CN211847368U - Built-in hydraulic driving wheel assembly structure of electroless water softener - Google Patents

Abstract

The utility model provides a built-in hydraulic drive wheel assembly structure of electroless water softener belongs to the water softener field. The water softener comprises a support frame internally used for water flow in the water softener to pass through, a water inlet and a water outlet are respectively arranged at the bottom and the top of the support frame, a power part is arranged in the support frame, a transmission element group is rotationally connected above the power part, a button assembly is rotationally connected outside the transmission element group, and after the button assembly rotates, water flow enters the support frame to drive the power part, the transmission element group and the button assembly to sequentially perform continuous rotary motion. The utility model has the advantages of simple structure, low production cost and high working efficiency.

Description

Built-in hydraulic driving wheel assembly structure of electroless water softener

Technical Field

The utility model belongs to the water softener field relates to a built-in water conservancy drive wheel assembly structure of electroless water softener.

Background

Soft water has more benefits to people's life in some aspects compared with hard water, therefore in the modern household field, water softeners have become essential products for most families, the earliest water softeners have to be cleaned only through manual operation, and the operation is extremely inconvenient, so manual water softeners are gradually upgraded into fully-automatically-controlled water softeners, but the fully-automatic water softeners produced in the current market are mainly driven by a motor to push the automatic operation of the whole equipment, so the operating equipment must consume a large amount of electric energy, and cannot be installed in some places without reserved power supplies or places with higher protection requirements such as the outdoor places.

For example, chinese utility model patent discloses a water softener and drive circuit [ application number: 201520913162.4], including stepping motors equal in number to the switching valves, corresponding to the switching valves one to one respectively and controlling the corresponding switching valves, each stepping motor having a voltage input terminal and a signal input terminal; a first control switch is arranged between the control unit and a voltage input end of any one of the stepping motors, and a second control switch is arranged between the control unit and a signal input end of any one of the stepping motors; a signal isolation device is arranged between the signal input end of any stepping motor and the corresponding second control switch; when the control unit controls the first control switch and the second control switch corresponding to one stepping motor to be switched on, the signal isolation device enables the control unit to be isolated from the rest stepping motors. However, although the water softener in this scheme can achieve the water softening effect, it still needs to design a complicated circuit and consumes a large amount of electric energy to operate.

Disclosure of Invention

The utility model aims at the above-mentioned problem, provide a built-in water conservancy drive wheel assembly structure of electroless water softener.

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

the utility model provides a built-in water conservancy drive wheel assembly structure of electroless water softener, includes that inside is used for the interior rivers of water softener to pass through the support frame, the bottom and the top of support frame be equipped with water inlet and delivery port respectively, the inside of support frame is equipped with power component, the top of power component is rotated and is connected with the transmission component group, the transmission component group is external to be rotated and is connected with the button subassembly, after the button subassembly is rotatory, thereby the rivers get into the support frame and drive power component, transmission component group and button subassembly and carry out continuous rotary motion in proper order.

In foretell built-in water conservancy drive wheel assembly structure of electroless water softener, the button subassembly establish the top carousel outside the transmission component group including the cover, the top carousel rotates with the transmission component group to be connected, the top surface of top carousel on be equipped with manual knob, manual knob and the mutual joint of top carousel, when manual knob lapse, manual knob and top carousel break away from each other, the top carousel rotate.

In the built-in hydraulic driving wheel assembly structure of the electroless water softener, the manual knob is internally provided with the rotary support button, the end surface of the top turntable is provided with a matched tooth surface matched with the rotary support button, and when the manual knob moves downwards, the rotary support button moves downwards so as to push the matched tooth surface to rotate.

In the built-in hydraulic drive wheel assembly structure of the electroless water softener, the power part comprises a support sheet clamped on the inner wall of the support frame, an eccentric rotating wheel is clamped at the end part of the support sheet far away from the support frame, the eccentric rotating wheel is mutually clamped with the transmission element group, and the eccentric rotating wheel can rotate around the support sheet.

In the built-in hydraulic drive wheel assembly structure of the electroless water softener, the eccentric rotating wheel is clamped with a central drive element, the central drive element extends out of the supporting seat frame, the central drive element is rotatably connected with the transmission element group, when the eccentric rotating wheel rotates around the supporting seat frame, the central drive element starts to rotate around the central shaft of the eccentric rotating wheel, and the transmission element group and the top end rotating disc sequentially rotate.

In the built-in hydraulic driving wheel assembly structure of the electroless water softener, the transmission element group consists of a plurality of transmission gears which are meshed in sequence, the transmission gears are distributed in sequence from inside to outside and from low to high, and the transmission gear positioned at the innermost side is rotationally connected with the central driving element.

In the built-in hydraulic driving wheel assembly structure of the electroless water softener, each transmission gear comprises a gear disc and a matching gear column which are connected with each other, the previous transmission gear is alternatively meshed with the matching gear column of the next transmission gear through the gear disc, the gear disc of the transmission gear positioned at the lowest position is rotationally connected with the central driving element, and the matching gear column of the transmission gear positioned at the highest position is meshed with the top turntable.

In the built-in hydraulic drive wheel assembly structure of the electroless water softener, the outer wall of the support frame is also clamped with a waterproof support, the projections of the central drive element and the transmission element group in the vertical direction are both positioned in the waterproof support, and the waterproof support positioned above the water outlet protrudes upwards.

In foretell electroless water softener embeds water conservancy drive wheel assembly structure, the top of waterproof support is connected with the switch carousel, switch carousel and waterproof support form airtight space, central drive component and transmission component group be located switch carousel and waterproof support and form airtight space in, be equipped with a plurality of push switch on the terminal surface of switch carousel, when the button assembly is rotatory, a plurality of push switch moves downwards in turn.

In the built-in hydraulic drive wheel assembly structure of the electroless water softener, a layering partition plate is arranged in the eccentric rotating wheel, the layering partition plate divides the eccentric rotating wheel into an upper layer and a lower layer, a plurality of water flow holes are formed in the layering partition plate, the eccentric rotating wheel positioned on two sides of the layering partition plate is provided with a plurality of water flow holes, and the water flow holes are respectively positioned on two sides of the support plate.

Compared with the prior art, the utility model has the advantages of:

1. the water flow enters the water inlet and is pushed to rotate by the power part through water power in the movement process flowing out from the water outlet, so that the transmission element group and the button assembly are pushed to sequentially rotate continuously.

2. The central driving element and the transmission element group are located in the closed space above the waterproof support, and in the process that water flows through the support frame and flows out through the water outlet, water is prevented from entering the waterproof support, so that the central driving element and the transmission element group are corroded, the central driving element and the transmission element group are damaged, and the service life of the driving structure is shortened.

3. Compared with the rotating wheel rotating around the shaft center, the eccentric rotating wheel has larger driving force, and can push the transmission element group and the button assembly when the water flow speed is lower.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic diagram of the internal structure of the present invention.

Fig. 2 is an exploded view of the present invention.

Fig. 3 is a schematic diagram of the internal structure of the present invention.

Fig. 4 is a schematic structural view of the power unit.

Fig. 5 is a schematic diagram of the internal structure of the present invention.

In the figure: the device comprises a support frame 1, a button assembly 100, a water inlet 101, a water outlet 102, a power part 3, a central driving element 4, a transmission element group 5, a push switch 7, a top end rotary disc 8, a rotary support button 10, a manual knob 11, a matching tooth surface 12, a support sheet 14, an eccentric rotary wheel 16, a layered partition plate 18, a transmission gear 19, a gear disc 20, a matching gear column 21 and a waterproof support 22.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1, a built-in hydraulic drive wheel assembly structure of an electroless water softener comprises a support frame 1 internally used for water flow in the water softener to pass through, a water inlet 101 and a water outlet 102 are respectively arranged at the bottom and the top of the support frame 1, a power part 3 is arranged in the support frame 1, a transmission element group 5 is rotatably connected above the power part 3, a button assembly 100 is rotatably connected outside the transmission element group 5, and after the button assembly 100 rotates, water flow enters the support frame 1 to drive the power part 3, the transmission element group 5 and the button assembly 100 to sequentially and continuously rotate.

The fully automatic water softener produced on the market is mainly driven by a motor to push the automatic operation of the whole equipment, so that the operation equipment must consume a large amount of electric energy, and the fully automatic water softener cannot be installed in places with higher protection requirements such as a reserved power supply or the outdoors, in the embodiment, the button assembly 100 is rotated for the first time to open the water inlet channel, so that water flows into the water inlet 101 and flows out of the water outlet 102, the power component 3 is pushed to rotate by water power in the moving process, the transmission component group 5 and the button assembly 100 are pushed to sequentially perform continuous rotating motion, compared with the traditional automatic water softener driven by electric power, the energy consumption is saved, the requirement on design and installation is lower because no electric energy input is needed, and the fully automatic water softener can be installed and used in an unpowered scene.

As shown in fig. 1 and fig. 3, in this embodiment, the button assembly 100 includes a top end rotary table 8 sleeved outside the transmission element group 5, the top end rotary table 8 is rotatably connected to the transmission element group 5, a manual knob 11 is arranged on the top surface of the top end rotary table 8, the manual knob 11 is clamped with the top end rotary table 8, when the manual knob 11 moves downward, the manual knob 11 is separated from the top end rotary table 8, and the top end rotary table 8 rotates.

When first drive button subassembly 100 rotates, need insert the allen on manual knob 11, press manual knob 11, make manual knob 11 and top carousel 8 convert from mutual joint and break away from each other, just enable top carousel 8 and rotate to make rivers can get into bearing frame 1 smoothly, promote power part 3 through the effort of rivers and rotate.

As shown in fig. 1 and fig. 2, in the present embodiment, a rotary knob 10 is provided in a manual knob 11, an engaging tooth surface 12 adapted to the rotary knob 10 is provided on an end surface of the top rotary disk 8, and when the manual knob 11 moves downward, the rotary knob 10 moves downward to push the engaging tooth surface 12 to rotate.

Rotatory button 10 and the mutual joint of cooperation flank of tooth 12, when manual knob 11 did not move down, rotatory button 10 and the cooperation flank of tooth 12 of propping up keep mutual stillness, and the drive structure wholly keeps still, inserts the allen key on manual knob 11, promotes manual knob 11 and moves down, and the inside rotatory button 10 of propping up of manual knob 11 is pressed, and rotatory mutual joint between button 10 and the cooperation flank of tooth 12 of propping up pushes away cooperation flank of tooth 12 through rotatory button 10 and rotates.

As shown in fig. 4, in the present embodiment, the power component 3 includes a bracket piece 14 clamped on the inner wall of the bracket frame 1, an eccentric rotating wheel 16 is clamped on the end of the bracket piece 14 far from the bracket frame 1, the eccentric rotating wheel 16 is mutually clamped with the transmission element group 5, and the eccentric rotating wheel 16 can rotate around the bracket piece 14.

One side of the eccentric rotating wheel 16 close to the support piece 14 is provided with a notch matched with the rotating track of the support piece, the support piece 14 is positioned in the notch, the size of the tail end of the support piece 14 is larger than the opening distance of the notch, and when the water flow pushes the eccentric rotating wheel 16 to rotate, the support piece 14 is always positioned in the notch of the eccentric rotating wheel 16.

In this embodiment, the eccentric wheel 16 is engaged with the central driving element 4, the central driving element 4 extends out of the support frame 1, and the central driving element 4 is rotatably connected with the transmission element group 5, when the eccentric wheel 16 rotates around the support frame 1, the central driving element 4 starts to rotate around the central axis of the eccentric wheel 16, and the transmission element group 5 and the top end rotary table 8 sequentially rotate.

As shown in fig. 5, a gear capable of meshing with the transmission gear 19 is disposed at one end of the central driving element 4 close to the transmission element group 5, a rib plate is disposed at a connection position between the central driving element 4 and the eccentric rotating wheel 16, and when the eccentric rotating wheel 16 rotates, the central driving element 4 moves in cooperation with the eccentric rotating wheel 16 to drive the transmission element group 5 to rotate through rotation of the central driving element 4.

In this embodiment, the transmission element group 5 is composed of a plurality of transmission gears 19 which are engaged in sequence, the plurality of transmission gears 19 are distributed in sequence from inside to outside and from low to high, and the transmission gear 19 positioned at the innermost side is rotatably connected with the central driving element 4.

As shown in fig. 5, it is preferable that a plurality of the transmission gears 19 are designed as gears having the same shape and size, and the data such as the number of teeth and the pitch of teeth are the same, and the adjacent gears are engaged with each other to sequentially transmit the driving force of the water flow outwards.

As shown in fig. 5, in the present embodiment, each of the transmission gears 19 includes a gear plate 20 and a mating gear post 21 connected to each other, the previous transmission gear 19 is alternately engaged with the mating gear post 21 of the next transmission gear 19 through the gear plate 20, the gear plate 20 of the transmission gear 19 located at the lowest position is rotatably connected to the central driving element 4, and the mating gear post 21 of the transmission gear 19 located at the highest position is engaged with the top rotary plate 8.

The transmission gears 19 with the same specification are mutually meshed, the meshing degree between the teeth is good, the slipping phenomenon is not easy to occur in the rotating process, the transmission gears 19 with the same specification can achieve the expected meshing effect through any sequential installation, and the installation requirement on the structure is low.

As shown in fig. 2, in this embodiment, a waterproof bracket 22 is further fastened to the outer wall of the bracket 1, the projections of the central driving element 4 and the transmission element group 5 in the vertical direction are both located in the waterproof bracket 22, and the waterproof bracket 22 located above the water outlet 102 protrudes upward.

The sealing element is required to be arranged at the joint of the part of the central driving element 4 penetrating into the waterproof bracket 22 and the waterproof bracket 22, so that water is prevented from flowing into the waterproof bracket 22 through the gap between the central driving element 4 and the waterproof bracket 22 when flowing through the waterproof bracket 22, and the central driving element 4 and the transmission element group 5 are corroded, thereby prolonging the service life of the driving structure.

As shown in fig. 2, in this embodiment, a switch rotating disc 6 is connected above the waterproof bracket 22, the switch rotating disc 6 and the waterproof bracket 22 form a sealed space, the central driving element 4 and the transmission element group 5 are located in the sealed space formed by the switch rotating disc 6 and the waterproof bracket 22, a plurality of push switches 7 are arranged on an end surface of the switch rotating disc 6, and when the button assembly 100 rotates, the plurality of push switches 7 alternately move downward.

The central driving element 4 and the transmission element group 5 are located in the closed space above the waterproof support 22, and in the process that water flows through the support frame 1 and flows out through the water outlet 102, water is prevented from entering the waterproof support 22, so that the central driving element 4 and the transmission element group 5 are corroded, the central driving element 4 and the transmission element group 5 are damaged, and the service life of the driving structure is shortened.

As shown in fig. 4, in this embodiment, a layered partition plate 18 is disposed in the eccentric wheel 16, the layered partition plate 18 divides the eccentric wheel 16 into an upper layer and a lower layer, a plurality of water flow holes are disposed on the layered partition plate 18, and a plurality of water flow holes are disposed on the eccentric wheel 16 located at two sides of the layered partition plate 18, and the water flow holes are respectively located at two sides of the support plate 14.

The number of the water flow holes on the layered partition 18 is moderate, and when the water flow continuously passes through the water flow holes on the layered partition 18, the sufficient driving force can be generated on the eccentric rotating wheel 16, so that the eccentric rotating wheel 16 is driven to perform a large-scale eccentric rotation around the support piece 14, and the central driving element 4 generates a large enough driving force around the eccentric rotating wheel 16 to drive the transmission element group 5 and the button assembly 100 to rotate.

The utility model discloses a theory of operation is: firstly, all parts are sequentially installed, an inner hexagon matched with a manual knob 11 is inserted into the manual knob 11, the manual knob 11 is pressed downwards to push a rotary support button 10 in the manual knob 11, a matched tooth surface 12 matched with the rotary support button 10 is pushed by the rotation of the rotary support button 10, so that a top end rotary disc 8 is pushed to rotate, after the top end rotary disc 8 completes the initial movement of one circle of rotation, a plurality of press switches 7 are pressed downwards once, at the moment, water continuously enters a support frame 1 through a water inlet 101 and flows out of the support frame 1 through a water outlet 102, in the water flowing process, an eccentric rotary wheel 16 is pushed by water power to rotate around a support sheet 14, then a plurality of transmission gears 19 are driven by the rotation of the eccentric rotary wheel 16 to rotate in sequence, finally, the top end rotary disc 8 rotates, the press switches 7 are continuously pressed, and the effect that the top end rotary disc 8 is driven by the water power to continuously open the press switches 7, compared with the traditional structure driven by electric energy, the structure saves the consumed energy and reduces the requirements in design and installation.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein will be apparent to those skilled in the art without departing from the spirit of the invention.

Although the terms of the pedestal frame 1, the button assembly 100, the water inlet 101, the water outlet 102, the power part 3, the central driving element 4, the transmission element group 5, the push switch 7, the top rotary disk 8, the rotary fulcrum 10, the manual knob 11, the mating tooth surface 12, the bracket piece 14, the eccentric rotary wheel 16, the layered partition 18, the transmission gear 19, the gear disk 20, the mating gear post 21, the waterproof bracket 22, etc. are used more herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims (10)

1. The utility model provides a built-in water conservancy drive wheel assembly structure of electroless water softener, includes inside be used for support frame (1) that the rivers pass through in the water softener, the bottom and the top of support frame (1) be equipped with water inlet (101) and delivery port (102) respectively, its characterized in that, the inside of support frame (1) is equipped with power part (3), the top of power part (3) is rotated and is connected with transmission component group (5), transmission component group (5) outer rotation is connected with button assembly (100), after button assembly (100) is rotatory, thereby the rivers get into support frame (1) and drive power part (3), transmission component group (5) and button assembly (100) and carry out continuous rotary motion in proper order.

2. The built-in hydraulic drive wheel assembly structure of the electroless water softener according to claim 1, wherein the button assembly (100) comprises a top end rotary disc (8) sleeved outside the transmission element group (5), the top end rotary disc (8) is rotatably connected with the transmission element group (5), a manual knob (11) is arranged on the top surface of the top end rotary disc (8), the manual knob (11) and the top end rotary disc (8) are mutually clamped, when the manual knob (11) moves downwards, the manual knob (11) and the top end rotary disc (8) are mutually separated, and the top end rotary disc (8) rotates.

3. The built-in hydraulic driving wheel assembly structure of the electroless water softener according to the claim 2, wherein the manual knob (11) is provided with a rotary fulcrum (10), the end surface of the top rotating disc (8) is provided with an engaging tooth surface (12) matched with the rotary fulcrum (10), and when the manual knob (11) moves downwards, the rotary fulcrum (10) moves downwards to push the engaging tooth surface (12) to rotate.

4. The built-in hydraulic driving wheel assembly structure of the electroless water softener according to the claim 1, wherein the power part (3) comprises a support piece (14) clamped on the inner wall of the support frame (1), the end part of the support piece (14) far away from the support frame (1) is clamped with an eccentric rotating wheel (16), the eccentric rotating wheel (16) is mutually clamped with the transmission element group (5), and the eccentric rotating wheel (16) can rotate around the support piece (14).

5. The built-in hydraulic driving wheel assembly structure of the electroless water softener according to the claim 4, wherein the eccentric wheel (16) is clamped with the central driving element (4), the central driving element (4) extends out of the supporting seat frame (1), and the central driving element (4) is rotationally connected with the transmission element group (5), when the eccentric wheel (16) rotates around the supporting seat frame (1), the central driving element (4) starts to rotate around the central axis of the eccentric wheel (16), and the transmission element group (5) and the top end rotary disc (8) rotate in turn.

6. The built-in hydraulic driving wheel assembly structure of the electroless water softener according to the claim 5, wherein the transmission element group (5) is composed of a plurality of transmission gears (19) which are meshed in sequence, the plurality of transmission gears (19) are distributed in sequence from inside to outside and from low to high, and the transmission gear (19) at the innermost side is rotationally connected with the central driving element (4).

7. The built-in hydraulic driving wheel assembly structure of the electroless water softener according to the claim 6, wherein each transmission gear (19) comprises a gear disc (20) and a mating gear column (21) which are connected with each other, the previous transmission gear (19) is alternatively meshed with the mating gear column (21) of the next transmission gear (19) through the gear disc (20), the gear disc (20) of the transmission gear (19) at the lowest position is rotatably connected with the central driving element (4), and the mating gear column (21) of the transmission gear (19) at the highest position is meshed with the top rotating disc (8).

8. The built-in hydraulic driving wheel assembly structure of the electroless water softener according to the claim 7, characterized in that the outer wall of the supporting frame (1) is further clamped with a waterproof bracket (22), the projections of the central driving element (4) and the transmission element group (5) in the vertical direction are both positioned in the waterproof bracket (22), and the waterproof bracket (22) positioned above the water outlet (102) is protruded upwards.

9. The built-in hydraulic driving wheel assembly structure of the electroless water softener according to the claim 8, wherein a switch turntable (6) is connected above the waterproof support (22), the switch turntable (6) and the waterproof support (22) form a closed space, the central driving element (4) and the transmission element group (5) are positioned in the closed space formed by the switch turntable (6) and the waterproof support (22), a plurality of push switches (7) are arranged on the end surface of the switch turntable (6), and when the button assembly (100) rotates, the plurality of push switches (7) alternately move downwards.

10. The built-in hydraulic driving wheel assembly structure of the electroless water softener according to claim 4, wherein a layered partition plate (18) is arranged in the eccentric runner (16), the layered partition plate (18) divides the eccentric runner (16) into an upper layer and a lower layer, a plurality of water flow holes are arranged on the layered partition plate (18), a plurality of water flow holes are arranged on the eccentric runner (16) positioned at two sides of the layered partition plate (18), and the water flow holes are respectively positioned at two sides of the support plate (14).

Images