JP6442813B1 - Portable outdoor cup - Google Patents

Abstract

Provided is a portable outdoor cup in which raw materials such as tea, water, coffee, etc. are put and a user does not need to stir by hand and the operation steps are simple.
SOLUTION: Multiple sets of second stirring blades 611 are installed on the outer surface of a first exchange shaft 633 of a first water storage housing 61. The first electric rotating machine 622 is used to control and simultaneously rotate the first conical pulley 621 and the second conical pulley 646. At this time, the first conical pulley 621 is rotated by the second exchange shaft 623 and the second water storage housing 68. In combination with the first stirring blade 681, the mixing and mixing operation of the raw materials is realized, and at the same time, the first conical pulley 621 is connected to the first conical pulley 625 and the first conical pulley 625 at the bottom. The first exchange shaft 633 rotates in conjunction with the exchange shaft 633, and at the same time, the first agitation operation is performed in conjunction with the second stirring blade 611 in the first water storage casing 61.
[Selection] Figure 2

Description

The present invention relates to the technical field of cups, and more particularly to portable outdoor cups.

A cup is a container in which people fill liquids and is used to drink tea, water, coffee and drinks on weekdays, but when using the current cup, the ingredients are put into the cup by hand to control the amount of ingredients. It is difficult to perform, and it is necessary for the user to stir by hand, and the operation steps are complicated.

Chinese Patent Application No. 105125019

The present invention provides a portable outdoor cup for the necessary technical problems to be solved, which can solve the current technical problems.

The portable outdoor cup of the present invention includes a cup, a first water storage housing is installed in the cup, a first air groove is installed in the cup above the first water storage housing, and the first air groove and A second air ditch is installed in the cup between the first water storage enclosures, a second water storage enclosure is installed in the cup on the left side of the first air ditch, and the cup on the right side of the first air ditch. A first slip connection housing is installed, and a bottom end of the first slip connection housing is connected to a right end of the second air groove, the first air groove and the first slip connection housing. A first electric rotating machine is fixedly installed between the bodies, and a first conical pulley that is inserted into the first air groove is connected to a left end of the first electric rotating machine. A second conical pulley to be inserted into the first sliding connection housing is connected to the right end, and the first sliding connection housing is connected. A third conical pulley is rotatably engaged with and connected to the inner top wall of the second conical pulley so that power can be transmitted. A first sliding connection block is slidably engaged with and connected to the first sliding connection housing, and an inner spline replacement shaft that is installed to extend downward is engaged with the first sliding connection block so as to be rotatable. The bottom extension end of the inner spline exchange shaft extends out of the bottom end face of the first sliding connection block, and a fourth conical pulley is fixedly installed at the bottom extension end, and the top of the inner spline exchange shaft An outer spline arm extending upwardly is slidably engaged and connected, and a top extension end of the outer spline arm is fixedly engaged and connected to a bottom end surface of the third conical pulley, Second empty groove A first exchange shaft in which a pipe set is rotatably engaged and connected, a fifth conical pulley is fixedly installed around an outer surface of the pipe set, and is installed extending vertically in the pipe set Is engaged with and connected to the gap, and the top extension end of the first exchange shaft passes through the portion between the first air groove and the second air groove so as to rotate and engage with this portion. A sixth conical pulley that is inserted into the first air groove is fixedly installed at a top extension end of the first exchange shaft, and the sixth conical pulley can transmit power to the first conical pulley. The bottom extension end of the first exchange shaft passes through the portion between the second empty groove and the first water storage housing so that it can rotate and engage with this portion. The first storage shaft into which the bottom extension end of the first exchange shaft inserts the first water storage housing It is engaged with and connected to the inner bottom wall of the water casing so as to be rotatable, and is connected to the cup on the left side of the second empty groove so as to be connected to the first water storage casing and the second water storage casing. A second sliding connection housing installed on the pipe extending from side to side is installed, an opening / closing component is installed on the second sliding connection housing, and a rear side of the first sliding connection housing A guide connection groove is installed in the inner wall, and a variable part is installed in the guide connection groove.

As another technical solution, both feet are fixedly installed around the bottom of the cup, and a drain valve installed so as to be connected to the first water storage housing is fixed at a position approaching the bottom of the right end surface of the cup. Installed.

As another technical solution, a second exchange shaft that is installed to extend to the left and right in a portion between the second water storage housing and the first air groove is rotatably engaged and connected, and the second exchange shaft The left extended end of the second water storage housing is rotatably engaged with and connected to the left inner wall of the second water storage housing, and the right extension end of the second exchange shaft is connected to the first empty groove. A plurality of first agitating blades are installed on the outer surface of the second exchange shaft of the second water storage casing in a fixed engagement with and connected to the left end face of the first conical pulley that is inserted into the first conical pulley.

As another technical solution, the opening / closing component is slidably engaged with and connected to the second sliding connection housing, and a portion between the second sliding connection housing and the second empty groove. A first screw connection lever that is rotatably engaged and connected, and a left extension end of the first screw connection lever is inserted into the second slide connection housing; A through-hole is provided in the second sliding connection block on one side that is engaged and connected with a screw and is separated from the first screw connection lever, and is inserted into the second empty groove at the right extension end of the first screw connection lever. A seventh conical pulley is fixedly installed, the seventh conical pulley is connected to the left side of the fifth conical pulley so that power can be transmitted, and the fifth conical pulley is connected to the seventh conical pulley. One side away from the pulley is the first slide Plugging in the connection housing.

As another technical solution, the variable component includes a guide connection block that is slidably engaged with and connected to the guide connection groove, and a second screw connection lever that is engaged with and connected to the guide connection block with a screw. The bottom end of the two-screw connecting lever is rotatably engaged with and connected to the inner bottom wall of the guide connecting groove, and the top end of the second screw connecting lever can transmit power to the second electric rotating machine. The outer surface of the second electric rotating machine is fixedly installed in the guide connection groove, and the front end of the guide connection block is fixedly connected to the rear end of the first sliding connection block. Engage and connect.

As another technical solution, multiple sets of second stirring blades are installed on the outer surface of the first exchange shaft of the first water storage housing.

The beneficial effect of the present invention is that the present invention is simple in structure and convenient to operate, and the first electric rotating machine is used to control and rotate the first conical pulley and the second conical pulley at the same time. One conical pulley interlocks with the second exchange shaft and the first stirring blade in the second water storage housing, thereby realizing the mixing and mixing work of raw materials, and at the same time the first conical pulley is the sixth conical pulley And the first exchange shaft in conjunction with the second agitating blade in the first water storage housing, and the first agitation work is performed in conjunction with the first exchange shaft at the bottom of the sixth conical pulley, After mixing and mixing the raw materials, the second electric rotating machine is used to rotate in conjunction with the second screw connecting lever, and the second screw connecting lever is interlocked with the guide connecting block to the bottom position of the guide connecting groove. At this time, the guide connection block is moved to the first sliding connection block. In conjunction with the fourth conical pulley at the bottom of the hook, the fifth conical pulley is engaged and connected so that power can be transmitted, then the first electric rotating machine is controlled and rotated, and the second conical pulley Rotates in conjunction with the third conical pulley and the outer spline arm at the bottom of the third conical pulley, and the outer spline arm interlocks with the inner spline replacement shaft and the fourth conical pulley at the bottom of the inner spline replacement shaft. At this time, the fourth conical pulley rotates in conjunction with the fifth conical pulley, and at the same time the fifth conical pulley rotates in conjunction with the seventh conical pulley and the first screw connection lever. The first screw connection lever is slid to the rightmost position of the second sliding connection housing in conjunction with the second sliding connection block, and at the same time, the through hole is in a relative position with the pipe. At this time, the raw material of the second water storage housing First through the pipe After the raw material flows into the water casing, the first electric rotating machine is controlled to rotate in reverse, and the first screw connection lever is interlocked with the second sliding connection block to Slide to the left position, then the second electric rotating machine rotates in reverse with the second screw connection lever, and the second screw connection lever returns to the initial position with the guide connection block. The first conical pulley is controlled through one electric rotating machine and interlocked with the second exchange shaft and the first stirring blade in the second water storage housing, thereby automatically controlling the raw material stirring operation and Improve the working efficiency of stirring and automatically blending, reduce the manual operation part of the operator, greatly increase the speed of raw material stirring, save time and labor, and increase the usage efficiency.

The beneficial effect of the present invention is that the present invention is simple in structure and convenient to operate, and the first electric rotating machine is used to control and rotate the first conical pulley and the second conical pulley at the same time. One conical pulley interlocks with the second exchange shaft and the first stirring blade in the second water storage housing, thereby realizing the mixing and mixing work of raw materials, and at the same time the first conical pulley is the sixth conical pulley And the first exchange shaft in conjunction with the second agitating blade in the first water storage housing, and the first agitation work is performed in conjunction with the first exchange shaft at the bottom of the sixth conical pulley, After mixing and mixing the raw materials, the second electric rotating machine is used to rotate in conjunction with the second screw connecting lever, and the second screw connecting lever is interlocked with the guide connecting block to the bottom position of the guide connecting groove. At this time, the guide connection block is moved to the first sliding connection block. In conjunction with the fourth conical pulley at the bottom of the hook, the fifth conical pulley is engaged and connected so that power can be transmitted, then the first electric rotating machine is controlled and rotated, and the second conical pulley Rotates in conjunction with the third conical pulley and the outer spline arm at the bottom of the third conical pulley, and the outer spline arm interlocks with the inner spline replacement shaft and the fourth conical pulley at the bottom of the inner spline replacement shaft. At this time, the fourth conical pulley rotates in conjunction with the fifth conical pulley, and at the same time the fifth conical pulley rotates in conjunction with the seventh conical pulley and the first screw connection lever. The first screw connection lever is slid to the rightmost position of the second sliding connection housing in conjunction with the second sliding connection block, and at the same time, the through hole is in a relative position with the pipe. At this time, the raw material of the second water storage housing First through the pipe After the raw material flows into the water casing, the first electric rotating machine is controlled to rotate in reverse, and the first screw connection lever is interlocked with the second sliding connection block to Slide to the left position, then the second electric rotating machine rotates in reverse with the second screw connection lever, and the second screw connection lever returns to the initial position with the guide connection block. The first conical pulley is controlled through one electric rotating machine and interlocked with the second exchange shaft and the first stirring blade in the second water storage housing, thereby automatically controlling the raw material stirring operation and Improve the working efficiency of stirring and automatically blending, reduce the manual operation part of the operator, greatly increase the speed of raw material stirring, save time and labor, and increase the usage efficiency.

FIG. 1 is a schematic diagram of the overall external structure of a portable outdoor cup of the present invention. FIG. 2 is a schematic diagram of the internal structure of the cup of the present invention. FIG. 3 is a schematic diagram of the distribution structure of variable parts according to the present invention.

The present invention will be described in detail with reference to FIGS.

1 to 3, the portable outdoor cup of the present invention includes a cup 6, a first water storage casing 61 is installed in the cup 6, and the cup 6 on the upper side of the first water storage casing 61 is a second one. One empty groove 62 is installed, a second empty groove 63 is installed in the cup 6 between the first empty groove 62 and the first water storage housing 61, and the cup 6 on the left side of the first empty groove 62 is installed. A second water storage housing 68 is installed, a first sliding connection housing 64 is installed in the cup 6 on the right side of the first air groove 62, and a bottom end of the first sliding connection housing 64 is the second end. The first electric rotating machine 622 is fixedly installed between the first empty groove 62 and the first sliding connection housing 64, and is connected to the right end of the empty groove 63, and the first electric rotation A first conical pulley 621 to be inserted into the first air groove 62 is connected to the left end of the machine 622, and is inserted into the first sliding connection housing 64 to the right end of the first electric rotating machine 622. A second conical pulley 646 is connected, and a third conical pulley 644 is engaged and connected to the inner top wall of the first sliding connection housing 64 so that power can be transmitted to the second conical pulley 646. A first sliding connection block 641 is slidably engaged and connected to the first sliding connection housing 64 on the lower side of the second conical pulley 646. An inner spline exchange shaft 642 installed extending downward on the slide connection block 641 is rotatably engaged and connected, and the bottom extension end of the inner spline exchange shaft 642 is the bottom end surface of the first slide connection block 641 A fourth conical pulley 643 is fixedly installed at the bottom extension end, extending outward, and an outer spline arm 645 extending upward installed on the top of the inner spline replacement shaft 642 is slidably engaged and connected. , The top extension of the outer spline arm 645 A long end is fixedly engaged and connected to the bottom end face of the third conical pulley 644, and a pipe set 631 is rotatably engaged and connected to the second empty groove 63. A fifth conical pulley 632 is fixedly installed around the outer surface, and a first exchange shaft 633 installed vertically extending on the pipe set 631 is engaged with and connected to a gap. A top extension end of the first exchange shaft 633 is rotatably engaged with and connected to the first empty groove 62 and the second empty groove 63. A sixth conical pulley 625 to be inserted into the first air groove 62 is fixedly installed, and the sixth conical pulley 625 is engaged with and connected to the first conical pulley 621 so that power can be transmitted. The bottom extension end of the first exchange shaft 633 passes through the portion between the second empty groove 63 and the first water storage casing 61. The first exchange shaft 633 is rotatably engaged with and connected to the lever portion, and the bottom extension end of the first exchange shaft 633 is rotatable with the inner bottom wall of the first water storage housing 61 into which the first water storage housing 61 is inserted. A pipe 66 is installed in the cup 6 on the left side of the second air groove 63 so as to be connected to the first water storage casing 61 and the second water storage casing 68. A second sliding connection housing 65 installed on the pipe 66 extending left and right is installed; an opening / closing component is installed on the second sliding connection housing 65; and a rear inner wall of the first sliding connection housing 64 The guide connection groove 67 is installed in the guide connection groove 67, and the variable part is installed in the guide connection groove 67.

Preferably, both feet 69 are fixedly installed around the bottom of the cup 6, and a drainage valve is installed so as to be connected to the first water storage casing 61 at a position approaching the bottom of the right end surface of the cup 6. 7 is fixedly installed.

Preferably, a second exchange shaft 623 extending in the left-right direction is installed in a portion between the second water storage housing 68 and the first air groove 62 so as to be rotatable and connected, so that the second exchange The left extension end of the shaft 623 is rotatably connected to and connected to the left inner wall of the second water storage housing 68 inserted into the second water storage housing 68, and the right extension end is connected to the second exchange shaft 623. The first conical pulley 621 inserted into the first air groove 62 is fixedly engaged with and connected to the left end surface of the first conical pulley 621, and multiple sets are formed on the outer surface of the second exchange shaft 623 of the second water storage housing 68. A first stirring blade 681 is installed.

Preferably, the opening / closing component is slidably engaged with and connected to the second sliding connection housing 65, and between the second sliding connection housing 65 and the second empty groove 63. A second screw connection lever including a first screw connection lever 653 rotatably engaged with the portion, wherein a left extension end of the first screw connection lever 653 is inserted into the second slide connection housing 65; A through-hole 652 is installed in the second sliding connection block 651 on one side, which is engaged with and connected to the right end surface of the block 651 with a screw, and is separated from the first screw connection lever 653, and the right side of the first screw connection lever 653 A seventh conical pulley 634 to be inserted into the second empty groove 63 is fixedly installed at an extension end so that the seventh conical pulley 634 can transmit power to the left side of the fifth conical pulley 632. Connecting the fifth conical pulley 632 to the seventh conical pulley One side away from 634 is inserted into the first sliding connection housing 64.

Preferably, the variable component includes a guide connection block 671 slidably engaged with and connected to the guide connection groove 67 and a second screw connection lever 672 connected to the guide connection block 671 with a screw. The bottom end of the second screw connection lever 672 is rotatably engaged with and connected to the inner bottom wall of the guide connection groove 67, and the top end of the second screw connection lever 672 is connected to the second electric rotating machine 673. Engage and connect so that power can be transmitted, the outer surface of the second electric rotating machine 673 is fixedly installed in the guide connection groove 67, and the front end of the guide connection block 671 is the first sliding connection Fixedly engages and connects to the rear end of block 641.

As another technical solution, multiple sets of second stirring blades 611 are installed on the outer surface of the first exchange shaft 633 of the first water storage casing 61.

In the initial state, the guide connection block 671 is positioned at the topmost position of the guide connection groove 67. At this time, the guide connection block 671 is linked with the fourth conical pulley 643 at the bottom of the first sliding connection block 641 to the maximum extent. At the same time, the second sliding connection block 651 is located at the leftmost position of the second sliding connection housing 65, and at this time, the through-hole 652 in the second sliding connection block 651 is moved away from the fifth conical pulley 632. Separate from pipe 66 to the maximum extent.

When agitating, the first electric rotating machine 622 is used to control and rotate the first conical pulley 621 and the second conical pulley 646 at the same time. In conjunction with the first agitating blade 681 in the water storage housing 68, this realizes mixing and blending work of raw materials, and at the same time, the first conical pulley 621 is connected to the sixth conical pulley 625 and the sixth conical pulley 625. It rotates in conjunction with the first exchange shaft 633 at the bottom, and at the same time, the first exchange shaft 633 performs the initial stirring operation in conjunction with the second stirring blade 611 in the first water storage housing 61 to mix the raw materials. After the blending is completed, the second electric rotating machine 673 is rotated in conjunction with the second screw connecting lever 672, and the second screw connecting lever 672 is interlocked with the guide connecting block 671 to Slide to the bottom position, at this time the guide connection block 671 is the first sliding connection block 641 In conjunction with the fourth conical pulley 643 at the bottom, the fifth conical pulley 632 is engaged and connected so that power can be transmitted, and then the first electric rotating machine 622 is controlled and rotated to obtain the second conical shape. The pulley 646 rotates in conjunction with the third conical pulley 644 and the outer spline arm 645 at the bottom of the third conical pulley 644, and the outer spline arm 645 is rotated by the inner spline replacement shaft 642 and the bottom of the inner spline replacement shaft 642. The fourth conical pulley 643 rotates in conjunction with the fourth conical pulley 643. At this time, the fourth conical pulley 643 rotates in conjunction with the fifth conical pulley 632, and the fifth conical pulley 632 simultaneously rotates with the seventh conical pulley 634. The first screw connection lever 653 rotates in conjunction with the second sliding connection block 651 and slides to the rightmost position of the second sliding connection housing 65 at the same time as the first screw connection lever 653. 652 is relative to pipe 66, at this time The raw material of the second water storage housing 68 flows into the first water storage housing 61 through the pipe 66, and after the raw material flows in, the first electric rotating machine 622 is controlled to rotate in the reverse direction, and the first screw connection lever 653 is Slides to the leftmost position of the second slip connection housing 65 in conjunction with the two-slip connection block 651, and then the second electric rotating machine 673 rotates in reverse in conjunction with the second screw connection lever 672, The two-screw connection lever 672 returns to the initial position in conjunction with the guide connection block 671, and at this time, the first conical pulley 621 is controlled through the first electric rotating machine 622 to control the second exchange shaft 623 and the second water storage housing 68. In conjunction with the first agitating blade 681, the material agitating operation is automatically controlled.

The beneficial effect of the present invention is that the present invention is simple in structure and convenient to operate, and the first electric rotating machine is used to control and rotate the first conical pulley and the second conical pulley at the same time. One conical pulley interlocks with the second exchange shaft and the first stirring blade in the second water storage housing, thereby realizing the mixing and mixing work of raw materials, and at the same time the first conical pulley is the sixth conical pulley And the first exchange shaft in conjunction with the second agitating blade in the first water storage housing, and the first agitation work is performed in conjunction with the first exchange shaft at the bottom of the sixth conical pulley, After mixing and mixing the raw materials, the second electric rotating machine is used to rotate in conjunction with the second screw connecting lever, and the second screw connecting lever is interlocked with the guide connecting block to the bottom position of the guide connecting groove. At this time, the guide connection block is moved to the first sliding connection block. In conjunction with the fourth conical pulley at the bottom of the hook, the fifth conical pulley is engaged and connected so that power can be transmitted, then the first electric rotating machine is controlled and rotated, and the second conical pulley Rotates in conjunction with the third conical pulley and the outer spline arm at the bottom of the third conical pulley, and the outer spline arm interlocks with the inner spline replacement shaft and the fourth conical pulley at the bottom of the inner spline replacement shaft. At this time, the fourth conical pulley rotates in conjunction with the fifth conical pulley, and at the same time the fifth conical pulley rotates in conjunction with the seventh conical pulley and the first screw connection lever. The first screw connection lever is slid to the rightmost position of the second sliding connection housing in conjunction with the second sliding connection block, and at the same time, the through hole is in a relative position with the pipe. At this time, the raw material of the second water storage housing First through the pipe After the raw material flows into the water casing, the first electric rotating machine is controlled to rotate in reverse, and the first screw connection lever is interlocked with the second sliding connection block to Slide to the left position, then the second electric rotating machine rotates in reverse with the second screw connection lever, and the second screw connection lever returns to the initial position with the guide connection block. The first conical pulley is controlled through one electric rotating machine and interlocked with the second exchange shaft and the first stirring blade in the second water storage housing, thereby automatically controlling the raw material stirring operation and Improve the working efficiency of stirring and automatically blending, reduce the manual operation part of the operator, greatly increase the speed of raw material stirring, save time and labor, and increase the usage efficiency.

It will be clear to those skilled in the art that various modifications can be made to the above-described embodiments on the premise that they do not depart from the overall spirit and concept of the present invention, all of which are within the scope of protection of the present invention. The protection scope of the present invention should be based on the appended claims.

Claims (1)

A portable outdoor cup, including a cup, wherein a first water storage housing is installed in the cup, a first air groove is installed in the cup above the first water storage housing, and the first air groove and A second air ditch is installed in the cup between the first water storage enclosures, a second water storage enclosure is installed in the cup on the left side of the first air ditch, and the cup on the right side of the first air ditch. A first slip connection housing is installed, and a bottom end of the first slip connection housing is connected to a right end of the second air groove, the first air groove and the first slip connection housing. A first electric rotating machine is fixedly installed between the bodies, and a first conical pulley that is inserted into the first air groove is connected to a left end of the first electric rotating machine. A second conical pulley to be inserted into the first sliding connection housing is connected to the right end, and the first sliding connection housing is connected. A third conical pulley is rotatably engaged with and connected to the inner top wall of the second conical pulley so that power can be transmitted. A first sliding connection block is slidably engaged with and connected to the first sliding connection housing, and an inner spline replacement shaft that is installed to extend downward is engaged with the first sliding connection block so as to be rotatable. The bottom extension end of the inner spline exchange shaft extends out of the bottom end face of the first sliding connection block, and a fourth conical pulley is fixedly installed at the bottom extension end, and the top of the inner spline exchange shaft An outer spline arm extending upwardly is slidably engaged and connected, and a top extension end of the outer spline arm is fixedly engaged and connected to a bottom end surface of the third conical pulley, Second empty groove A first exchange shaft in which a pipe set is rotatably engaged and connected, a fifth conical pulley is fixedly installed around an outer surface of the pipe set, and is installed extending vertically in the pipe set Is engaged with and connected to the gap, and the top extension end of the first exchange shaft passes through the portion between the first air groove and the second air groove so as to rotate and engage with this portion. A sixth conical pulley that is inserted into the first air groove is fixedly installed at a top extension end of the first exchange shaft, and the sixth conical pulley can transmit power to the first conical pulley. The bottom extension end of the first exchange shaft passes through the portion between the second empty groove and the first water storage housing so that it can rotate and engage with this portion. The first storage shaft into which the bottom extension end of the first exchange shaft inserts the first water storage housing It is engaged with and connected to the inner bottom wall of the water casing so as to be rotatable, and is connected to the cup on the left side of the second empty groove so as to be connected to the first water storage casing and the second water storage casing. A second sliding connection housing installed on the pipe extending from side to side is installed, an opening / closing component is installed on the second sliding connection housing, and a rear side of the first sliding connection housing A guide connection groove is installed in the inner wall, a variable part is installed in the guide connection groove, both feet are fixedly installed around the bottom of the cup, and the first position is close to the bottom position of the right end surface of the cup. A drain valve that is installed so as to be connected to the water storage housing is fixedly installed, and a second replacement shaft that is installed extending from side to side in a portion between the second water storage housing and the first air groove rotates. Engaged and connected as possible, the left extension end of the second exchange shaft is the second water storage housing A left end surface of the first conical pulley, which is rotatably engaged with and connected to the left inner wall of the second water storage housing to be inserted, and a right extension end of the second exchange shaft is inserted into the first air groove. A plurality of first agitating blades are installed on the outer surface of the second exchange shaft of the second water storage casing, and the opening / closing component slides on the second sliding connection casing. A second sliding connection block operatively engaged and connected, and a first screw connection lever rotatably engaged and connected to a portion between the second sliding connection housing and the second empty groove. The left extended end of the first screw connection lever is engaged with and connected to the right end surface of the second slide connection block inserted into the second slide connection housing with a screw, and is separated from the first screw connection lever. A through hole is provided in the second sliding connection block of the first screw connection A seventh conical pulley to be inserted into the second air groove is fixedly installed at the right extension end of the first end, and the seventh conical pulley is connected so that power can be transmitted to the left side of the fifth conical pulley. A guide connection in which one side of the fifth conical pulley separating from the seventh conical pulley is inserted into the first sliding connection housing, and the variable part is slidably engaged with and connected to the guide connection groove. A second screw connection lever that is engaged with and connected to the guide connection block by a screw, and the bottom end of the second screw connection lever is rotatably engaged with the inner bottom wall of the guide connection groove. The top end of the second screw connection lever is engaged and connected so that power can be transmitted to the second electric rotating machine, and the outer surface of the second electric rotating machine is fixedly connected to the guide connecting groove. Install the front side of the guide connection block The end is fixedly engaged with and connected to the rear end of the first sliding connection block, and multiple sets of second stirring blades are installed on the outer surface of the first exchange shaft of the first water storage housing. A portable outdoor cup characterized by