the atmospheric discharge gas passage 106, and the first and second stop valves 105 and 107 for manually operating the first and second stop valves 105 and 107, respectively. Two operation members 110, 111 and the like are provided.
[0006]
Then, when the coupler 116 on the gas cylinder 115 side is joined to the gas pressure introduction part 102 and the first operation member 110 is rotated and the gas passage 104 is opened by the first stop valve 105, the high pressure hose 121 is connected from the gas pressure supply part 103. Then, the pressurized gas is supplied to the plurality of gas springs 120, and then the coupler 116 is removed from the gas pressure introducing portion 102, and the second operating member 111 is rotated while the pressure gauge 108 is being measured to turn the second stop. By opening and closing the atmospheric gas discharge passage 106 by the valve 107, the gas pressures of the plurality of gas springs 120 can be adjusted to a desired value.
[0007]
Next, when the gas passage 104 is closed by the first stop valve 105, the gas pressure of the gas spring 120 does not act on the pressure gauge 108, and then when the atmospheric discharge gas passage 106 is opened by the second stop valve 107, the pressure is increased. The gas pressure acting on the total 108 can be released. In addition, if the gas passage 104 is opened by the first stop valve 105 after the gas passage 106 for air release is closed by the second stop valve 107, the gas pressures of the plurality of gas springs 120 after the gas pressure is supplied can be checked. When the gas passage 104 and the atmospheric discharge gas passage 106 are opened by the first and second stop valves 105 and 107, the gas pressures of the plurality of gas springs 120 can be released.
[0008]
[Problems to be solved by the invention]
In the conventional gas pressure adjustment unit, since the pressure gauge is connected to the gas pressure supply section in a continuous manner, the same gas pressure as that of the gas spring always acts on the pressure gauge. However, there is a problem that the life of the pressure gauge is shortened.
In the gas pressure adjusting unit 100, the first and second stop valves 105 and 107 are provided independently, and the first and second operation members 110 and 111 for manually operating the first and second stop valves 105 and 107 are also provided. Therefore, there is a problem that the structure of the gas pressure adjusting unit 100 becomes very large.
[0009]
An object of the present invention is to prevent the life of a pressure gauge from being shortened in a gas pressure adjusting unit for adjusting the gas pressure of a pressurized gas supplied from a pressurized gas supply source to a gas spring, and to reduce the size of the gas pressure adjusting unit. And securing an operation space for the first and second operation members.
[0010]
  The gas pressure adjusting unit according to claim 1 is a gas pressure adjusting unit that adjusts the gas pressure of the pressurized gas supplied from the pressurized gas supply source to the gas spring, and the pressurized gas is supplied from the pressurized gas supply source. A main body block having a gas pressure introducing portion, a gas pressure supplying portion for supplying pressurized gas to the gas spring, a gas passage extending from the gas pressure introducing portion to the gas pressure supplying portion, and a first stop capable of opening and closing the gas passage A valve, an atmospheric discharge gas passage formed in the first stop valve and communicated with the valve portion of the first stop valve of the gas passage toward the gas pressure introduction portion, and the atmospheric discharge gas passage A composite valve mechanism formed integrally with a second stop valve that can be opened and closed, a first operating member for manually operating the first stop valve, and for manually operating the second stop valve 2 includes operations and member, the first stop valve pressure gauge attached to the main body block are connected to a gas pressure introducing portion side with respect to the valve portion of the gas passage,The first stop valve has a valve case that is partially fitted and fixed to the main body block, and a first valve body that is attached to the valve case, and the second stop valve is formed in the first valve body. And a second valve body mounted in the insertion hole.
[0011]
In this gas pressure adjusting unit, it is applied in a state where a gas spring is always connected to the gas pressure supply section via a high pressure hose or the like, the first stop valve is manually operated by the first operating member, and the first operating member is operated by the second operating member. 2 Stop valve is manually operated. It is desirable to apply an inert gas such as nitrogen gas as the pressurized gas.
When the gas passage is opened from the first stop valve in a state where the pressurized gas is supplied from the pressurized gas supply source to the gas pressure introducing unit, the pressurized gas is supplied from the gas pressure supplying unit to the gas spring. After that, the supply of the pressurized gas from the pressurized gas supply source to the gas pressure introducing unit is stopped. In this state, the gas pressure of the gas spring (the gas pressure of the pressurized gas supply source) is higher than an appropriate value. Then, while measuring the pressure gauge, the gas passage for atmospheric release is opened and closed by the second stop valve, and the gas pressure of the gas spring is adjusted to an appropriate value. If the gas pressure can be set to a desired value in the pressurized gas supply source, the operation of adjusting the gas pressure of the gas spring to an appropriate value can be omitted.
[0012]
A pressure gas is supplied to the gas pressure introducing unit by detachably attaching a coupler at the tip of the high pressure hose extending from the pressurized gas supply source. When the coupler is removed from the gas pressure introducing unit, the gas is introduced. The pressurized gas in the pressure introducing portion is prevented from being released to the outside. That is, when the coupler is removed from the gas pressure introducing unit, the supply of the pressurized gas from the pressurized gas supply source to the gas pressure introducing unit is stopped. Next, when the gas passage is closed from the first stop valve, the pressure gauge is connected to the gas pressure introduction portion side with respect to the valve portion of the first stop valve of the gas passage, so that the gas pressure of the gas spring is Then, when the atmospheric discharge gas passage is opened from the second stop valve, only the gas pressure acting on the pressure gauge is released.
[0013]
After that, when the gas passage is opened by the first stop valve from the state where the gas passage and the atmospheric gas passage are closed from the first and second stop valves, the gas pressure of the gas spring acts on the pressure gauge and pressurizes. The gas force of the gas spring after gas supply can be checked with a pressure gauge. Here, when the gas pressure of the gas spring is lower than the appropriate value, the gas pressure is replenished as follows. First, the gas passage is closed from the first stop valve, and then the gas passage for opening to the atmosphere is opened from the second stop valve to release the gas pressure acting in the gas pressure introducing portion. This is to facilitate the connection of the coupler to the gas pressure introduction part.
[0014]
After that, after closing the gas passage for releasing air from the second stop valve again, the coupler on the pressurized gas supply source side is attached to the gas pressure introduction portion, and the gas passage is opened by the first spring valve. The gas pressure can be supplied to the gas spring without once releasing the pressurized gas. As described above, since the first stop valve is provided, the gas pressure in the gas pressure introducing portion can be released without releasing the gas pressure of the gas spring.
[0015]
That is, in this pressurized gas adjustment unit, when the gas spring is used, the first stop valve is held in the closed state to prevent the pulsation of the gas pressure from propagating to the pressure gauge. Life span can be prevented. Further, a first stop valve capable of opening and closing the gas passage, and an air discharge formed in the first stop valve and communicated with the valve portion of the first stop valve of the gas passage on the gas pressure introduction portion side Since the composite valve mechanism including the gas passage and the second stop valve capable of opening and closing the atmospheric discharge gas passage is integrally configured, the gas pressure adjusting unit can be very miniaturized.
[0016]
  AndThe first stop valve has a valve case that is partially fitted and fixed to the main body block, and a first valve body that is attached to the valve case, and the second stop valve is formed on the first valve body. It has a 2nd valve body with which the insertion hole was mounted | worn. The valve body of the second stop valve can be incorporated into the valve body of the first stop valve, and these valve bodies can be provided concentrically, so that the composite valve mechanism can be configured very compactly..
[0017]
  Claim2The gas pressure adjustment unit of claim1In the invention, the first operating member is screwed into the valve case so as to be fitted into the valve case, and is connected to the first valve body so as not to move in the opening / closing direction of the first stop valve. It is screwed into the insertion hole of the valve body and connected to a screw shaft portion fixedly provided on the second valve body. When the first operating member is rotated, the gas passage is opened and closed by the first valve body, and when the second operating member is rotated, the atmospheric discharge gas passage is opened and closed by the second valve body. In this gas pressure adjusting unit, the first and second operating members can be provided concentrically with their operating spaces secured, and the gas pressure adjusting unit can be made very compact..
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
This embodiment is a shock absorber attached to a press working device, a punching working device, or the like, in a gas pressure adjusting unit that adjusts a gas pressure of a pressurized gas supplied from a pressurized gas supply source to a gas spring. It is an example when the invention is applied.
[0019]
As shown in FIG. 1, the shock absorbing device 1 of the present embodiment includes four sets of gas springs 2 disposed under an impact receiving member 5 such as a cushion pad, and a gas cylinder 16 (pressurized gas supply source). The gas pressure adjusting unit 20 for adjusting the gas pressure of the pressurized gas supplied to the four gas springs 2 is provided. The four gas springs 2 are connected in communication with the high-pressure hoses 10 and 11 and the connection plugs 12 and 13. The gas pressure adjustment unit 20 is always connected to the connection plug 13 via the high-pressure hose 14 and is connected to the gas cylinder 16. The pressurized gas can be simultaneously supplied to the four sets of gas springs 2 and the gas pressures of the four sets of gas springs 2 can be adjusted simultaneously.
[0020]
Each gas spring 2 has a cylinder body 3, a piston (not shown) that is slidably fitted in the cylinder body 3, a rod portion 4 that extends from the piston to the outside of the cylinder body 3, and the like. This is a general gas spring that cushions an impact input from the rod portion 4 by the spring action of the pressurized gas.
The gas pressure adjusting unit 20 has an external shape in which a frame 29 is fixed to the body block 21 on which a pressure gauge 33, first and second operation members 30, 31 and a coupler 35 are mounted, and is illustrated. Although not shown, the main body block 21 is fixed to a bolster or the like with bolts.
[0021]
The gas cylinder 16 is filled with pressurized nitrogen gas, and the coupler 18 at the tip of the high-pressure hose 17 extending from the gas cylinder 16 is detachably attached to the coupler 35 of the gas pressure adjustment unit 20. The pressurized gas is supplied to the gas pressure introducing portion 22. In addition, although not only pressurized nitrogen gas but various pressurized gas can be applied to pressurized gas, it is desirable to apply inert gas like nitrogen gas.
[0022]
The gas pressure adjustment unit 20 will be described.
As shown in FIGS. 2 to 7, the gas pressure adjusting unit 20 has a rectangular parallelepiped shape (having a gas pressure introducing part 22, a gas pressure supplying part 23, and a gas passage 24 extending from the gas pressure introducing part 22 to the gas pressure supplying part 23. For example, an 85 × 125 × 30) main body block 21, a first stop valve 26 that can open and close the gas passage 24, an atmosphere release gas passage 27, and a second stop valve 28 that can open and close the atmosphere release gas passage 27. A composite valve mechanism 25 integrally configured, a first operating member 30 for manually operating the first stop valve 26, a second operating member 31 for manually operating the second stop valve 28, and a main body A pressure gauge 33 is provided for measuring the gas pressure supplied to the four gas springs 2 attached to the block 21.
[0023]
The gas pressure introduction unit 22 includes a coupler 35 having a check valve attached to the upper right of the front surface of the main body block 21, and the gas pressure supply unit 23 is a supply plug 36 attached to the upper end of the right surface of the main body block 21. have.
As shown in FIGS. 4 to 7, the gas passage 24 extending from the gas pressure introducing portion 22 to the gas pressure supplying portion 23 has a gas passage 24 a extending downward from the gas pressure introducing portion 22 and leftward from the lower portion of the gas passage 24 a. A gas passage 24b extending, a gas passage hole 24c for providing the valve portion 45 of the first stop valve 26, a gas passage 24d extending rearward from the gas passage hole 24c, a gas passage 24e extending upward from the gas passage 24d, and a gas passage 24e A gas passage 24f extending forward from the upper portion and a gas passage 24g extending from the gas passage 24f to the gas pressure supply unit 23 are provided.
[0024]
The pressure gauge 33 includes a gas passage 37a and a gas extending leftward from the gas passage hole 24c on the gas pressure introduction portion 22 side (gas passage hole 24c) with respect to the valve portion 45 of the first stop valve 26 of the gas passage 24. The main body block 21 is mounted on the upper left of the front face of the main body block 21 through a gas passage 37 including a gas passage 37b extending upward from the left portion of the passage 37a.
[0025]
A composite valve mechanism 25 in which the first stop valve 26, the atmospheric discharge gas passage 27, and the second stop valve 28 are integrally configured will be described with reference to FIGS. 8 and 10 to 12. FIG.
[0026]
  The first stop valve 26 is mounted to the main body block 21 with a part of the valve case 40 fixed therein, and the first stop valve 26 is attached to the insertion hole 41 of the valve case 40 movably back and forth via an O-ring 43. A valve body 42 having a valve body 42, a tapered valve body portion 46 provided at the rear end portion of the first valve body 42, and a valve seat provided at a connection portion between the gas passage hole 24c and the gas passage 24d of the main body block 21. 47 opens and closes the gas passage 24 (the gas passage hole 24c and the gas passage 24d).ValvePart 45 is configured. The gas passage 27 for releasing the atmosphere includes a gas passage 27a formed between the insertion hole 41 of the valve case 40 and the first valve body 42, gas passages 27b, 27c and 27e formed in the first valve body 42, a first passage. A gas passage 27d formed between the insertion hole 48 of the one valve body 42 and the second valve body 50 and a gas passage 27f formed in the valve case 40 are provided.
[0027]
The second stop valve 28 has a second valve body 50 that is mounted in an insertion hole 48 formed in the first valve body 42 so as to be movable back and forth concentrically with the first valve body 42. An air discharge gas passage 27 (gas passage) is formed by a tapered valve body portion 56 provided at the rear end portion of the body 50 and a valve seat 57 provided at a connection portion between the gas passage holes 27c and 27d of the valve case 40. 27c, 27d) is configured to open and close the valve portion 55. The second valve body 50 is screwed into the insertion hole 48 and is fixedly provided on the screw shaft portion 52. The second valve body 50 is moved forward and backward by the rotation of the screw shaft portion 52.
[0028]
That is, as shown in FIG. 9, in the gas pressure adjusting unit 20 of the shock absorbing device 1, the gas passage 24 extending from the gas pressure introducing unit 22 to the gas pressure supplying unit 23 is connected to the first stop valve 26 of the composite valve unit 25. Is opened and closed, and the atmospheric discharge gas passage 27 communicated to the gas pressure introducing portion 22 side with respect to the valve portion 45 of the first stop valve 26 of the gas passage 24 is opened and closed by the second stop valve 28 of the composite valve unit 25. The pressure gauge 33 is connected to the valve portion 45 of the first stop valve 26 in the gas passage 24 on the gas pressure introducing portion 22 side via the gas passage 37.
[0029]
As shown in FIGS. 8 and 10 to 12, the first operation member 30 is configured in a cap shape having a small-diameter hole 30 a, and the rear portion of the first operation member 30 is fitted over the front end portion of the valve case 40. The hole 30a of the first operating member 30 is externally fitted to the front end portion of the first valve body 42, and is fixed to the regulating portion 42a of the first valve body 42 and the front end portion of the first valve body 42. The stop ring 49 is connected so as not to move in the opening / closing direction (front-rear direction) of the first stop valve 26. That is, when the first operating member 30 is rotated, the first valve body 42 moves back and forth with the first operating member 30 with respect to the valve case 40, and the gas passage 24 can be opened and closed by the first stop valve 26. It has become. A stop ring 44 is fitted and fixed to the rear end portion of the first valve body 42 and comes into contact with the rear end surface of the valve case 40 (see FIGS. 10 and 12). The forward movement of the body 42 is restricted.
[0030]
The second operating member 31 is formed in a substantially cylindrical shape having a smaller diameter than the first operating member 30, and is screwed into a connecting screw portion 53 extending forward from the screw shaft portion 52 and connected to the screw shaft portion 52. . A rotation restricting screw member 54 for preventing relative rotation with the connecting screw portion 53 is screwed into the second operation member 31 from a direction orthogonal to the connecting screw portion 53. That is, when the second operating member 31 is rotated, the screw shaft portion 52 is rotated via the connecting screw portion 53, the second valve body 50 is moved back and forth, and the second stop valve 28 releases the atmosphere. The gas passage 27 can be opened and closed. In addition, a stop ring 59 through which the connecting screw portion 53 can be inserted is fixedly fitted to the front end portion of the insertion hole 48, and the first valve body 42 is brought into contact with the screw shaft portion 52 (see FIGS. 11 and 12). In contrast, the forward movement of the second valve body 50 is restricted.
[0031]
The operation and effect of the gas pressure adjusting unit 20 will be described.
First, the case where the gas pressure is supplied from the gas cylinder 16 to the gas spring 2 will be described. The gas passage 24 and the atmospheric discharge gas passage 27 are closed by the first and second stop valves 26 and 28 of the composite valve mechanism 25. 8 (see FIG. 8), the gas cylinder 16 side coupler 18 is attached to the coupler 35, the main plug of the gas cylinder 16 is opened, and the gas pressure is supplied to the gas pressure introducing portion 22. Next, when the first operating member 30 is rotated to open the gas passage 24 from the first stop valve 26 (see FIG. 10), the pressurized gas is simultaneously applied from the gas pressure supply unit 23 to the four gas springs 2. Supplied.
[0032]
Next, the main plug of the gas cylinder 16 is closed, the coupler 18 on the gas cylinder 16 side is removed from the coupler 35 of the gas pressure introducing section 22, and the supply of pressurized gas from the gas cylinder 16 to the gas pressure introducing section 22 is stopped, and then the supply Since the gas pressure of the gas spring 2 (the gas pressure of the gas cylinder) is higher than an appropriate value, the second stop valve 28 is operated by rotating the second operation member 31 while measuring the pressure gauge 33, The air passage gas passage 27 is opened and closed, and the gas pressure value of the gas spring 2 is adjusted to an appropriate value.
[0033]
When the gas pressure in the gas cylinder 16 can be set to a desired value, the work of adjusting the gas pressure of the gas spring 2 to an appropriate value can be omitted. If the main plug of the gas cylinder 16 is closed, the value of the gas pressure of the gas spring 2 can be adjusted with the coupler 35 of the gas pressure introducing portion 22 connected to the coupler 18 on the gas cylinder 16 side. Next, the gas passage 24 is closed from the first stop valve 26 (see FIG. 8). Then, the gas pressure of the gas spring 2 does not act on the pressure gauge 33. Next, when the atmospheric discharge gas passage 27 is opened from the second stop valve 28 (see FIG. 11), the gas acting on the pressure gauge 33 The pressure is released.
[0034]
The case of checking the gas pressure of the gas spring 2 after supply of pressurized gas will be described. From the state in which the gas passage 24 and the atmospheric discharge gas passage 27 are closed by the first and second stop valves 26 and 28 (FIG. 8). When the gas passage 24 is opened by the first stop valve 26 (see FIG. 10), the gas pressure of the gas spring 2 acts again on the pressure gauge 33, and the pressure of the gas spring 2 can be checked by the pressure gauge 33. it can.
[0035]
Here, when the gas pressure of the gas spring 2 is lower than the appropriate value, the gas pressure is replenished to the gas spring 2 as follows. First, the gas passage 24 is closed from the first stop valve 26 (see FIG. 8), and then the gas passage 27 for opening to the atmosphere is opened from the second stop valve 28 (see FIG. 11). Release the gas pressure. This is to facilitate the connection of the coupler 18 on the gas cylinder 16 side to the coupler 35 of the gas pressure introducing portion 22. Next, after closing the gas passage 27 for opening to the atmosphere (see FIG. 8), the coupler 18 on the gas cylinder 16 side is attached to the coupler 35 of the gas pressure adjusting unit 20 to open the gas passage 24 (see FIG. 10). Then, the pressurized gas can be supplied to the gas spring 2 without once releasing the pressurized gas filled in the gas spring 2. When the gas spring 2 is replaced or maintained, the gas passage 24 and the atmospheric gas release passage 27 are opened by the first and second stop valves 26 and 28 (see FIG. 12). The pressure can be released.
[0036]
According to the gas pressure adjusting unit 20, when the gas spring 2 is used, the first stop valve 26 can be held in the closed state to prevent the pulsation of the gas pressure from propagating to the pressure gauge. Can be prevented from being shortened. Further, a first stop valve 26 capable of opening and closing the gas passage 24 and a gas pressure introducing portion 22 side formed with respect to the valve portion 45 of the first stop valve 26 of the gas passage 24 are formed in the first stop valve 26. Since the composite valve mechanism 25 including the atmospheric discharge gas passage 27 communicated with the second stop valve 28 capable of opening and closing the atmospheric discharge gas passage 27 is integrally configured, the gas pressure adjusting unit 20 is very small. It becomes possible to become.
[0037]
Further, the first stop valve 26 has a valve case 40 that is partially fitted and fixed to the main body block 21 and a first valve body 42 that is attached to the valve case 40, and the second stop valve 28 is a first stop valve 28. Since the second valve body 50 is mounted in the insertion hole 48 of the valve body 42, the second valve body 50 can be incorporated into the first valve body 42, and the valve bodies 42 and 50 can be provided concentrically. The composite valve mechanism 25 can be configured very compactly.
[0038]
In addition, the first operating member 30 is screwed onto the valve case 40 so as to be externally fitted, and is connected to the first valve body 42 so as not to move in the opening / closing direction of the first stop valve 26, and the second operating member 31 is The first and second operating members 30 and 31 are connected to the screw shaft portion 52 that is screwed into the insertion hole 48 of the first valve body 42 and fixed to the second valve body 50. The operation space can be secured and provided concentrically, and the gas pressure adjustment unit 20 can be made very small.
[0039]
Next, another embodiment will be described with reference to FIGS. Another embodiment is an example when the present invention is applied to a multiple-type gas pressure adjustment unit.
The multiple gas pressure adjustment unit 20A (hereinafter referred to as a gas pressure adjustment unit) can independently adjust the gas pressures of the four gas springs 2a and the gas pressures of the other four gas springs 2b. A first block 60 having a gas pressure introduction part 22A, a pair of left and right second blocks 61 (61a, 61b) each having a composite valve mechanism 70, a pressure gauge 71, and a gas pressure supply part 23A, and an exhaust valve 77. And a third block 62 having an operation member 78 for manually operating it is connected in series in the left-right direction with a plurality of bolts 63. The first to third blocks 60 to 62 constitute a main body block 21A.
[0040]
The gas pressure introducing portion 22A is configured by attaching a coupler 65 to the upper end portion of the first block 60, and a gas passage 66 extending rightward from the gas pressure introducing portion 22A is formed in the first block 60. A coupler 18 on the cylinder 16 side is detachably attached to the coupler 65, and pressurized gas is supplied from the cylinder 16. The exhaust valve 77 and the operation member 78 are provided at the upper end portion of the third block 62, and a gas passage 79 that communicates with the exhaust valve 77 and extends to the left is formed in the third block 62. The first and third blocks 60 and 62 are fixed with bolts 64 to a predetermined attachment site such as a press machine.
[0041]
The pair of left and right second blocks 61a and 61b have the same structure, and in each of the second blocks 61a and 61b, the gas pressure supply unit 23A is configured by attaching a pair of supply plugs 67 to the upper and lower ends of the second block 61. In addition, two sets of gas springs are always connected to each supply plug 67 via a high-pressure hose or the like. The composite valve mechanisms 70a and 70b are provided at the lower ends of the second blocks 61a and 61b, and a pressure gauge 71 is provided above the composite valve mechanisms 70a and 70b.
[0042]
In each of the second blocks 61a and 61b, a gas passage 72 extending in the left-right direction communicating with the gas passages 66 and 79, extending downward from the gas passage 72, and communicating with the pressure gauge 71 and the composite valve mechanisms 70a and 70b. A gas passage 73 extending in the vertical direction, a gas passage 74 extending rearward from the composite valve mechanisms 70a and 70b, and a gas extending in the vertical direction from the gas passage 74 and communicating with the gas pressure supply unit 23A (a pair of upper and lower supply plugs 67). A passage 75 is formed, and a check valve 76 is provided in the gas passage 73 on the gas passage 72 side with respect to the pressure gauge 71.
[0043]
That is, the gas passages 66, 72, 73, 74, and 75 constitute a pair of gas passages 24A extending from the common gas pressure introduction portion 22A to the pair of gas pressure supply portions 23A (see FIG. 16). The exhaust valve 77 of the third block 62 allows the pressurized gas in the gas passages 66, 72, 77 to be exhausted to the atmosphere. In addition, since the composite valve mechanisms 70a and 70b have the same structure as that of the above embodiment, the same reference numerals are given and the description thereof is omitted.
[0044]
The operation and effect of the gas pressure adjustment unit 20A will be described.
The exhaust valve 77 is closed, and in each of the composite valve mechanisms 70a and 70b, the composite valve mechanism 70a and the like are operated in a state where the gas passage 24A and the atmospheric discharge gas passage 27 are closed by the first and second stop valves 26 and 28. By operating in the same manner as in the embodiment, an appropriate value of gas pressure can be supplied to the four sets of gas springs 2a. In addition, by operating the composite valve mechanism 70b and the like in the same manner as in the previous embodiment, An appropriate value of gas pressure can be supplied to the gas spring 2b.
[0045]
Here, since the check valve 76 is provided in each gas passage 24A, the pressurized gas is introduced from the common gas pressure introducing portion 22A, and gas is supplied to the four gas springs 2a and the other four gas springs 2b. After supplying the pressure and stopping the supply of the pressurized gas from the gas cylinder 16 to the gas pressure introduction part 22A, the gas of the four gas springs 2a is operated by operating the pair of composite valve mechanisms 70a and 70b, respectively. It is possible to independently adjust the pressure and the gas pressures of the other four sets of gas springs 2b.
[0046]
When checking the gas pressure of the gas spring 2a after supplying the pressurized gas, when the gas passage 24A is opened by the first stop valve 26 of the composite valve mechanism 70a, the gas pressure of the gas spring 2a is changed to the pressure gauge 71 of the second block 61a. It is possible to check the pressure of the gas spring 2a. When the gas passage 24A is opened by the first stop valve 26 of the composite valve mechanism 70b, the pressure gauge 71 of the second block 61b can check the gas pressure of the gas spring 2b after the pressurized gas is supplied.
[0047]
Here, for example, when the gas pressure of the gas spring 2a is lower than the appropriate value, the gas spring 2a is replenished with gas pressure as follows. With the first stop valve 26 of the composite valve mechanism 70a opened, the operating member 78 is operated to open the exhaust valve 77, and the gas pressure acting on the gas pressure introducing portion 22A is released. The gas pressure of the gas spring 2a is not lowered by the check valve 76 of the gas passage 24A. After that, when the coupler 18 on the gas cylinder 16 side is attached to the coupler 35 of the gas pressure adjustment unit 20 and the main plug of the gas cylinder 16 is opened, the pressurized gas filled in the gas spring 2a is not released once, but the gas spring 2 Can be supplied with pressurized gas. The gas pressure of the gas spring 2b is replenished in the same manner.
[0048]
As a modification of the gas pressure adjustment unit 20A, three or more second blocks 61 may be provided between the first and third blocks 60 and 62. Further, in the gas pressure supply unit 23 </ b> A of each second block 61, a supply plug 67 may be attached only on the upper side or the lower side, and a plurality of gas springs may be connected to the supply plug 67.
[0049]
【The invention's effect】
According to the gas pressure adjusting unit of the first aspect, when the gas spring is used, the first stop valve can be held in the closed state to prevent the pulsation of the gas pressure from being propagated to the pressure gauge. It is possible to prevent the life from being shortened, and further, the first stop valve capable of opening and closing the gas passage, and the gas pressure with respect to the valve portion of the first stop valve of the gas passage formed in the first stop valve. The gas pressure adjusting unit is extremely miniaturized because the composite valve mechanism comprising the gas passage for atmospheric release communicated to the introduction side and the second stop valve capable of opening and closing the gas passage for atmospheric emission is integrated. It becomes possible.
[0050]
  AndThe first stop valve has a valve case that is partially fitted and fixed to the main body block, and a first valve body that is attached to the valve case, and the second stop valve is formed on the first valve body. Since it has the 2nd valve body with which the insertion hole was mounted | worn, it becomes possible to provide a 1st, 2nd valve body concentrically, and can comprise a composite valve mechanism very compactly.
[0051]
  Claim2According to the gas pressure adjustment unitThe secondThe first operating member is screwed into the valve case so as to be fitted into the valve case, and is connected to the first valve body so as not to move in the opening / closing direction of the first stop valve. The second operating member is an insertion hole of the first valve body. The first and second operating members can be provided concentrically while ensuring their operating space, because they are connected to the screw shaft portion fixedly provided on the second valve body. The gas pressure adjustment unit can be very small.
[Brief description of the drawings]
FIG. 1 is a perspective view of an impact buffering device having a gas pressure adjusting unit according to the present embodiment.
FIG. 2 is a front view of a gas pressure adjustment unit.
FIG. 3 is a plan view of a gas pressure adjustment unit.
FIG. 4 is a front view of a gas pressure adjustment unit (with a pressure gauge and the like removed).
5 is a cross-sectional view taken along the line V-V in FIG. 3;
6 is a cross-sectional view taken along line VI-VI in FIG.
7 is a cross-sectional view taken along line VII-VII in FIG.
FIG. 8 is a longitudinal sectional view of a composite valve mechanism (when a gas passage and an atmospheric discharge gas passage are closed).
FIG. 9 is a circuit diagram of the shock absorbing device.
FIG. 10 is a longitudinal sectional view of a composite valve mechanism (when a gas passage is opened).
FIG. 11 is a vertical cross-sectional view of a composite valve mechanism (when an atmospheric discharge gas passage is opened).
FIG. 12 is a longitudinal sectional view of a composite valve mechanism (when a gas passage and an atmospheric discharge gas passage are opened).
FIG. 13 is a front view of a gas pressure adjustment unit according to another embodiment.
14 is a cross-sectional view taken along line XIV-XIV in FIG.
15 is a cross-sectional view taken along line XV-XV in FIG.
FIG. 16 is a circuit diagram of an impact buffer device according to another embodiment.
FIG. 17 is a front view of a gas pressure adjusting unit according to the prior art.
FIG. 18 is a circuit diagram of an impact buffering device provided with a conventional gas pressure adjusting unit.
[Explanation of symbols]
1 Shock absorber
2, 2a, 2b Gas spring
16 Gas cylinder
20, 20A Gas pressure adjustment unit
21,21A Body block
22,22A Gas pressure introduction part
23,23A Gas pressure supply part
24,24A gas passage
25, 70a, 70b Compound valve mechanism
26, 28 First and second stop valves
27 Gas passage for atmospheric release
30, 31 First and second operation members
33,71 Pressure gauge
40 Valve case
42,50 1st and 2nd valve body
45,55 Valve part
48 Insertion hole
52 Screw shaft

Claims (2)

In the gas pressure adjustment unit that adjusts the gas pressure of the pressurized gas supplied from the pressurized gas supply source to the gas spring,
A gas pressure introducing section to which pressurized gas is supplied from the pressurized gas supply source, a gas pressure supplying section for supplying pressurized gas to the gas spring, and a gas passage extending from the gas pressure introducing section to the gas pressure supplying section. A main body block having,
A first stop valve capable of opening and closing the gas passage, and an air release gas formed in the first stop valve and communicated with the valve portion of the first stop valve of the gas passage on the gas pressure introduction portion side A composite valve mechanism formed integrally with a passage and a second stop valve capable of opening and closing the atmospheric discharge gas passage;
A first operating member for manually operating the first stop valve and a second operating member for manually operating the second stop valve;
A pressure gauge connected to the gas pressure introduction portion side with respect to the valve portion of the first stop valve of the gas passage and attached to the main body block ;
The first stop valve has a valve case that is partially fitted and fixed to the main body block, and a first valve body that is attached to the valve case, and the second stop valve is formed in the first valve body. A second valve body attached to the inserted insertion hole,
A gas pressure adjusting unit characterized by that. The first operating member is screwed into the valve case so as to be fitted into the valve case, and is connected to the first valve body so as not to move in the opening / closing direction of the first stop valve. The second operating member is connected to the first valve body. 2. The gas pressure adjusting unit according to claim 1 , wherein the gas pressure adjusting unit is screwed into the insertion hole and connected to a screw shaft portion fixedly provided on the second valve body.

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