JP3010831U - Water control structure of two-stage toilet bowl - Google Patents

Abstract

(57) [Summary] [Purpose] To provide a water control structure of a toilet bowl which can adjust the water supply amount in two steps, high and low. [Structure] A stopper cap provided with a through hole, a push rod movably mounted in the through hole, a push button fixed to one end of the stopper cap, and a repelling rod and a connecting rod fixed to the other end, and the repelling rod is The high water shutoff valve and the rod are connected to the low water shutoff valve by chain belts. When the push button is pressed, the repelling bar is repelled and pushed upward to open the high water level shutoff valve connected by the chain belt. On the other hand, when the side pressure rod is turned, the connecting rod directly connected is rotated upward, and the low water level shutoff valve connected by the chain belt is opened. A push button and side pressure rod can be used to adjust the amount of water supply between high and low levels.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a water control structure for a two-stage toilet bowl, and more particularly to a structure for controlling a toilet bowl tank that produces two levels of water supply by proportionally applying one pressure (or pulling).

[0002]

[Prior art]

 By the way, the toilet bowl in front of it is designed to have a two-stage water supply to achieve the purpose of water saving, and the amount of opening of the single drop head is used to determine the amount of toilet water (that is, only one set of outlet pipes). ). Among them, a twin pressure rod is adopted, and the opening amount of the water shutoff valve C is determined according to the user indenter A or the mother rod B (as shown in FIG. 1). Thus, adopting the mother and mother twin pressure irons E and F, and both the pressure irons are in a symbiotically-manufactured state, and the user stops the pendulum by hand or simultaneously stops the mother and mother pressure irons. The opening angle of the water valve 6 is determined (as shown in FIG. 2).

However, the above-mentioned conventional product has an action of changing the amount of water outflow by utilizing a single water outflow pipe, but the restraining rod or the pressure plate does this by the symbiotic method of the mother and the mother, and all in the same direction. With the operation of. For this reason, if the user does not control the restraint force path well, the situation may occur in which they are simultaneously pushed or restrained. Even if there is a design that saves water, it cannot achieve the effect of saving water.

Therefore, in view of the drawback that the single water-saving toilet bowl for saving water cannot save water, as shown in FIG. 3, the twin water outlet heads of high and low water level outlet tubes H and L are designed as shown in FIG. . However, even if there is a double-drain toilet bowl, if it is not possible to control the opening and closing time of the water shut-off valve of the water outlet, all water saving designs will be wasted.

Then, the water control equipment of the symbiotic design of the child restraining rods J and K controls the high and low water level water valves, respectively, and reaches the method of controlling the water output. However, this kind of method may lead to double-opening or inaccurate enlightenment. If it is suppressed by the same restraint rod of symbiosis with the offspring and mothers, the situation of the above-mentioned pressure rod on the offspring of the single outflow pipe will occur and its practical effect will be reduced. However, as shown in Fig. 4, although it has an accurate effect of water discharge by providing individual rails L and N, it is necessary to provide twin holes N and O, so a single hole in front of it (installation of pressure bar) It is incompatible with the toilet bowl (hole). If the user wants to install such a water-saving component, he must either change the tank or replace it. And the installation costs increase and the burden is passed on to consumers.

[0006]

[Problems to be solved by the device]

 Therefore, a user who has already installed a single pressure rod will not hesitate to install the above. Therefore, the present inventor has accumulated many years of experience in development and manufacturing of aquarium parts and sanitary bathtub parts, deeply understanding the above-mentioned conventional drawbacks, and conducting research to create the present invention. It is a machine.

[0007] The purpose of the present invention is to achieve a kind of symbiotic but non-simultaneous operation-controlled pressure-applying equipment to reach a real water-saving design.

[0008]

[Means for Solving the Problems]

 The water control structure of the two-stage toilet bowl according to the present invention comprises the following. The stopper, one through-hole is provided in the stopper, and the installation hole for the toilet bowl is fixedly secured with a bolt and a thin iron piece. Thus, a pressure rod and a pressure plate on one side of the pressure applicator are installed to control the low and high water level outlet pipes. Among them, the side pressure rod has at least a series of shafts and is bored in a stopper through hole, the connecting shaft has a through hole, and one side pressing hole is provided at the front end of the connecting shaft, and a bolt outer spiral groove is provided. , A hollow chamber is provided in it, and a recovery spring, a press platen and a barn are provided by the customer. The bolt thread of the side pressure rod is placed on the shaft through-hole of the push rod and then screwed with the threaded screw to apply pressure to the iron, and there is a series tooth pattern at the end of the shaft. Can be fixed. A monoaxial sleeve is provided at a place where the rod end and the shaft are connected to each other, and the axial sleeve is provided with a screw hole so that a bolt can be inserted therein. At the end of the connecting rod, the chain belt of the low water level stop valve can be guided. In addition, it is equipped with a pressure plate, and this pressure plate has one rail and one thrust rod, and one recovery spring is installed, and the thrust rod extends to the one side of the connecting shaft, and one rod repels the straight wall of the repelling rod. be able to . The repelling rod is axially installed in a shaft seat above the stopper sleeve, and yet another end of the repelling rod is installed on the chain belt of the high water level water shutoff valve. In this way, the pressure applicator controls the operation of the low and high water level water outlet pipes by the side pressure rod and the pressure head, respectively, to form a water tank for the variable water supply.

In the structure of the two-stage toilet bowl according to the present invention, the pressure-applying equipment controls the operation of the low and high water level outlet pipes by the pressure rod on one side and the abduction rod respectively, and the ablation rod connects the side pressure rod connecting shaft. The rod can be drilled, and the rod can be equipped with a shaft hole, one spring top low shaft can be inserted, the recovery spring is fixed between the top shaft and the front wall surface of the side pressure rod screw cap, and the circular hook is screwed. It can also be configured to appear outside on the trouser side, thus allowing the abduction to reach the effect of high water level outlet control by external pulling.

[0010]

[Action]

 The water control structure of the two-stage toilet bowl of the present invention controls two sets of water shutoff valves for high and low water level outlet pipes respectively by one side pressure, one inside pressure or one side pressure, and one outside pull. Provide to the toilet bowl for water supply. In the toilet bowl of the present invention, at least the low and high water level water outlet pipes and each water outlet pipe are provided with one water shutoff valve, and each water shutoff valve leads to the corresponding water push rod by a chain belt. One stopper can be provided in it, and the stopper is fixed to the toilet water tank with one bolt and a thin iron piece, the stopper has a through hole, and the side pressure rod is provided with a connecting shaft. The holding equipment comprises a one-sided pressure rod and a strap (or a drawstring), in which the side pressure rod has a connecting shaft, which can be drilled in the through hole of the stopper. Then, a hollow chamber can be provided in the pressure rod of the connecting shaft to accommodate a push button for a pressure plate. The recovery spring of the platen connecting shaft can be drilled and co-installed in the hollow chamber. Further, the side pressure rod can be extended to one side of the through hole by being linked, and the length of the top thrusting rod is the best. In addition, the side pressure rod string is also equipped with bolts and screw threads, and can be fitted with a screw, and the whole is localized by the parts of the pressure plate. Moreover, the side pressure rod can operate the water valve of the low water level outlet pipe, It is possible to operate the water shutoff valve of the water level outlet pipe, thereby forming a toilet bowl for the variable water supply.

[0011]

[Embodiments] Thus, the features and objects of the present invention will be comprehensively described, and the best embodiments of the present invention will be described below with reference to the drawings as shown in FIGS.

As shown in FIGS. 5 to 8, the first embodiment of the present invention includes a plug sleeve 1, which has a through hole 21 and which is provided with a through hole 21 for the side pressure rod 4. Then, the stopper 1 is mixed with one bolt 2 and a thin iron piece 3 and fixed in the installation hole 60 of the toilet water tank (as shown in FIG. 12). Separately, it corresponds to the installation of the shaft seat 32 at the end of the stopper sleeve. The bolt is provided with a single split so that the bolt can be plugged unobstructed and screwed onto the outer surface. Next, the shaft seat 32 of the stopper is provided with a shaft hole, and the shaft seat 33 of the repelling rod 17 of the press platen 5 is inserted and also penetrates the one support shaft 24, and thereby the repelling rod 17 is positioned. . The other end of the repelling rod 17 is simultaneously connected to the chain belt 30 of the high water level outlet pipe.

The pressure applicator also comprises one side pressure rod 4, the side pressure rod 4 is provided with a connecting shaft 7, the end of which is provided with a series of tooth patterns 10, and the shaft sleeve 12 of the connecting rod 11 is provided. The shaft of the connecting rod 11 is further provided with a bolt hole 13 to fix the bolt 14 so that the connecting rod can be fixed to the end of the connecting shaft 7. Next, the connecting shaft also has a through hole 22 so that the thrust rod 16 of the platen 5 can be bored. In addition, there is another hollow chamber 34 in the side pressure rod 35, and a barn 36 for the pressure rod can be installed in the side pressure rod 35, and a recovery spring 37 (as shown in FIG. 7) of the thrust rod 16 is pierced.

Further, a bolt outer spiral groove 38 is further provided in front of the outer surface of the side pressure rod plate 35, and after the part of the plate 5 is drilled, this is screwed with a screw 15 and the plate 5 is The rail 36 extends through the front hole 39 of the bolt. The pressing lever 5 is automatically returned to its original position after the pushing rod is pressed by using the pushing rod 16 pierced by the recovery spring 37, in addition to the pushing rod 36 and the pushing rod 16. Further, the thrust rod 16 extends outwardly to one side of the connecting shaft 7 of the side pressure rod 4 and the through hole 22, and the end 40 thereof just reaches the position of the straight wall surface 41 of the repelling rod 17, and thus the press barn 36 is formed. By being pressed, the pushing rod pushes the repelling rod 17, causes the repelling rod 17 to be positioned higher than the chain belt 30, and opens the water shutoff valve 29 of the high water level outlet pipe 28 to form a high water level outlet. Then, in the presser bar 4 on the pressure application side, the connecting shaft 7 leads the connecting rod 11 to pull up the chain belt 27, and the water shutoff valve 26 of the low water level outlet pipe 25 is opened, so that the effect of the low water level outlet can be exerted.

Please further refer to FIGS. 9-11. It is the second embodiment of the present invention, and in this embodiment, the plug cap 1 of the installation hole of the water tank is the same as that of the first embodiment. Moreover, the pressure applicator of the present embodiment adopts a structure in which the one side pressure rod 4 and the one side bar 50 coexist. However, the side pressure rod 4 and its assembly parts of this embodiment are almost the same as those of the first embodiment, and the only difference is that the mating spring adopts an external ablation design, so that the mounting method of the recovery spring 37 is Of course not the same. Therefore, the screw thread 15 'adopts the form of a relatively small front hole 39', thereby forming one front wall surface 39A, which serves as an outer support of the spring 37. Further, the pulling rod 50 has a pull rod 51, which can be bored in the through hole 22 of the connecting shaft 7 of the lateral pressure rod 4. A shaft hole 52 is provided above the pull rod 51, and a spring top shaft 53 can be inserted therein. The pull rod is located on the outer front side of the lateral pressure rod 4 and is provided with a circular plate 54.

Thus, when the pull bar 51 is pulled out by pulling the circular plate, the chain belt connected to the high water level outlet pipe 28 of the pull rod end small hole 55 and the water shutoff valve 29 can be pulled, and The water level outlet pipe 28 is opened to form a situation where water is emitted. Thus, the embodiment also utilizes the lateral pressure of the lateral pressure rod 4 to promote the opening of the water shutoff valve 26 of the low water level outlet pipe 25, and to discharge a large amount of water to form a toilet water tank for the variable water supply.

Next, in the second embodiment as well, although there is a variable water supply design, however, since one side pressure rod and abduction shaft of the water discharge pressure equipment of the same direction is provided, erroneous control and erroneous operation can be prevented. To achieve the desired effect of the water leveling design of the water supply system of the stepped type.

[0018]

[Effect of device]

 According to the present invention, the pressure equipment can be co-composed by controlling the side pressure rod of the water shutoff valve of the low water level outlet pipe and the pressure pin of the water shutoff valve of the high water level outlet pipe. The indent can be replaced by a pull cord, and it has the same practical effect. In addition, the above-mentioned pressure application equipment is provided with individual parts with two-stage water level that can be operated and controlled, but it is implemented by adopting a symbiotic method, and since it is a two-part non-simultaneous operation control, it is erroneously controlled. The situation does not occur.

Therefore, if the above is combined, the practical design of the present invention is more practical than each of the conventional proposals, and has new type requirements with improved and improved efficacy.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a conventional water control structure.

FIG. 2 is a cross-sectional view showing another conventional water control structure.

FIG. 3 is a sectional view showing still another conventional water control structure.

FIG. 4 is a sectional view showing still another conventional water control structure.

FIG. 5 is an exploded view showing a first embodiment according to the present invention.

6 is a perspective view showing an assembled state of the one shown in FIG. 5. FIG.

7 is a cross-sectional view of what is shown in FIG.

FIG. 8 is a three-dimensional view showing a combined state of the first embodiment of the present invention and a drop outlet.

FIG. 9 is an exploded view similar to FIG. 5, showing a second embodiment of the present invention.

10 is a cross-sectional view of what is shown in FIG. 9 in an assembled state.

FIG. 11 is a perspective view showing an assembled state of the one shown in FIG. 9.

FIG. 12 is a view showing a state in which an embodiment of the present invention is installed in a toilet bowl.

[Explanation of symbols]

 1 Plug Cap 2 Bolt 3 Thin Iron Piece 4 Side Pressure Bar 5 Pressure Plate 7 Linking Shaft 10 Teeth 11 Link Rod 12 Shaft Cap 13 Bolt Hole 14 Bolt 15 Pressing Bar 16 Push Rod 17 Through Hole 21 Through Hole 24 Shaft 25 Low water level outlet pipe 26 Water shutoff valve 27 Chain belt 28 High water level outlet pipe 29 Water shutoff valve 30 Chainbelt 32 Shaft seat 33 Shaft seat 34 Hollow chamber 35 Side pressure rod head 36 Side rail 37 Recovery spring 38 Bolt outer spiral groove 39 Before bolt Hole 50 Latch 51 Pull rod 54 Circle 60 Toilet tank installation hole

Claims (2)

[Scope of utility model registration request] 1. A through-hole provided in the stopper, the stopper being fixed to the installation hole of the toilet water tank with the bolt and the thin iron piece, and a pressure applicator for controlling each of the low and high water level outlet pipes. A side pressure rod and a pressure plate are provided, in which the side pressure rod has at least a series of shafts, and is bored in a plug through hole, the connecting shaft has a through hole, and one side plate is provided at the front end of the connecting shaft. In addition, a spiral groove on the outside of the bolt is provided, a hollow chamber is provided inside it, and a recovery spring, a hammer and a ratchet are provided on the customer side, and the bolt thread of the side pressure rod is the thrust rod of the pressure iron in the through hole of the shaft. After placing, the screw is screwed together to apply pressure to the pinion, there is a series tooth pattern at the end of the connecting shaft, and the connecting rod can be fixed, and the single shaft is provided at the place where the connecting rod end and the connecting shaft are connected. , The shaft sleeve is equipped with a screw hole for inserting a bolt, and the end of the connecting rod can guide the chain belt of the low water level stop valve, and it is also equipped with a pressure plate, and this pressure plate is proportional. When comprising an 推桿, and then 套設 one recovery spring, yet 推桿 issues Shin the communicating shaft one side,
(1) It can be mounted on the straight wall surface of the repelling rod, and the repelling rod is axially installed in the shaft seat above the stopper sleeve, and the other end of the repelling rod is installed on the chain belt of the high water level water shutoff valve. Thus, the pressure control equipment controls the operation of the low and high water level outlet pipes by the side pressure rod and the pressure head, respectively, to form a water tank for a water supply bowl of a variable water supply type. . 2. The pressure applicator controls the operation of the low and high water level outlet pipes respectively on one side of the pressure rod and on the one side of the rod, the side of the pressure rod is capable of piercing the side pressure rod connecting rod, and the rod is the shaft. With a hole, one spring top low shaft can be inserted, the recovery spring is fixed between the top resistance shaft and the front wall surface of the side pressure rod screw cap, the circle appears outside on the screw cap one side, and thus the abduction The water control structure for a two-stage toilet bowl according to claim 1, wherein the effect of high water level outlet pipe control is reached by pulling outside.