CN213665105U

CN213665105U - Labor-saving mop

Info

Publication number: CN213665105U
Application number: CN202020692877.2U
Authority: CN
Inventors: 吴禹泽
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-29
Filing date: 2020-04-29
Publication date: 2021-07-13
Anticipated expiration: 2030-04-29

Abstract

The utility model discloses a labor-saving mop, which is used for solving the problem of waist fatigue caused by the operation of a mop by both hands of people in the prior art, and comprises a mop rod component and a mop head, and also comprises a force application rod and a lower limit component, wherein the force application rod is arranged on the mop rod component, can move relative to the mop rod component and can be approximately folded with the mop rod component; the lower limit element limits the motion of the stress application rod. When the mop rod assembly is used, one hand grasps the upper end part of the mop rod assembly, the other hand grasps the holding end part of the force application rod, the two hands simultaneously and forcefully operate to mop the floor, the operation can be carried out without stooping or with small stooping amplitude, and the waist fatigue is effectively prevented.

Description

Labor-saving mop

Technical Field

The utility model relates to a daily cleaning tool field specifically is laborsaving mop.

Background

When people use the existing mop to mop the floor, because the mop rod is generally provided with a straight rod structure, when the mop rod is held by two hands to mop the floor, the user needs to bend to adapt to the operation of the two hands, and the user can feel fatigue on the waist (psoas and lumbar) for a long time.

Disclosure of Invention

The to-be-solved technical problem of the utility model is the tired problem of waist that leads to when people's both hands operate the mop that prior art exists.

The technical scheme of the utility model describes as follows.

The utility model discloses a labor-saving mop, which comprises a mop rod component, a mop head, a force application rod and a lower limiting component, wherein the force application rod is arranged on the mop rod component, can move relative to the mop rod component and can be approximately folded with the mop rod component; the lower limit element limits the motion of the stress application rod.

The stressing rod can have a U-shaped rod structure or a straight rod structure.

The lower limiting element can have various configurations.

Optionally, the lower limit stop element is a lower stop, the lower stop being mounted on the mop rod assembly.

Optionally, the lower limiting element is a joint of the mop rod assembly.

Optionally, the lower limit element is a lower end surface of the stress beam.

Optionally, the mop pole assembly comprises a longitudinal pole having a slot therein, the lower limiting element being a lower slot edge of the longitudinal pole.

The use principle of the present invention is described as follows.

The working process is as follows: when mopping is needed, one hand holds the upper end part of the mop rod component, the other hand holds the handheld end part of the stressing rod, so that the stressing rod moves towards the mop head direction until the stressing rod is limited by the lower limiting component to move; generally, the hand-held end of the force application rod is designed to be approximately level with the upper end of the mop rod assembly in the height direction (when the mop rod assembly is inclined to a working state), and when the two hands are simultaneously operated with force to mop, the operation can be carried out without bending or with a small bending range, so that the fatigue of the waist can be effectively prevented.

And (3) parking process: the hand-held tip of griping the griping pole with the hand makes the griping pole to the motion of the upper end direction of mop pole subassembly, is the rugosity until griping pole and mop pole subassembly roughly, can park or accomodate the utility model discloses to occupy less space.

Compared with the prior art, the utility model the good effect that has is: use the utility model discloses when both hands concurrent operation drag the ground, need not bow or bow very little range and can operate, prevent waist fatigue effectively.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic diagram of the first embodiment, which is a schematic diagram during operation.

Fig. 2 is a view taken along direction a of fig. 1.

FIG. 3 is a schematic diagram illustrating a parking operation according to an embodiment.

Fig. 4 is a schematic diagram of the second embodiment, which is a schematic diagram during operation.

FIG. 5 is a schematic view of the second embodiment when parked.

Fig. 6 is a schematic diagram of the third embodiment, which is a schematic diagram during parking.

FIG. 7 is a schematic sectional view taken along line B- -B of FIG. 6.

FIG. 8 is a schematic diagram of the third embodiment in operation.

Fig. 9 is a schematic diagram of the fourth embodiment, which is a schematic diagram during operation.

FIG. 10 is a diagram illustrating a fourth parking according to an embodiment.

Detailed Description

Embodiments of the present invention will now be described with reference to the accompanying drawings.

In fig. 1, 101 is a mop rod assembly, 102 is a mop head, 103 is a lower block, 104 is a force application rod, 105 is a rivet, and 106 is a pin shaft. 1011 is the upper end of the

mop pole assembly

101, 1041 is the hand-held end of the force application pole 104. The force application bar 104 has a U-shaped bar structure, the force application bar 104 is mounted on the mop bar assembly 101 by a pin 106, and the force application bar 104 can rotate along the pin 106 in the upward direction (toward the upper end 1011 of the mop bar assembly). The lower block 103 is mounted on the mop rod assembly 101 by a rivet 105, and when the lower block 103 contacts the force applying rod 104 (as shown in fig. 1), the lower block 103 limits the force applying rod 104, i.e. the lower block 103 prevents the force applying rod 104 from rotating toward the mop head 102. The lower stopper 103 is a lower limit element.

Fig. 2 is a view taken along direction a of fig. 1.

In fig. 2, 101 is a mop rod assembly, 102 is a mop head, 103 is a lower block, 104 is a force application rod, 106 is a pin shaft, 1011 is an upper end of the

mop rod assembly

101, and 1041 is a hand-held end of the force application rod 104. The lower block 103 has two symmetrical retaining edges 1031 to limit the force application rod 104, that is, the force application rod 104 can be rotated 180 ° along the pin 106 for use. Fig. 2 shows the operating condition of the mop rod assembly 101 when tilted, with the handle end 1041 of the booster substantially flush with the upper end 1011 of the mop rod assembly in the height direction.

In fig. 3, reference numeral 101 denotes a mop rod assembly, 102 denotes a mop head, 103 denotes a lower stopper, 104 denotes a force application rod, 1011 denotes an upper end of the mop rod assembly 101, and the force application rod 104 and the upper end 1011 of the mop rod assembly are substantially folded.

The principle of use of embodiment one is described below.

When the mop needs to be used for mopping, one hand grasps the upper end 1011 of the mop rod assembly, the other hand grasps the handheld end 1041 of the force application rod, and the handheld end 1041 of the force application rod moves towards the mop head 102 until the force application rod 104 is limited by the lower stop block 103 (as shown in fig. 1); when the mop rod assembly 101 is inclined to the working state, the handheld end 1041 of the force application rod is approximately level with the upper end 1011 of the mop rod assembly in the height direction; at this time, when the two hands are used for mopping the floor with force at the same time, the floor can work without bending or with a small bending range.

When the user needs to park or store the mop after using the mop, the user grasps the handheld end 1041 of the force application rod by hand, and moves the force application rod 104 toward the upper end 1011 of the mop rod assembly until the force application rod 104 and the upper end 1011 of the mop rod assembly are substantially folded, so as to park or store the first embodiment (as shown in fig. 3).

In fig. 4, 2011 is an upper bar, 2012 is a lower bar, 202 is a mop head, 203 is a joint, 204 is a reinforcing bar, and 206 is a pin shaft. The upper bar 2011, the lower bar 2012 and the joint 203 together form a mop bar assembly, and 20111 is an upper end portion of the upper bar 2011, that is, an upper end portion of the mop bar assembly. The lever 204 has a straight rod structure, the lever 204 is mounted on the upper rod 2011 by a pin 206, and the lever 204 is rotatable upward (toward the upper end 20111 of the mop rod assembly) along the pin 206. The joint 203 is a lower limit element and plays a role of limiting the movement of the stress application rod 104.

FIG. 5 is a schematic view of the second embodiment when parked.

In fig. 5, 2011 is the upper bar, 2012 is the lower bar, 202 is the mop head, 203 is the joint, 204 is the stressing bar, 206 is the pin, 20111 is the upper end of the mop bar assembly. The force application bar 204 and the upper bar 2011 are substantially folded.

The second embodiment is similar to the first embodiment in use principle.

In fig. 6, 301 is a vertical bar, 302 is a sheath, 303 is a mop head, 304 is a reinforcing bar, 306 is a pin, the vertical bar 301 and the sheath 302 constitute a mop bar assembly, the sheath 302 is mounted on the upper end of the vertical bar 301, and the reinforcing bar 304 is mounted in a groove 3011 of the vertical bar 301 through the pin 306. The reinforcing bar 304 is folded with the upper end of the vertical bar 301 (i.e. the upper end of the mop rod assembly), 3012 is the lower slot edge of the

vertical bar

301, and 3012 is the lower limit element.

FIG. 7 is a schematic sectional view taken along line B- -B of FIG. 6.

In fig. 7, 301 is a vertical rod, 304 is a force application rod, 306 is a pin, the vertical rod 301 and the force application rod 304 have rectangular cross sections, and the force application rod 304 is mounted in a groove of the vertical rod 301 through the pin 306.

FIG. 8 is a schematic diagram of the third embodiment in operation.

In fig. 8, 301 is a longitudinal rod, 302 is a sheath, 303 is a mop head, 304 is a reinforcing rod, and 306 is a pin shaft. 3012, the lower slot edge of the longitudinal bar 301.

The third embodiment is similar to the first embodiment in the use principle, except that the lower slot edge 3012 of the longitudinal rod is used for limiting the force application rod 304 during operation.

In fig. 9, 401 is an upper bar, 402 is a lower bar, 403 is a joint, 404 is a reinforcing bar, 405 is a mop head, 406 is a pin shaft, a lower end face 4042 of the reinforcing bar 404 is an inclined face, 4031 is a plane of the joint 403, 4032 is a mounting base face of the joint 403. The upper pole 401, the lower pole 402, and the joint 403 together form a mop pole assembly, and the force application pole 404 is mounted to the mounting base 4032 of the joint by a pin 406. The lower end face 4042 of the reinforcing bar constitutes a lower limit element.

FIG. 10 is a diagram illustrating a fourth parking according to an embodiment.

In fig. 10, 401 is an upper bar, 402 is a lower bar, 403 is a joint, 404 is a reinforcing bar, 405 is a mop head, and 406 is a pin. The reinforcing bar 404 is substantially folded with the upper bar 401.

The fourth embodiment is similar to the first embodiment in use principle. The difference is that, in operation, the lower end surface 4042 of the force-applying rod contacts the plane 4031 of the joint, so as to limit the movement of the force-applying rod 404, that is, the lower end surface 4042 of the force-applying rod acts as a movement limit for the force-applying rod 404; when the parking and storage are performed, the lower end face 4042 of the booster is inclined, so that the rotation of the booster 404 in the direction of the upper pole 401 is not hindered, and the booster 404 rotates to be substantially folded with the upper pole 401.

In addition to the above embodiments, other embodiments and modifications of the present invention are possible.

For example, in the above embodiments, the force application rod is directly mounted on the mop rod assembly, but may be indirectly mounted on the mop rod assembly.

For example, four configurations of the lower limit element are provided in the four embodiments, but other configurations of the lower limit element are also possible.

As also shown, the force application rod of the previous embodiments performs a rotational motion relative to the mop rod assembly, but may perform a planar motion while rotating and moving.

The foregoing embodiments may also be referred to one another to form new implementations.

And the like, these modifications are intended to fall within the scope of the present invention, and are not described herein in detail.

Claims

1. The labor-saving mop comprises a mop rod assembly and a mop head, and is characterized by also comprising a stressing rod and a lower limiting element, wherein the stressing rod is arranged on the mop rod assembly, can move relative to the mop rod assembly and can be approximately folded with the mop rod assembly; the lower limiting element limits the motion of the stress application rod.

2. The labor saving mop of claim 1, wherein the forcing bar has a U-shaped bar structure.

3. The labor-saving mop according to claim 1, wherein the force-applying rod has a straight rod structure.

4. The labor saving mop of claim 1, wherein the lower limit element is a lower stop mounted on the mop rod assembly.

5. The labor saving mop of claim 1, wherein the lower limiting element is a joint of the mop rod assembly.

6. The labor-saving mop according to claim 1, wherein the lower limit member is a lower end surface of the urging rod.

7. The labor saving mop of claim 1, wherein the mop rod assembly includes a longitudinal rod having a slot therein, and the lower limiting element is a lower slot edge of the longitudinal rod.