CN205031198U - Mop - Google Patents

Abstract

The utility model discloses a mop, construct including mop pole, crowded water drive mechanism and fifty percent discount wringing machine, crowded water drive mechanism constructs continuously with the fifty percent discount wringing machine on locating the mop pole, wherein, the mop pole includes the stainless steel body of rod, stainless steel body of rod middle part is equipped with L type guide rail groove, crowded water drive mechanism includes push rod and guider, push rod and guider locate in the stainless steel body of rod, guider locates at both ends L type guide rail inslot, and can follow L type guide rail groove and freely remove, push rod one end and guider link to each other, the other end with the fifty percent discount wringing machine constructs continuously. The utility model discloses mop need not to bow during crowded water, and it is more convenient to use.

Description

A kind of mop

Technical field

The utility model relates to a kind of mop, is specifically related to a kind of mop facilitating water squeezing.

Background technology

Mop is requisite burnisher in human lives, because mop water-expelling device is arranged on mop rod bottom, also will mention mop to bend over water squeezing when people mop floor water squeezing, and inconvenient; Also need by very large strength during water squeezing, for the tiring work of mopping floor originally adds workload.

Summary of the invention

The purpose of this utility model is to solve the defect existed in prior art, provides a kind of mop facilitating water squeezing.

In order to achieve the above object, the utility model provides a kind of mop, comprises mop rod, water squeezing transmission mechanism and doubling water squeezing sector; Water squeezing transmission mechanism is located on mop rod, is connected with doubling water squeezing sector; Wherein, mop rod comprises the stainless steel body of rod; L-type guide-track groove is provided with in the middle part of the stainless steel body of rod; Water squeezing transmission mechanism comprises push rod and guider; Push rod and guider are located in the stainless steel body of rod; Guider two ends are located in L-type guide-track groove, and can move freely along L-type guide-track groove; Push rod one end is connected with guider, and the other end is connected with described doubling water squeezing sector.

Above-mentioned water squeezing transmission mechanism comprises return spring and lower return spring; The stainless steel body of rod comprises top solid hopkinson bar and middle and lower part hollow stem; Upper return spring is located in the hollow stem of middle and lower part, and one end is connected with solid hopkinson bar lower end, top, and the other end is connected with guider; Doubling water squeezing sector comprises housing, connector and two doubling fixed heads; Housing upper end and stainless steel body of rod lower end are fixedly linked; Both sides, housing lower end are connected with corresponding doubling fixed head respectively by guide rod; Two doubling fixed heads are connected by connector; Lower return both ends of the spring is connected with connector with housing respectively; Doubling water squeezing sector is connected with push rod by connector.

Wherein, guider comprises the anti-skidding sleeve pipe of rolling fin and centre; Rolling fin is located in the hollow stem of middle and lower part, and two ends are located in L-type guide-track groove; Middle Anti-slip cover pipe box is external in stainless steel, and is fixedly linked with rolling fin two ends.

Rolling fin comprises disk body and guide pins; Guide pins is through disk body center, and two ends are located in L-type guide-track groove.

Rolling fin also comprises boss; Disk body lower end is located at by boss, and centre is provided with the groove suitable with push rod; Push rod upper end is located in the groove of boss.

Solid hopkinson bar upper end, top is provided with handle.

Connector two ends are connected with corresponding doubling fixed head by hinge; Be provided with pin-and-hole in the middle part of connector, be connected with push rod by pin.

The tensile force of lower return spring is greater than return spring.

The utility model has the following advantages compared to existing technology: be arranged in the middle part of mop rod by water squeezing transmission mechanism, bends over when avoiding water squeezing, convenient; The transmission mechanism of water squeezing is simultaneously arranged in mop rod, simple to operate, attractive in appearance, practical; And utilize return spring to make water squeezing process more laborsaving, reliable.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model mop;

Fig. 2 is the assembling schematic diagram of the utility model mop;

Fig. 3 is the structural representation of the stainless steel body of rod in Fig. 1;

Fig. 4 is the structural representation of the doubling water squeezing sector of the utility model mop;

Fig. 5 is the structural representation of rolling fin in Fig. 2.

In figure, the 1-stainless steel body of rod, anti-skidding sleeve pipe in the middle of 2-, 3-L type guide-track groove, the upper return spring of 4-, 5-rolling fin, 6-push rod, return spring under 7-, 8-housing, 9-connector, 10-doubling fixed head, 11-guide rod, 12-up knob, 13-top solid hopkinson bar, 14-middle and lower part hollow stem, 15-pin-and-hole, 16-disk body, 17-boss, 18-guide pins.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in detail.

Composition graphs 1, Fig. 2, the utility model mop comprises mop rod, water squeezing transmission mechanism and doubling water squeezing sector.Wherein mop rod is made up of the stainless steel body of rod 1, up knob 12.As shown in Figure 3, the stainless steel body of rod 1 designs for upper, middle, and lower part, and upper end solid design is top solid hopkinson bar 13, in, bottom hollow design is middle and lower part hollow stem 14.The middle part of the stainless steel body of rod 1 is provided with L-type guide-track groove 3.Water squeezing transmission mechanism forms primarily of upper return spring 4, rolling fin 5, middle anti-skidding sleeve pipe 2, push rod 6 and lower return spring 7.Upper return spring 4 is arranged in middle and lower part hollow stem 4, and upper end is connected with the bottom of not top solid hopkinson bar 13, and lower end is connected with the top of rolling fin 5.Push rod 6 is arranged in middle and lower part hollow stem 4.As shown in Figure 5, rolling fin 5 is made up of disk body 16, guide pins 18 and boss 17.Disk body 16 smooth surface and the internal diameter size of outside dimension and middle and lower part hollow stem 14 match, and rolling fin 5 can be moved at the stainless steel body of rod 1 internal freedom.Guide pins 18 is through disk body 16 center, and two ends are fixed on middle anti-skidding sleeve pipe 2 through after L-type guide-track groove 3, and guide pins 18 size and L-type guide-track groove 3 match, and guide pins 18 can be moved in L-type guide-track groove.Boss 17 is the bottom of rolling fin 5, and centre is hollow design, and this hollow recess and push rod 6 match.Push rod 6 upper end of water squeezing transmission mechanism is arranged on the boss 17 of rolling fin 5, and is fixed by hollow recess.As shown in Figure 4, doubling water squeezing sector is made up of housing 8, connector 9, doubling fixed head 10 and guide rod 11.Doubling fixed head 10 and guide rod 11 are respectively two.Housing 8 is fixedly mounted on the stainless steel body of rod 1, and housing 8 liang of lower ends are connected with corresponding doubling fixed head 10 respectively by the guide rod 11 of correspondence.The connector 9 two ends reduction of fractions to a common denominator of doubling water squeezing sector Guo not connect with corresponding doubling fixed head 10 by hinge, and is provided with pin-and-hole 15 in the middle part of connector 9, is connected by the lower end of pin with push rod 6.Connector 9 and housing 8 are provided with spring mounting hole, and both are connected by lower return spring 7.Wherein, upper return spring 4 is Compress Spring, and lower return spring 7 is extension spring, and the tensile force of lower return spring is greater than lower return spring.

The use of the utility model mop can be divided into and to mop floor and water squeezing two parts, when mopping floor with mop, anti-skidding for centre sleeve pipe 2 is moved downward to extreme lower position, then in the middle of rotating anti-skidding sleeve pipe 2 make rolling fin 5 guide pins 18 lateral attitude that is positioned at L-type guide-track groove 3 fix, the compression stress of upper return spring 4 plays guide effect to middle Anti-slip cover pipe 2; While the anti-skidding sleeve pipe 2 in centre moves down, rolling fin 5 is driven to move down, the boss 17 of rolling fin 5 pushes push rod 6 and moves down, overcome the elastic force of lower return spring 7, power is passed on the connector 9 of doubling water squeezing sector the most at last, masterpiece is used on doubling fixed head 10 by connector 9, and two doubling fixed heads 10 are opened, and now guide rod 11 plays guide effect.

When mop water-expelling, by reversely rotating middle anti-skidding sleeve pipe 2, make the guide pins 18 of rolling fin 5 be in the lengthwise position of L-type guide-track groove 3, rolling fin 5 is by the trend moved up; Elastic force due to lower return spring 7 is greater than the elastic force of upper return spring 4, the elastic force of lower return spring 7 acts on connector 9, connector 9 moves up, and push push rod 6 and move up, push rod 6 pushes rolling fin 5 and moves to L-type guide-track groove 3 topmost, and now, connector 9 moves to position topmost, impel doubling fixed head 10 to amount to, play water squeezing effect.Because lower return spring 7 elastic force is greater than the elastic force of upper return spring 4, can make to play power-saving function during water squeezing.

Claims (8)

1. a mop, comprises mop rod, water squeezing transmission mechanism and doubling water squeezing sector; Described water squeezing transmission mechanism is located on mop rod, is connected with doubling water squeezing sector; It is characterized in that, described mop rod comprises the stainless steel body of rod; L-type guide-track groove is provided with in the middle part of the described stainless steel body of rod; Described water squeezing transmission mechanism comprises push rod and guider; Described push rod and guider are located in the stainless steel body of rod; Described guider two ends are located in L-type guide-track groove, and can move freely along L-type guide-track groove; Described push rod one end is connected with described guider, and the other end is connected with described doubling water squeezing sector.

2. mop according to claim 1, is characterized in that, described water squeezing transmission mechanism comprises return spring and lower return spring; The described stainless steel body of rod comprises top solid hopkinson bar and middle and lower part hollow stem; Described upper return spring is located in the hollow stem of middle and lower part, and one end is connected with solid hopkinson bar lower end, top, and the other end is connected with guider; Described doubling water squeezing sector comprises housing, connector and two doubling fixed heads; Described housing upper end and stainless steel body of rod lower end are fixedly linked; Both sides, described housing lower end are connected with corresponding doubling fixed head respectively by guide rod; Described two doubling fixed heads are connected by connector; Described lower return both ends of the spring is connected with connector with housing respectively; Described doubling water squeezing sector is connected with push rod by connector.

3. mop according to claim 1 and 2, is characterized in that, described guider comprises the anti-skidding sleeve pipe of rolling fin and centre; Described rolling fin is located in the hollow stem of middle and lower part, and two ends are located in L-type guide-track groove; Described middle Anti-slip cover pipe box is external in described stainless steel, and is fixedly linked with rolling fin two ends.

4. mop according to claim 3, is characterized in that, described rolling fin comprises disk body and guide pins; Described guide pins is through described disk body center, and two ends are located in L-type guide-track groove.

5. mop according to claim 4, is characterized in that, described rolling fin also comprises boss; Described disk body lower end is located at by described boss, and centre is provided with the groove suitable with described push rod; Described push rod upper end is located in the groove of described boss.

6. mop according to claim 2, is characterized in that, solid hopkinson bar upper end, described top is provided with handle.

7. mop according to claim 2, is characterized in that, described connector two ends are connected with corresponding doubling fixed head by hinge; Be provided with pin-and-hole in the middle part of described connector, be connected with push rod by pin.

8. mop according to claim 2, is characterized in that, the tensile force of described lower return spring is greater than return spring.