KR100886871B1 - Pinch valve - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pinch valve and has a sleeve having self-elasticity and a pinch valve configured to control the flow rate flowing through the sleeve by tightening the upper and lower portions of the sleeve to the pressing portion.

The configuration of the present invention is connected to the housing having a passage therein, a sleeve inserted into a passage of the housing and fixed at both ends, and having a fluid flowing therein, a pressing portion provided at upper and lower portions of the sleeve, and the pressing portions. A rhombic trimming link, a guide groove formed on the inner wall surface of the housing such that the hinge axis connected between the upper and lower links is moved only in the horizontal direction, and a lifting shaft vertically installed on the pressing part of the one side to protrude out of the housing; It is composed.

The present invention having the above configuration has an effect that the operation configuration for opening and closing the sleeve is very simple and more stable by simply raising and lowering both pressing portions by the operation of the link.

Pinch, Valve, Link, Sleeve, Pressurized, Shaft

Description

Pinch valve

Figure 1a is a front sectional view showing a state before operation of the pinch valve according to the present invention.

Figure 1b is a side cross-sectional view showing a state before operation of the pinch valve according to the present invention.

Figure 2a is a front sectional view showing a state after the operation of the pinch valve according to the present invention.

Figure 2b is a side cross-sectional view showing a state after the operation of the pinch valve according to the present invention.

Figure 3 is a structural diagram showing the structure of the pinch valve according to the present invention.

4 is an exemplary view showing the structure of a pinch valve according to another embodiment of the present invention.

Figure 5 is a side view showing the structure of a conventional pinch valve.

*** Explanation of symbols for the main parts of the drawing ***

10-housing 11-passage

12-bolt hole 13-guide groove

14-Axle 20-Sleeve

21-Flange 22-Bolt Assembler

30a, 30b-Pressing section 31a, 31b-Hinge shaft

40-link 41-link axis

50-descent axis 60-handle

The present invention relates to a pinch valve, and more particularly, to a pinch valve having a sleeve having self-elasticity and controlling the flow rate flowing through the sleeve by tightening the upper portion and the lower portion of the sleeve to the pressing portion.

In the conventional conventional pinch valve, as shown in FIG. 5, a symmetrical flange 1 is integrated by a pair of support bars 2, and a vertical bar 3 slides in the middle of the support bar 2. While being installed so that the lower pressing portion (4) is installed on the lower portion of the vertical bar (3), the bracket (5) is fixedly installed on the top. And between the bracket (5) and the support bar (2) is provided with an upper pressing portion (6) for lifting up and down by the vertical rod (3), the screw rod (8) rotated by the handle (7) is a bracket (5) Screw is connected to the upper press section 6. In addition, a tubular sleeve 9 having its own elasticity is installed so as to be interposed between the upper and lower pressurizing portions 4 and 6 while both ends are fixedly installed from both flanges 1.

In the conventional pinch valve having such a structure, when the screw rod 8 is lowered by the operation of the handle 7, the upper press portion 6 is pressed and the bracket 5 is raised and lowered to the vertical rod 3. As the connected lower pressurization portion 4 is elevated, the upper and lower portions of the sleeve 9 are tightened to regulate and block the fluid flow therein.

In the conventional pinch valve as described above, the upper pressurizing portion is provided with the lower pressurizing portion 4 separate from the screw rod 8 being screwed to a support such as a housing so that the upper pressurizing portion 6 and 4 can be lowered. Contrary to (6), a configuration for screwing the bracket (5) to the screw rod (8) for lifting and lowering operation is required, and also the vertical rod (3) connecting the bracket (5) and the lower pressurizing portion (4) In the configuration of the upper and lower pressurizing portion (4) (6) is a lot of components forming the pinch valve, such as forming a guide groove to guide the operation when the operation of lifting and lowering, so that it is difficult to design and manufacture and the manufacturing cost is increased There was a problem.

Accordingly, an object of the present invention is to provide a pinch valve that is easy to manufacture at a low cost and ensures stable operation by simplifying a configuration of opening and closing a sleeve to solve the above problems.

Pinch valve of the present invention for achieving the above object is

A housing having a passage therein;

A sleeve inserted into a passage of the housing and fixed at both ends, and having a fluid flowing therein;

Pressing portion provided on the upper and lower portion of the sleeve;

A rhombic trimming link connecting the two pressing portions;

A guide groove formed on an inner wall surface of the housing such that a link axis connected between the upper and lower links moves only in a horizontal direction;

It is installed vertically on the pressing portion of the one side, the lifting shaft protruding out of the housing; characterized in that consisting of.

In addition, the lifting shaft is characterized in that the screw shaft pivotally coupled to the upper pressing portion and supported by the housing.

In addition, the upper and lower links of each pair is characterized in that the two hinge shafts on both sides of the pressing portion are individually linked to each other.

In addition, the link has a cutout groove is formed at one end and the other side is formed to a thickness that is inserted into the cutout groove is characterized in that the other link to be connected is inserted into the cutout groove assembled.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1a is a front sectional view showing a state before the operation of the pinch valve according to the present invention, Figure 1b is a side sectional view showing a state before the operation of the pinch valve according to the present invention, Figure 2a is a pinch valve of the present invention Figure 2b is a side cross-sectional view showing a state after the operation of the pinch valve according to the present invention, Figure 3 is a structural diagram showing the structure of the pinch valve according to the present invention.

As shown in these drawings, the pinch valve according to the present invention includes a housing 10 having a passage 11 therein, and a fluid flows into the housing 10 while both ends are fixed to the passage 11 of the housing 10. A rhombic trimming link 40 connecting the sleeve 20, the pressing portions 30a and 30b provided on the upper and lower portions of the sleeve 20, and the pressing portions 30a and 30b; The guide shaft 13 is formed on the inner wall surface of the housing so that the link shaft 41 connected between the upper and lower links 40 moves only in the horizontal direction, and is vertically installed on the pressing part 30a on the one side of the housing 10. It consists of a lifting shaft 50 which protrudes to the outside.

Here, the housing 10 has a circular passage 11 penetrating the left and right, and a plurality of bolt holes 12 are formed around both ends of the passage 11. A cylindrical sleeve 20 is inserted into the passage 11 of the housing 10. The sleeve 20 is made of a material such as an elastomer having its own elasticity and has an outward flange 21 at both ends thereof. Is formed and a bolt assembly hole 22 corresponding to the bolt hole 12 of the housing 10 is formed in the flange 21 so that both ends of the sleeve 20 from the housing 10 are assembled by assembling a bolt (not shown). It is firmly fixed and coupled.

In addition, the pressing portions 30a and 30b are horizontally long when viewed from the side so that the pressing portions 30a and 30b provided at the upper and lower portions of the sleeve 20 are positioned in parallel with each other, and the sleeve 20 and The contact surface is formed to be inclined to both sides from the center, and the hinge shafts 31a and 31b protrude integrally from both ends of the pressing portions 30a and 30b to connect the links 40.

The link 40 is provided on each side of each of the pressing portion (30a, 30b), each of which is provided with a quadrilateral, two at the top, two at the bottom in a parallelogram, the shape of each link 40 is cut in one end The formation groove 42 is formed and the opposite end has a thickness that is inserted into the notch groove 42. Link 40 of such a shape is one end of the upper two links 40 is connected to the hinge shaft 31a of the upper pressing portion 30a, one end of the lower two links 40 of the lower pressing portion 30b It is connected to the hinge shaft (31b), the connection of the upper link 40 and the lower link 40 is connected by a separate link shaft 41.

The link shaft 41 extends from the outer surface of the link 40, and guide grooves 13 into which the link shaft 41 is partially inserted are formed at both inner wall surfaces of the housing 10. 13 is elongated in the horizontal direction. Therefore, as the link shaft 41 moves only in the horizontal direction, the pressing portions 30a and 30b positioned at the upper and lower portions thereof are movable only in the vertical direction.

On the other hand, the shaft hole 14 is formed on one side of the housing 10, the elevating shaft 50 is installed through, the end of the elevating shaft 50 inserted into the pivot coupled to be idle from the pressing portion (30a) do. This elevating shaft 50 may be remotely adjusted by a conventional cylinder not shown in the drawings, or as shown in the drawings, the outer peripheral surface of the elevating shaft 50 and the shaft hole 14 of the housing 10. While forming the thread to be screwed to the end of the elevating shaft 50 exposed to the outside, the handle 60 that can easily rotate the elevating shaft 50 is fixed to install the pressure portion 30a (30b) Position can be adjusted manually. Although not shown in the drawing, the operation of the elevating shaft 50 may be operated by the driving force of the driving motor.

The operation state of the pinch valve according to the present invention having such a structure will be described.

First, when turning the handle 60 in the pinch valve open state (Fig. 1a, 1b) as the lifting and lowering shaft 50 is rotated to descend by the screw thread of the shaft hole 14 and the pressurization portion 30a of the upper portion connected thereto Simultaneously with the lowering, the pressing part 30b positioned at the lower side is lifted and reversed by the link 40. That is, while the upper press portion 30a is lowered, the upper link 40 is pushed, and the link axis 41 moves horizontally along the guide groove 13 so that the lower link 40 is lifted up. As a result, the lower pressing portion 30b connected to the lower link 40 is also lifted and gradually tightened at the upper and lower portions of the sleeve 20, thereby completely blocking as shown in FIGS. 2A and 2B. Thus, the flow rate can be easily adjusted according to the degree of tightening of both the pressurizing portion (30a) (30b), it is possible to block or completely open.

4 is an exemplary view showing a structure of a pinch valve according to another embodiment of the present invention, as shown in the figure, two hinge shafts 31a and 31b of both pressurizing portions 30a and 30b are respectively provided. It is formed in pairs. That is, two hinge shafts 31a and 31b are formed horizontally on both sides of the pressing parts 30a and 30b, and the links 40 are individually connected to both of the hinge shafts 31a and 31b. do. The pinch valve according to the above structure is maintained by the pressing portion 30a, 30b in a horizontal state by the link 40 is connected to each other to tighten the sleeve 20 in a more stable state to prevent rotation.

As described above, the pinch valve according to the present invention has an effect of making the operation configuration for opening and closing the sleeve very simple and more stable by simply raising and lowering both pressurized portions by simply operating the link.

Claims (4)

A housing 10 having a passage 11 therein; A sleeve 20 inserted into the passage 11 of the housing 10 so that both ends thereof are fixed and the fluid flows therein; Horizontal pressing portions 30a and 30b provided at upper and lower portions of the sleeve 20; A link 40 connected in a lozenge connecting the pressing portions 30a and 30b; A guide groove 13 formed on an inner wall surface of the housing 10 such that the link shaft 41 connected between the links 40 moves in a horizontal direction; A pinch valve, characterized in that consisting of; a lifting shaft (50) for raising and lowering the pressure portion (30a) of the one side. The pinch valve according to claim 1, wherein the elevating shaft (50) is a screw shaft pivotally coupled to the pressing portion (30a) located above and supported by the housing (10). The pinch valve according to claim 1, wherein the pressurizing portion (30a) (30b) has two hinge shafts (31a) and (31b) at both ends thereof, so that the links (40) are individually connected. According to claim 1, The link 40 has a notch groove 42 is formed at one end and the other side is formed to a thickness that is inserted into the notch groove 42, the other link 40 to be connected to the notch groove 42 Pinch valve, characterized in that inserted into the assembly.

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