CN103070654A

CN103070654A - Mop wiping device

Info

Publication number: CN103070654A
Application number: CN2013100000149A
Authority: CN
Inventors: 吕硕; 韩富全; 杨涵; 陈欢; 曹腾; 张静静
Original assignee: North Minzu University
Current assignee: North Minzu University
Priority date: 2013-01-03
Filing date: 2013-01-03
Publication date: 2013-05-01
Anticipated expiration: 2033-01-03
Also published as: CN103070654B

Abstract

The invention discloses a mop wiping device which comprises a support plate, two clamping plates, an extruding plate, a rolling extruding mechanism and a rolling extruding power providing mechanism, wherein the two clamping plates are arranged on the support plate in parallel, the rolling extruding power providing mechanism is arranged on the support plate and is positioned between the two clamping plates, the extruding plate is vertically fixedly connected with the two clamping plates, the extruding plate is arranged above the rolling extruding power providing mechanism, the rolling extruding mechanism is connected with the two clamping plates in a riveting mechanism mode, the rolling extruding mechanism is positioned above the rolling extruding power providing mechanism, and is connected with the rolling extruding power providing mechanism, and the rolling extruding power providing mechanism provides an extruding force to the rolling extruding mechanism for realizing dewatering of a mop. The mop wiping device is used for dewatering the mop commonly used in a family.

Description

Mop squeezing device

Technical field:

The present invention relates to a kind of dewater unit, particularly a kind of mop squeezing device.

Background technology:

At present, the cover piece installing " good god drags " that mops floor of selling on the market can be controlled the cloth humidity voluntarily, has cleaning, dust suction, soaking effect concurrently, saves time conveniently, and rapid draing is safer.

But there is following problem in the above-mentioned cover piece installing that mops floor: the sliver of supporting mop is few and lack, and is only suitable for dragging cleaner ground, and the supporting mop of frequent clean that needs when ground is messy just can be finished, and makes troubles to the user.

In addition, a kind of family of sale mop commonly used is arranged on the market, the sliver of this family mop commonly used is many and grow, therefore have strong, large with the contact area of ground characteristics of water imbibition, be fit to drag messy ground, but the sliver of mop weight after immersion increases, and the user can only wait for that sliver drains naturally or extract sliver with what hand was required great effort by mop is placed on one side, so still makes troubles to the user.

Summary of the invention:

In view of this, be necessary to provide a kind of mop squeezing device that can realize family's mop dewatering commonly used.

A kind of mop squeezing device comprises that gripper shoe, two grip blocks, stripper plate, rolling extrusion mechanism, rolling extrusion power provide mechanism.Two parallel being arranged on the gripper shoe of grip block, rolling extrusion power provides mechanism to be arranged on the gripper shoe, and between two grip blocks, stripper plate and two vertical being fixedly connected with of grip block, and stripper plate is positioned at rolling extrusion power provides the mechanism top, rolling extrusion mechanism is connected by the pivot mode with two grip blocks, and rolling extrusion mechanism is positioned at rolling extrusion power provides the mechanism top, and rolling extrusion mechanism provides mechanism to be connected with rolling extrusion power and realizes the dehydration of mop for rolling extrusion mechanism provides extruding power.

When using above-mentioned mop squeezing device, the sliver of mop is placed between rolling extrusion mechanism and the stripper plate, to the rolling extrusion mechanism application of force so that rolling extrusion mechanism and stripper plate clamp mop, provide mechanism's application of force to rolling extrusion power, so that rolling extrusion power provides mechanism to drive rolling extrusion mechanism mop is carried out rolling extrusion, and then realize realizing the dehydration of family's mop commonly used.

Description of drawings:

Accompanying drawing 1 is the structural representation of the mop squeezing device of a preferred embodiments.

Accompanying drawing 2 is structural representations that mop squeezing device removes one of them grip block among Fig. 1.

Accompanying drawing 3 is structural representations that mop squeezing device removes another angle of one of them grip block among Fig. 1.

Accompanying drawing 4 is structural representations that mop squeezing device removes water tank among Fig. 1.

Among the figure: mop squeezing device 10, gripper shoe 20, grip block 30, rotating shaft 31, sewage guiding tube 32, pin-and-hole 33, stripper plate 40, reinforcement 41, rolling extrusion mechanism 50, cylinder 51, sliding axle 52, upper torque arm 521, lower arm 53, clamping limb 54, sliding tray 541, leading arm 55, application of force handle 56, carriage release lever holder 57, carriage release lever 58, rolling extrusion power provides mechanism 60, pedal 61, tooth bar 62, gear drive 63, bracing frame 631, rotating shaft 632, gear 633, flexible transmission parts winding wheel 634, slideway 64, elastic component 66, guiding mechanism 67, water fender 70, water tank 80, clear water receiving space 81, sewage receiving space 82.

The specific embodiment:

Please referring to Fig. 1 to Fig. 3, mop squeezing device 10 comprises that gripper shoe 20, two grip blocks 30, stripper plate 40, rolling extrusion mechanism 50, rolling extrusion power provide mechanism 60.

Two grip block 30 parallel being arranged on the gripper shoe 20, rolling extrusion power provides mechanism 60 to be arranged on the gripper shoe 20, and between two grip blocks 30, stripper plate 40 and two grip blocks, 30 vertical being fixedly connected with, and stripper plate 40 is positioned at rolling extrusion power provides mechanism 60 tops, rolling extrusion mechanism 50 is connected by the pivot mode with two grip blocks 30, and rolling extrusion mechanism 50 is positioned at rolling extrusion power provides mechanism 60 tops, the part that is connected with two grip blocks 30 of rolling extrusion mechanism 50 provides mechanism 60 and stripper plate 40 near rolling extrusion power, and rolling extrusion mechanism 50 provides mechanism 60 to be connected with rolling extrusion power and realizes the dehydration of mop for rolling extrusion mechanism 50 provides extruding power.

In the present embodiment, rolling extrusion mechanism 50 comprises cylinder 51, sliding axle 52, lower arm 53, two clamping limbs 54, leading arm 55; One end of two clamping limbs 54 realizes that by being arranged on two rotating shafts 31 on the grip block 30 and two grip blocks 30 pivot is connected, and two clamping limbs 54 are parallel to each other, be provided with the sliding tray 541 that is parallel to each other on two clamping limbs 54, after sliding axle 52 passes cylinder 51, in the sliding tray that is embedded in two clamping limbs 54 541 that the two ends of sliding axle 52 are corresponding, also be provided with two upper torque arm 521 on the sliding axle 52, and torque arm 521 is between cylinder 51 and a corresponding clamping limb 54 on each, lower ends with two upper torque arm 521 corresponding to the two ends of lower arm 53 are connected, and lower arm 53 be positioned at cylinder 51 under; What the two ends of leading arm 55 were corresponding is connected with two clamping limbs 54, and leading arm 55 and cylinder 51 are parallel and be positioned at directly over the cylinder 51.The stability that is connected with grip block 30 in order to improve rolling extrusion mechanism 50, two clamping limbs 54 adopt gusseted to realize stable the connection with two grip blocks, 30 pivot junctions.

Please be simultaneously referring to Fig. 4, rolling extrusion power provides mechanism 60 to comprise pedal 61, tooth bar 62, gear drive 63, slideway 64, elastic component 66, two guiding mechanisms 67, three flexible transmission parts (not shown)s; Slideway 64 is arranged on the gripper shoe 20, elastic component 66, tooth bar 62 are arranged in the slideway 64, one end of elastic component 66 is connected with an end of tooth bar 62, the other end of elastic component 66 is relative fixing with gripper shoe 20, and the other end of tooth bar 62 and pedal 61 connect mobile in slideway 64 to promote tooth bar 62 by pedal 61; Gear drive 63 comprises bracing frame 631, rotating shaft 632 and be fixedly installed on gear 633 in the rotating shaft 632, three flexible transmission parts winding wheels 634, bracing frame 631 is arranged on the gripper shoe 20 and is positioned at tooth bar 62 tops, rotating shaft 632 is arranged on the bracing frame 631, vertical and the gear 633 of rotating shaft 632 and tooth bar 62 is meshed with tooth bar 62, the two ends of two guiding mechanisms 67 are corresponding to be fixedly connected with two grip blocks 30, and two guiding mechanisms 67 are parallel with rotating shaft 632, three flexible transmission parts are corresponding be wrapped on the flexible transmission parts winding wheel 65 after, one of them flexible transmission parts is connected with lower arm 53 in the rolling extrusion mechanism 50 by guiding mechanism 67, and the leading arm 55 that two other flexible transmission parts passes through in another guiding mechanism 67 and the rolling extrusion mechanism 50 is connected with upper torque arm 521 in the rolling extrusion mechanism 50.Wherein, elastic component 66 can be spring, and flexible transmission parts can be rope, metal bracelet, belt etc.The flexible transmission parts that connects with lower arm 53 in the rolling extrusion mechanism 50 is opposite with the winding direction of two other flexible transmission parts on flexible transmission parts winding wheel 65 at the winding direction on the flexible transmission parts winding wheel 65, realizes that so sliding axle 52 slides in the sliding tray 541 of two clamping limbs 54.Guiding mechanism 67 can consist of by axle and the wheel that is arranged on the axle, and then realizes the guiding of flexible transmission parts.

Further, mop squeezing device 10 also comprises two water fenders 70, what the two ends of two water fenders 70 were corresponding is fixedly connected with two grip blocks 30, one side of one of them water fender 70 also is connected with stripper plate 40, two water fenders 70 are parallel to each other, and the water fender 70 that is connected with stripper plate 40 is positioned at the below of another water fender 70 and is positioned at the top of gear drive 63, and the water fender 70 that is connected with stripper plate 40 is acute angle with the angle of 40 one-tenth of stripper plates.Can prevent that so sewage from directly falling rolling extrusion power and providing in the mechanism 60, and then prevent that corrosion in water rolling extrusion power from providing the hardware in the mechanism 60.In addition, in order to strengthen the compression strength of stripper plate 40, can add reinforcement 41 at stripper plate 40 back sides, the two ends of reinforcement 41 are fixedly connected with two grip blocks 30.

Further, be provided with the sewage guiding tube 32 of discharging for sewage on two grip blocks 30, sewage guiding tube 32 is near the water fender 70 and the stripper plate 40 that are connected with stripper plate 40; Mop squeezing device 10 also comprises water tank 80, and water tank 80 is arranged on the gripper shoe 20, and rolling extrusion mechanism 50 is between water tank 80 and stripper plate 40; The sewage guiding tube 32 that water tank 80 has on separate clear

water receiving space

81,82, two grip blocks 30 of sewage receiving space is communicated with sewage receiving space 82.For example, sewage receiving space 82 is positioned at clear water receiving space 81 belows.

Further, rolling extrusion mechanism 50 also comprises application of force handle 56, and application of force handle 56 is connected with two clamping limbs 54, and application of force handle 56 is positioned at the top of leading arm 55; Rolling extrusion mechanism 50 also comprises carriage release lever holder 57 and is arranged on carriage release lever 58 in the carriage release lever holder 57, and one of them grip block 30 is provided with pin-and-hole 33, and the position of pin-and-hole 33 is corresponding with carriage release lever 58, so consists of latch structure.For example, carriage release lever holder 57 is fixed on the application of force handle 56 and near the pin-and-hole 33 on the grip block 30, and a row pin-and-hole 33 is set on the grip block 30, cooperates realizations to the multistage dehydration of mop by carriage release lever 58 with different pin-and-hole 33.

The sliver of mop is placed between rolling extrusion mechanism 40 and the stripper plate 40, pull application of force handle 56 with to rolling extrusion mechanism 50 application of forces, and then realization clamps mop, pedal 61 is being received promotion tooth bar 62 under the External Force Acting, and the other end of tooth bar 62 is connected with elastic component 66, so tooth bar 62 can move reciprocatingly along slideway 64 directions, tooth bar 62 driven gears 633 rotate, gear 633 and three flexible transmission parts winding wheels 634 link together by rotating shaft 632, thereby gear 633 rotates flexible transmission parts winding wheel 632 is rotated together, three flexible transmission parts are realized elongation under flexible transmission parts winding wheel 63 effects, shortening slides up and down in the sliding tray 541 of two clamping limbs 54 to lift the sliding axle 52 that cylinder 51 is installed, effectively utilize the roll extrusion of roller, realized extracting of mop.

Claims

1. a mop squeezing device is characterized in that: comprise that gripper shoe, two grip blocks, stripper plate, rolling extrusion mechanism, rolling extrusion power provide mechanism; Two parallel being arranged on the gripper shoe of grip block, rolling extrusion power provides mechanism to be arranged on the gripper shoe, and between two grip blocks, stripper plate and two vertical being fixedly connected with of grip block, and stripper plate is positioned at rolling extrusion power provides the mechanism top, rolling extrusion mechanism is connected by the pivot mode with two grip blocks, and rolling extrusion mechanism is positioned at rolling extrusion power provides the mechanism top, rolling extrusion mechanism provides mechanism to be connected with rolling extrusion power, and realizes the dehydration of mop for rolling extrusion mechanism provides extruding power.

2. mop squeezing device as claimed in claim 1, it is characterized in that: rolling extrusion mechanism comprises cylinder, sliding axle, lower arm, two clamping limbs, leading arm, one end of two clamping limbs is realized pivoting and is connected by being arranged on two rotating shafts on the grip block and two grip blocks, and two clamping limbs are parallel to each other, be provided with the sliding tray that is parallel to each other on two clamping limbs, after sliding axle passes cylinder, in the sliding tray that is embedded in two clamping limbs that the two ends of sliding axle are corresponding, also be provided with two upper torque arm on the sliding axle, and torque arm is between cylinder and a corresponding clamping limb on each, lower ends with two upper torque arm corresponding to the two ends of lower arm are connected, and lower arm be positioned at cylinder under; What the two ends of leading arm were corresponding is connected with two clamping limbs, and leading arm is parallel with cylinder and be positioned at directly over the cylinder;

Rolling extrusion power provides mechanism to comprise pedal, tooth bar, gear drive, slideway, flexible transmission parts winding wheel, elastic component, two guiding mechanisms, three flexible transmission parts, installation of slide track is on gripper shoe, elastic component, tooth bar are arranged in the slideway, one end of elastic component is connected with an end of tooth bar, the other end of elastic component is relative with gripper shoe fixing, and the other end of tooth bar and pedal connect mobile in slideway to promote tooth bar by pedal; Gear drive comprises bracing frame, rotating shaft and be fixedly installed on gear in the rotating shaft, three flexible transmission parts winding wheels, bracing frame is arranged on the gripper shoe and is positioned at the tooth bar top, rotating shaft is arranged on the bracing frame, rotating shaft and wheel and rack vertical with tooth bar is meshed, the two ends of two guiding mechanisms are corresponding to be fixedly connected with two grip blocks, and two guiding mechanisms and shaft parallel, three flexible transmission parts are corresponding be wrapped on the flexible transmission parts winding wheel after, one of them flexible transmission parts is connected with lower arm in the rolling extrusion mechanism by guiding mechanism, and the leading arm that two other flexible transmission parts passes through in another guiding mechanism and the rolling extrusion mechanism is connected with upper torque arm in the rolling extrusion mechanism.

3. mop squeezing device as claimed in claim 1, it is characterized in that: mop squeezing device also comprises two water fenders, what the two ends of two water fenders were corresponding is fixedly connected with two grip blocks, one side of one of them water fender also is connected with stripper plate, two water fenders are parallel to each other, and the water fender that is connected with stripper plate is positioned at the below of another water fender and is positioned at the top of gear drive, and the angle that the water fender that is connected with stripper plate becomes with stripper plate is acute angle.

4. mop squeezing device as claimed in claim 3 is characterized in that: be provided with the sewage guiding tube of discharging for sewage on two grip blocks, close water fender and the stripper plate that is connected with stripper plate of sewage guiding tube.

5. such as claim 1 or 4 described mop squeezing devices, it is characterized in that: mop squeezing device also comprises water tank, and water tank is arranged on the gripper shoe, and rolling extrusion mechanism is between water tank and stripper plate.

6. mop squeezing device as claimed in claim 5, it is characterized in that: water tank has clear water receiving space, sewage receiving space, and the sewage guiding tube on two grip blocks is communicated with the sewage receiving space.

7. mop squeezing device as claimed in claim 2, it is characterized in that: rolling extrusion mechanism also comprises application of force handle, application of force handle is connected with two clamping limbs, and application of force handle is positioned at the top of leading arm.

8. such as claim 2 or 7 described mop squeezing devices, it is characterized in that: rolling extrusion mechanism also comprises the carriage release lever holder and is arranged on carriage release lever in the carriage release lever holder, one of them grip block is provided with pin-and-hole, and the position of pin-and-hole is corresponding with carriage release lever, so consists of latch structure.