Disclosure of Invention
The invention aims to provide a portable water cup with a stirring function, which can solve the problems in the prior art.
The invention is realized by the following technical scheme: the invention discloses a portable water cup with a stirring function, which comprises a cup cover, a cup body and a cavity arranged at the top of the cup cover, wherein spiral grains are arranged on the inner wall of the cup cover, the cup cover is in matched connection with the spiral grains of the cup body, a supporting column is fixedly arranged on the bottom surface of the cavity, a rotating and locking shaft which extends forwards and backwards is in matched connection with the supporting column in a rotating and winding way, a sliding cavity is arranged at the tail end of the front side extension of the rotating and locking shaft, an inner locking and rotating shaft is matched and matched with the inner rotating and winding way in the rear side wall of the sliding cavity, the rear end of the inner locking and rotating shaft is in matched connection with a locking motor, an electricity storage part is arranged in the rotating and locking shaft at the rear side of the locking motor, a locking part which is in matched and sliding connection is arranged at the front end of the rotating and locking shaft, and locking part comprises a plate, a first convex block fixed at the rear side of the plate, a first bolt fixed at the rear side boundary of the plate A locking transmission cavity is arranged in the second bolt, an outer locking rotating shaft which extends forwards and backwards is connected in a rotating and rotating manner in the middle of the rear side wall of the locking transmission cavity, the rear end of the external locking rotating shaft extends out of the rear side of the second bolt, the front side extension tail of the external locking rotating shaft extends into the locking conveying cavity, and a convex wheel is fixedly arranged at the tail, the rear side walls of the locking and conveying cavities on the upper side and the lower side of the convex rotating wheel are matched and fixedly provided with guide and moving sleeves, each guide and moving sleeve is connected with a locking rod extending towards the upper side and the lower side in a sliding and matching manner, the left side and the right side of the cam wheel are symmetrically provided with second protruding blocks, push rods are respectively connected between the bottom tail of the locking rod and the left side of the second protruding blocks at the upper side and between the top tail of the locking rod and the right side of the second protruding blocks at the lower side in a matching manner, and a performance optimization assembly is arranged on the locking motor.
According to a preferable technical scheme, a first rotating wheel is fixedly arranged at the rear extension tail of the rotating and winding locking shaft, a stirring motor is fixedly arranged in the rear side of the supporting column below the rotating and winding locking shaft, the rear side of the stirring motor is connected with a second rotating wheel in a matched mode, and a conveying belt is connected between the first rotating wheel and the second rotating wheel in a matched mode.
Preferably, the winding locking shaft is electrically connected with the power storage part.
As a preferable technical scheme, a stirring head is cooperatively connected between the locking portion and the rotating locking shaft, a second locking portion is arranged in the middle of the stirring head, a clamping hole for cooperatively connecting with the first protruding block is arranged in the middle of the second locking portion, the diameter of the clamping hole is equal to that of the first protruding block, and a connecting slot hole for cooperatively connecting with the first bolt is formed in the boundary of the second locking portion outside the clamping hole.
As a preferable technical scheme, the rear side wall of the locking and conveying cavity between the upper guide and shift sleeve and the cam wheel and the rear side wall of the locking and conveying cavity between the lower guide and shift sleeve and the cam wheel are both provided with clamping blocks.
As a preferable technical scheme, the front side extension tail end face boundary of the rotating lock shaft is provided with grooves for being in fit connection with the first bolt, the upper inner wall and the lower inner wall of the sliding cavity are provided with lock holes in proportion, the top wall and the lower wall of the upper lock hole are provided with touch controllers in the bottom wall of the lock hole, and the touch controllers are electrically connected with the lock motor.
As preferred technical scheme, the upside the break-through is stretched at locking pole top the top surface of second bolt and the cooperation of sliding is connected, the downside the break-through is stretched at locking pole bottom the bottom surface of second bolt and the cooperation of sliding is connected, the upside locking pole bottom end both sides and downside the locking pole top end left and right sides all is equipped with the third protruding piece, the upside locking pole bottom end both sides the third protruding piece with the upside guide move the upside between the cover locking pole surface and downside locking pole top end both sides the third protruding piece with the downside guide move the downside between the cover locking pole surface all is equipped with the spring circle.
As a preferable technical solution, the performance optimization assembly includes a noise elimination sleeve and a vibration reduction pad, the noise elimination sleeve is sleeved on the outer surface of the locking motor, the vibration reduction pad is arranged on the upper top surface and the left and right side surfaces of the locking motor, the vibration reduction pad is arranged outside the noise elimination sleeve, the vibration reduction pad is used for reducing vibration generated when the locking motor operates, and the noise elimination sleeve is used for absorbing noise generated when the locking motor operates, so as to optimize performance.
The invention has the beneficial effects that:
1. a sliding cavity is arranged at the front side extension tail of the rotating and winding locking shaft, the rear side wall of the sliding cavity is internally rotated and matched with the internal locking and rotating shaft, the rear end of the internal locking and rotating shaft is matched and connected with the locking motor, and an electricity storage part is arranged in the rotating and winding locking shaft at the rear side of the locking motor, so that the automatic control locking work is realized.
2. The front end of a rotating and winding locking shaft is provided with a locking part which is connected in a sliding fit manner, the locking part comprises a plate, a first protruding block fixed on the rear side of the plate, a first bolt fixed on the rear side boundary of the plate outside the first protruding block and a second bolt fixed on the rear side of the first protruding block, a locking and conveying cavity is arranged in the second bolt, an outer locking and conveying shaft which is arranged in the middle of the rear side wall of the locking and conveying cavity in a rotating and winding manner and extends forwards and backwards is connected with the middle of the rear side wall of the locking and conveying cavity, the rear end of the outer locking and conveying shaft extends out of the rear side of the second bolt, the tail of the outer locking and conveying shaft extends into the locking and conveying cavity and is fixedly provided with a convex rotating wheel at the tail, guide sleeves are fixedly arranged on the rear side walls of the locking and conveying cavities on the upper side and the lower side of the convex rotating wheel in a matching manner, locking rods which extend towards the upper side and the lower side and the upper side and the left side are connected in a sliding fit manner are connected The push rod is connected, so that the automatic extending, locking and conveying work of the locking rod is automatically controlled.
3. The stirring head is connected between the locking part and the rotating locking shaft in a matched mode, the second locking part is arranged in the middle of the stirring head, the clamping hole which is connected with the first protruding block in a matched mode is formed in the middle of the second locking part, the diameter of the clamping hole is equal to that of the first protruding block, and the connecting groove hole which is connected with the first bolt in a matched mode is formed in the boundary of the second locking part outside the clamping hole.
4. The automatic stirring head is simple in structure and convenient to operate, can be automatically and quickly installed when stirring is needed, can be used as a common water cup when the stirring head is not needed to be taken down, does not need to be matched with a stirrer to be used, and is practical and portable.
Detailed Description
As shown in fig. 1-10, the portable water cup with stirring function of the present invention comprises a cup cover 4, a cup body 3 and a cavity 6 arranged on the top of the cup cover 4, wherein spiral grains 41 are arranged on the inner wall of the cup cover 4, the cup cover 4 is connected with the cup body 3 in a matching manner, a supporting column 61 is fixedly arranged on the bottom surface of the cavity 6, a winding locking shaft 5 extending forward and backward is connected in the supporting column 61 in a winding manner, a sliding cavity 51 is arranged in the tail of the front side of the winding locking shaft 5, an inner locking rotating shaft 551 is matched in the rear side wall of the sliding cavity 51 in a winding manner, the rear end of the inner locking rotating shaft 551 is connected with a locking motor 55 in a matching manner, an electric storage part 53 is arranged in the winding locking shaft 5 on the rear side of the locking motor 55, a locking part 8 connected in a sliding manner is arranged at the front end of the winding locking shaft 5, the locking part 8 comprises a plate 86, a screw rod, a, A first protruding block 82 fixed on the rear side of the plate 86, a first bolt 83 fixed on the rear side boundary of the plate 86 outside the first protruding block 82, and a second bolt 85 fixed on the rear side of the first protruding block 82, wherein a locking transmission chamber 851 is arranged in the second bolt 85, an outer locking transmission shaft 84 extending forward and backward is connected in a rotating manner in the middle of the rear side wall of the locking transmission chamber 851, the rear end of the outer locking transmission shaft 84 extends out of the rear side of the second bolt 85, the front extension tail of the outer locking transmission shaft 84 extends into the locking transmission chamber 851 and is fixedly provided with a cam wheel 854 at the tail, guide sleeves 852 are fixedly arranged on the rear side walls of the locking transmission chamber 851 on the upper and lower sides of the cam wheel 854 in a matching manner, locking rods 853 extending toward the upper and lower sides are connected in each guide sleeve 852 in a sliding manner, and second protruding blocks 8541 are arranged on the left and right sides of the cam wheel 854 in a matching manner, upside locking pole 853 bottom end and left side between the second protruding piece 8541 and downside locking pole 853 top end and right side between the second protruding piece 8541 the cooperation respectively is connected with catch bar 855, be provided with the performance optimization subassembly on the locking motor 55.
Wherein, it is fixed to be equipped with first runner 52 to change around locking solid 5 rear side extension end, change around locking solid 5 below the support column 61 rear side internal fixation is equipped with stirring motor 62, stirring motor 62 rear side cooperation is connected with second runner 621, first runner 52 with the cooperation is connected with conveyer belt 622 between the second runner 621 to realize stirring work's control.
Wherein, the rotating and winding locking shaft 5 is electrically connected with the power storage part 53.
A stirring head 7 is cooperatively connected between the locking portion 8 and the revolving locking shaft 5, a second locking portion 71 is arranged in the middle of the stirring head 7, a clamping hole 72 for cooperatively connecting with the first protruding block 82 is arranged in the middle of the second locking portion 71, the diameter of the clamping hole 72 is equal to that of the first protruding block 82, and a connecting slot 73 for cooperatively connecting with the first bolt 83 is arranged on the boundary of the second locking portion 71 outside the clamping hole 72, so that rapid positioning and installation are realized, and the installation speed and the installation stability are improved.
The locking block 856 is respectively arranged on the rear side wall of the locking transmission cavity 851 between the guide sleeve 852 at the upper side and the cam wheel 854 and on the rear side wall of the locking transmission cavity 851 between the guide sleeve 852 at the lower side and the cam wheel 854, so that the directional sliding and limiting work of the locking rod 853 is realized, and the overtravel of the locking rod 853 is prevented.
The front side of the revolving locking shaft 5 extends to the end face boundary and is provided with a groove 56 for being matched and connected with the first bolt 83, the upper and lower inner walls in the sliding cavity 51 are provided with locking holes 54 in proportion, the top wall in the upper locking hole 54 and the bottom wall in the lower locking hole 54 are provided with touch controllers 541, and the touch controllers 541 are electrically connected with the locking motor 55.
Wherein, the upside the break-through is extended at locking pole 853 top the top surface and the cooperation of sliding of second bolt 85 are connected, the downside the break-through is extended to locking pole 853 bottom the bottom surface and the cooperation of sliding of second bolt 85 are connected, the upside locking pole 853 bottom end both sides and downside the locking pole 853 top end left and right sides all is equipped with third bulge 8531, the upside locking pole 853 bottom end both sides third bulge 8531 and upside lead the upside between the cover 852 lock pole 853 surface and downside the both sides are ended at locking pole 853 top third bulge 8531 and downside lead the downside between the cover 852 lock pole 853 surface all is equipped with spring circle 857 to realize the conveying work of locking pole 853.
The performance optimization assembly comprises a noise elimination sleeve 552 and a vibration reduction pad 553, wherein the noise elimination sleeve 552 is sleeved on the outer surface of the locking motor 55, the vibration reduction pads 553 are arranged on the upper top surface and the left and right side surfaces of the locking motor 55, the vibration reduction pad 553 is arranged outside the noise elimination sleeve 552, the vibration reduction pad 553 is used for reducing vibration generated when the locking motor 55 operates, and the noise elimination sleeve 552 is used for absorbing noise generated when the locking motor 55 operates.
At the initial state, the third protruding blocks 8531 and the lower sides at the two sides of the tail of the bottom of the locking rod 853 are pressed by the spring coil 857 to make the locking rod 853 completely located in the second bolt 85, at this time, the tail of the bottom of the locking rod 853 abuts against the upper side of the block 856, at the same time, the tail of the top of the locking rod 853 abuts against the lower side of the block 856, at this time, the second protruding blocks 8541 at the left and right sides of the cam wheel 854 are pressed by the push rod 855, so that the second protruding blocks 8541 at the left and right sides of the cam wheel 854 are respectively in a vertical relative state with the inner walls at the left and right sides of the locking and conveying cavity 851.
When the stirring head 7 needs to be installed and stirred, the stirring head 7 is firstly moved to the rear position of the locking part 8, so that the second pin 85 on the locking part 8 is in a relative position with the clamping hole 72 in the second locking part 71, and at the same time, the first pin 83 on the locking part 8 is in a relative position with the connecting slot hole 73, then the locking part 8 is moved backwards, so that the second pin 85 on the rear side of the locking part 8 gradually extends into the clamping hole 72 until the first protruding block 82 on the locking part 8 is completely inserted into the clamping hole 72, at this time, the first pin 83 on the locking part 8 passes through the connecting slot hole 73 to the maximum extent and extends out of the rear side of the second locking part 71, then the locking part 8 is moved, so that the second pin 85 on the rear side of the locking part 8 is in a relative position with the sliding cavity 51 in the rotating locking shaft 5, meanwhile, the first bolt 83 at the rear side of the second locking part 71 is opposite to the groove 56 at the front end surface of the rotating locking shaft 5, then the locking part 8 and the stirring head 7 in fit connection with the locking part 8 are moved to the rear side, the second bolt 85 at the rear side of the stirring head 7 is gradually inserted into the sliding chamber 51 until the rear side of the second bolt 85 abuts against the rear side wall of the sliding chamber 51, at this time, the outer locking rotating shaft 84 in the rear side of the second bolt 85 is completely inserted into the inner locking rotating shaft 551 and in fit connection, at the same time, the top end of the upper locking rod 853 is opposite to the locking hole 54 in the upper inner wall of the sliding chamber 51, and the bottom end of the lower locking rod 853 is opposite to the locking hole 54 in the lower inner wall of the sliding chamber 51, at this time, the rear side of the second locking portion 71 abuts against the front side of the rotating locking shaft 5, and at the same time, the first pin 83 at the rear side of the second locking portion 71 extends into the groove 56 to the maximum extent, at this time, the locking motor 55 drives the inner locking rotating shaft 551 to rotate clockwise, the inner locking rotating shaft 551 drives the outer locking rotating shaft 84 to rotate clockwise, the outer locking rotating shaft 84 drives the cam wheel 854 to rotate clockwise, at this time, the cam wheel 854 drives the pushing rods 855 at the left and right sides through the second protruding blocks 8541 at the left and right sides to push the locking rods 853 at the upper and lower sides to overcome the jacking force of the spring ring 857, and at the same time, the locking rods 853 at the upper and lower sides gradually extend out of the upper and lower sides of the second pin 85 and gradually slide into the locking holes 54 at the upper and lower sides respectively until the top end of the second pin 85 at the upper side and the top wall of the locking hole 54 at the upper side as shown in fig. 9 The touch controllers 541 are abutted, meanwhile, the bottom tail of the second bolt 85 at the lower side is abutted against the touch controllers 541 at the inner bottom wall of the locking holes 54 at the lower side, at this time, the touch controllers 541 at the upper and lower sides simultaneously generate signals and control the locking motor 55 to stop rotating, at this time, the second bolts 85 at the upper and lower sides are inserted into the locking holes 54 at the upper and lower sides to the maximum extent, then the stirring motor 62 drives the second rotating wheel 621 to rotate, the second rotating wheel 621 drives the first rotating wheel 52 and the rotating locking shaft 5 on the first rotating wheel 52 to rotate through the conveyor belt 622, and the rotating locking shaft 5 drives the stirring head 7 to rotate to realize stirring work; when the stirring head 7 needs to be disassembled, the locking motor 55 is controlled to return the locking rod 853 to the initial position, and then the locking part 8 is taken out.
The invention has the beneficial effects that:
1. a sliding cavity is arranged at the front side extension tail of the rotating and winding locking shaft, the rear side wall of the sliding cavity is internally rotated and matched with the internal locking and rotating shaft, the rear end of the internal locking and rotating shaft is matched and connected with the locking motor, and an electricity storage part is arranged in the rotating and winding locking shaft at the rear side of the locking motor, so that the automatic control locking work is realized.
2. The front end of a rotating and winding locking shaft is provided with a locking part which is connected in a sliding fit manner, the locking part comprises a plate, a first protruding block fixed on the rear side of the plate, a first bolt fixed on the rear side boundary of the plate outside the first protruding block and a second bolt fixed on the rear side of the first protruding block, a locking and conveying cavity is arranged in the second bolt, an outer locking and conveying shaft which is arranged in the middle of the rear side wall of the locking and conveying cavity in a rotating and winding manner and extends forwards and backwards is connected with the middle of the rear side wall of the locking and conveying cavity, the rear end of the outer locking and conveying shaft extends out of the rear side of the second bolt, the tail of the outer locking and conveying shaft extends into the locking and conveying cavity and is fixedly provided with a convex rotating wheel at the tail, guide sleeves are fixedly arranged on the rear side walls of the locking and conveying cavities on the upper side and the lower side of the convex rotating wheel in a matching manner, locking rods which extend towards the upper side and the lower side and the upper side and the left side are connected in a sliding fit manner are connected The push rod is connected, so that the automatic extending, locking and conveying work of the locking rod is automatically controlled.
3. The stirring head is connected between the locking part and the rotating locking shaft in a matched mode, the second locking part is arranged in the middle of the stirring head, the clamping hole which is connected with the first protruding block in a matched mode is formed in the middle of the second locking part, the diameter of the clamping hole is equal to that of the first protruding block, and the connecting groove hole which is connected with the first bolt in a matched mode is formed in the boundary of the second locking part outside the clamping hole.
4. The automatic stirring head is simple in structure and convenient to operate, can be automatically and quickly installed when stirring is needed, can be used as a common water cup when the stirring head is not needed to be taken down, does not need to be matched with a stirrer to be used, and is practical and portable.
The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.