WO2012019346A1 - Float pail rotating device for lateral water inlet valve - Google Patents

Abstract

A float pail rotating device for a lateral water inlet valve includes an elevating rod (30), a lifting rod (40) and a rotating plate (1). A float pail (10) is sleeved on a water outlet tube (20) and connected with one end of the lifting rod (40) by the elevating rod (30). A middle part of the lifting rod (40) is installed on the rotating plate (1) by a pivot (50). The other end of the lifting rod (40) is equipped with a sealing cover (80) in a position corresponding to a pressure relieving hole (70). The rotating plate (1) is rotatably installed on a top cover (60). A rotation centre of the rotating plate (1) is in line with that of the float pail (10). During installation of a water tank, the float pail can be directly rotated according to the internal condition of the water tank without rotating the pressure cover. The regulation and installation of the lateral water inlet valve is convenient.

Description

Side inlet valve float drum rotation device Technical field

The invention relates to the technical field of a side inlet valve in a sanitary ware, in particular to the structure of a side inlet valve float rotation device.

Background technique

Usually, when the side inlet valve is installed in the water tank, the floating bucket is properly rotated according to the shape and size of the space inside the tank, so that the float can float up and down smoothly in the tank to realize the side inlet valve. Turn on the water and turn off the water.

In the prior art, the structure of the side inlet valve is as shown in FIG. 1. The floating bucket 10 is sleeved on the outlet pipe 20, and is connected to one end of the lifting rod 40 through the lifting rod 30, and the middle of the lifting rod 40 passes through the pivot. 50 is mounted on the top cover 60, and the other end of the lifting rod 40 is connected with the sealing cover 80 corresponding to the position of the pressure relief hole 70. The top cover 60 is pressed and fixed to the outlet pipe by the screw connection of the gland 90 and the top of the outlet pipe 20. 20 on.

During the installation of the water tank, the position of the floating bucket 10 can be appropriately rotated according to the internal condition of the water tank. The specific operation is to first unscrew the pressure cover 90 so that the top cover 60 can rotate on the top of the water outlet pipe 20 and then rotate together. The bucket 10, the lifting rod 30 and the lifting rod 40 are brought to a suitable position, and then the pressing cover 90 is screwed so that the top cover 60 is pressed and fixed to the top of the outlet pipe 20 by the gland 90. At this time, the floating bucket 10 is adjusted at Suitable location.

After the side inlet valve is installed in the water tank, when the water level drops, the floating bucket 10 falls, and one end of the lifting rod 40 is lowered by the lifting rod 30, and the other end of the lifting rod 40 is lifted up, so that the sealing cover 80 opens the pressure releasing hole. 70. After the pressure is released from the side inlet valve, the water stop rubber pad opens the outlet pipe 20, and starts to enter the water; when the water level rises, the floating bucket 10 floats up, and one end of the lifting rod 40 is lifted by the lifting rod 30, The other end of the lifting rod 40 is lowered, so that the sealing cover 80 is re-covered in the pressure releasing hole 70, the pressure in the side inlet valve is increased, and the water stopping rubber pad closes the outlet pipe 20, at which time the water inlet is stopped.

The side inlet valve is not normally rotatable by the gland 90 in the normal state, and the lifting rod 40 is pivotally disposed on the top cover 60. Therefore, the top cover 60 is restricted to the normal lower lifting rod 40. It is not possible to rotate, so that the float 10 cannot be rotated. Therefore, the pressing action of the gland 90 on the top cover 60 must be released first every time the float float 10 is adjusted, and the rotation adjustment operation is very troublesome.

In view of this, the inventors have improved the structure of the existing side inlet valve, and the present invention has been produced.

Summary of the invention

The object of the present invention is to provide a side inlet valve float rotation device to facilitate the rotation adjustment of the floating bucket and facilitate the installation operation of the side inlet valve.

In order to achieve the above object, the technical solution of the present invention is as follows:

The side inlet valve float rotation device comprises a lifting rod, a lifting rod and a rotating piece, the floating barrel is sleeved on the outlet pipe, and is connected to one end of the lifting rod through a lifting rod, and the middle of the lifting rod is pivotally mounted on the rotating piece The other end of the lifting rod is mounted with a sealing cover corresponding to the position of the pressure relief hole, and the rotating piece is rotatably mounted on the top cover, and the rotating center of the rotating piece is in line with the rotating center of the floating barrel.

A rotating shaft is formed on the top cover, and a sleeve is formed on the rotating piece, and the rotating piece is mounted on the top cover by the sleeve and the rotating shaft.

The rotating shaft of the top cover is surrounded by two arcs, and the outer bottom of the circular arc forms a card slot. The inner edge of the sleeve of the rotating piece forms a card edge that cooperates with the card slot, and an elastic slot is formed in the radial direction of the rotating piece.

The center of the rotating shaft of the top cover forms a pressure relief hole, the center of the rotating shaft of the top cover is offset from the geometric center of the top cover, and the upper portion of the water outlet pipe forms an eccentric tube, and the geometric center of the top cover is in line with the center of the eccentric tube.

The center of the rotating shaft forms a stud having a pressure relief hole, and the top end of the stud is tapered.

The eccentric tube is integrally formed on the outlet pipe.

The eccentric tube and the outlet pipe are separately formed, and then connected to the outlet pipe by screwing or rotatably connected to the outlet pipe through the snap ring, and the joint is provided with a sealing ring.

After adopting the above scheme, the invention can be based on the water tank during the installation process of the water tank In the case of the situation, the floating bucket is directly rotated, and the lifting rod is used to drive the lifting rod to rotate, and then the rotating piece is arbitrarily rotated on the top cover to rotate the floating barrel to the proper position. The invention does not need to re-rotate the gland and the top cover as in the prior art, and the adjustment operation is convenient, thereby facilitating the installation work of the side inlet water valve.

The invention will be further described below in conjunction with the drawings and specific embodiments.

DRAWINGS

Figure 1 is a schematic structural view of a conventional side inlet valve;

Figure 2 is a perspective exploded view of the present invention;

Figure 3 is an exploded perspective view of the present invention in a bottom view;

Figure 4 is a schematic view of the use state of the rotation of the present invention;

Figure 5 is a schematic view of the use state of the rotation of the present invention;

Fig. 6 is a third schematic view showing the state of use of the rotation of the present invention.

Label description

Existing side inlet valve label

Floating bucket 10 outlet pipe 20

Lifting rod 30 lifting rod 40

Pivot 50 top cover 60

Pressure relief hole 70 sealing cover 80

Gland 90

Added label of the invention

Rotary piece 1 bushing 11

Card edge 12 elastic slot 13

Rotary shaft 61 card slot 62

Bump 63 eccentric tube 100

detailed description

As shown in Figures 2 and 3, the present invention discloses The side inlet valve float rotating device comprises a lifting rod 30, a lifting rod 40 and a rotating piece 1. The floating barrel 10 is sleeved on the outlet pipe 20, and is connected to one end of the lifting rod 40 through the lifting rod 30, and the lifting rod 40 is The middle portion is mounted on the rotary sheet 1 by a pivot 50, and the other end of the lifting rod 40 is mounted with a sealing cover 80 corresponding to the position of the pressure relief hole 70. The rotary sheet 1 is rotatably mounted on the top cover 60, and the rotation of the rotary sheet 1 The center is in line with the center of rotation of the float 10. The top cover 60 can be directly mounted on the water outlet pipe 20 or mounted on the water outlet pipe 20 by means of a gland 90 or the like as shown in FIG. 1. The installation manner of the top cover 60 does not affect the installation and operation of the present invention, and thus will not be described herein.

Thus, in the present invention, since the lifting rod 40 is pivotally connected to the rotor 1, the rotor 1 can be rotated on the top cover 60 without limitation, and the center of rotation of the rotor 1 is in line with the center of rotation of the floating bucket 10. Therefore, in the process of installing the water tank, the invention can directly rotate the floating bucket 10 according to the internal condition of the water tank, and the lifting rod 40 is driven to rotate by the lifting rod 30, and then the rotating piece 1 is arbitrarily rotated on the top cover 60 to make the floating bucket. 10 is rotated to the appropriate position, and FIGS. 4 to 6 show three states in which the float 10 is rotated. When the floating bucket 10 is rotated and adjusted, the invention does not need to rotate the gland 90 and the top cover 60 as in the prior art, and the adjustment operation is convenient, thereby facilitating the installation work of the side inlet valve.

In this embodiment, the rotating shaft 61 is formed on the top cover 60. For more convenient and firm installation, the rotating shaft 61 is specifically surrounded by two arcs, and the outer bottom of the circular arc forms a locking groove 62. This embodiment is on the rotating piece 1. The sleeve 11 is formed. In order to make the installation more convenient and firm, the inner edge of the sleeve 11 forms a card edge 12 that cooperates with the slot 62, and the elastic piece 13 is further formed in the radial direction of the rotor 1. When installed, the flap 1 is engaged with the catching groove 62 of the rotating shaft 61 by the hem 12 of the sleeve 11, and is mounted on the top cover 60 in a rotatable manner. Of course, the position of the rotating shaft and the sleeve can be reversed on the top cover and the rotating piece, and the rotating piece 1 can also be mounted on the top cover 60 in other rotating forms, which is not enumerated herein.

In order to simplify the structure, the sealing cover 80 on the lifting rod 40 is more effectively engaged with the pressure releasing hole 70. This embodiment forms the pressure releasing hole 70 at the center of the rotating shaft 61 of the top cover 60, specifically, the two sides of the rotating shaft 61. The center of the arc forms a stud 63 having a pressure relief hole 70, and the tip end of the stud 63 is tapered to ensure a tight fit with the sealing cover 80 when closed. Because the pressure relief hole 70 of this embodiment is located at the center of the rotating shaft 61 of the top cover 60, that is, the pressure releasing hole 70 is in line with the center of rotation of the floating tub 10 (that is, the central axis of the water outlet pipe), and generally to avoid the pressure relief hole. 70 interferes with the needle valve (located at the geometric center of the top cover), and the pressure relief hole 70 will deviate from the geometric center of the top cover 60. Therefore, the center of the rotation shaft 61 of the top cover 60 in this embodiment is offset from the geometric center of the top cover 60 for installation. The top cover 60 and the like side inlet valve assembly, the upper portion of the outlet pipe 20 of this embodiment forms an eccentric tube 100, and the side inlet valve assembly such as the top cover 60 is installed in the eccentric tube 100, and the geometric center of the top cover 60 and the eccentric tube 100 The center of the eccentric tube 100 is in a straight line, and the eccentric distance of the eccentric tube 100 relative to the outlet pipe 20 is equal to the eccentric distance of the center of the shaft 61 of the top cover 60 relative to the geometric center of the top cover 60. For the structure of the floating bucket 10 equipped with a small water tank, since the small water tank is usually fixed on the water outlet pipe 20 and is not rotatable, the eccentric pipe 100 and the water outlet pipe 20 are separately formed, and the eccentric pipe is rotatably passed through the snap ring. 100 is connected to the outlet pipe 20, and a sealing ring is provided at the joint, thereby realizing the rotation of the floating bucket 10. For the structure of the floating bucket 10 not equipped with a small water tank, the eccentric tube 100 may be integrally formed on the water outlet pipe 20, or the eccentric pipe 100 and the water outlet pipe 20 may be separately formed and then screwed onto the water outlet pipe 20, There is a sealing ring at the joint.

Of course, the pressure relief hole 70 can also deviate. The center of the rotating shaft 61 of the top cover 60 is such that the center of the rotating shaft 61 of the top cover 60 is consistent with the geometric center of the top cover 60, and the upper portion of the water outlet pipe 20 does not need to form an eccentric tube. However, the sealing cover 80 needs to be designed enough. Large to ensure that the sealing cover 80 can cooperate with the pressure relief hole 70 during the free rotation of the lifting rod 40. In the actual processing, the structure of the lifting rod 40 of this embodiment is relatively complicated, and the shape of the sealing cover 80 is large, and it is difficult for the lifting rod 40 to effectively control the sealing cover 80 to cooperate with the pressure releasing hole 70.

The above is only a preferred embodiment of the present invention, and various changes made to the specific embodiments thereof based on the design points of the present invention within the scope of knowledge of those skilled in the art, but all fall within the scope of protection of the present invention. Inside.

Claims (8)

1, The side inlet valve float rotation device is characterized in that: the lifting rod, the lifting rod and the rotating piece are arranged, the floating barrel is sleeved on the outlet pipe, and is connected with one end of the lifting rod through the lifting rod, and the middle of the lifting rod passes through the pivot Mounted on the rotating piece, the other end of the lifting rod is mounted with a sealing cover corresponding to the position of the pressure releasing hole, and the rotating piece is rotatably mounted on the top cover, and the rotating center of the rotating piece is in line with the rotating center of the floating barrel.

2 The side inlet valve floating bucket rotating device according to claim 1, wherein the top cover forms a rotating shaft, and the rotating sleeve forms a sleeve, and the rotating piece is mounted on the top cover by the sleeve and the rotating shaft.

3 The side inlet valve floating bucket rotating device according to claim 2, wherein the rotating shaft of the top cover is surrounded by two arcs, and the outer bottom of the circular arc forms a card slot, and the sleeve of the rotating piece is inside. Along the card edge formed with the card slot, an elastic slot is formed in the radial direction on the rotating piece.

4 The side inlet valve float rotating device according to claim 2, wherein the center of the rotating shaft of the top cover forms a pressure relief hole, the center of the rotating shaft of the top cover is offset from the geometric center of the top cover, and the upper portion of the water outlet pipe is formed. The eccentric tube, the geometric center of the top cover is in line with the center of the eccentric tube.

5 The side inlet valve float rotation device according to claim 4, wherein the center of the rotating shaft forms a boss having a pressure relief hole, and the tip end of the protrusion is tapered.

6. The side inlet valve float rotation device according to claim 4, wherein the eccentric tube is integrally formed on the outlet pipe.

7 The side inlet valve floating bucket rotating device according to claim 4, wherein the eccentric tube and the outlet pipe are separately formed, and then fixedly connected to the outlet pipe by screwing, and a sealing ring is arranged at the joint.

8 The side inlet valve float rotation device according to claim 4, wherein the eccentric tube and the outlet pipe are separately formed, and then rotatably connected to the outlet pipe through the snap ring, and the connection portion is provided. There are seals.

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