JP2005299888A - Control unit and its assembling method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To certainly control a liquefied fluid at a constant rate without stopping the flow of the liquefied fluid even when the pressure of the liquefied fluid is high. <P>SOLUTION: A control unit 1 comprises: a cylindrical unit main body 3; an inlet side mouthpiece 7 which is mounted on the inlet side of the unit main body 3 so as to permit the liquefied fluid 5 to flow into the unit main body 3; a screw-shaped register 9 which is inserted in the interior of the unit main body 3 and has a groove portion 23 for controlling the flow rate of the liquefied fluid 5 at a constant value; an outlet side mouthpiece 11 which is mounted on the outlet side of the unit main body 3 so as to permit the liquefied fluid 5 to flow out of the unit main body 3; and a spacer pipe 13 which is fitted in the interior of the unit main body 3 between the outlet side mouthpiece 11 and the register 9 and has a flow path communicating with the groove portion 23 of the register 9 so as to allow the liquefied fluid 5 to flow out to the inner peripheral side. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a control unit and a method for assembling the control unit, and more particularly, to a control unit interposed in a pipe for supplying a liquid fluid and controlling the liquid fluid in the pipe to a certain amount and a method for assembling the control unit.

  The control unit is provided, for example, in a pipe for supplying lubricating oil as a liquid fluid to control the amount of oil in the pipe to a constant amount.

  Referring to FIGS. 11 and 12, a conventional control unit 101 includes a cylindrical unit main body 103 and a cylinder that is attached to the inlet side of the unit main body 103 and into which, for example, lubricating oil 105 as a liquid fluid flows. An inlet-side base 107 having a shape, a screw-shaped register 109 fitted inside the unit main body 103, and a cylindrical outlet side for attaching a liquid fluid to the outlet side of the unit main body 103 And a base 111. A gap 113 is provided between the rear end surface of the entrance side base 107 and the front end surface of the register 109.

  An inlet-side screw portion 115 is provided on the outer periphery of the unit body 103 on the inlet side, and an outlet-side screw portion 117 is provided on the outer periphery of the unit body 103 on the outlet side. Further, a fastening head portion 119 having a hexagonal cross section for rotating and tightening with a wrench, for example, is provided on the outer periphery of the unit body 103 in the longitudinal center.

  Further, the register 109 has an outer peripheral surface inserted into the inner peripheral surface of the unit main body 103 in a precise eye-eye state, and a spiral groove 121 is formed on the outer periphery of the register 109 from the front end to the rear end of the register 109. It is provided in the shape of a screw so as to communicate. The flow rate of the fluid flowing through the cross-sectional area of the groove 121 is set so as to be meterable and controllable to a constant amount.

  Therefore, when the control unit 101 is interposed in the oil supply pipe of the lubricating oil 105 as a liquid fluid, for example, the control unit 101 is attached to the oil supply pipe via the inlet side screw portion 115 and the outlet side screw portion 117 of the unit main body 103. . When the lubricating oil 105 flows into the unit main body 103 from the inlet side cap 107 of the control unit 101 and flows through the spiral groove 121 of the register 109, the flow rate of the lubricating oil 105 is adjusted to a constant amount, and the outlet side base 111 is changed. Spilled from.

(For example, refer to Patent Document 1).
JP-A-3-153999

By the way, in the conventional control unit 101, the working pressure of the lubricating oil 105 is normally used at 29.4 to 58.8 Pa (3 to 6 kgf / m ² ), but a higher pressure than that, for example, 98 to It may be used at a working pressure of 196 Pa (10-20 kgf / m ² ). In such a case, if the loose eye state between the outer peripheral surface of the register 109 and the inner peripheral surface of the unit main body 103 is loose, the register 109 moves to the rear side (right side in FIG. 11) in the flow direction of the lubricating oil 105, Since the rear end face (right end face in FIG. 11) and the front end face (left end face in FIG. 11) of the outlet side base 111 are in close contact with each other, the flow of the lubricating oil 105 stops, resulting in a serious accident. was there.

  The present invention has been made to solve the above-described problems.

  The control unit of the present invention includes a cylindrical unit main body, a cylindrical inlet base that is attached to the inlet side of the unit main body and allows liquid fluid to flow in, and a register that is inserted into the unit main body. A screw-shaped register having a groove for controlling the flow rate of the liquid fluid to a constant amount, a cylindrical outlet-side base that is attached to the outlet side of the unit body and allows the liquid fluid to flow out, and the outlet-side base, A spacer tube fitted into the unit main body between the register and a spacer tube provided with a flow passage communicating with the groove portion of the register and allowing the liquid fluid to flow out to the inner peripheral side of the spacer tube. It is characterized by this.

  Further, the control unit of the present invention includes a small diameter stepped portion provided on the outer periphery on the front end side of the spacer tube so that the flow path can communicate with the groove portion of the register, and the stepped portion and the spacer in the control unit. It is preferable to comprise a hole portion communicating with the inner peripheral surface of the tube.

  Further, the control unit of the present invention includes a small diameter stepped portion provided on the outer periphery on the front end side of the spacer tube so that the flow path can communicate with the groove portion of the register, and the stepped portion and the spacer in the control unit. It is preferable that the slot portion is provided on the front end surface of the spacer tube so as to communicate with the inner peripheral surface of the tube.

  The control unit of the present invention is preferably a slot portion provided on a front end surface of the spacer tube and communicating with an inner peripheral surface of the spacer tube in the control unit.

  The control unit of the present invention includes a cylindrical unit main body, a cylindrical inlet base that is attached to the inlet side of the unit main body and allows liquid fluid to flow in, and a register that is inserted into the unit main body. A screw-shaped register having a groove for controlling the flow rate of the liquid fluid to a constant amount, and a cylindrical outlet-side base that is attached to the outlet side of the unit main body and allows the liquid fluid to flow out. And an outlet side base provided with a flow path that communicates with the groove and allows the liquid fluid to flow out to the inner peripheral side of the outlet side base.

  Further, the control unit of the present invention includes a small-diameter stepped portion provided on an outer periphery on the front end side of the outlet side base so that the flow path can communicate with the groove portion of the register. It is preferable that it is comprised from the hole part connected to the internal peripheral surface of an exit side nozzle | cap | die.

  Further, the control unit of the present invention includes a small-diameter stepped portion provided on an outer periphery on the front end side of the outlet side base so that the flow path can communicate with the groove portion of the register. It is preferable to comprise a slot portion communicating with the inner peripheral surface of the outlet side base and provided on the front end surface of the outlet side base.

  Further, the control unit of the present invention is preferably a slot portion provided on a front end surface of the outlet side base and communicating with an inner peripheral surface of the outlet side base in the control unit.

The control unit of the present invention includes a cylindrical unit main body, a cylindrical inlet base that is attached to the inlet side of the unit main body and allows liquid fluid to flow in, and a register that is inserted into the unit main body. A screw-shaped register having a groove for controlling the flow rate of the liquid fluid to a constant amount, and a cylindrical outlet side base that is attached to the outlet side of the unit main body and allows the liquid fluid to flow out.
At least a rear end face of the front and rear end faces of the register is provided with a flow path that communicates with the groove and allows the liquid fluid to flow out to the inner peripheral side of the outlet side base.

  In the control unit of the present invention, in the control unit, the flow path is preferably a slot portion.

The method of assembling the control unit according to the present invention includes a step of standing the inlet side of the unit body upward by inserting the outlet side of the cylindrical unit body into a unit support part protruding above the tool table. ,
A step of press-fitting a screw-shaped register having a groove for controlling the flow rate of the liquid fluid into a predetermined amount from an inlet side of the unit body to a predetermined position inside;
A step of press-fitting a cylindrical inlet side base into which the liquid fluid flows into the inlet side of the unit body;
The unit body into which the register and the inlet side base are press-fitted is reversed, and the outlet side of the unit body is turned upward so that the inlet side base is abutted against a pressing support for standing the unit body up and down. The process of standing for
A step of fitting a spacer pipe having a flow path communicating with the groove portion of the register to flow the liquid fluid to the inner peripheral side from the outlet side of the unit body;
A step of press-fitting a cylindrical outlet side base that allows liquid fluid to flow out into the outlet side of the unit body;
It is characterized by having.

The method of assembling the control unit according to the present invention includes a step of standing the inlet side of the unit body upward by inserting the outlet side of the cylindrical unit body into a unit support part protruding above the tool table. ,
A step of press-fitting a screw-shaped register having a groove for controlling the flow rate of the liquid fluid into a predetermined amount from an inlet side of the unit body to a predetermined position inside;
A step of press-fitting a cylindrical inlet side base into which the liquid fluid flows into the inlet side of the unit body;
The unit body into which the register and the inlet side base are press-fitted is reversed, and the outlet side of the unit body is turned upward so that the inlet side base is abutted against a pressing support for standing the unit body up and down. The process of standing for
A cylindrical outlet side cap for allowing liquid fluid to flow out, and press-fitted into the outlet side of the unit body with an outlet side cap which is connected to the groove of the register and has a flow path for flowing the liquid fluid to the inner peripheral side. And a process of
It is characterized by having.

  As can be understood from the means for solving the above problems, according to the present invention, since the spacer tube is provided between the outlet side cap and the register, the register moves backward even if the liquid fluid is high pressure. Even then, the liquid fluid flows into the unit main body from the inlet side base, passes through the gap, flows through the spiral groove of the register, and flows from the liquid fluid outlet of the groove on the rear end side of the register to the flow path of the spacer tube. Therefore, it is possible to reliably flow out from the outlet side cap through the inner peripheral side of the spacer tube.

  In addition, if the outlet side base is provided with a flow path that communicates with the groove portion of the register and allows the liquid fluid to flow out to the inner peripheral side of the outlet side base, even if the register moves backward due to the high pressure of the liquid fluid, The liquid fluid flows into the unit body from the inlet side base, passes through the gap, then flows through the spiral groove of the register, and can pass through the flow path of the outlet side base from the liquid fluid outlet of the groove on the rear end side of the register. Therefore, it can flow out from the inner peripheral side of the outlet side cap surely.

  In addition, if the rear end surface of the register is provided with a flow path that communicates with the groove portion of the register and allows the liquid fluid to flow out to the inner peripheral side of the outlet-side base, even if the register moves backward because the liquid fluid is high pressure The liquid fluid flows into the unit main body from the inlet side base, passes through the gap, then flows through the spiral groove of the register, and can pass through the flow path on the rear end side of the register. It can flow out from the circumference side.

  In the method of assembling the control unit, the register can be easily positioned at a predetermined position inside the unit main body, the inlet side base on the inlet side of the unit main body, the spacer tube and the outlet side base on the outlet side of the unit main body, or the outlet The side caps can be easily press-fitted and assembled.

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

  Referring to FIGS. 1 to 4, the control unit 1 according to the first embodiment includes a substantially cylindrical unit main body 3 and a press-fitted and attached to the inlet side of the unit main body 3 as a liquid fluid. For example, a cylindrical inlet side cap 7 for allowing the lubricating oil 5 to flow in, a screw-shaped resistor 9 press-fitted into the unit main body 3, and a press-fit to the outlet side of the unit main body 3 A cylindrical outlet side base 11 for allowing the lubricating oil 5 to flow out, and a cylindrical spacer tube loosely fitted inside the unit body 3 between the outlet side base 11 and the register 9. 13. A gap 15 is provided between the rear end surface of the inlet side base 7 and the front end surface of the register 9.

  An inlet-side screw portion 17 is provided on the outer periphery of the unit body 3 on the inlet side, and an outlet-side screw portion 19 is provided on the outer periphery of the unit body 3 on the outlet side. Further, a fastening head portion 21 having a hexagonal cross section for rotating and tightening with a wrench, for example, is provided on the outer periphery of the unit body 3 in the substantially center in the longitudinal direction.

  Further, the outer peripheral surface of the register 9 is press-inserted into the inner peripheral surface of the unit body 3 in a precise squeeze state, and a spiral groove 23 is formed on the outer periphery of the register 9 from the front end to the rear end. It is provided in the shape of a screw so as to communicate with. The flow rate of the lubricating oil 5 circulated by the cross-sectional area of the groove portion 23 is set to a constant amount so that it can be metered and controlled. Therefore, by producing various types of registers 9 in which the amount of oil is changed by the pitch of the spiral groove 23 and the module, and by manufacturing various types of control units 1 to which various types of registers 9 are mounted, a desired one can be obtained. Piping is performed using a control unit 1 that can control the amount of oil.

  The spacer tube 13 has a cylindrical shape having an outer peripheral surface that can be loosely fitted inside the unit main body 3, and communicates with the groove portion 23 of the register 9 so that the lubricating oil 5 is passed through the inner periphery of the spacer tube 13. A flow path is provided to flow out to the side. As this flow path, for example, a stepped portion 25 having a small diameter is provided on the outer periphery on the inlet side of the spacer tube 13 so as to communicate with the liquid fluid outlet of the groove portion 23 on the rear end side of the register 9. As shown in FIG. 5, at least one hole 27 is provided in the stepped portion 25 so as to communicate with the inner peripheral surface of the spacer tube 13.

  In the first embodiment, the unit main body 3, the inlet side base 7 and the register 9 are made of brass, and the spacer tube 13 and the outlet side base 11 are made of stainless steel. Thereby, since the color of brass and stainless steel is different, it can be easily confirmed whether or not each of the above members is mounted.

  With the above configuration, when the control unit 1 is interposed, for example, in the oil supply pipe of the lubricating oil 5 (not shown), the thread portion of the oil supply pipe is connected via the inlet side screw portion 17 and the outlet side screw portion 19 of the unit body 3. And screwed onto.

The lubricating oil 5 flows into the unit body 3 from the inlet side cap 7 of the control unit 1, passes through the gap 15, and then flows through the spiral groove 23 of the register 9. After being adjusted to a certain amount, it passes through the hole 27 through the stepped portion 25 of the spacer tube 13 from the liquid fluid outlet on the rear end side of the groove 23, and flows out from the outlet side cap 11 through the inner peripheral side of the spacer tube 13. Is done. Therefore, when the control unit 1 is used at a high pressure, for example, a working pressure of 98 to 196 Pa (10 to 20 gf / m ² ), even if the outer peripheral surface of the register 9 and the inner peripheral surface of the unit main body 3 Even if the register 9 moves backward due to the looseness, the provision of the spacer tube 13 ensures that the lubricating oil 5 flows without stopping.

  As the flow path of the spacer tube 13, at least one slot is formed on the front end surface of the spacer tube 13 as shown in FIGS. 3A and 3B instead of the hole 27 described above. A portion 29 (in the figure, two slot portions 29 are formed) may be provided. In this case, by providing a notch surface 31 that communicates with the groove 23 over the entire outer peripheral edge of the rear end of the register 9, the portion of the notch 31 serves as a liquid fluid outlet of the groove 23. Therefore, even if the stepped portion 25 is not provided, only the slot portion 29 communicates with the liquid fluid outlet of the groove portion 23.

  Accordingly, the lubricating oil 5 passes from the liquid fluid outlet of the groove portion 23 on the rear end side of the register 9 through the stepped portion 25 of the spacer tube 13 through the slot portion 29, passes through the inner peripheral side of the spacer tube 13, and the outlet side cap 11. Surely flows out from.

  Next, a control unit 33 according to a second embodiment of the present invention will be described with reference to the drawings. Since it is substantially the same as the control unit 1 of the first embodiment described above, different points will be described, and the same members are denoted by the same reference numerals and detailed description thereof will be omitted.

  Referring to FIG. 5, the control unit 33 basically has a cylindrical outlet side in which the outlet side base 11 and the spacer tube 13 of the control unit 1 of the first embodiment described above are integrated. A base 35 is press-fitted and attached to the outlet side of the unit body 3.

  That is, the outlet side base 35 is provided with a flow path that communicates with the groove portion 23 of the register 9 and flows the lubricating oil 5 to the inner peripheral side of the outlet side base 35. As this flow path, for example, a small-diameter stepped portion 25 (of the above-described spacer tube 13 is connected to the outer periphery on the front end side of the outlet side base 35 so as to communicate with the liquid fluid outlet of the groove portion 23 on the rear end side of the register 9. As shown in FIG. 5, at least one hole portion 27 is provided in the stepped portion 25 so as to communicate with the inner peripheral surface of the outlet side base 35. .

  In addition, the flow path of the outlet side cap 35 is the same as that of the spacer tube 13 of FIGS. 3A and 3B of the first embodiment described above, instead of the hole 27 described above. In addition, at least one slot portion 29 may be provided on the front end face of the outlet-side base 35.

  Since the operation of the control unit 33 of the second embodiment is substantially the same as that of the control unit 1 of the first embodiment, detailed description thereof is omitted. However, in the case of the first embodiment, if the user forgets to insert the spacer tube 13 into the unit body 3 during assembly of the control unit 1, the structure will be the same as in the conventional case. If the register 9 moves rearward, the flow of the lubricating oil 5 may stop, but the control unit 33 of the second embodiment has a better effect in that the risk factor is eliminated. .

  Next, a control unit 37 according to a third embodiment of the present invention will be described with reference to the drawings. Since it is substantially the same as the control unit 1 of the first embodiment described above, different points will be described, and the same members are denoted by the same reference numerals and detailed description thereof will be omitted.

  Referring to FIGS. 6 and 7, the control unit 37 is basically configured such that the outlet side base 39 is connected to the outlet side base 11 of the control unit 1 of the first embodiment described above and the groove portion 23 of the register 9. A flow path is provided which allows the lubricating oil 5 to flow out to the inner peripheral side of the outlet-side base 35. As the flow path, for example, at least one slot portion 41 is provided on the front end face of the outlet side base 39. In FIG. 7, two slot portions 41 are formed. In this case, it is desirable to provide a notch surface 31 communicating with the groove 23 over the entire outer peripheral edge of the rear end of the register 9. Therefore, the portion of the notch surface 31 serves as the liquid fluid outlet of the groove 23, so that the slot 41 communicates with the liquid fluid outlet of the groove 23. The lubricating oil 5 passes through the slot portion 41 from the liquid fluid outlet of the groove 23 on the rear end side of the register 9 and reliably flows out through the inner peripheral side of the outlet side base 39.

  Next, a control unit 43 according to a fourth embodiment of the present invention will be described with reference to the drawings. Since it is substantially the same as the control unit 1 of the first embodiment described above, different points will be described, and the same members are denoted by the same reference numerals and detailed description thereof will be omitted.

  Referring to FIG. 8, in the control unit 43, basically, the register 45 is lubricated by communicating with the groove 23 of the register 9 on the rear end surface of the register 9 of the control unit 1 of the first embodiment described above. A flow path through which the oil 5 flows out to the inner peripheral side of the outlet-side base 11 is provided. As the flow path, for example, at least one slot portion 47 is provided on the rear end surface of the register 45 so as to communicate with the inner peripheral side of the outlet side base 11 so as to pass through the substantially center of the rear end surface of the register 45, for example. It has been. As the slot portion 47, two slot portions 47 may be provided in a cross shape on the rear end surface of the register 45, or a plurality of slot portions 47 may be provided so as to cross.

  Therefore, the lubricating oil 5 is reliably discharged from the inner peripheral side of the outlet side base 11 through the slot portion 47 from the groove portion 23 on the rear end side of the register 45.

  The basic structure of the register 45 is that the slot portion 47 is provided on at least one of the front and rear end faces of the register 45. In the fourth embodiment, the register 45 is a register. Since the slot portions 47 are provided on both the front end face and the rear end face of 45, the front and rear are interchangeable. Thereby, when assembling the control unit 43, it can be easily assembled without considering the direction of the slot 47.

  Next, a method for assembling the control unit 1 according to the first embodiment will be described with reference to the drawings.

  Referring to FIG. 9, a tool base 49 is used for assembling the control unit 1. In the tool stand 49, a unit support portion 51 that can be inserted into the inlet side and the outlet side of the unit body 3 protrudes upward.

  The assembly process of the control unit 1 is performed in the following order.

(1) The tool base 49 is placed on the table 55 of the press-fitting machine 53, the unit main body 3 is fitted into the unit support portion 51 of the tool base 49, and the outlet side of the unit main body 3 is inserted. A process of standing upwards,
(2) The register 9 is held by the chuck 59 at the lower end of the pressurizing unit 57 that can be moved up and down of the press-fitting machine 53. A step in which the register 9 is press-fitted from the inlet side of the unit body 3 to a predetermined position in the center of the unit body 3 by the operator lowering the pressurizing unit 57;
(3) Next, a step in which the inlet side cap 7 is press-fitted into the inlet side of the unit main body 3 by a pressurizing portion of an air press (not shown),
Next, for assembling the control unit 1, for example, a pallet 61 is used as a press support for raising the unit main body 3 in the vertical direction, as shown in FIG. In this pallet 61, an iron support plate 65 provided with a support hole portion 63 into which the outer peripheral portion on the inlet side of the unit main body 3 can be inserted is fixed substantially parallel to an aluminum base 69 through a plurality of support columns 67. Has been. The base 69 is provided with a recess 71 for abutting the inlet side cap 7.

(4) The pallet 61 is placed on the table 75 of the air press 73 as shown in FIG. The unit body 3 into which the register 9 and the inlet side cap 7 are press-fitted by the above-described process is inverted so that the inlet side base 7 abuts against the recessed portion 71 of the base 69, and the support hole 63 of the support plate 65. A step of being placed so that the outlet side of the unit body 3 faces upward,
(5) a step of manually inserting the spacer tube 13 from the outlet side of the unit body 3 into the interior;
(6) Next, the outlet side base 11 is press-fitted into the outlet side of the unit body 3 by the pressurizing portion 77 of the air press 73, and the inlet side base 7 and the outlet side base 11 are both pressed by the air press 73. The process of being pressurized,
It is what has.

  As described above, the register 9 can be easily positioned at a predetermined position inside the unit body 3. Further, the inlet side base 7, the spacer tube 13, and the outlet side base 11 can be easily press-fitted into the inlet side and the outlet side of the unit body 3 to assemble the control unit 1.

  Note that the method for assembling the control units 33, 37, and 43 in the second to fourth embodiments described above does not include the spacer tube 13 in the method for assembling the control unit 1 described above. The assembly of the control units 33, 37, and 43 is completed by press-fitting the outlet side caps 35 and 39, or by pressing the register 45 instead of the register 9.

It is sectional drawing of the control unit of 1st Embodiment of this invention. It is a left view of FIG. (A) is a fragmentary sectional view of the other Example of the control unit of 1st Embodiment, (B) is sectional drawing of the arrow III-III line of (A). It is a perspective view of the control unit of 1st Embodiment of this invention. It is sectional drawing of the control unit of 2nd Embodiment of this invention. It is sectional drawing of the control unit of 3rd Embodiment of this invention. It is sectional drawing of the arrow VII-VII line of FIG. It is sectional drawing of the control unit of 4th Embodiment of this invention. It is a schematic explanatory drawing of the assembly method of the control unit of embodiment of this invention. It is a schematic explanatory drawing of the assembly method of the control unit of embodiment of this invention. It is sectional drawing of the conventional control unit. It is a left view of FIG.

Explanation of symbols

1 Control unit 3 Unit body 5 Lubricating oil (liquid fluid)
7 Inlet side cap 9 Register 11 Outlet side cap 13 Spacer tube 15 Clearance 17 Inlet side screw portion 19 Outlet side screw portion 21 Tightening head portion 23 Groove portion 25 Stepped portion (flow path)
27 hole (flow path)
29 Slot (flow path)
31 Notch surface 33 Control unit 35 Outlet side base 37 Control unit 39 Outlet side base 41 Slot (flow path)
43 Control unit 45 Register 47 Slot (flow path)
49 Tool stand 51 Unit support 61 Pallet (press support stand)
65 Support plate 69 Base 73 Air press

Claims (12)

  A cylindrical unit main body, a cylindrical inlet base that is attached to the inlet side of the unit main body to allow liquid fluid to flow in, and a register inserted in the unit main body, the flow rate of the liquid fluid being A screw-shaped register having a groove to be controlled in a certain amount, a cylindrical outlet-side base that is attached to the outlet side of the unit body and allows the liquid fluid to flow out, and a unit between the outlet-side base and the register A control unit comprising: a spacer tube fitted into a main body, the spacer tube having a flow path that communicates with the groove portion of the register and allows liquid fluid to flow out to the inner peripheral side of the spacer tube. .   The flow path includes a small-diameter stepped portion provided on the outer periphery on the front end side of the spacer tube so as to be able to communicate with the groove portion of the register, and a hole portion communicating with the stepped portion and the inner peripheral surface of the spacer tube. The control unit according to claim 1, wherein   A small diameter stepped portion provided on the outer periphery of the front end side of the spacer tube so that the flow path can communicate with the groove portion of the register, and the front end of the spacer tube communicating with the stepped portion and the inner peripheral surface of the spacer tube The control unit according to claim 1, comprising a slot portion provided on the surface.   The control unit according to claim 1, wherein the flow path is a slot portion provided on a front end surface of the spacer tube and communicating with an inner peripheral surface of the spacer tube.   A cylindrical unit main body, a cylindrical inlet base that is attached to the inlet side of the unit main body to allow liquid fluid to flow in, and a register inserted in the unit main body, the flow rate of the liquid fluid being A screw-shaped register having a groove portion to be controlled in a certain amount, and a cylindrical outlet-side base that is attached to the outlet side of the unit body and allows the liquid fluid to flow out, and is in fluid communication with the groove portion of the register A control unit comprising: an outlet side base provided with a flow path for causing the outlet side base to flow out to the inner peripheral side of the outlet side base.   A small diameter stepped portion provided on the outer periphery of the front end side of the outlet side base so that the flow path can communicate with the groove portion of the register, and a hole portion communicating with the inner peripheral surface of the stepped portion and the outlet side base; The control unit according to claim 5, comprising:   A small diameter stepped portion provided on the outer periphery of the front end side of the outlet side base so that the flow path can communicate with the groove portion of the register, and the outlet side connected to the stepped portion and the inner peripheral surface of the outlet side base 6. A control unit according to claim 5, comprising a slot portion provided on a front end surface of the base.   The control unit according to claim 5, wherein the flow path is a slot portion provided on a front end surface of the outlet side base and communicating with an inner peripheral surface of the outlet side base. A cylindrical unit main body, a cylindrical inlet base that is attached to the inlet side of the unit main body to allow liquid fluid to flow in, and a register inserted in the unit main body, the flow rate of the liquid fluid being A screw-shaped register having a groove to be controlled in a certain amount, and a cylindrical outlet-side base that is attached to the outlet side of the unit body and allows the liquid fluid to flow out,
A control unit comprising a flow path that communicates with the groove and allows a liquid fluid to flow out to the inner peripheral side of the outlet side cap at at least the rear end surface of the front and rear end surfaces of the register.   The control unit according to claim 9, wherein the flow path is a slot portion. Inserting the outlet side of the cylindrical unit body into the unit support protruding above the tool table, and standing the inlet side of the unit body upward;
A step of press-fitting a screw-shaped register having a groove for controlling the flow rate of the liquid fluid into a predetermined amount from an inlet side of the unit body to a predetermined position inside;
A step of press-fitting a cylindrical inlet side base into which the liquid fluid flows into the inlet side of the unit body;
The unit body into which the register and the inlet side base are press-fitted is reversed, and the outlet side of the unit body is turned upward so that the inlet side base is abutted against a pressing support for standing the unit body up and down. The process of standing for
A step of fitting a spacer pipe having a flow path communicating with the groove portion of the register to flow the liquid fluid to the inner peripheral side from the outlet side of the unit body;
A step of press-fitting a cylindrical outlet side base that allows liquid fluid to flow out into the outlet side of the unit body;
A method of assembling the control unit, comprising: Inserting the outlet side of the cylindrical unit body into the unit support protruding above the tool table, and standing the inlet side of the unit body upward;
A step of press-fitting a screw-shaped register having a groove for controlling the flow rate of the liquid fluid into a predetermined amount from an inlet side of the unit body to a predetermined position inside;
A step of press-fitting a cylindrical inlet side base into which the liquid fluid flows into the inlet side of the unit body;
The unit body into which the register and the inlet side base are press-fitted is reversed, and the outlet side of the unit body is turned upward so that the inlet side base is abutted against a pressing support for standing the unit body up and down. The process of standing for
A cylindrical outlet side cap for allowing liquid fluid to flow out, and press-fitted into the outlet side of the unit body with an outlet side cap which is connected to the groove of the register and has a flow path for flowing the liquid fluid to the inner peripheral side. And a process of
A method of assembling the control unit, comprising:

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