CN113041869B

CN113041869B - Mixing tank assembly

Info

Publication number: CN113041869B
Application number: CN202110339269.2A
Authority: CN
Inventors: 丁家梁; 潘云峰; 尹智军
Original assignee: Shaoxing Mona Water Purification Technology Co ltd
Current assignee: Shaoxing Mona Water Purification Technology Co ltd
Priority date: 2021-03-30
Filing date: 2021-03-30
Publication date: 2022-05-27
Anticipated expiration: 2041-03-30
Also published as: CN113041869A

Abstract

The invention discloses a mixing tank assembly, which comprises a tank body, wherein a mixing cavity is arranged in the tank body, an air inlet hole is arranged on the tank body, inlet opening and apopore, the apopore sets up the lower lateral wall at the jar body, be fixed with the fixed water outlet sleeve with apopore coaxial line on the lower lateral wall of the jar body, the cover is equipped with flexible water outlet sleeve on the fixed water outlet sleeve, flexible water outlet sleeve's inner wall is fixed with the water ejector pin, the one end that the water ejector pin extends into mixing cavity is fixed with out the water cock head, be equipped with press device on the jar body, press device is including pressing platen and two drive cams, two drive cams all are connected with jar body rotation, be equipped with the drive projection on the drive cam, press platen and jar body rotation are connected, be equipped with the drive connecting rod on the pressing platen, be equipped with on the drive connecting rod and supply to correspond the drive slot that the drive projection was pegged graft, be fixed with the driven lug that corresponds with the drive cam on the telescopic outer wall that goes out water. The invention can realize water outlet by pressing the pressing plate, and is very convenient.

Description

Mixing tank assembly

Technical Field

The invention belongs to the technical field of bubbling machines, and particularly relates to a mixing tank assembly.

Background

Food-grade carbon dioxide gas in a gas bottle is physically and mechanically pressed into a water bottle filled with pure (drinking) water through a bubble machine, and the formed water solution is the generalized soda water, namely the carbonated water, and is also called bubble water because the water contains rich bubbles.

The actions of water adding, refrigerating, inflating and deflating bubble water of the existing bubble machine are separated, and the whole water making process is very troublesome, so that a mixing tank is required to be designed to be used for integrating the bubble machine for adding water, refrigerating, inflating and deflating bubble water, and the bubble water is more convenient to make.

Disclosure of Invention

The invention aims to provide a mixing tank assembly which can be used for conveniently taking water from a mixing tank.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a mixing tank subassembly, includes a jar body, the internal mixed cavity that is equipped with of jar, be equipped with inlet port, inlet opening and apopore on the jar body, the apopore sets up the lower lateral wall at the jar body, be fixed with the fixed water outlet sleeve of the coaxial line with the apopore on the lower lateral wall of the jar body, the cover is equipped with flexible water outlet sleeve on the fixed water outlet sleeve, flexible water outlet sleeve's inner wall is fixed with the water ejector pin, the one end that the water outlet ejector pin extends into mixed cavity is fixed with out the water cock, it is used for opening or closing the apopore to go out the water cock.

Further, be equipped with the press device that drives flexible water outlet sleeve and reciprocate on the jar body, press device includes press panel and two drive cams, two drive cams sets up respectively in flexible water outlet sleeve's both sides, two drive cams all rotates with jar body through fixed nose bar and is connected, be equipped with the drive projection on the drive cam, press panel and jar body rotation and be connected, be equipped with the drive connecting rod with drive projection one-to-one on the press panel, be equipped with the drive slot that supplies to correspond the grafting of drive projection on the drive connecting rod, be fixed with the driven lug that corresponds with the drive cam on the flexible water outlet sleeve's the outer wall, driven lug sets up in the top that corresponds the drive cam.

Further, be equipped with first spacing plane on the drive cam, the downside of driven lug is equipped with the spacing plane of second, the drive cam goes out the tap and opens the apopore when rotating first spacing plane and the spacing plane laminating of second.

Furthermore, the bottom of the mixing cavity is connected with a water retaining support rod, and the upper end of the water retaining support rod is connected with a water retaining plate.

Further, still be equipped with the venthole on the jar body, be equipped with air outlet channel in the manger plate vaulting pole, air outlet channel will mix cavity and venthole intercommunication, be connected with the relief valve on the venthole.

Furthermore, an inserting sleeve is fixed on the bottom surface of the mixing cavity, the lower end of the water retaining support rod is inserted into the inserting sleeve, a first water retaining convex ring is fixed at the upper end of the water retaining support rod, a first water retaining sleeve is fixed on the water retaining plate, and the upper end of the water retaining support rod is inserted into the water retaining sleeve.

Furthermore, the inner wall of the first water retaining sleeve is provided with a first anti-rotation groove, a first anti-rotation protrusion which is connected with the anti-rotation groove in an inserting mode is fixed on the water retaining stay bar, a second anti-rotation groove is formed in the side wall of the inserting sleeve, and a second anti-rotation protrusion which is connected with the second anti-rotation groove in an inserting mode is fixed at the lower end of the water retaining stay bar.

Further, the tank body comprises a lower tank body and an upper tank body, and the lower tank body is in threaded connection with the upper tank body.

Furthermore, the outer wall of the telescopic water outlet sleeve is provided with two anti-rotation planes which correspond to the driving cams one to one, and the two opposite side surfaces of the driving cams are respectively attached to the corresponding anti-rotation planes.

Further, still include the lower cover body, be equipped with opening holding tank up on the lower cover body, the lower extreme and the holding tank of the jar body are pegged graft, can dismantle between the jar body and the lower cover body and be connected, be equipped with the intercommunication groove that supplies to pass according to the clamp plate on the lateral wall of the lower cover body, the downside of the jar body rotates and is connected with the rotor plate, be equipped with the inserting groove on the rotor plate, be fixed with the plugboard of pegging graft with the inserting groove on the clamp plate, the one end that the plugboard passed the inserting groove is fixed with the grafting arch.

Compared with the prior art, the invention has the beneficial effects that:

(1) the pressing plate is pressed downwards, so that the driving connecting rod drives the driving cam to rotate anticlockwise, and the driven lug is driven to move upwards in the process of rotating the driving cam anticlockwise, so that the water outlet plug head connected to the telescopic water outlet sleeve is driven to move upwards, a water outlet hole is opened to discharge water, the structure is simple, and water taking is very convenient;

(2) the driving cam rotates to a first limiting plane and a second limiting plane to be attached, and the telescopic water outlet sleeve is limited without pressing the pressing plate, so that water can be automatically discharged, and water taking is more convenient;

(3) when the gas enters the mixing cavity from the gas inlet hole, because the pressure of the gas is higher, part of the gas rushes to the lower side surface of the water baffle plate and is blocked and then returns to the water, and the mixing effect of the gas and the water is improved.

Drawings

FIG. 1 is a schematic structural view of a mixing tank assembly of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is an exploded view of FIG. 1;

FIG. 4 is an enlarged view of a portion of FIG. 3 at I;

FIG. 5 is an enlarged view of a portion of FIG. 3 at II;

FIG. 6 is a schematic structural view of the driving protrusion connected to the driving slot;

FIG. 7 is a schematic structural view of the telescopic water outlet sleeve;

FIG. 8 is a schematic view of another view of the telescopic water outlet sleeve;

FIG. 9 is an enlarged view of a portion of FIG. 2 at I;

fig. 10 is a schematic structural view of the pressing plate.

In the figure: 1. feeding the tank body; 2. a tank body is arranged; 3. a tank body; 4. a pressing plate; 5. a telescopic water outlet sleeve; 6. a water retaining brace rod; 7. a water retaining sleeve; 8. a first water retaining convex ring; 9. a water baffle; 10. fixing the water outlet sleeve; 11. an air inlet; 12. an air outlet; 13. a lower cover body; 14. a water inlet hole; 15. an air outlet channel; 16. a mixing chamber; 17. a second water retaining convex ring; 18. inserting a sleeve; 19. a first rotation-preventing projection; 20. a first anti-rotation slot; 21. a second anti-rotation protrusion; 22. a second anti-rotation slot; 23. a drive link; 24. driving the slot; 25. a water outlet plug head; 26. a first limit plane; 27. a drive cam; 28. a second limit plane; 29. a driven lug; 30. fixing the convex rod; 31. a driving boss; 32. a water outlet ejector rod; 33. accommodating grooves; 34. a communicating groove; 35. a rotating plate; 36. an avoidance groove; 37. inserting and connecting the bulges; 38. a plugboard; 39. a deformation groove; 40. an anti-rotation plane; 41. a mandril connecting plate; 42. and (7) water outlet holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a mixing tank assembly, comprising: the utility model provides a mixing tank subassembly, which comprises a tank body 3, be equipped with mixing chamber 16 in the jar body 3, be equipped with inlet port 11 on the jar body 3, inlet opening 14 and apopore 42, apopore 42 sets up the lower lateral wall at jar body 3, be fixed with the fixed water outlet sleeve 10 of the coaxial line with apopore 42 on the lower lateral wall of jar body 3, the cover is equipped with flexible water outlet sleeve 5 on the fixed water outlet sleeve 10, the inner wall of flexible water outlet sleeve 5 is fixed with water ejector pin 32, the one end that water outlet ejector pin 32 extends into mixing chamber 16 is fixed with out water chock plug 25, it is used for opening or closing apopore 42 to go out water chock plug 25.

As shown in fig. 5 and 6, a pressing device for driving the telescopic water outlet sleeve 5 to move up and down is disposed on the tank 3, the pressing device includes a pressing plate 4 and two driving cams 27, the two driving cams 27 are disposed on two sides of the telescopic water outlet sleeve 5 respectively, the two driving cams 27 are rotatably connected to the tank 3 through a fixed protruding rod 30, driving protrusions 31 are disposed on the driving cams 27, the pressing plate 4 is rotatably connected to the tank 3, driving connecting rods 23 corresponding to the driving protrusions 31 one to one are disposed on the pressing plate 4, driving slots 24 for inserting the corresponding driving protrusions 31 are disposed on the driving connecting rods 23, driven protrusions 29 corresponding to the driving cams 27 are fixed on an outer wall of the telescopic water outlet sleeve 5, the driven protrusions 29 are disposed above the corresponding driving cams 27, and outer walls of the driving cams 27 abut against lower side surfaces of the corresponding driven protrusions 29.

Continuing to refer to fig. 5 and 6, by pressing the pressing plate 4 downwards, the pressing plate 4 rotates relative to the tank 3, so that the driving connecting rod 23 drives the driving cam 27 to rotate anticlockwise, and in the process of rotating the driving cam 27 anticlockwise, the driven bump 29 is driven to move upwards, so that the water outlet plug 25 connected to the telescopic water outlet sleeve 5 is driven to move upwards, and the water outlet hole 42 is opened to discharge water; the water is discharged in a pressing mode, and the water discharging device is very convenient.

As shown in fig. 5 and 7, a first limiting plane 26 is disposed on the driving cam 27, a second limiting plane 28 is disposed on the lower side surface of the driven protrusion 29, and the water outlet plug 25 opens the water outlet 42 when the driving cam 27 rotates to the first limiting plane 26 and the second limiting plane 28; after the pressing plate 4 is pressed down, the driving cam 27 rotates to the first limiting plane 26 and the second limiting plane 28 to be attached, the telescopic water outlet sleeve 5 is limited without pressing the pressing plate 4, and therefore water can be automatically discharged.

As shown in fig. 2, the bottom of the mixing cavity 16 is connected with a water retaining brace 6, the upper end of the water retaining brace 6 is connected with a water retaining plate 9, the water retaining plate 9 is arranged above the air inlet 11, the lower side surface of the water retaining plate 9 is approximately attached to the water surface in the mixing cavity 16, when air enters the mixing cavity 16 from the air inlet 11, because the pressure of the air is larger, part of the air rushes to the lower side surface of the water retaining plate 9 and then is blocked and then returns to the water, and the mixing effect of the air and the water is increased.

As shown in fig. 2, still be equipped with venthole 12 on jar body 3, be equipped with air outlet channel 15 in the manger plate vaulting pole 6, air outlet channel 15 will mix cavity 16 and venthole 12 intercommunication, be connected with relief valve and relief valve on the venthole 12, before the water intaking, can open the relief valve earlier, the gas that will mix in the jar is put, taking water, the relief valve is prior art, the rated atmospheric pressure can be set for to the relief valve, when reacing certain atmospheric pressure in mixing cavity 16, the relief valve is automatic to be opened and is realized the gassing, avoid mixing the too big pressure in the cavity 16.

The lower part is a connection structure of the water-retaining stay bar 6 with the water-retaining plate 9 and the mixing cavity 16, as shown in fig. 2-5, the bottom surface of the mixing cavity 16 is fixed with an insertion sleeve 18, the lower end of the water-retaining stay bar 6 is inserted with the insertion sleeve 18, the upper end of the water-retaining stay bar 6 is fixed with a first water-retaining convex ring 8, the water-retaining plate 9 is fixed with a first water-retaining sleeve 7, the upper end of the water-retaining stay bar 6 is inserted with the water-retaining sleeve 7, the inner wall of the first water-retaining sleeve 7 is provided with a first anti-rotation groove 20, the water-retaining stay bar 6 is fixed with a first anti-rotation protrusion 19 inserted with the first anti-rotation groove 20, the side wall of the insertion sleeve 18 is provided with a second anti-rotation groove 22, the lower end of the water-retaining stay bar 6 is fixed with a second anti-rotation protrusion 21 inserted with the second anti-rotation groove 22, and the lower end of the water-retaining stay bar 6 is also fixed with a second water-retaining convex ring 17.

As shown in fig. 2, the tank body 3 comprises a lower tank body 2 and an upper tank body 1, the lower tank body 2 is in threaded connection with the upper tank body 1, the upper tank body 1 and the lower tank body 2 can be disassembled, and in addition, the water blocking support rod 6 and the water blocking plate 9 can be conveniently installed; when the water baffle 9 is installed, the lower end of the water baffle stay bar 6 is firstly inserted into the insertion sleeve 18, then the upper end of the water baffle stay bar 6 is inserted into the water baffle sleeve 7, then the upper tank body 1 is screwed onto the lower tank body 2 until the upper end of the water baffle sleeve 7 is abutted against the inner wall of the upper tank body 1, so that the position of the water baffle 9 is limited, and the installation is very convenient.

As shown in fig. 2 and 3, the pressing device further comprises a lower cover body 13, an accommodating groove 33 with an upward opening is formed in the lower cover body 13, the lower tank body 2 is inserted into the accommodating groove 33, the lower tank body 2 and the lower cover body 13 can be detachably connected in a clamping manner or a bolt manner, and a communicating groove 34 for the pressing plate 4 to pass through is formed in the side wall of the lower cover body 13.

As shown in fig. 6, 9 and 10, the lower side surface of the can body 3 is rotatably connected with a rotating plate 35, the rotating plate 35 is provided with an inserting groove, the pressing plate 4 is fixed with an inserting plate 38 inserted into the inserting groove, one end of the inserting plate 38 penetrating through the inserting groove is fixed with an inserting projection 37, the lower cover body 13 and the lower can body 2 can be connected together, then the inserting plate 38 penetrates through the communicating groove 34 of the lower cover body 13 and then is inserted into the inserting groove until the inserting projection 37 penetrates through the inserting groove, and the installation of the inserting plate 38 is completed.

As shown in fig. 9 and 10, the insertion plate 38 is further provided with two deformation grooves 39, the two deformation grooves 39 are disposed on two sides of the insertion protrusion 37, and the lower side surface of the insertion plate 38 is further provided with the avoidance groove 36, so that the insertion plate 38 on the insertion protrusion 37 can be bent better when the insertion protrusion 37 passes through the insertion grooves.

As shown in fig. 8, a plurality of ejector rod connecting plates 41 are fixed on the outer wall of the water outlet ejector rod 32, the plurality of ejector rod connecting plates 41 are uniformly distributed around the circumference of the axis of the water outlet ejector rod 32, and the ejector rod connecting plates 41 are fixed on the inner wall of the telescopic water outlet sleeve 5.

As shown in fig. 5-7, two anti-rotation planes 40 corresponding to the driving cams 27 one by one are disposed on the outer wall of the telescopic water outlet sleeve 5, and the opposite side surfaces of the two driving cams 27 are respectively attached to the corresponding anti-rotation planes 40, so as to prevent the telescopic water outlet sleeve 5 from rotating with the fixed water outlet sleeve 10.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A mixing tank assembly, characterized by: the water outlet device comprises a tank body, a mixing cavity is arranged in the tank body, an air inlet hole, a water inlet hole and a water outlet hole are arranged on the tank body, the water outlet hole is arranged on the lower side wall of the tank body, a fixed water outlet sleeve coaxial with the water outlet hole is fixed on the lower side wall of the tank body, a telescopic water outlet sleeve is sleeved on the fixed water outlet sleeve, a water outlet ejector rod is fixed on the inner wall of the telescopic water outlet sleeve, a water outlet plug head is fixed at one end of the water outlet ejector rod extending into the mixing cavity and used for opening or closing the water outlet hole, a pressing device driving the telescopic water outlet sleeve to move up and down is arranged on the tank body and comprises a pressing plate and two driving cams, the two driving cams are respectively arranged on two sides of the telescopic water outlet sleeve, the two driving cams are rotatably connected with the tank body through fixed convex rods, and driving convex columns are arranged on the driving cams, the water outlet telescopic structure comprises a tank body, a pressing plate, driving convex columns and a driven convex block, wherein the pressing plate is rotatably connected with the tank body, the pressing plate is provided with driving connecting rods in one-to-one correspondence with the driving convex columns, the driving connecting rods are provided with driving slots for the corresponding driving convex columns to be inserted, the outer wall of a telescopic water outlet sleeve is fixedly provided with a driven convex block corresponding to a driving cam, and the driven convex block is arranged above the corresponding driving cam.

2. A mixing tank assembly according to claim 1, wherein: be equipped with first spacing plane on the drive cam, the downside of driven lug is equipped with the spacing plane of second, the drive cam goes out the tap and opens the apopore when rotating first spacing plane and the spacing plane laminating of second.

3. A mixing tank assembly according to claim 1, wherein: the bottom of the mixing cavity is connected with a water retaining brace rod, and the upper end of the water retaining brace rod is connected with a water retaining plate.

4. A mixing tank assembly according to claim 3, wherein: the tank body is further provided with an air outlet, an air outlet channel is arranged in the water retaining brace rod and is used for communicating the mixing cavity with the air outlet, and a safety valve is connected to the air outlet.

5. A mixing tank assembly according to claim 4, characterised in that: the bottom surface of the mixing cavity is fixedly provided with an inserting sleeve, the lower end of the water retaining support rod is inserted into the inserting sleeve, the upper end of the water retaining support rod is fixedly provided with a first water retaining convex ring, the water retaining plate is fixedly provided with a first water retaining sleeve, and the upper end of the water retaining support rod is inserted into the water retaining sleeve.

6. A mixing tank assembly according to claim 5, wherein: the inner wall of the first water retaining sleeve is provided with a first anti-rotation groove, a first anti-rotation protrusion which is connected with the anti-rotation groove in an inserting mode is fixed on the water retaining stay bar, a second anti-rotation groove is arranged on the side wall of the inserting sleeve, and a second anti-rotation protrusion which is connected with the second anti-rotation groove in an inserting mode is fixed at the lower end of the water retaining stay bar.

7. A mixing tank assembly according to claim 1, wherein: the tank body comprises a lower tank body and an upper tank body, and the lower tank body is in threaded connection with the upper tank body.

8. A mixing tank assembly according to claim 1, wherein: the outer wall of the telescopic water outlet sleeve is provided with two anti-rotation planes which are in one-to-one correspondence with the driving cams, and the two opposite side surfaces of the driving cams are respectively attached to the corresponding anti-rotation planes.

9. A mixing tank assembly according to claim 1, wherein: still include the lower cover body, be equipped with opening holding tank up on the lower cover body, the lower extreme and the holding tank of the jar body are pegged graft, can dismantle between the jar body and the lower cover body and be connected, be equipped with the intercommunication groove that supplies to pass according to the clamp plate on the lateral wall of the lower cover body, the downside of the jar body rotates and is connected with the rotor plate, be equipped with the inserting groove on the rotor plate, be fixed with the plugboard of pegging graft with the inserting groove on the clamp plate, the one end that the plugboard passed the inserting groove is fixed with the grafting arch.