A kind of hand-press rotary dehydration barrel
Technical field
What the present invention relates to is a kind of device that utilizes self-service driving one transmission mechanism and driven rotary mechanism to dewater, and is used for the dehydration with moisture object, is particularly useful for rotatable mop centrifugal dehydration.
Background technology
Mop is a burnisher commonly used in the daily life, usually the employed mop of people mainly is made up of mop rod and the mophead that has mop strip, owing to need mop strip is cleaned after using, to reuse after the wet mop strip water outlet then, at this time just need extract cleaning the wet mop strip in back, traditional mode of extracting is manually to twist with hand; Have a kind of mechanical type press drier on the market now, it can extrude water by fashion of extrusion with wet mop strip.But above-mentioned two kinds of water-out manners all exist defective, as wringing out wet mop strip with hand, and the one, the hand of making dirty, the 2nd, inefficiency, the 3rd, labour intensity is big; And adopt the mechanical type press drier to the water outlet of extruding of wet mop strip, and the one, the weak effect of extracting, water outlet is inhomogeneous, and two are to use inconvenience, and mechanism is complicated heavy, the use cost height.
Summary of the invention
The objective of the invention is to overcome the deficiency that prior art exists, and provide a kind of simple and reasonable for structure, easy to use, reliable, can significantly reduce labour intensity, the hand-press rotary dehydration barrel of increasing work efficiency.
The objective of the invention is to finish by following technical solution, it includes a staving that moisture object can be dewatered, be mounted with a rotatable dehydration basket by a vertically arranged power transmission shaft in the described staving, the interior concave bottom surface that power transmission shaft passes staving links to each other with the self-service rotating mechanism that is installed in staving indent bottom space.
Described self-service rotating mechanism includes supporting seat, the tooth bar in the end fixed head below the supporting seat, a positioned vertical between supporting seat and end fixed head that is fixed in the staving indent bottom space, and the tooth bar seat that links to each other with tooth bar is pressed on the end fixed head by a back-moving spring; Described tooth bar be installed at least one group of travelling gear engaged transmission on the supporting seat after, by last gear and the unidirectional angular wheel engagement that is connected on the power transmission shaft.
Be mounted with two groups of travelling gears on the described supporting seat, it comprise one with the small transmission gear of tooth bar engagement, this small transmission gear is by the little idler gear engagement of the coaxial big travelling gear that is connected and another group, and this little idler gear is by coaxial continuous big angular wheel and the unidirectional angular wheel engagement that is nested with on power transmission shaft; Described unidirectional angular wheel is to be nested with on power transmission shaft by a unilateral bearing.
Described power transmission shaft is after passing a sleeve pipe, and its bottom is pressed on the tooth bar seat by a wear-resisting circle and a steel ball and can relatively rotates.
Both sides are provided with handle above the described staving, are positioned on the limit of dehydration basket, the staving inner side edge is provided with protective cover; Be provided with the pouring groove on the staving upper edge edge on relative dehydration basket opposite in addition.
The present invention compared with prior art has simple and reasonable for structurely, easy to use, reliable, can significantly reduce labour intensity, characteristics such as increase work efficiency.
Description of drawings
Fig. 1 is a structural representation of the present invention.
Fig. 2 is a decomposition texture schematic diagram of the present invention.
Fig. 3 is the structural representation of self-service rotating mechanism of the present invention.
Fig. 4 is a kind of user mode structural representation of the present invention.
Fig. 5 is an another kind of user mode structural representation of the present invention.
The specific embodiment
Below in conjunction with accompanying drawing the present invention is described in detail: shown in Fig. 1,2, the present invention includes a staving 2 that moisture object can be dewatered, be mounted with a rotatable dehydration basket 3 by a vertically arranged power transmission shaft 31 in the described staving 2, the interior concave bottom surface that power transmission shaft 31 passes staving 2 links to each other with the self-service rotating mechanism that is installed in staving 2 indent bottom spaces.
Both sides are provided with handle 1 above the described staving 2, are positioned on the limit of dehydration basket 3, the staving inner side edge is provided with protective cover 4; Be provided with pouring groove 10 on the staving 2 upper edge edge on relative dehydration basket opposite in addition.
Self-service rotating mechanism shown in Figure 3 includes one and is fixed on supporting seat 8 in the staving indent bottom space, a tooth bar 5 in the end fixed head below the supporting seat 9, a positioned vertical between supporting seat 8 and end fixed head 9, and the tooth bar seat that links to each other with tooth bar 5 is pressed on the end fixed head 9 by a back-moving spring 52; After described tooth bar 5 and at least one group of travelling gear engaged transmission that is installed on the supporting seat 8, by last gear and unidirectional angular wheel 75 engagements that are connected on the power transmission shaft 31.
Be mounted with two groups of travelling gears on the described supporting seat 8, it comprise one with the small transmission gear 71 of tooth bar 5 engagement, this small transmission gear 71 is by little idler gear 73 engagements of the coaxial big travelling gear that is connected 72 with another group, and this little idler gear 73 is by coaxial continuous big angular wheel 74 and unidirectional angular wheel 75 engagements that are nested with on power transmission shaft 31; Described unidirectional angular wheel 75 is to be nested with on power transmission shaft 31 by a unilateral bearing 76.
Described power transmission shaft 31 is after passing a guide pin bushing 77, and its bottom is pressed on the tooth bar seat by a wear-resisting circle 32, expanding ring 33 and a steel ball 51 and can relatively rotates.
Major function of the present invention is that moisture object the rotary mop 11 of staving 2 tops makes moisture break away from moisture object by rotating the centrifugal force that is produced at a high speed as shown in Figure 1, thereby reaches the dehydration purpose.When dehydration basket 3 is subjected to downforce M1, see shown in the accompanying drawing 4, downforce passes to power transmission shaft 31 successively, steel ball 51, tooth bar 5, tooth bar 5 is moved downward, tooth bar 5 drives small transmission gear 71 and rotates, small transmission gear drives the coaxial big travelling gear that is connected 72 and rotates, and drive the little idler gear 73 that is engaged with then and the coaxial big angular wheel that is connected 74 is rotated, this big angular wheel drives the unidirectional angular wheel 75 that is engaged with again and rotates, this unidirectional angular wheel 75 drives guide pin bushing 77 rotations by the unilateral bearing 76 that is nested with on power transmission shaft 31, because described guide pin bushing 77 is one can axially be free to slide and rely on the power transmission shaft 31 chute that is provided with to cooperate driving torque with salient point on the guide pin bushing 77 on the power transmission shaft 31, thereby drive power transmission shaft 31 one-directional rotation, drive dehydration basket 3 rotations at last and produce the rotating centrifugal dehydrating function.
In conjunction with shown in Figure 5, be in the limiting condition that presses down when dehydration basket 3 after, back-moving spring 52 is in compressive state; When cancelling the downforce that puts on dehydration basket, because the reaction force of back-moving spring 52 moves upward steel ball 51, tooth bar 5, power transmission shaft 31, expanding ring 33 and dehydration basket 3 together, tooth bar 5 drives small transmission gear 71 backward rotation, rotation direction during promptly with respect to blue 3 pressed status of dehydration, small transmission gear 71 drives big travelling gear 72 backward rotation, big travelling gear 72 drives little idler gear 73 backward rotation again, little idler gear 73 drives big angular wheel 74 backward rotation, and big angular wheel 74 drives unidirectional angular wheel 75 backward rotation; Because of a unilateral bearing 76 is housed between unidirectional angular wheel 75 and guide pin bushing 77, this unilateral bearing 76 is one and transmits unidirectional bearing, so the counter-rotation of unidirectional angular wheel 75 can not pass to power transmission shaft 31.Continue to rotate because of the effect of inertia of guide pin bushing 77, power transmission shaft 31 and dehydration basket 3 makes guide pin bushing 77, power transmission shaft 31 and dehydration basket 3 toward positive direction, after being returned to original state, carry out pressing action next time again before, finish a cyclic process.