CN213696764U - Cleaning device - Google Patents

Abstract

The utility model relates to a cleaner, for one kind provide sweep the floor, wash ground, scrape water, drag the ground, the instrument of cleaning work such as soil preparation, cleaner can divide into two holding rod cleaners, single holding rod cleaner. The double-holding-rod cleaner of the cleaner is a tool for providing large-area cleaning work, and the tool operated by using the double holding rods can greatly improve the cleaning area and efficiency, and simultaneously, the operation posture accords with human engineering. The double-holding-rod cleaner can be used for sweeping floor in large area, washing floor and the like. The vector holding rod can adjust the horizontal force application and the vertical force application of the double/single holding rod cleaner on the stress structure component, can achieve the effect of saving labor or strengthening cleaning, and can expand the application of the vector holding rod on the single holding rod cleaner or other tools. The single-holding-rod cleaner of the cleaner applies the labor-saving or cleaning-enhancing functional characteristics of the vector holding rod, is used in the existing cleaning tools for sweeping, washing, wiping, mopping, soil preparation and the like, and can achieve the effect of saving labor or enhancing cleaning.

Description

Cleaning device

Technical Field

The utility model relates to a cleaner, which is a tool for sweeping the floor, washing the floor, wiping the water, mopping the floor and preparing the soil in a large area. The wide stress structure assembly of the double-holding-rod cleaner can greatly improve the working efficiency of sweeping, washing, wiping, mopping and preparing the ground in a large area. The operation method and the posture of the double-holding-rod cleaner accord with the human engineering, the working posture is easy and convenient, and the double-holding-rod cleaner is suitable for large-area and long-time work. The vector holding rod can adjust the horizontal thrust and the vertical pressure applied by the holding rod, so that the wide double-holding-rod cleaner can work and apply force easily; or enhance the cleaning effect. The vector holding rod can also be used in the existing single-holding-rod cleaner, so that the existing single-holding-rod cleaner is more labor-saving or has more cleaning effect.

Background

The width of the existing tools for sweeping, washing, wiping, mopping and soil preparation is small, and the efficiency is low when large-area ground is cleaned. The existing tools for sweeping, washing, wiping, mopping and soil preparation have poor operation postures, and the body needs to apply force during operation and is easy to fatigue. After the existing single-holding-rod cleaner is widened, the moment on two sides of the holding rod is increased, the force is applied too much, the single-holding-rod operation mode is used, the force is not applied well, the direction of a tool is not easy to operate, and the mopping efficiency is not easy to improve. The existing single-holding-rod operation mode is a working posture of head lowering, body turning, stooping and two-hand bending, and the working posture needs body force application, is easy to fatigue and is not suitable for working for a long time. The working posture of the double-holding-rod cleaner is that the double-holding-rod cleaner stands naturally, two hands droop naturally to hold the double-holding-rod cleaner, the force is evenly distributed on the two holding rods, the two hands naturally put down and swing back and forth during working, the double-holding-rod cleaner advances to work in the same posture as walking, and the double-holding-rod cleaner is suitable for long-time cleaning and cleaning. The existing holding rod is linear, the horizontal thrust and the vertical pressure cannot be adjusted, and after the cleaner is widened, the friction force is increased and the force is increased, so that the cleaner is not easy to use. The existing cleaner has poor posture and low efficiency, and can improve the working posture and the efficiency after the vector holding rod is used, and improve the force application size or the cleaning effect.

SUMMERY OF THE UTILITY MODEL

The width of the existing tools for sweeping, washing, wiping, mopping and soil preparation is small, the working efficiency of cleaning large-area ground is low, the width of the double-holding-rod cleaner in the cleaner is greatly increased, and the working efficiency can be greatly improved. After the width of the existing tools for sweeping, washing, wiping, mopping and soil preparation is increased, because the holding rod is positioned in the center of the cleaning structure, the moment on two sides of the cleaning structure is increased, and the force application and direction are not easily controlled. The operation postures of the existing tools for sweeping, washing, wiping, mopping and soil preparation are that the head is lowered, the body rotates by about 45 degrees, the holding rod is bent, and the holding rod is held by two hands one on the other. When the double-holding-rod cleaner is operated, the head, the body and the limbs naturally stand, the two hands naturally put to the lowest position, and the two hands synchronously swing back and forth; when the tool is operated in a forward mode, the two hands naturally swing back and forth synchronously, and the body can move forward if walking. The body posture accords with the human engineering when the floor cleaning machine works, the work is easiest, and the floor cleaning machine is suitable for large-area and long-time floor cleaning work.

The cleaner of the utility model can be divided into a double-holding-rod cleaner and a single-holding-rod cleaner; the cleaner is a tool for sweeping, washing, wiping, mopping and preparing the ground by using a double-holding-rod operation or a single-holding-rod operation; the double-holding-rod cleaner comprises a double-holding-rod wiper, a double-holding-rod sweeper, a double-holding-rod harrow leveler, a double-holding-rod double-splicing wiper, a double-holding-rod three-splicing wiper, a double-holding-rod bent wiper, a double-holding-rod single-face mop, a double-holding-rod double-face mop and a double-holding-rod three-face mop; the single holding rod cleaner comprises a vector holding rod wiper, a vector holding rod sweeper, a vector holding rod harrow leveler, a vector holding rod single-side mop, a vector holding rod double-side mop and a vector holding rod three-side mop; the cleaner can be mainly divided into a force transmission component, a force bearing structure component and a cleaning component; the force transmission assembly can use a vector holding rod, a holding rod, T-shaped steel, a connecting pipe and a metal connecting pipe, and the force bearing structure assembly uses a wiping structure, a flat rake structure, a single-side mop head, a double-side mop head, a three-side mop head, a double-holding-rod single-side mop head, a double-holding-rod double-side mop head and a double-holding-rod three-side mop head.

Preferably, the vector grip is characterized by a non-linear grip, the vector grip being shaped as a multifold or zigzag or curved shape; the vector holding rod can adjust the included angle between the tail end of the holding rod and the stress structure assembly and the horizontal line by applying the functions and characteristics of the nonlinear holding rod to the vector of the force on the holding rod, and the vector holding rod is used for adjusting the horizontal component of the force application vector and the vertical component of the force application vector when the force application vector enters the stress structure assembly, so that the method for increasing or reducing the horizontal component of the force application vector and the vertical component of the force application vector is achieved.

Preferably, the force transmission assembly is a vector holding rod, a holding rod, T-shaped steel, a connecting pipe and a metal connecting pipe, the force bearing structure assembly adopts a wiping structure, and the cleaning assembly is an expansion plastic sheet; the expansion plastic sheet and the bristle block of the cleaning assembly can be interchanged.

Preferably, the double-holding-rod double-assembly wiper, the double-holding-rod three-assembly wiper and the double-holding-rod bent wiper are mainly characterized in that the wiper is combined in a combined mode; the combination mode is that a vector holding rod wiper or a double holding rod wiper or a wiping block is connected by using a connecting sheet or a bevel connecting sheet; wherein the expanding plastic sheet and the bristle block are interchangeable.

Preferably, the double-holding-rod sweeper and the vector-holding-rod sweeper are mainly characterized in that the force transmission assembly is a vector holding rod and a holding rod; the stressed structure component can use a water scraping structure, and the cleaning component can be a brush hair block.

Preferably, the double-holding-rod single-side mop, the double-holding-rod double-side mop and the double-holding-rod three-side mop are mainly characterized in that the force transmission component is a vector holding rod, a connecting pipe and T-shaped steel or a metal connecting pipe; the stress structure component is a double-holding-rod single-side mop head, a double-holding-rod double-side mop head and a double-holding-rod three-side mop head; the double-holding-rod single-side mop head is characterized in that two connecting devices are arranged on the non-mopping ground, and the two connecting devices are connected with a force transmission assembly; the double-holding-rod double-side mop head is characterized in that the double-holding-rod double-side mop head is provided with two gaps, so that the other side of the double-holding-rod double-side mop head can be reached when the two T-shaped steels rotate; the double-holding-rod three-side mop head is characterized by being composed of isosceles triangular columns, one side of the double-holding-rod three-side mop head is provided with two notches, the two notches can enable the T-shaped steel to rotate, the mopping surface of the rotary three-side mop head can be mopped, and the gravity center of the isosceles triangular columns of the double-holding-rod three-side mop head is a rotating shaft of the T-shaped steel.

Preferably, the mop comprises a vector holding rod single-side mop, a vector holding rod double-side mop, a vector holding rod three-side mop, a vector holding rod wiper, a vector holding rod sweeper and a vector holding rod harrow leveler; the force transmission component is a vector holding rod, T-shaped steel, a connecting pipe or a metal connecting pipe; the stress structure component adopts a single-side mop head, a double-side mop head, a three-side mop head, a water scraping structure and a rake leveling structure; the single-side mop head is characterized in that a connecting device is arranged on the non-mopping ground and is connected with a force transmission component; the double-sided mop head is characterized in that the double-sided mop head is provided with a gap, so that the T-shaped steel can rotate to reach the other side of the double-sided mop head; the three-side mop head is characterized in that an isosceles triangle forms a triangular prism, a notch is formed in one side of the triangular prism, the T-shaped steel can rotate, the three-side mop head can be used for mopping the ground differently, and the gravity center of the isosceles triangle is a rotating shaft of the T-shaped steel.

The efficiency of the cleaning work can be expressed as: the cleaning efficiency is the cleaning area is the width of the cleaner multiplied by the cleaning distance before and after the cleaner every time. Comparing the left drawing and the right drawing in fig. 1, the front and back wiping distance of the wiper is D2, the front and back cleaning distance of the wiper of the left drawing is D1, D1 is obviously larger than D2, and the actually measured D1 is about 1.5 times of D2, namely when the width of the cleaner is the same, the front and back distance of the wiper of the double holding rod is about 1.5 times of that of the existing wiper, namely about 1.5 times of efficiency. Different wiper widths are different, and wiper seesaw distance multiplies the wiper width, is to scrape water area, efficiency at every turn promptly, and the back is scraped water distance before different wiper width and different wipers, and two holding rod wiper width are big, the front and back distance is long, so two holding rod wipers scrape water efficiency and lead current holding rod wiper efficiency by a wide margin.

Referring to the left diagram of fig. 1, the body posture must be inclined, stood at an angle of Θ 1 degree, lowered at an angle of Θ 2 degree, and rotated when using the existing sweeping, washing, wiping, mopping, and soil preparation tools, and the working posture is prone to fatigue and reduces the working efficiency when cleaning a large area for a long time. The double-holding-rod cleaner has different working postures with the existing tools for sweeping, washing, wiping, mopping and preparing soil. When the double-holding-rod cleaner is operated, the head, the body and the limbs are naturally straightened; during forward operation, the hands swing back and forth naturally and walk naturally. The double-holding-rod cleaner accords with human engineering in operation and has natural and relaxed operation posture.

Force application transmission: when one hand or two hands apply force to the holding rod and the vector holding rod, the palm applies force to the holding rod, the force can be converted into a vector in the holding rod, and the vector is transmitted downwards along the direction of the holding rod or the vector holding rod and the pipe wall. The force of the grip has two elements, force and direction, so that the force becomes a vector on the grip.

Cleaning the device: the device can be divided into three main parts, namely a force transmission component, a force bearing structure component and a cleaning component. The double-holding-rod cleaner can be composed of different components and stress structure components, and the different components and the stress structure components have different functions and characteristics so as to finish different ground cleaning works.

A force transmission assembly: the force transmission component of the cleaner is a component for receiving and transmitting force applied by a palm. The force transmission component converts the force applied by the palm into a vector at the holding rod and transmits the vector to the stress structure component by the holding rod. The force transmission assembly can be divided into a vector holding rod, a holding rod, T-shaped steel, a connecting pipe and a metal connecting pipe.

Stress structure subassembly: the force bearing structure assembly of the cleaner bears the force applied from the force transmission assembly, and the force applied is dispersed to the cleaning assembly after passing through the widened force bearing structure assembly. The stress structure component can be divided into a water scraping structure, a rake structure, a single-side mop head, a double-side mop head, a three-side mop head, a double-holding-rod single-side mop head, a double-holding-rod double-side mop head and a double-holding-rod three-side mop head.

Cleaning the component: the cleaning component of the cleaner is used for bearing the force of the stress structure component, the cleaning component is contacted with the ground, and the floor can be swept, cleaned, scraped and mopped according to different cleaning components. The cleaning elements may be an expanded plastic sheet, brush blocks, mop ….

Friction of cleaner: when the cleaning assembly of the cleaner is used for sweeping, wiping, washing and mopping the ground, the cleaning assembly performs cleaning and friction work of back and forth movement on the ground, friction force can be generated, and the larger the width of the cleaner is, the larger the friction force is. The vector holding rod can be adjusted to reduce friction force and increase thrust force, so that the force application is reduced, and the cleaning work is easy.

Working posture and efficiency: the working posture of the double-holding-rod cleaner is natural and straight, the palm is placed at the lowest position, then the arms are slightly bent to do front and back swinging actions, and the double-holding-rod cleaner is applied with force by both hands, so that the posture is more relaxed and natural than that of the existing single-holding-rod cleaner which is operated by bending two arms greatly; also than the clearance distance before and after the current clearance ware is 1.5 times more, clearance distance is efficiency before and after, consequently can improve work efficiency.

The left diagram of fig. 2 is a schematic diagram of the vector grip. The vector holding rod is a component capable of adjusting the horizontal component of force application and the vertical component of force application at the joint of the force transmission component and the force bearing structure component. The wide double-holding-rod cleaner has the advantages that the friction force is large when the floor is mopped in a wet mode, the force application needs to be increased, so that the work is not easy, the vector holding rod can change, increase the horizontal component of the force application, reduce the vertical component of the force application, increase the thrust force, reduce the force application and the friction force, and enable the floor mopping work to be easy and relaxed. Or the vector holding rod can increase the vertical component of the stressed structural component when the wiper works so as to increase the wiping effect. In the figure, DG is a horizontal line, DH is a vertical line, and D is a force-bearing structural component.

Referring to the left side of fig. 2, F1 and F2 are the force applied by the palm to the grip, F1 and F2 are the force applied by the grip and transmitted to the object D through the grip, and F1 and F2 are vectors and are in the direction of the grip to the object D. The horizontal component of vector F1 is vector V1D, vector V1D is for making D strength of advancing, and the vertical component of vector F1 is F1V1, and vector F1V1 application of force is on D, makes D produce frictional force, and increasing F1V1 will increase frictional force, and the ground clearance effect that frictional force is great will be better. The horizontal component V1D of F1 must be greater than the friction of D in order for D to work forward.

If the friction force of D is too large due to the great increase of the width, so that the forward force of D must be increased, the cleaning work becomes bitter, the method of changing and reducing the height of the grip to the position F2 can be realized, if the force F2 is equal to F1, the position is different, the horizontal component of the vector F2 is the vector V2D, and the horizontal component V2D is larger than the original horizontal component V1D, namely, after the height of the grip is reduced, the force is also applied, so that the forward force of D is increased. Meanwhile, the vertical component of the F2 is F2V2, after the height of the grab bar is reduced to the position of F2, the vertical component F2V2 is smaller than the original vertical component F1V1, and after the vertical vector F2V2 is reduced, the vertical component acting on the stressed structure assembly is reduced, and the friction force is also reduced. After F1 is reduced to F2, the advancing force of D is increased and the friction force of D is reduced simultaneously, so that the double-holding-rod cleaner can be operated by greatly reducing the force application, and the work is more labor-saving and easier.

See the right diagram of fig. 2. H1 is H2 in terms of height, which is the lowest height of the palm when the palm stands naturally; according to the operating posture of the double-holding-rod cleaner, the holding rod is operated and applied with force at the palm position after the two hands stretch, so that the operation and the application of force can be easy, and the included angle between the holding rod and the ground is A. Therefore, the height of the holding rod must be at the palm position after the two hands are straightened, the height of the holding rod cannot be lower than the palm, otherwise, the palm cannot hold the holding rod for operation; the height of the holding rod can not be higher than the palm, and the holding rod is higher than the palm height when the arms are straightened, so that the defects of poor force application, small front-back distance, low efficiency and the like in the existing mop operation can be overcome. Referring to the right drawing, the length of the grip must be increased from DH1 to DH2 without changing the height, so as to reduce the included angle between the grip and the force-bearing structural component D, thereby increasing the horizontal thrust. Therefore, the length of the grip can be increased from DH1 to DH2, and the included angle between the grip and the ground can be reduced to an included angle B, so as to achieve the purpose of increasing the horizontal thrust.

From the conclusion of fig. 2, the horizontal component and the vertical component of the force can be changed by changing the included angle between the grip and the force-bearing structural component D and the horizontal line. The horizontal component is thrust can make the clearance ware do the clearance work forward promptly, the vertical component is exerted oneself on the atress structure subassembly downwards, atress structure subassembly transmission horizontal component, the vertical component carries out the clearance work to the clearance subassembly, the clearance work can be for sweeping the floor, wash the ground, scrape water, drag ground work, clearance subassembly and ground can produce frictional force during the clearance work, if increase atress structure subassembly vertical component, will increase the pressure of clearance subassembly, frictional force, increase pressure, frictional force can increase the clearance effect. If the cleaning effect is to be increased, the included angle between the holding rod and the stress structure component can be changed and increased. The vector grip can be used to adjust between application of force and cleaning effect.

Referring to the middle diagram of fig. 3, a diagram of vector grab bars is shown. Assuming that DH is originally a straight holding rod, between D and H, the straight holding rod is bent to make the holding rod take on a turning shape or a curve shape, and when the holding rod finally enters D, the included angle between the holding rod and the stress structure component and the horizontal line is changed from original A to B, thus forming the vector holding rod. The force vector is transmitted along the holding rod, when the force F reaches D, the force F enters D at an included angle B, and the method is used for reducing the included angle between the holding rod and the stress structural component or the horizontal line. The vector holding rod has the function of changing the included angle between the holding rod and the stress structure assembly or the horizontal line when the holding rod enters the stress structure assembly D, so that the vector horizontal component of the force application is increased and the vertical component of the force application vector is reduced. The vector holding rod can greatly reduce the force application of the wide and big double-holding-rod cleaner, and the vector holding rod enables the wide and big double-holding-rod cleaner to work easily and easily on the premise that the cleaning effect is influenced very little.

Referring to fig. 4, a dual-grip wiper for a dual-grip sweeper is shown. The double-holding-rod wiper has high efficiency, high speed and ergonomic easy operation posture for large-area wiping work. Because the friction force of the double-holding-rod wiper is small, the wiping work cannot become too large by adding the vertical component after the vector holding rod can be used. The vertical component, the frictional force that use vector holding rod can increase two holding rod wipers to gain better wiping effect, this kind of vector holding rod is for increasing the contained angle of holding rod and atress structure subassembly, and the horizontal component that increases the vertical component of application of force promptly and reduce the application of force promptly is to increase the perpendicular strength of wiping the water structure promptly, reaches to increase and scrapes the water effect purpose.

Wiper structure: a structure with wide and big grooves is provided, a connecting device is arranged above the grooves, and the grooves can be connected with a force transmission assembly. The water scraping structure is one of the stress structure components, receives the force applied by the vector holding rod and the holding rod, and then is dispersed to the cleaning component for cleaning. The groove can be internally provided with an expansion plastic sheet, an expansion rubber sheet and a brush block so as to carry out water scraping, floor sweeping and floor washing.

Referring to FIG. 5, an exploded view of a dual grip wiper is shown. The double-holding-rod wiper can be divided into three parts, namely a vector holding rod or a holding rod, a wiping structure and an expansion plastic sheet. The double-holding-rod wiper can efficiently remove accumulated water on the ground on the large-area ground, a court … and the like. The wide double-holding-rod wiper can finish cleaning work quickly and efficiently. The friction force of the wiper with the double holding rods is small, and the vector holding rods can adjust and increase the vertical component of force application, so that the vertical force of the wiping structure is increased, and the wiping effect is improved. The double-holding-rod wiper has natural and easy working posture, and can easily finish large-area ground wiping work.

Fig. 6 is an exploded view of the dual-grip sweeper in the dual-grip sweeper. The double-holding-rod sweeper can be divided into three parts, namely a vector holding rod or a holding rod, a water scraping structure and a brush hair block. The double-holding-rod sweeper can efficiently clean leaves, gravels and garbage or clean the ground on the ground with a large area, a court … and the like. The wide double-holding-rod sweeper can finish cleaning work quickly and efficiently. The friction force of the double-holding-rod sweeper is small, the vector holding rod can be adjusted and used for increasing the vertical force of the wiping structure, and the cleaning effect is improved. The double-holding-rod floor sweeper has natural and easy working posture, and can easily finish large-area floor sweeping or washing.

Fig. 7 is a drawing and exploded view of the double-holding-rod harrow plate. The double-holding-rod harrow scraper can be divided into two parts of a vector holding rod or a holding rod and a harrow structure. The double-holding-rod harrow for the existing harrow increases the width and uses the double holding rods, so that the working efficiency of cleaning and leveling can be greatly increased, the operating mode of the double holding rods accords with the ergonomics, and the work is easy and the force is applied. The vector holding rod can adjust the force application, so that the widened double-holding-rod harrow scraper has higher efficiency and better operation function. The double-holding-rod harrow scraper can be used for large-area agriculture, soil preparation, snow removal, civil engineering and the like.

Referring to fig. 8, the dual-holding-rod dual-assembly wiper is shown. Huge two holding rod double pin wipers can be divided into two left and right vector holding rod wipers, according to working width, area size, can be divided or the combined use, and its advantage is convenient transportation, carries, accomodates, sells, or convenient in the use, raises the efficiency. The two vector holding rod wipers are combined by a connecting sheet, screws and screw holes are arranged on the connecting sheet, and the connecting sheet is used for connecting the two vector holding rod wipers to form the double-holding rod double-spliced wiper. The rubber sheet is arranged on the connecting sheet, so that the water leakage of a gap at the joint of the two vector holding rod wipers after combination can be prevented. The expansion plastic sheet and the bristle block can be interchanged, and different cleaning works can be carried out.

Referring to fig. 9, the dual-holding rod three-piece wiper is shown. The double-holding-rod three-spliced wiper is formed by combining a double-holding-rod wiper and two water scraping blocks, the double-holding-rod wiper is formed by combining the water scraping blocks on the left side and the right side by connecting pieces during combination, screws are arranged on the connecting pieces, and the double-holding-rod wiper and the water scraping blocks are locked by the screws. Its advantage is for convenient transportation, carrying, accomodating, selling, or uses different ground width, area elasticity, and huge width can raise the efficiency by a wide margin after the combination.

Referring to fig. 10, a dual grip bent wiper is shown. The double-holding-rod bent wiper is formed by combining a double-holding-rod wiper and two wiper blocks. Two holding rod curved wiper's two holding rod wipers and two scrape between the water piece not sharp combination, two scrape the water piece and be close to about two holding rod wipers and connect, connect with the dog-ear connection piece, there is an contained angle on two holding rod wipers after connecting and controlling the water piece, two scrape the water piece and appear concave shape after being connected with two holding rod wipers, the bending, when wiping work when advancing forward, can concentrate the water of scraping in the spill, water can not flow outside the spill of two holding rod curved wiper. The bent angle connecting piece is provided with a screw, and the screw is locked with the double-holding-rod wiper and the two wiper blocks to form the double-holding-rod bent wiper. Huge two holding rod curved wiper can be decomposed into two holding rod wipers, two water scraping blocks, and its advantage is for convenient transportation, carrying, accomodating, selling, or provide different width, area and scrape water and use.

Referring to fig. 11, a single-side mop with two holding rods is shown. The double-holding-rod single-side mop consists of a force transmission component, a vector holding rod, a connecting pipe, T-shaped steel or a metal connecting pipe of the force transmission component, and a double-holding-rod single-side mop head. The double-holding-rod single-side mop head is provided with two connecting devices which can be connected with a force transmission assembly. The mop head with double holding rods and single surface is wider than the existing mop head, so that the mopping efficiency can be greatly improved. The vector holding rod is used, so that the force application can be greatly reduced, and the work is easier. The double-holding-rod single-side mop has the functions of high efficiency, labor-saving operation and easy operation.

Referring to fig. 12, a double-grip double-sided mop is shown. The double-holding-rod double-sided mop consists of a force transmission component, a vector holding rod, a connecting pipe, T-shaped steel or a metal connecting pipe of the force transmission component, and a double-holding-rod double-sided mop head. The wide double-holding-rod double-side mop head is provided with two gaps through which different T-shaped steel rotating shafts can pass, so that the double-holding-rod double-side mop can be used for mopping different floor surfaces. The double-holding-rod double-side mop head is wider than the existing mop head, so that the mopping efficiency can be greatly improved. The double-holding-rod double-side mop head has two mopping surfaces, so that the times and time for changing mopping cloth can be reduced, and the mopping efficiency is improved. When the mop is used for mopping the floor in a wet mode, the vector holding rods are used, force application can be greatly reduced, and the double-holding-rod double-sided mop has the functions of high efficiency, labor saving and easy operation.

Referring to fig. 13, a two-grip three-sided mop. The double-holding-rod three-side mop consists of a force transmission assembly, a vector holding rod, a connecting pipe, T-shaped steel or a metal connecting pipe of the force transmission assembly, and a double-holding-rod three-side mop head. The double-holding-rod three-side mop head is characterized in that the double-holding-rod three-side mop head is an isosceles triangular prism, the gravity center of the isosceles triangular prism is a rotating shaft, the double-holding-rod three-side mop head is provided with two gaps, the two gaps are arranged on the same side of the isosceles triangular prism, and different T-shaped steels can be rotated by the two gaps, so that any one side of the double-holding-rod three-side mop head can be changed and used for mopping the floor to work. The double-holding-rod three-side mop head is wider than the existing mop head, so that the mopping efficiency can be greatly improved; the double-holding-rod three-side mop has three mopping surfaces, so that the times and time for changing mopping cloth can be greatly reduced. When the mop is used for mopping the floor in a wet mode, the vector holding rods are used, force application can be greatly reduced, and the efficient double-holding-rod three-side mop can also work easily. Therefore, the double-holding-rod three-side mop has the functions of high efficiency, labor-saving operation and easy operation. The shape of the vector holding rod can be curved or zigzag, and can also be arc-shaped.

Referring to FIG. 14, in one embodiment of the vector grip in the single grip cleaner, the vector grip can be used in an existing cleaning device to enhance the mopping effect or save more effort. The single-holding-rod cleaner of the embodiment can be a vector holding-rod wiper, a vector holding-rod sweeper and a vector holding-rod harrow leveler. The single-grip cleaner can be the same as the double-grip cleaner in that a vector grip is used to change the horizontal thrust and the vertical force of the single-grip cleaner. The width of the single-holding-rod cleaner is smaller, so that the friction force is smaller, the vector holding rod has the main function of increasing the vertical force, and the cleaning effect of the cleaning assembly can be increased after the vertical force is increased to the stressed structure assembly. After the vector holding rod increases the vertical force, the vector holding rod has enough cleaning force, does not need to be operated by two hands, and does not need to be operated by body turning, tilting, head lowering and two hands like the existing cleaner. The cleaner with the measuring holding rod has the advantages that the body can be naturally stood straight in the operation posture, and the body posture is easy and convenient to operate by one hand. The cleaner for the vector holding rod operated by one hand has the advantages that the working distance is larger before and after the palm position is lower, the front and back distances of the cleaner can be greatly increased, namely, the vector holding rod cleaner has higher efficiency than the existing cleaner, and has a lighter working posture.

Referring to FIG. 15, in a second embodiment of the vector grip in the single grip cleaner, the vector grip can be used in an existing cleaning device to enhance the mopping effect or save more effort. The vector holding rod of the embodiment can be applied to a single-sided mop, a double-sided mop and a three-sided mop, and the vector holding rod is called as the vector holding rod single-sided mop, the vector holding rod double-sided mop and the vector holding rod three-sided mop after being used. The vector holding rod is applied to the single-holding-rod mop to improve the mopping posture, make mopping easier, enhance the mopping effect or save more labor; when the mop with the vector holding rod works, the mop can be used for mopping the floor by putting the hand at a lower position, which is a relatively easy mopping posture, and in addition, the mopping distance from the front to the back of the mop head with the vector holding rod is larger, so the mopping efficiency can be improved. If the vertical component of the force application is increased, the vector holding rod can enhance the mopping effect, and the mopping gesture with one hand is easier. Or the horizontal component of the force application is increased, so that the mopping work can be easier and easier after the horizontal component of the force application is changed and increased for the mophead with larger width and friction force.

Drawings

FIG. 1 is a diagram comparing the working postures of the dual-grip wiper of the cleaner of the present invention and the existing single-grip wiper.

Fig. 2 is a schematic diagram of the vector grip of the present invention.

FIG. 3 is a diagram of the vector holding rod of the present invention.

FIG. 4 is a diagram of a dual-grip wiper of the present invention.

Fig. 5 is an exploded view of the dual-grip wiper of the present invention.

Fig. 6 is a drawing and an exploded view of the double-holding-rod sweeper of the present invention.

FIG. 7 is a drawing and exploded view of the dual-holding rod harrow of the present invention.

Fig. 8 is a drawing and an exploded view of the dual-holding-rod dual-assembly wiper of the present invention.

Fig. 9 is a drawing and an exploded view of the dual-holding-rod three-piece wiper of the present invention.

Fig. 10 is a drawing and exploded view of a dual-grip bent wiper according to the present invention.

Fig. 11 is an exploded view of a single mop with two handles.

Fig. 12 is an exploded view of the double-grip double-sided mop.

Fig. 13 is an exploded view of the double-grip three-sided mop.

FIG. 14 shows a view of a vector grip wiper, a vector grip sweeper, and a vector grip rake leveler.

FIG. 15 is a view of a single-sided mop with a vector holder, a double-sided mop with a vector holder, and a triple-sided mop with a vector holder.

Reference numerals:

01 double-holding rod wiper

02 wiper

03 vector holding rod

04 holding rod

05 wiper structure

06 expansion plastic sheet

07 double-holding-rod sweeper

08 bristle block

09 double-holding-rod harrow scraper

10 flat harrow structure

11 connecting sheet

12 rubber sheet

13 wiper block

14 dog-ear connection piece

15 double holding rod double-spliced wiper

16 double-holding-rod three-piece wiper

17 double-holding rod bent wiper

18 double-holding rod single-side mop head

19T-shaped steel

20 connecting pipe

21 metal connecting pipe

22 double-holding-rod double-side mop head

23 double-holding-rod three-side mop head

24 vector holding rod wiper

25-vector holding rod sweeper

26 vector holding rod harrow smoothing device

Single-side mop with 27-vector holding rod

28-vector holding rod double-sided mop

29 vector holding rod three-side mop

Detailed Description

Referring to fig. 8, the present invention provides a dual-holding rod dual-assembly wiper 15, wherein the dual-holding rod dual-assembly wiper 15 is a combined wiper. The double holding rod double-spliced wiper 15 comprises two vector holding rod wipers 24 which are formed in a straight line mode, and the two vector holding rod wipers 24 are connected and fixed by using the connecting sheet 11 and screws, so that the double holding rod double-spliced wiper 15 is formed.

Referring to fig. 9, the present invention provides a dual-holding-rod three-piece wiper 16, wherein the dual-holding-rod three-piece wiper 16 is a combined wiper. The double-holding-rod three-piece wiper 16 comprises a double-holding-rod wiper 1, two wiper blocks 13 and two connecting pieces 11, and is formed in a linear mode. The left side and the right side of the double-holding-rod wiper 1 are respectively connected with the wiper block 13 through the two connecting sheets 11 and the screws and locked through the screws, and the double-holding-rod three-spliced wiper 16 is formed.

Referring to fig. 10, the present invention provides a dual-holding rod bent wiper 17, in which the dual-holding rod bent wiper 17 is a combined wiper. The double-holding-rod bent wiper 17 comprises a double-holding-rod wiper 1, two wiper blocks 13 and two bevel connecting pieces 14 which are connected to form a concave shape. The double-holding-rod wiper 1 is connected near the left side and the right side by using two bent angle connecting sheets 14 and screws, and the wiper block 13 is locked by using the screws, so that the double-holding-rod bent wiper 17 is formed.

Claims (7)

1. A cleaner is characterized in that the cleaner can be divided into a double-holding-rod cleaner and a single-holding-rod cleaner; the cleaner is a tool for sweeping, washing, wiping, mopping and preparing the ground by using a double-holding-rod operation or a single-holding-rod operation; the double-holding-rod cleaner is a double-holding-rod wiper, a double-holding-rod sweeper, a double-holding-rod harrow leveler, a double-holding-rod double-splicing wiper, a double-holding-rod three-splicing wiper, a double-holding-rod bent wiper, a double-holding-rod single-face mop, a double-holding-rod double-face mop or a double-holding-rod three-face mop; the single holding rod cleaner is a vector holding rod wiper, a vector holding rod sweeper, a vector holding rod harrow leveler, a vector holding rod single-side mop, a vector holding rod double-side mop or a vector holding rod three-side mop; the cleaner can be mainly divided into a force transmission component, a force bearing structure component and a cleaning component; the force transmission assembly is vector holding rod, T-shaped steel, connecting pipe or metal connecting pipe, and the force bearing structure assembly is wiper structure, rake structure, single-side mop head, double-side mop head, three-side mop head, double-holding-rod single-side mop head, double-holding-rod double-side mop head or double-holding-rod three-side mop head.

2. The sweeper of claim 1, wherein the vector grip of the force transfer assembly features a non-linear grip, the vector grip being curvilinear in shape.

3. The sweeper of claim 1 wherein said force transfer assembly is said vector grip, said T-bar, said attachment tube, said metal attachment tube, said force bearing assembly employs a wiper structure, and said sweeper assembly is an expanding plastic sheet or a bristle block.

4. The wiper as defined in claim 1 wherein said dual-grip dual-segment wiper, said dual-grip triple-segment wiper, or said dual-grip bent wiper is a combination wiper; the double holding rod double-spliced wiper is formed by connecting two vector holding rod wipers by using a connecting sheet in a straight line manner; the double-holding-rod three-piece wiper is characterized in that the left side and the right side of the double-holding-rod wiper are respectively connected with a wiping block by using two connecting sheets; the double-holding-rod bent wiper is characterized in that the left side and the right side of the double-holding-rod wiper are respectively connected with the water scraping blocks by using two bevel connecting sheets, so that the double-holding-rod wiper, the two water scraping blocks and the two bevel connecting sheets are connected to form a concave shape.

5. The sweeper of claim 1 wherein in the dual grip sweeper, the force transfer assembly is the grip, the force receiving assembly employs the wiper structure, and the sweeper is a bristle block.

6. The sweeper of claim 1 wherein in said double-grip single-sided mop, said force transfer assembly is said vector grip, said connecting tube, said T-bar or said metal connecting tube, said force bearing assembly is said double-grip single-sided mop head, said double-grip single-sided mop head is characterized by two connecting devices on the non-mopping surface, said two connecting devices connecting said force transfer assembly; in the double-holding-rod double-sided mop, the force transmission assembly is the vector holding rod, the connecting pipe, the T-shaped steel or the metal connecting pipe, the stress structure assembly uses the double-holding-rod double-sided mop head, and the double-holding-rod double-sided mop head is characterized in that the double-holding-rod double-sided mop head is provided with two gaps, so that the two T-shaped steels can reach the other side of the double-holding-rod double-sided mop head when rotating; or the double-holding-rod three-sided mop, the force transmission assembly is the vector holding rod, the connecting pipe, the T-shaped steel or the metal connecting pipe, the stress structure assembly uses the double-holding-rod three-sided mop head, the double-holding-rod three-sided mop head is characterized by being formed by an isosceles triangular column, one side of the double-holding-rod three-sided mop head is provided with two gaps, the T-shaped steel can be rotated by the two gaps, the floor mopping surface of the three-sided mop head is rotated to mop the floor, and the gravity center of the isosceles triangular column of the double-holding-rod three-sided mop head is the rotating shaft of the T-shaped steel.

7. The sweeper of claim 1 wherein in said vector grip single-sided mop, said force transfer assembly is said vector grip, said force bearing structure assembly utilizes said single-sided mop head, said single-sided mop head is characterized by a connector on the non-mopping surface, said connector connects said force transfer assembly; in the vector holding rod double-sided mop, the force transmission assembly is the vector holding rod, the stress structure assembly uses the double-sided mop head, and the double-sided mop head is characterized in that the double-sided mop head is provided with a gap, so that the T-shaped steel rotates to reach the other side of the double-sided mop head; the vector-holding-rod three-side mop is characterized in that the force transmission assembly is the vector holding rod, the stress structure assembly uses the three-side mop head, the three-side mop head is characterized in that a triangular column formed by an isosceles triangle is arranged, one side of the triangular column is provided with a notch, the T-shaped steel can rotate, the three-side mop head can use different mopping floors, and the gravity center of the triangular column formed by the isosceles triangle is the rotating shaft of the T-shaped steel; the vector holding rod wiper is characterized in that the force transmission component is the vector holding rod, and the force bearing structural component adopts the wiping structure; in the vector holding rod sweeper, the force transmission component is the vector holding rod, the force bearing structural component uses the water scraping structure, and the cleaning component is a brush hair block; or in the vector holding rod harrow scraper, the force transmission component is the vector holding rod, and the stress structure component uses the harrow structure.

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