CN217537204U - Water saving device for controlling buoy to lift and regulate water discharge through eccentric cam swing block - Google Patents

Abstract

A water-saving device for controlling the lifting of a buoy to adjust the water discharge through an eccentric cam swing block comprises a main water channel and an auxiliary water channel which are matched with each other, wherein the bottom of the main water channel is communicated with the bottom of the auxiliary water channel; the control assembly comprises a buoy assembly and a linkage assembly which are matched with each other; the float assembly extends into the auxiliary water channel and is controlled to ascend and descend through the linkage assembly so as to control the opening and closing of the auxiliary water channel; the linkage assembly controls the action of the movable eccentric swing block to enable the movable eccentric swing block to be lapped on the upper surface of the fixed seat or to be separated from the fixed seat, so that the buoy floats upwards or descends to reach a set position to open or close the auxiliary water channel, and the device is simple in structure and convenient to install and operate.

Description

Water saving device for controlling buoy to lift and regulate water discharge through eccentric cam swing block

The technical field is as follows:

the utility model relates to a water saving fixtures specifically relate to a simple structure, convenient operation's water saving fixtures through eccentric cam pendulum block control flotation pontoon lift adjustment displacement.

Background art:

in a bathroom product, a plurality of places need to use a water saving device for controlling water discharge, for example, a flush toilet is taken as an example, the existing toilet is single-discharge or double-discharge, for the double-discharge toilet, a double-discharge water discharge control device needs to be installed, the existing double-discharge toilet generally divides a water tank into two water chambers, and achieves the effect of large discharge and small discharge by controlling the water discharge of one water chamber or two water chambers, and the defects of the existing double-discharge toilet are that the structure is complex, the water discharge is fixed, the adjustment cannot be realized, and the use is limited.

The utility model has the following contents:

in view of the above problems in the prior art, an object of the present invention is to provide a water saving device with simple structure and convenient operation, which can control the float to lift and adjust the water discharge through an eccentric cam swing block.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a water-saving device for controlling the lifting of a buoy to adjust the water discharge through an eccentric cam swing block comprises a main water channel and an auxiliary water channel which are matched with each other, wherein the bottom of the main water channel is communicated with the bottom of the auxiliary water channel; the control assembly comprises a buoy assembly and a linkage assembly which are matched with each other; the float assembly extends into the auxiliary water channel and is controlled to ascend and descend through the linkage assembly so as to control the opening and closing of the auxiliary water channel; the float assembly comprises a fixed seat, a float, a connecting rod and a movable eccentric swinging block which are matched with each other; the fixing seat is fixed on the outer cylinder wall of the main water channel and is provided with a guide hole; the lower part of the float bowl is provided with a group of guide rods which extend into the water-attached channel, and a water channel is formed between the guide rods; the lower end of the connecting rod is fixed on the top of the buoy, and the upper end of the connecting rod moves up and down along the guide hole of the fixed seat so as to drive the buoy to move up and down integrally; the movable eccentric swing block is hinged at the upper end of the connecting rod; the linkage assembly controls the action of the movable eccentric swing block to enable the movable eccentric swing block to be lapped on the upper surface of the fixed seat or to be separated from the fixed seat, and then the buoy floats upwards or descends to reach a set position to realize the opening or closing of the auxiliary water channel.

Furthermore, the linkage assembly comprises a button assembly and a seesaw assembly which are matched with each other; the seesaw component is hinged on the fixing seat, one end of the seesaw component is pressed by the button component, the other end of the seesaw component is tilted and kicked to the movable eccentric swing block, the lower part of the movable eccentric swing block is retracted and separated from the fixing seat, and the buoy component integrally moves downwards along the guide hole of the fixing seat for a fixed distance to enable the buoy and the water attaching channel to be in a closed state.

Furthermore, the upper part of the connecting rod is of a columnar structure, and the lower part of the connecting rod is of a rod-shaped structure; the outer edge of upper portion columnar structure is equipped with spacing sand grip, and the guiding hole of fixing base is equipped with spacing recess rather than the cooperation position, and upper portion columnar structure stretches into and reciprocates in the guiding hole of fixing base, and spacing sand grip and spacing recess cooperation are spacing, and the flotation pontoon upper surface is fixed with length adjustable's mode to lower part rod-like structure.

Furthermore, the upper surface of the float bowl is provided with an air hole.

Furthermore, the button assembly is matched and linked with the drainage control assembly in the main water channel and comprises a support rod extending out; the drainage control assembly comprises a first pressing assembly and a second pressing assembly which are matched with each other, the position of the first pressing assembly is higher than that of the second pressing assembly, the first pressing assembly controls the support rod of the pressing button assembly to further drive the seesaw assembly to kick the eccentric cam swing block, the buoy assembly moves downwards along the guide hole of the fixing seat to enable the buoy and the attached water channel to be in a closed state, and the first pressing assembly and the second pressing assembly integrally press the drainage control assembly to drain water when the first pressing assembly is pressed to the level position of the upper surface of the second pressing assembly.

Furthermore, the seesaw component is hinged on the fixed seat, a cross rod and an inclined rod which inclines downwards extend out of two ends of the hinge shaft respectively, the cross rod at one end of the hinge shaft is pressed by the support rod, and the inclined rod at the other end of the hinge shaft and the inclined rod of the cross rod are tilted to play the movable eccentric swinging block so that the lower part of the movable eccentric swinging block is folded and separated from the fixed seat.

Furthermore, a groove is formed in the top of the columnar structure at the upper part of the connecting rod, the movable eccentric swing block is hinged in the groove, an eccentric structure with a large end and a small end is formed along the hinge shaft, inclination angle structures are formed at two end parts respectively, and the two ends are guaranteed to swing in sequence and extend out of the groove during action.

By adopting the technical scheme, when the large-displacement drainage is carried out, the floating barrel floats upwards, and when the set position is reached, the eccentric cam swing block can automatically deflect and is put on the fixed support, so that the normally open state of the opening part of the floating barrel and the water channel opening is realized, and the simultaneous drainage of the main water channel and the water channel opening is realized; when the small displacement is needed, the eccentric cam swing block is retracted, the buoy assembly integrally moves downwards to enable the buoy and the auxiliary water channel to be in a closed state, and only the main water channel drains water at the moment.

Description of the drawings:

the following detailed description of the present invention is provided with the accompanying drawings:

fig. 1 is a schematic perspective exploded view of an embodiment of the present invention;

fig. 2 is a schematic combination diagram of an embodiment of the present invention;

fig. 3 is a schematic cross-sectional view of fig. 2 according to the present invention;

fig. 4 is a schematic top view of the embodiment of the present invention;

fig. 5 is a schematic side view of the embodiment of the present invention;

fig. 6 is a schematic cross-sectional view of fig. 5 according to the present invention.

The specific implementation mode is as follows:

the following detailed description of the present invention is made with reference to the accompanying drawings and examples:

fig. 1 to 6 show an embodiment of the present invention.

A water saving device for controlling the lifting of a buoy to adjust the water discharge through an eccentric cam swing block comprises a main water channel 1 and an auxiliary water channel 2 which are matched with each other, wherein the bottoms of the main water channel 1 and the auxiliary water channel 2 are communicated, a water discharge assembly 3 is arranged in the main water channel 1, and a control assembly 4 is arranged in the auxiliary water channel 2 to control the water discharge of the auxiliary water channel 2; wherein, the control component 4 comprises a float component 41 and a linkage component 42 which are matched with each other; the float assembly 41 extends into the auxiliary water channel 2, and the float assembly 41 controls lifting through the linkage assembly 42 so as to control the opening and closing of the auxiliary water channel 2; the float assembly 4 comprises a fixed seat 411, a float 412, a connecting rod 413 and a movable eccentric swing block 414 which are matched with each other; the fixed seat 411 is fixed on the outer cylinder wall of the main water channel 1, and a guide hole 4111 is formed in the fixed seat 411; the lower part of the float 412 is provided with a group of guide rods 4121 which extend into the water-attached channel, and a water passing channel 4122 is formed between the guide rods 4121; the lower end of the connecting rod 413 is fixed on the top of the buoy 412, and the upper end of the connecting rod 413 moves up and down along the guide hole 4111 of the fixed seat so as to drive the buoy 412 to move up and down integrally; the movable eccentric swing block 414 is hinged at the upper end of the connecting rod 413; the linkage assembly 42 controls the movable eccentric swing block to move 414 to enable the movable eccentric swing block to be lapped on the upper surface of the fixed seat 411 or to be separated from the fixed seat, and further enable the buoy 412 to float upwards or descend to reach a set position to realize the opening or closing of the auxiliary water channel 2; the upper surface of the float 412 is provided with an air hole 4123 so that the float can be reset quickly.

The linkage assembly 42 comprises a button assembly 421 and a seesaw assembly 422 which are matched with each other; wherein, the seesaw component 422 is hinged on the fixing base 411, the button component 421 presses one end of the seesaw component 422, the other end of the seesaw component 422 is tilted and kicked to the movable eccentric swing block 414 to make the lower part thereof retracted and separated from the fixing base 411, the buoy component 41 moves downwards along the fixing base guiding hole 4111 for a fixed distance to make the buoy 412 and the water-attached passage 2 in a closed state.

The upper part of the connecting rod 413 is of a columnar structure, and the lower part of the connecting rod 413 is of a rod-shaped structure; the outer edge of upper portion columnar structure is equipped with spacing sand grip 4131, and the guiding hole 4111 of fixing base 411 is equipped with spacing recess 4112 rather than the cooperation position, and upper portion columnar structure reciprocates in stretching into the guiding hole 4111 of fixing base 411, and spacing sand grip 4131 is spacing with spacing recess 4112 cooperation, and the stem-like structure of lower part is fixed to the flotation pontoon upper surface with length adjustable's mode (can be threaded connection also can be the buckle connection, and the length of assurance connecting rod is adjustable and then the adjustment attaches the displacement adjustable of water course).

The button assembly 421 is linked with the drainage control assembly 3 in the main water channel 1 in a matching way, and the button assembly 421 comprises a support rod 4211 which extends out; the drainage control assembly 3 comprises a first pressing assembly 31 and a second pressing assembly 32 which are matched with each other, the first pressing assembly 31 is higher than the second pressing assembly 32, the first pressing assembly 31 controls the support rod 4211 of the pressing button assembly 421 to drive the seesaw assembly 422 to kick the eccentric cam swing block 414, the whole buoy assembly 41 moves downwards along the fixing seat guide hole 4111 to enable the buoy 412 and the water-attached channel 2 to be in a closed state, and when the first pressing assembly 31 is pressed to be flush with the upper surface of the second pressing assembly 32, the first pressing assembly 31 and the second pressing assembly 32 integrally press the drainage control assembly 3 to drain water.

The seesaw assembly 422 is hinged on the fixing base 411, a cross bar and an inclined bar which inclines downwards extend out from two ends of the hinge shaft respectively, the cross bar at one end of the hinge shaft is pressed by the support bar 4211, and the inclined bar at the other end of the hinge shaft and the inclined bar of the cross bar are tilted to the movable eccentric swing block 414 to enable the lower part of the movable eccentric swing block to be folded and separated from the fixing base.

The top of the upper column structure of the connecting rod 413 is provided with a groove 4132, the movable eccentric swing block 414 is hinged in the groove, an eccentric structure with a larger end and a smaller end is formed along the hinge shaft, the two ends respectively form an inclination angle structure, and the two ends are ensured to be sequentially swung to extend out of the groove 4131 during action.

When in work:

the utility model is installed on the product (such as the water tank of the toilet) which needs to control the water displacement, when the water displacement is large, the float bowl is in a floating state, the opening part of the float bowl and the water-attaching channel are in a normally open state, when in use, the second pressing component is pressed, and at the moment, the main water-attaching channel can be discharged simultaneously due to the normally open state of the opening part of the float bowl and the water-attaching channel; when small displacement is needed, the first pressing assembly is pressed to drive the button assembly to press downwards so as to drive the eccentric cam swinging block to retract, the integral float assembly moves downwards to enable the float and the auxiliary water channel to be in a closed state, and only the main water channel drains water at the moment; after the drainage is finished, the external space replenishes the main auxiliary water channel, the floating drum floats upwards, when the set position is reached, the eccentric cam swing block can automatically swing and is put on the fixed support, the normally open state of the opening part of the floating drum and the auxiliary water channel opening is realized, and the initial state is returned to prepare for the next circulation.

While the foregoing specification illustrates and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as limited to the disclosed embodiments, and that modifications and environments may be resorted to, falling within the scope of the inventive concept as described herein, either as indicated by the above teachings or as modified by the skill or knowledge of the relevant art. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides a water saving fixtures that adjust displacement goes up and down through eccentric cam pendulum block control flotation pontoon which characterized in that: the device comprises a main water channel and an auxiliary water channel which are matched with each other, wherein the bottoms of the main water channel and the auxiliary water channel are communicated, a drainage component is arranged in the main water channel, and a control component is arranged in the auxiliary water channel to control the drainage quantity of the auxiliary water channel; the control assembly comprises a buoy assembly and a linkage assembly which are matched with each other; the float assembly extends into the auxiliary water channel and is controlled to ascend and descend through the linkage assembly so as to control the opening and closing of the auxiliary water channel; the float assembly comprises a fixed seat, a float, a connecting rod and a movable eccentric swinging block which are matched with each other; the fixing seat is fixed on the outer cylinder wall of the main water channel and is provided with a guide hole; a group of guide rods are arranged at the lower part of the float bowl and extend into the water-attached channel, and a water passing channel is formed between the guide rods; the lower end of the connecting rod is fixed on the top of the buoy, and the upper end of the connecting rod moves up and down along the guide hole of the fixed seat so as to drive the buoy to move up and down integrally; the movable eccentric swing block is hinged at the upper end of the connecting rod; the linkage assembly controls the action of the movable eccentric swing block to enable the movable eccentric swing block to be lapped on the upper surface of the fixed seat or to be separated from the fixed seat, and then the buoy floats upwards or descends to reach a set position to realize the opening or closing of the auxiliary water channel.

2. The water saving device for adjusting the displacement of water by controlling the lifting of the buoy through the eccentric cam swing block as claimed in claim 1, wherein: the linkage assembly comprises a button assembly and a seesaw assembly which are matched with each other; the seesaw component is hinged on the fixing seat, one end of the seesaw component is pressed by the button component, the other end of the seesaw component is tilted and kicked to the movable eccentric swing block, the lower part of the movable eccentric swing block is retracted and separated from the fixing seat, and the buoy component integrally moves downwards along the guide hole of the fixing seat for a fixed distance to enable the buoy and the water attaching channel to be in a closed state.

3. The water-saving device for regulating the displacement of the float by controlling the lifting of the float through the eccentric cam swinging block as claimed in claim 1 or 2, wherein: the upper part of the connecting rod is of a columnar structure, and the lower part of the connecting rod is of a rod-shaped structure; the outer edge of upper portion columnar structure is equipped with spacing sand grip, and the guiding hole of fixing base is equipped with spacing recess rather than the cooperation position, and upper portion columnar structure stretches into and reciprocates in the guiding hole of fixing base, and spacing sand grip and spacing recess cooperation are spacing, and the flotation pontoon upper surface is fixed with length adjustable's mode to lower part rod-like structure.

4. The water saving device for controlling the lifting of the buoy to adjust the displacement through the eccentric cam swing block as claimed in claim 3, wherein: the upper surface of the float bowl is provided with an air hole.

5. The water-saving device for controlling the lifting of the buoy to adjust the water discharge through the eccentric cam swinging block as claimed in claim 4, wherein: the button assembly is matched and linked with the drainage control assembly in the main water channel and comprises a support rod extending out; the drainage control assembly comprises a first pressing assembly and a second pressing assembly which are matched with each other, the position of the first pressing assembly is higher than that of the second pressing assembly, the first pressing assembly controls the support rod of the pressing button assembly to further drive the seesaw assembly to kick the eccentric cam swing block, the buoy assembly moves downwards along the guide hole of the fixing seat to enable the buoy and the attached water channel to be in a closed state, and the first pressing assembly and the second pressing assembly integrally press the drainage control assembly to drain water when the first pressing assembly is pressed to the level position of the upper surface of the second pressing assembly.

6. The water saving device for adjusting the displacement of water by controlling the lifting of the buoy through the eccentric cam swing block as claimed in claim 5, wherein: the seesaw component is hinged on the fixed seat, a cross rod and an inclined rod which inclines downwards extend out of two ends of the hinge shaft, the cross rod at one end of the hinge shaft is pressed by the support rod, and the inclined rod at the other end of the hinge shaft and the inclined rod of the cross rod are raised to the movable eccentric swinging block to enable the lower part of the movable eccentric swinging block to be folded and separated from the fixed seat.

7. The water saving device for adjusting the displacement of water by controlling the lifting of the buoy through the eccentric cam swing block as claimed in claim 6, wherein: the top of the columnar structure at the upper part of the connecting rod is provided with a groove, the movable eccentric swing block is hinged in the groove, an eccentric structure with a large end and a small end is formed along the hinge shaft, the two end parts form an inclination angle structure respectively, and the two ends are ensured to swing in sequence to extend out of the groove during action.

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