CN108087615A - A kind of novel transmission mechanism and with its inlet valve, cistern fittings - Google Patents

Abstract

The invention discloses a kind of novel transmission mechanism and with its inlet valve, cistern fittings, including driving link, driven member, ball, the ball is arranged on predetermined trajectory；The driving link is equipped with the active tooth socket with ball engaged transmission cooperation, and the driven member is equipped with the driven tooth socket with ball engaged transmission cooperation；The driving link moves through the active tooth socket and drives the ball along the predetermined trajectory shuttling movement, and then by the driven tooth socket driven member is driven to move；It can be according to space layout demand flexible design ball orbit, and due to the spherical structure of ball, driving link and driven member can be embedded in from any angle to be coordinated with ball engaged transmission, so that it is simple and compact for structure, space layout is more flexible, application field is wider, inlet valve, drain valve are particularly applied to when cistern fittings, traditional structural limitations can be broken through.

Description

A kind of novel transmission mechanism and with its inlet valve, cistern fittings

Technical field

The present invention relates to a kind of novel transmission mechanism and with its inlet valve, cistern fittings.

Background technology

Traditional gear engaged transmission mode generally using gear and gear cooperation transmission, gear and chain interoperation transmission, Gear coordinates the drive mechanisms such as transmission with belt pulley.But, on the one hand, the shortcomings that gear and gear drive is：Occupied space is big, When driving wheel and distant driven wheel, it is also necessary to which several breast wheel accessory drives also influence transmission effect when breast wheel is more Rate；On the other hand, gear and the shortcomings that chain drive, gear and pulley drive, are：Chain and belt pulley can only be in the plane Transmission.

Due to the limitation in cistern space, when cistern fittings occupied space is big, moisture storage capacity is just corresponding to be reduced.Tradition Gear engaged transmission mode the strong influence topology layout of cistern fittings and water tank space availability ratio.

The content of the invention

The present invention to solve the above problems, providing a kind of novel transmission mechanism and with its inlet valve, cistern fittings, It is simple and compact for structure, space layout is more flexible.

One of the objects of the present invention is to provide a kind of novel drive structure, including driving link (10) and driven member (20), Further include several balls (30) being arranged between the driving link (10) and the driven member (20), ball (30) arrangement In on predetermined trajectory (31)；Wherein, the driving link (10) is equipped with the active tooth socket with the ball (30) engaged transmission cooperation (11), the driven member (20) is equipped with the driven tooth socket (21) with the ball (30) engaged transmission cooperation；The driving link (10) moving through the active tooth socket (11) drives the ball (30) to be moved along the predetermined trajectory (31), Jin Ertong It crosses the driven tooth socket (21) and drives driven member (20) movement.

Preferably, the predetermined trajectory (31) is planar tracks or three-dimensional track.

Preferably, the driving link (10) rotates and drives the ball (30) along institute by the active tooth socket (11) Predetermined trajectory (31) shuttling movement is stated, and then by the driven tooth socket (21) driven member (20) is driven to rotate.

Preferably, the active tooth socket (11) and the driven tooth socket (21) are the size and radian with the ball (30) The arc groove to match.

Preferably, the position of the corresponding driving link (10) of the predetermined trajectory (31) and the driven member (20) is set respectively Jagged (32), the active tooth socket (11) and the driven tooth socket (21) are nibbled by the notch (32) and the ball (30) Close transmission cooperation.

Preferably, the driving link (10), driven member (20), ball (30) and predetermined trajectory (31) may be contained within a matrix (40) in, further include the active handle (41) for driving the driving link (10) movement and the movement for exporting the driven member (20) from Moving axis (42).

The second object of the present invention is to provide a kind of inlet valve, and the inlet valve is equipped with as described in any one of the above embodiments A kind of novel drive structure.

Preferably, the inlet valve include water inlet body (53), be secured on water body (53) sealing cup (51), turn The dynamic adjusting rod (52) being secured on sealing cup (51), the driven member (20), ball (30) and predetermined trajectory (31) are arranged on The bottom of the sealing cup (51)；The driving link (10) coordinates with the circumferential /V of the adjusting rod (52)；The water inlet body (53) it is equipped with longitudinally arranged second and adjusts tooth (55), the driven member (20) is equipped with adjusts tooth (55) spiral with described second The first of cooperation adjusts tooth (22)；Operating the adjusting rod (52) drives the driving link (10) to rotate, the driven member (20) It rotates therewith and passes through described first and adjust second adjusting tooth (55) up and down motion of the tooth (22) along the water inlet body (53), Realize that the height of the sealing cup (51) is adjusted.

The third object of the present invention is to provide a kind of cistern fittings, described including the first regulating part and the second regulating part First regulating part is set in outside second regulating part and can be further included above-mentioned with the second regulating part axial relative movement Any one of them novel drive structure, the novel drive structure are arranged on first regulating part；Described second is adjusted The outer wall of part is equipped with second and adjusts tooth (55 '), and the driven member (20) is equipped with adjusts tooth (55 ') threaded engagement with described second First adjusts tooth (22 ')；The driving link (10) is rotated, the driven member (20), which rotates therewith and passes through described first, adjusts tooth (22 ') adjust tooth (55 ') along the second of second regulating part and move up and down, and realize the height tune of first regulating part Section.

Preferably, first regulating part is the water inlet body (53) of inlet valve, and second regulating part is inlet valve Water inlet pipe (54)；The driving link (10) is the adjustment cap at the top for being arranged on first regulating part, and the active tooth socket (11) it is circumferentially positioned at the lower face of the driving link (10)；The driven member (20) is the bottom for being arranged on first regulating part The lantern ring in portion, and the driven tooth socket (21) is circumferentially positioned at the upper surface of the driven member (20)；Described first adjusts tooth (22 ') for helical tooth and be arranged on the inner peripheral surface of the driven member (20), the predetermined trajectory (31) be arranged on the water inlet this On the outer wall of body (53).

The beneficial effects of the invention are as follows：

The novel drive structure of the present invention and with its inlet valve, cistern fittings, can be flexible according to space layout demand Ball orbit is designed, and since the spherical structure of ball, driving link and driven member can be embedded in from any angle and biography engaged with ball Dynamic cooperation so that it is simple and compact for structure, space layout is more flexible, application field is wider, it is particularly applied to inlet valve, drain valve When cistern fittings, traditional structural limitations can be broken through.

Description of the drawings

Attached drawing described herein is used for providing a further understanding of the present invention, forms the part of the present invention, this hair Bright schematic description and description does not constitute improper limitations of the present invention for explaining the present invention.In the accompanying drawings：

Fig. 1 is the dimensional structure diagram of the novel drive structure of first embodiment of the invention；

Fig. 2 is the assembled inside structure diagram of the novel drive structure of first embodiment of the invention；

Fig. 3 is one of the drive connection schematic diagram of novel drive structure of second embodiment of the invention (the first output angle State)；

Fig. 4 is two (the second output angles of the drive connection schematic diagram of the novel drive structure of second embodiment of the invention State)；

Fig. 5 is the drive connection schematic diagram of the novel drive structure of third embodiment of the invention；

Fig. 6 is the structure diagram of the driven member of the novel drive structure of third embodiment of the invention；

Fig. 7 is that the inlet valve structure schematic diagram of fourth embodiment of the invention (is adjusted using the novel drive structure The height of water inlet valve seal component)；

Fig. 8 is the internal structure schematic diagram of Fig. 7；

Fig. 9 is that the cistern fittings structure diagram of fifth embodiment of the invention (is adjusted using the novel drive structure The height of water-saving box accessory)；

Figure 10 is the structure diagram of the adjustment cap in Fig. 9；

Figure 11 is the structure diagram of the revolving part in Fig. 9；

In figure：

10- driving links；11- active tooth sockets；

20- driven members；The driven tooth sockets of 21-；22nd, 22 '-the first tooth is adjusted；

30- balls；31- predetermined trajectories；32- notches；

40- matrixes；41- active handles；42- driven shafts；

50- inlet valves；51- sealing cups；52- adjusting rods；53- water inlet bodies；54- water inlet pipes；55th, 55 '-the second adjust Tooth.

Specific embodiment

In order to make technical problems, technical solutions and advantages to be solved clearer, clear, tie below Drawings and examples are closed, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only used To explain the present invention, it is not intended to limit the present invention.

First embodiment (predetermined trajectory of drive mechanism is planar tracks)

As depicted in figs. 1 and 2, a kind of novel drive structure of the present embodiment, including driving link 10 and driven member 20, is also wrapped Several balls 30 being arranged between the driving link 10 and the driven member 20 are included, the ball 30 is arranged in predetermined trajectory 31 On；Wherein, the driving link 10 is equipped with the active tooth socket 11 with the 30 engaged transmission cooperation of ball, and the driven member 20 is equipped with With the driven tooth socket 21 of the 30 engaged transmission cooperation of ball；The driving link 10 moves through the active tooth socket 11 and drives The ball 30 is moved along the predetermined trajectory 31, and then by the driven tooth socket 21 driven member 20 is driven to move.

In the present embodiment, the driving link 10 and the driven member 20 can be the tooth shaped components such as gear or rack, this reality A driving link 10 and the driven member 20 are applied using gear, the driving link 10 rotates and drives institute by the active tooth socket 11 Ball 30 is stated along 31 shuttling movement of predetermined trajectory, and then 20 turns of the driven member is driven by the driven tooth socket 21 It is dynamic.

In the present embodiment, the driving link 10, driven member 20, ball 30 and predetermined trajectory 31 may be contained within a matrix 40 It is interior；Further include the active handle 41 that the driving link 10 is driven to move and the driven shaft 42 for the movement for exporting the driven member 20.It is main Dynamic handle 41 is connected with driving link 10 and one end is stretched out outside matrix 40 for operation, operates the active handle 41 and drives the active Part 10 rotates, and then drives driven member 20 and exported by driven shaft 42 and moved.

In the present embodiment, the planned orbit 31 is planar tracks, and the planned orbit 31 is racetrack structure, described Ball 30 includes multiple and is sequentially arranged on the planned orbit 31；Preferably, the planned orbit 31 corresponds to the active The position of part 10 and the driven member 20 is respectively equipped with notch 32, and the active tooth socket 11 and the driven tooth socket 21 are by described Notch 32 coordinates with 30 engaged transmission of ball.Specifically, the active tooth socket 11 is circumferentially positioned at the driving link 10 Outer circumferential surface, the driven tooth socket 21 are circumferentially positioned at the outer circumferential surface of the driven member 20；Further, since the ball 30 is ball Shape, the arc that the active tooth socket 11 is preferably matched with the driven tooth socket 21 using the size and radian with the ball 30 Slot；That is, the internal diameter of described arc groove and the outer diameter of the ball 30 match.

Second embodiment (output angle of drive mechanism is variable)

As shown in Figure 3 and Figure 4, the main distinction of the present embodiment and first embodiment is：It is described default in the present embodiment Track 31 is circumferentially positioned at the outer circumferential surface of the driving link 10, the driven tooth socket using three-dimensional track, the active tooth socket 11 21 are circumferentially positioned at the outer circumferential surface of the driven member 20；Since ball is spherical, the output angle of the driven member of cooperation can To change to a wide range.As shown in figure 3, the output angle of the driven member 20 and the input angle phase of the driving link 10 Together；As shown in figure 4, the driven tooth socket 21 of the driven member 20 can be rotated around the ball 30 so that the driven member 20 Output angle and the input angle of the driving link 10 are in 90 degree；Due to using three-dimensional track, the output of the driven member 20 Angle can be with the input angle of the driving link 10 not at grade.

3rd embodiment (the driven tooth socket of drive mechanism is end face tooth socket)

As shown in Figure 5 and Figure 6, the main distinction of the present embodiment and first embodiment is：In the present embodiment, the active Tooth socket 11 is circumferentially positioned at the outer circumferential surface of the driving link 10, and the driven tooth socket 21 is circumferentially positioned under the driven member 20 End face can also realize the change of the output angle of driven member 20.

In addition, the active tooth socket 11 can be circumferentially positioned at the outer circumferential surface of the driving link 10 or upper surface or lower end Face；The driven tooth socket 21 can be circumferentially positioned at the outer circumferential surface of the driven member 20 or upper surface or lower face.User can basis The demand of real space layout is combined matching, for example, the active tooth socket 11 that outer circumferential surface can be used matches the driven of outer circumferential surface Tooth socket 21, the active tooth socket 11 of outer circumferential surface match the driven tooth socket 21 of upper surface, the active tooth socket 11 of lower face matches upper surface Driven tooth socket 21, etc..It is not limited.

Fourth embodiment (the sealing cup height adjustment mechanism of inlet valve)

As shown in Figure 7 and Figure 8, a kind of inlet valve is present embodiments provided, the inlet valve is equipped with above-mentioned first and second, A kind of novel drive structure any one of three embodiments, the novel drive structure are high for the sealing cup of regulating water inlet valve Degree.

In the present embodiment, inlet valve include water inlet body 53, be secured on water body 53 sealing cup 51, rotate attaching In the adjusting rod 52 on sealing cup 51, the driven member 20, ball 30 and predetermined trajectory 31 are arranged on the bottom of the sealing cup 51 Portion；The driving link 10 coordinates with the circumferential /V of the adjusting rod 52；The water inlet body 53 is equipped with longitudinally arranged second Tooth 55 is adjusted, the driven member 20 is equipped with the first adjusting tooth 22 for adjusting 55 threaded engagement of tooth with described second；Operate the tune Pole 52 drives the driving link 10 to rotate, and the driven member 20, which rotates therewith and passes through described first, adjusts tooth 22 along described Second adjusting tooth 55 of water inlet body 53 moves up and down, and realizes that the height of the sealing cup 51 is adjusted.

In the present embodiment, the active tooth socket 11 is circumferentially positioned at the outer circumferential surface of the driving link 10, the driven tooth socket 21 are circumferentially positioned at the lower face of the driven member 20, and the first adjusting tooth 22 is helical tooth and is arranged on the driven member 20 Outer circumferential surface.

5th embodiment (cistern fittings collapsing length adjusting mechanism)

As shown in Figures 9 to 11, a kind of cistern fittings are present embodiments provided, are adjusted including the first regulating part and second Part, first regulating part are set in outside second regulating part and can be with the second regulating part axial relative movements, also Including the novel drive structure any one of above-mentioned first, second and third embodiment, the novel drive structure is arranged on described For the collapsing length between the first regulating part of adjusting and the second regulating part on first regulating part；The outer wall of second regulating part Tooth 55 ' is adjusted equipped with second, the driven member 20 is equipped with the first adjusting tooth 22 ' for adjusting 55 ' threaded engagement of tooth with described second； The driving link 10 is rotated, the driven member 20, which rotates therewith and passes through described first, adjusts tooth 22 ' along the described second adjusting The second of part adjusts tooth 55 ' and moves up and down, and realizes the adjusting of the collapsing length of first regulating part and the second regulating part.

Wherein, the cistern fittings can be inlet valve or drain valve etc.；In the present embodiment, the cistern fittings with into Exemplified by water valve, first regulating part is the water inlet body 53 of inlet valve, and second regulating part is the water inlet pipe 54 of inlet valve, The collapsing length intake between body 53 and water inlet pipe 54 is adjusted with the height of regulating water inlet valve by the novel drive structure； The driving link 10 is the adjustment cap at the top for being arranged on first regulating part, and the active tooth socket 11 is circumferentially positioned at institute State the lower face of driving link 10；The driven member 20 is the lantern ring for the bottom for being arranged on first regulating part, and described driven Tooth socket 21 is circumferentially positioned at the upper surface of the driven member 20；The first adjusting tooth 22 ' for helical tooth and be arranged on it is described from The inner peripheral surface of moving part 20, the predetermined trajectory 31 are arranged on the outer wall of the water inlet body 53.

The preferred embodiment of the present invention has shown and described in above description, as previously described, it should be understood that the present invention is not office Be limited to form disclosed herein, be not to be taken as the exclusion to other embodiment, and available for various other combinations, modification and Environment, and can be changed in the scope of the invention is set forth herein by the technology or knowledge of above-mentioned introduction or association area It is dynamic.And changes and modifications made by those skilled in the art do not depart from the spirit and scope of the present invention, then it all should be appended by the present invention In scope of the claims.

Claims (10)

1. a kind of novel drive structure, including driving link (10) and driven member (20), which is characterized in that further include described in being arranged on Several balls (30) between driving link (10) and the driven member (20), the ball (30) are arranged in predetermined trajectory (31) On；Wherein, the driving link (10) is equipped with the active tooth socket (11) with the ball (30) engaged transmission cooperation, the driven member (20) it is equipped with the driven tooth socket (21) with the ball (30) engaged transmission cooperation；The driving link (10) moves through described Active tooth socket (11) drives the ball (30) to be moved along the predetermined trajectory (31), and then passes through the driven tooth socket (21) The driven member (20) is driven to move.

2. novel drive structure according to claim 1, it is characterised in that：The predetermined trajectory (31) for planar tracks or Person's solid track.

3. novel drive structure according to claim 1, it is characterised in that：The driving link (10) rotates and passes through described Active tooth socket (11) drives the ball (30) along the predetermined trajectory (31) shuttling movement, and then passes through the driven tooth socket (21) driven member (20) is driven to rotate.

4. novel drive structure according to claim 1, it is characterised in that：The active tooth socket (11) and the driven tooth Slot (21) is the arc groove to match with the size and radian of the ball (30).

5. novel drive structure according to claim 1, it is characterised in that：The corresponding active of the predetermined trajectory (31) The position of part (10) and the driven member (20) is respectively equipped with notch (32), the active tooth socket (11) and the driven tooth socket (21) coordinated by the notch (32) and the ball (30) engaged transmission.

6. novel drive structure according to any one of claims 1 to 5, it is characterised in that：It is the driving link (10), driven Part (20), ball (30) and predetermined trajectory (31) may be contained in a matrix (40), further include driving driving link (10) fortune Dynamic active handle (41) and the driven shaft (42) of the movement of the output driven member (20).

7. a kind of inlet valve, it is characterised in that：The inlet valve is equipped with as claim 1 to 6 any one of them is a kind of new Type drive mechanism.

8. a kind of inlet valve according to claim 7, it is characterised in that：The inlet valve includes water inlet body (53), dress Be connected on water body (53) sealing cup (51), rotate and be secured to adjusting rod (52) on sealing cup (51), the driven member (20), ball (30) and predetermined trajectory (31) are arranged on the bottom of the sealing cup (51)；The driving link (10) and the tune Pole (52) circumferential direction /V cooperation；The water inlet body (53) is equipped with longitudinally arranged second and adjusts tooth (55), described driven Part (20) is equipped with the first adjusting tooth (22) for adjusting tooth (55) threaded engagement with described second；Operate the adjusting rod (52) drive The driving link (10) rotates, and the driven member (20) rotates therewith and adjusts tooth (22) along the water inlet by described first The second of body (53) adjusts tooth (55) and moves up and down, and realizes that the height of the sealing cup (51) is adjusted.

9. a kind of cistern fittings, including the first regulating part and the second regulating part, first regulating part is set in described second and adjusts It and can be with the second regulating part axial relative movement outside section part, which is characterized in that further include any one of claim 1 to 6 The novel drive structure, the novel drive structure are arranged on first regulating part；Outside second regulating part Wall is equipped with second and adjusts tooth (55 '), and the driven member (20) is equipped with the first tune for adjusting tooth (55 ') threaded engagement with described second Save tooth (22 ')；The driving link (10) is rotated, the driven member (20), which rotates therewith and passes through described first, adjusts tooth (22 ') Tooth (55 ') is adjusted along the second of second regulating part to move up and down, and realizes that the height of first regulating part is adjusted.

10. cistern fittings according to claim 9, which is characterized in that first regulating part is the water inlet sheet of inlet valve Body (53), second regulating part are the water inlet pipe (54) of inlet valve；The driving link (10) is adjusted to be arranged on described first The adjustment cap at the top of part, and the active tooth socket (11) is circumferentially positioned at the lower face of the driving link (10)；It is described driven Part (20) be arranged on first regulating part bottom lantern ring, and the driven tooth socket (21) be circumferentially positioned at it is described driven The upper surface of part (20)；The first adjusting tooth (22 ') is helical tooth and is arranged on the inner peripheral surface of the driven member (20), described Predetermined trajectory (31) is arranged on the outer wall of the water inlet body (53).