CN220293562U - Rag with squeezing dewatering plate - Google Patents

Abstract

The utility model discloses a rag with extrusion dehydration plates, which comprises a rag body, two extrusion dehydration plates, two bow-shaped double-head hinges, one main handle, one auxiliary handle and one spring bolt, wherein the rag body is correspondingly buckled below the two extrusion dehydration plates through a buckle on the rag body, the two extrusion dehydration plates are hinged together through the two bow-shaped double-head hinges, the front end of the main handle is fixedly arranged on one of the two extrusion dehydration plates, the front end of the auxiliary handle is hinged with a handle hinge base on the other extrusion dehydration plate, and the tail ends of the main handle and the auxiliary handle are in inserted-buckled closure through the spring bolt. When the rag with the squeezing dehydration plate is used for wiping a table top, a main handle and an auxiliary handle which are closed together through inserting buckles drag the rag body to wipe, when the rag body is dehydrated, the squeezing dehydration plate is driven by the separated main handle and the auxiliary handle to squeeze the rag body for dehydration, and after the dehydration of the rag body is completed, the auxiliary handle is only required to be closed on the main handle, so that a spring bolt on the main handle can lock the auxiliary handle, and the original shape of the equipment can be restored.

Description

Rag with squeezing dewatering plate

Technical Field

The utility model relates to the field of cleaning tools, in particular to a rag with an extrusion dewatering plate.

Background

The rag is a wiping article commonly used in a kitchen and a dining table, but the conventional rag can be used repeatedly by grasping the rag by hand, if more greasy dirt is dropped on the table, the greasy dirt can be stuck to the hands of a user to make the hand feel very greasy and uncomfortable when the user grasps the rag to wipe, and the conventional rag can be used repeatedly by cleaning the rag after being used, if the user can feel ice when cleaning the rag in winter.

Disclosure of Invention

In order to solve the defects that the existing rag can only be used for wiping stains by being grasped by hands and can be reused by being washed by hands or being washed by machinery, the utility model aims to provide the rag with the squeezing dehydration plates. When the rag with the squeezing dehydration plate is used for wiping stains on a table surface, only the tail end handles of the two handles which are combined together are needed to be grasped by hands, then the handles are pushed by hands to drive the rag to wipe, after wiping is finished, the rag body is only needed to be put under a tap to be washed, then the spring bolt button on the main handle is pulled back, the two handles which are combined together are automatically sprung and separated under the action of the elasticity of the rebound device assembly, at the moment, only one handle is needed to be grasped by each hand to be oppositely squeezed inwards, and the squeezing dehydration plate can squeeze water in the rag out cleanly without wringing by hands. When the squeezing dewatering plate is used for squeezing water in the rag, only one hand is needed to grasp the main handle, and the other hand is needed to grasp the auxiliary handle to mutually rotate the handles outwards, so that the auxiliary handle is closed onto the main handle, and the spring bolt on the main handle locks the auxiliary handle, thus the original shape of the rag with the squeezing dewatering plate can be restored, and the use is very convenient. When the service time of the rag body is long and the rag body needs to be replaced, the rag body is convenient to detach and install, the old rag body can be directly detached by pressing the buckle of the rag body inserted and buckled to the extrusion dehydration plate by hand when the rag body is detached, and the new rag body can be directly buckled below the two extrusion dehydration plates correspondingly when the new rag body is installed without any tool.

In order to achieve the above object, a first technical solution of the present utility model is as follows: the rag with the extrusion dehydration plates comprises one rag body, two extrusion dehydration plates, two bow-shaped double-head hinges, one main handle, one auxiliary handle, one handle hinge base, two handle limit baffles, one spring bolt and one rebound device assembly, and is characterized in that the rag body is correspondingly buckled below the two extrusion dehydration plates through buckles on the two sticky plates; the two extrusion dehydration plates are hinged together by two bow-shaped double-head hinges; the front end of the main handle is fixedly arranged on one of the two squeezing dehydration plates; the front end of the auxiliary handle is hinged with a handle hinge base on the other squeezing dehydration plate; the tail ends of the main handle and the auxiliary handle are buckled and closed together by a spring bolt; the two handle limiting baffles are arranged on an extrusion dehydration plate hinged with the auxiliary handle and are respectively arranged in front of and behind the front end of the auxiliary handle; the spring latch and rebound catch assembly is mounted in front of the end grip of the main handle.

Preferably, the rag body comprises a rag and two bonding plates, the rag is made of soft elastic materials with a water absorption function, the lower parts of the two bonding plates and the upper parts of the rag are stuck and connected together by glue, the corresponding inner sides of the two bonding plates stuck on the rag are provided with a distance, at least one buckle is arranged on each bonding plate of the two bonding plates, each bonding plate of the two bonding plates is made of plastic by one-time injection molding, and the buckle and the bonding plate connected with the buckle are integrated.

Preferably, at least one buckling female groove is reserved on each extrusion dehydration plate of the two extrusion dehydration plates, at least one hinge base is arranged on the inner side edge of each extrusion dehydration plate of the two extrusion dehydration plates, a space is reserved between the corresponding inner sides of the two extrusion dehydration plates and the two extrusion dehydration plates are parallel, the two extrusion dehydration plates are hinged together through an arched double-head hinge, each extrusion dehydration plate of the two extrusion dehydration plates is made of polyoxymethylene through one-time injection molding, and each extrusion dehydration plate is integrated with the connected hinge base.

Preferably, the main handle is provided with at least one spring latch and a set of rebound catch assemblies.

Preferably, the auxiliary handle is provided with at least one spring bolt clamping groove.

Preferably, the second technical scheme of the utility model is as follows: the rag with the extrusion dehydration plates comprises one rag body, two extrusion dehydration plates, two bow-shaped double-head hinges, one main handle, one auxiliary handle, two round shaft-bearing pressing blocks, two square concave gaskets, two nuts, two handle limiting baffles, one spring bolt and one rebound device component, and is characterized in that the rag body is correspondingly buckled below the two extrusion dehydration plates through buckles on the two sticky plates on the rag body; the two extrusion dehydration plates are hinged together by two bow-shaped double-head hinges; the front end of the main handle is provided with a round pressing block with a shaft, a square concave gasket and a nut, and the square concave gasket and the nut are arranged on one of the two extrusion dehydration plates; the front end of the auxiliary handle is provided with a round pressing block with a shaft, a square concave gasket and a nut, and the square concave gasket and the nut are arranged on the other extrusion dehydration plate; the tail end handles of the main handle and the auxiliary handle are buckled and combined together by a spring bolt; the two handle limiting baffles are respectively arranged at the outer sides of the main handle and the auxiliary handle and are integrated with the extrusion dehydration plate correspondingly connected with the two handle limiting baffles; the spring latch and rebound catch assembly is mounted in front of the end grip of the main handle.

Preferably, a square groove is formed below each extrusion dewatering plate of the two extrusion dewatering plates, and a square shaft pin hole is formed at the center point of each square groove.

Preferably, the handle support is arranged below the rear of the cylindrical rotating body at the front ends of the main handle and the auxiliary handle, and the handle support is planar and is in contact with the plane on the corresponding squeezing dehydration plate.

Preferably, the tail end handles of the main handle and the auxiliary handle are semi-cylinders, the inner sides of the semi-cylinders are plane outer sides of the semi-cylinders are semi-circles.

Preferably, the upper half part of the shaft pin of the round shaft-bearing pressing block is cylindrical, the middle part of the shaft pin is square, and the lower end of the shaft pin is a threaded body.

Preferably, the central point of the two square concave gaskets is provided with a square shaft pin hole, the two square concave gaskets are respectively embedded into the grooves below the corresponding extrusion dewatering plates, and the central square shaft pin hole of each square concave gasket in the two square concave gaskets is aligned with the square shaft pin hole provided by the corresponding extrusion dewatering plate, and the sizes of the square shaft pin holes are consistent.

Drawings

Fig. 1 is a schematic structural view of a wiper with a squeeze dewatering plate according to a first embodiment of the present utility model.

Fig. 2 is a schematic view of a rag with squeeze-dewatering plate according to a first embodiment of the present utility model after the primary handle and the secondary handle are opened.

FIG. 3 is a schematic view of a rag with a squeeze dewatering plate according to a first embodiment of the present utility model when the rag is dewatered by the squeeze dewatering plate.

FIG. 4 is an exploded view of a cleaning cloth with squeeze dewatering plate according to a first embodiment of the present utility model.

Fig. 5 is a schematic structural view of a wiper with a squeeze dewatering plate according to a second embodiment of the present utility model.

FIG. 6 is a schematic view of a wipe with squeeze-and-squeeze panel according to a second embodiment of the present utility model after the primary handle and secondary handle are opened.

Fig. 7 is a schematic view of a circular shaft pressing block in a rag device with a squeeze dewatering plate according to a second embodiment of the present utility model.

Fig. 8 is a schematic structural view of a square concave pad in a rag device with an extrusion dewatering plate according to a second embodiment of the present utility model.

Reference numerals illustrate:

1-rag body, 11-rag, 12-sticky board, 13-buckle, 2-squeezing dehydration board, 21-buckle mother groove, 3-bow-shaped double-head hinge, 31-hinge base, 4-main handle, 41-hanging ring, 5-auxiliary handle, 51-handle hinge base, 52-handle limit baffle, 53-handle pivot, 6-spring bolt, 61-spring bolt button, 62-spring bolt lock tongue, 63-spring bolt clamping groove, 7-rebound device component, 71-rebound device bullet, 72-rebound device spring, 73-rebound device screw thread bottom cap, 74-rebound device pair perforation, 8-screw, 81-screw hole, 9-shaft pin, 91-shaft pin head, 92-clamp spring, 93-shaft pin hole, 100-round shaft pressing block, 101-square concave gasket.

Description of the embodiments

The utility model is further described below with reference to the drawings and detailed description.

Example 1:

as shown in fig. 1 to 4, a cleaning cloth with squeezing dewatering plates of this embodiment includes a cleaning cloth body 1, two squeezing dewatering plates 2, two bow-type double-headed hinges 3, one main handle 4, one auxiliary handle 5, one handle hinge base 51, two handle limit baffles 52, one spring latch 6, and one rebound device assembly 7, and is characterized in that the cleaning cloth body 1 is correspondingly fastened below the two squeezing dewatering plates 2 by means of the buckles 13 on the two self-body adhesive plates 12, the two squeezing dewatering plates 2 are hinged together by the two bow-type double-headed hinges 3, the front end of the main handle 4 is fixedly installed above the right squeezing dewatering plate 2, the front ends of the auxiliary handles 5 are hinged with the handle hinge bases 51 on the left squeezing dewatering plate 2, the ends of the main handle 4 and the auxiliary handles 5 are in inserted and closed together by the spring latch 6, and the two handle limit baffles 52 are arranged on the left squeezing dewatering plate 2 and are respectively arranged on the front ends of the auxiliary handles 5 and the front ends of the spring latch 6 and the rebound device assembly 7.

In this embodiment, the rag body 1 comprises a rag 11 and two sticky boards 12, the rag 11 is made of a material with water absorption function and soft elasticity, the lower parts of the two sticky boards 12 and the upper parts of the rag 11 are adhered and connected together by glue, and a space is reserved between the corresponding inner sides of the two sticky boards 12 adhered on the rag 11, so that the rag can be folded, extruded and dehydrated, four buckles 13 are arranged on each sticky board 12 of the two sticky boards, each sticky board 12 of the two sticky boards is made of plastic by one-time injection molding, and the buckles 13 are integrated with the sticky board 12 connected with the two sticky boards.

In this embodiment, each extrusion dewatering plate 2 of the two extrusion dewatering plates is provided with four snap-fit female grooves 21, the positions of the four snap-fit female grooves 21 are aligned with the four snap-fit 13 of the corresponding adhesive plate 12 below, the four snap-fit 13 on each adhesive plate 12 are inserted and buckled in the four snap-fit female grooves 21 provided with the corresponding extrusion dewatering plate 2, the inner side edge of each extrusion dewatering plate 2 of the two extrusion dewatering plates is provided with two hinge bases 31, each side of the inner side edge of each extrusion dewatering plate 2 of the two extrusion dewatering plates is aligned with the opposite hinge base 31, a space is reserved between the corresponding inner sides of the two extrusion dewatering plates 2 and the two extrusion dewatering plates are parallel, so that enough turning space is not collided with each other when the two extrusion dewatering plates 2 rotate ninety degrees inwards to extrude the cleaning cloth 11, each extrusion dewatering plate 2 is made of polyoxymethylene through one-time injection molding, each hinge base 31 is provided with a shaft pin hole, and each hinge base 31 and the extrusion dewatering plate corresponding to be connected with the hinge bases 31 are integrally.

In this embodiment, the space which is the same as the size of the hinge base 31 is reserved in the left and right entities of the bow-type double-head hinge 3, the space which is reserved in the left and right entities of the bow-type double-head hinge 3 is relatively inward and the bottom is empty, the left and right sides of the bow-type double-head hinge 3 are provided with shaft pin holes, the shaft pin holes 93 reserved in the left and right sides of the bow-type double-head hinge 3 are aligned with the shaft pin holes 93 reserved in the hinge base 31, and the bow-type double-head hinge 3 is made of metal.

In this embodiment, the two bow-type double-headed hinges 3 are respectively fastened on two pairs of hinge bases 31 aligned correspondingly with the two squeezing dehydration boards 2, then the shaft pins 9 are inserted from the shaft pin holes 93 left on the left and right sides of each bow-type double-headed hinge 3, the shaft pins 9 are inserted from the shaft pin holes 93 left on the left and right sides of each bow-type double-headed hinge 3 and correspondingly inserted into the shaft pin holes 93 of the hinge bases 31 sleeved in the bow-type double-headed hinges 3, finally the shaft pins 9 are inserted from the other sides of the bow-type double-headed hinges 3, and the shaft pins 9 are inserted from the other sides of the bow-type double-headed hinges 3 and then clamped with clamping springs in clamping grooves at the tail parts of the shaft pins 9, so that the two bow-type double-headed hinges 3 are hinged with the left and right sides of the two squeezing dehydration boards 2.

In this embodiment, a screw hole 81 is reserved on the right squeezing dehydration plate 2, the front end of the main handle 4 is fixedly installed on the right squeezing dehydration plate 2 by using a screw 8 and a nut, the tail end of the main handle 4 is processed into a cylindrical handle so as to be more fit with the hands of people, a spring bolt 6 is installed on the plane in front of the cylindrical handle at the tail end of the main handle 4, a rebound device counter-perforation 74 is further opened on the front main handle 4 of the spring bolt 6 from bottom to top so as to install a rebound device assembly 7, the hole of the rebound device counter-perforation 74 is in the shape of an inner circular table with a big bottom and a small top, an inner thread is opened in the bottom of the hole body, and a hanging ring 41 is welded at the tail end of the main handle 4 so that a rag with the squeezing dehydration plate can be hung on a kitchen hanger after being used.

In this embodiment, the handle hinge base 51 is disposed on the left squeeze dewatering plate 2 and is integral with the left squeeze dewatering plate 2, and the two side walls of the handle hinge base 51 are provided with a pair of aligned shaft pin holes 93.

In this embodiment, the front end of the auxiliary handle 5 is provided with a pin hole 93, the front end of the auxiliary handle 5 is mounted in the handle hinge base 51, the pin holes 93 formed in the front end of the auxiliary handle 5 are aligned with the pin holes 93 formed in the side walls of the two sides of the handle hinge base 51, when the auxiliary handle 5 is mounted, the pin 9 penetrates through the pin hole 93 formed in the side wall of one side of the handle hinge base 51, penetrates through the pin hole 93 formed in the front end of the auxiliary handle 5, then penetrates out of the pin hole 93 formed in the side wall of the other side of the handle hinge base 51, and then clamps a clamp spring in a clamping groove at the tail part of the pin 9, so that the auxiliary handle 5 is hinged with the left squeezing dewatering plate 2.

In this embodiment, the dead bolt of the spring latch 6 is inclined upwards and downwards so that when the auxiliary handle 5 swings towards the main handle 4 to be closed, when the slope above the dead bolt hits the tail section of the tail end of the auxiliary handle 5, the dead bolt of the spring latch 6 locks into the spring latch clamping groove 63 when the tail section of the tail end of the auxiliary handle 5 is completely closed to the section of the front door of the spring latch 6, because the lower surface of the dead bolt of the spring latch 6 is a plane, the auxiliary handle 5 can be firmly locked, the spring latch 6 is fixed on the front surface of the cylindrical handle at the tail end of the main handle 4 by using a screw, the dead bolt 6 is installed to lock the auxiliary handle 5 by using the dead bolt of the spring latch 6 to be inserted into the spring latch clamping groove 63 at the tail end of the auxiliary handle 5, so that the auxiliary handle 5 can be firmly locked on the main handle 4, and further the left squeezing dewatering plate 2 hinged with the auxiliary handle 5 can not swing upwards, downwards and leftwards and rightwards, and leftwards, and the spring latch can not rebound from the spring latch clamping component 4 only when the dead bolt is pulled backwards to make the tail end of the spring latch 6 retract from the auxiliary handle 5 to leave the spring latch clamping groove 63.

In this embodiment, the rebound device assembly 7 is composed of a rebound device warhead 71, a rebound device spring 72 and a rebound device threaded bottom cap 73, wherein the rebound device warhead 71 is a metal round table with a small top and a large bottom, when the rebound device assembly 7 is installed, the small round head of the rebound device warhead 71 is firstly installed in the rebound device opposite perforation 74, then the rebound device spring 72 is installed, finally the rebound device threaded bottom cap 73 is screwed in the bottom hole of the rebound device opposite perforation 74, because the rebound device spring 72 is supported by the rebound device threaded bottom cap 73 in real time, the rebound device spring 72 is pushed forward in real time, the rebound device assembly 7 is installed, when a dead bolt of the spring bolt 6 is pulled back to the spring bolt button 61, the rebound device warhead 71 bounces the auxiliary handle 5, and after the auxiliary handle 5 is bounces, a space exists between the main handle 4 and the auxiliary handle 5, so that the other hand of the user can grasp the auxiliary handle 5, and then each hand can grasp one handle to squeeze the cleaning cloth 11 towards the opposite handle, and squeeze clean water.

In this embodiment, the two handle limiting baffles 52 are disposed in front of and behind the front end of the auxiliary handle 5, the two handle limiting baffles 52 are integral with the left squeezing dewatering plate, the first effect of installing the two handle limiting baffles 52 is that when the auxiliary handle 5 is opened, the left handle limiting baffle 52 can limit the auxiliary handle 5 to be opened too much to keep the opposite direction angle formed by the auxiliary handle 5 and the main handle 4 consistent, so that when each hand grabs one handle opposite hand to squeeze the squeezing dewatering plate 2 inwards in opposite directions, the force used by each hand is the same, the use is relatively balanced and labor-saving, and the two hands cannot collide together. The second function is that when the auxiliary handle 5 swings to the direction of the main handle 4 to be closed, the right handle limit baffle 52 can act as a fulcrum to keep the front end of the auxiliary handle 5 stable.

The working principle of the rag embodiment 1 with the squeezing dehydration plates is that in the rag embodiment 1, as shown in fig. 1, the rag body 1 is flatly spread and buckled below two squeezing dehydration plates 2, the two squeezing dehydration plates 2 are hinged together by two bow-shaped double-head hinges 3, a main handle 4 is fixedly arranged on the right squeezing dehydration plate 2, a secondary handle 5 is hinged with a handle hinge base 51 on the left squeezing dehydration plate 2, a spring bolt 6 is fixedly arranged in front of a cylindrical handle at the tail end of the main handle 4, the tail ends of the main handle 4 and the secondary handle 5 are buckled and combined together by the spring bolt 6, and a group of rebound device assemblies 7 are further arranged in front of the cylindrical handles at the tail ends of the main handles as shown in fig. 2 to 4. When people use the rag with the squeezing dehydration plate to wipe stains, only one hand is needed to grasp the handle at the tail end of the main handle 4, then the main handle 4 is pushed by hands to drive the rag 11 to wipe, after the wiping is finished, people only need to put the rag body 1 under a tap to wash and then pull back the spring bolt button 61 on the main handle 4, the two combined handles can automatically spring off and separate under the elastic force of the rebound device assembly 7, at the moment, people only need to grasp one handle by each hand and squeeze the opposite hands inwards in opposite directions, the squeezing dehydration plate 2 can squeeze water in the rag 11 to be clean, the hands are not needed to be used to wring, and thus, when people use the rag with the squeezing dehydration plate to wipe stains and wash and squeeze the rag, the hands can be separated from the rag, and the cleanness and comfort of the hands of people are kept. When the squeezing dehydration plate is used for squeezing water in the rag, only one hand is needed to grasp the main handle 4, and the other hand is needed to grasp the auxiliary handle 5 to mutually rotate the handles outwards, so that the auxiliary handle 5 is closed onto the main handle 4, and the spring bolt 6 on the main handle 4 locks the auxiliary handle, thus the original shape of the rag with the squeezing dehydration plate can be restored.

Example 2:

as shown in fig. 5 to 8, a rag with squeezing dehydration plates comprises a rag body 1, two squeezing dehydration plates 2, two bow-type double-head hinges 3, one main handle 4, one auxiliary handle 5, two circular concave gaskets 100, two square concave gaskets 101, two nuts, two handle limit baffles 51, one spring bolt 6 and one rebound device assembly 7, and is characterized in that the rag body 1 is correspondingly buckled below the two squeezing dehydration plates 2 through buckles 13 on the two sticky plates 2, the two squeezing dehydration plates 2 are hinged together by the two bow-type double-head hinges 3, the front end of the main handle 4 is arranged on the right squeezing dehydration plates 2 by one circular concave gasket 101 and one nut of the two squeezing dehydration plates, the front end of the auxiliary handle 5 is arranged on the left squeezing dehydration plates by one circular concave gasket 101 and one nut of the two concave gaskets 101, and the front end of the auxiliary handle 5 is buckled on the left squeezing dehydration plates by one spring bolt 6; the two handle limit baffles 52 are respectively arranged on the outer sides of the main handle 4 and the auxiliary handle 5 and are integrated with the extrusion dewatering plate 2 correspondingly connected with the two handle limit baffles, and the spring bolt 6 and the rebound device assembly 7 are arranged on the tail end of the main handle 4.

In this embodiment, the structural features and functions of the wipe body 1, the two bow-type double-headed hinges 3, and the rebound device assembly 7 are the same as those of embodiment 1, so that the description of the structural features and functions of the wipe body 1, the two bow-type double-headed hinges 3, and the rebound device assembly 7 will not be repeated.

In this embodiment, the structural features of the two squeeze dewatering plates 2 hinged together by using the two bow-type double-headed hinges 3 are the same as those of embodiment 1, so that the description of the structural features of the two squeeze dewatering plates 2 hinged together by using the two bow-type double-headed hinges 3 will not be repeated, and only the portions different from those of embodiment 1 will be described.

In this embodiment, a square groove is formed below each extrusion dewatering plate 2 of the two extrusion dewatering plates, a square shaft pin hole is formed at the center point of each square groove, the square concave gasket 101 can be installed in the square groove due to the first effect of the square groove formed below each extrusion dewatering plate 2, the square shaft pin hole formed at the center point of the square concave gasket 101 is aligned with the square shaft pin hole formed at the center point of the square groove, and the sizes of the square shaft pin holes are consistent, so that after the nut is installed in the square concave gasket 101, the nut is not higher than the bottom plane of the extrusion dewatering plate 2. The second function is that after the shaft pin of the circular belt shaft pressing block 100 passes through the square concave gasket 101, the square body in the middle of the shaft pin of the circular belt shaft pressing block 100 is matched with the square shaft pin hole formed at the center point of the square concave gasket 101, so that when the nut is screwed on the screw body below the shaft pin of the circular belt shaft pressing block 100, the square shaft pin Kong Zulan of the square concave gasket 101 on the shaft pin of the circular belt shaft pressing block 100 can not rotate left and right along with the handle to cause the nut to fall off.

In the embodiment, the front ends of the main handle 4 and the auxiliary handle 5 are cylindrical rotating bodies, and a round pin shaft round hole is formed in the center point of each cylindrical rotating body. As shown in fig. 6, a handle fulcrum 53 is provided below where the front half parts of the main handle 4 and the sub handle 5 are connected to the cylindrical rotating body at the front end of the handle, and the handle fulcrum 53 is planar and contacts with the corresponding planar surface on the squeeze dewatering plate. As shown in fig. 5, the primary handle 4 and the secondary handle are as long as 5. As shown in fig. 6, the ends of the main handle 4 and the auxiliary handle 5 are semicircular handles, and the outer surface of each semicircular handle is a plane. As shown in fig. 5, the ends of the main handle 4 and the auxiliary handle 5 are closed together to form a cylindrical handle.

In this embodiment, each handle limit baffle 52 of the two handle limit baffles is respectively disposed at the outer sides of the main handle 4 and the auxiliary handle 5, each handle limit baffle 52 of the two handle limit baffles and the extrusion dewatering plate 2 respectively connected therewith are integrated, and the two handle limit baffles 52 are provided to prevent the main handle 4 and the auxiliary handle 5 from rotating outwards to open at an excessive angle, so that the main handle 4 and the auxiliary handle 5 are kept on a straight line after the main handle 4 and the auxiliary handle 5 are opened outwards, and the two hands of a person can more balance and easily rotate the handle and the extrusion cleaning cloth body when holding the main handle 4 and the auxiliary handle 5 respectively.

In this embodiment, as shown in fig. 6, a spring latch 6 and a set of rebound device assemblies 7 are installed in front of the end handles of the main handle 4, and because the main handle 4 and the auxiliary handle 5 are closed after being rotated inwards in opposite directions in this embodiment, the dead bolt of the spring latch 6 is designed to be in a straight hook shape, and the dead bolt slot 63 formed in front of the end handle of the corresponding auxiliary handle 5 is a hook slot, so that when the main handle 4 and the auxiliary handle 5 are closed, the straight hook of the dead bolt hooks the auxiliary handle 5 to firmly lock the auxiliary handle 5 on the left side of the main handle 4.

In this embodiment, as shown in fig. 7, the upper half part of the shaft pin of the circular belt shaft pressing block 100 is cylindrical, the middle part is square, and the lower end is a threaded body. The first function of designing the upper half part of the shaft pin of the round belt shaft pressing block 100 into a cylindrical shape and designing the lower end of the shaft pin into a square body is that the upper half part of the cylindrical body of the shaft pin penetrates into a round pin shaft round hole formed in the center point of a cylindrical rotary body at the front end of the handle, the handle can be guaranteed to rotate left and right, the second function is that when the square body in the middle of the shaft pin is inserted into a square shaft pin hole formed in the center point of a groove below the extrusion dehydration plate 2 and then penetrates out of a square shaft pin hole formed in the center point of the square concave gasket 101, the round belt shaft pressing block 100 can be prevented from loosening and falling along with a nut at the tail end of the shaft pin caused by the rotation of the handle when the handle rotates left and right, and the third function is that when the screw body at the lower end of the shaft pin is screwed on the nut, the cylindrical rotary body at the front end of the handle can be tightly installed on the extrusion dehydration plate 2, and the main handle 4 and the auxiliary handle 5 can be guaranteed to rotate left and right.

In this embodiment, the two nuts are used to clamp the concave washer 101 and the cylindrical rotating body at the front end of the squeezing dehydration plate 2 and the handle between the nut and the pressing block head of the circular belt shaft pressing block 100 after the nuts are installed in the grooves of the square concave washer 101 and screwed on the screw body at the lower end of the shaft pin of the circular belt shaft pressing block 100.

In this embodiment, the two square concave gaskets 101 are used to provide a reaction force to the nut at the lower end of the shaft pin of the circular belt shaft pressing block 100 by using the squeezing dehydration plate 2 as a stress pivot when the circular belt shaft pressing block 100 is pulled upwards by the handle, so that the circular belt shaft pressing block 100 is prevented from being separated from the concave gaskets 101 at any time after being pulled upwards by the handle.

The working principle of the rag embodiment 2 with the squeezing dehydration plate is shown in fig. 5 to 8, the main handle 4 and the auxiliary handle 5 of the embodiment are arranged above the squeezing dehydration plate 2 by using a round shaft pressing block 100, a square concave gasket 101 and a nut, a handle fulcrum 53 is arranged below a place where the front half part of the main handle 4 and the auxiliary handle 5 are connected with a cylindrical rotating body at the front end of the handle, the handle fulcrum 53 is planar and is contacted with the corresponding plane above the squeezing dehydration plate, and the closing process of the main handle 4 and the auxiliary handle 5 is that the main handle 4 and the auxiliary handle 5 simultaneously rotate inwards towards each other to close the tail end handles of the two handles together to form a cylindrical handle. The opening process of the main handle 4 and the auxiliary handle 5 is that the main handle 4 and the auxiliary handle 5 simultaneously rotate the handles outwards in opposite directions until the main handle 4 and the auxiliary handle 5 are collided with the handle limit baffle plate 52. When the rag with the squeezing dehydration plate is used for wiping stains, only one hand is needed to grasp the cylindrical handles formed by closing the tail ends of the main handle 4 and the auxiliary handle 5, then the cylindrical handles formed by closing the tail ends of the two handles are pushed by the hand to drive the rag to wipe, when the rag body 1 is put under a tap to be washed after wiping is finished, then the spring bolt button 61 on the main handle 4 is pulled back, the main handle 4 and the auxiliary handle 5 which are combined together in an inserting way are automatically sprung and separated under the elastic force of the spring head 71 of the rebound device assembly 7, at the moment, the two squeezing dehydration plate 2 can squeeze water in the rag 11 out cleanly without being unscrewed by the hand, and the cleaning of the rag 11 can be kept by only holding one handle by each hand and simultaneously rotating the handles outwards in opposite directions until the main handle 4 and the auxiliary handle 5 are collided with the handle limiting baffle 52. When the squeezing dewatering plate 2 is used for squeezing the water in the rag 11, only one hand is needed to grasp the main handle 4, the other hand is needed to grasp the auxiliary handle 5, then the handles at the tail ends of the two handles are simultaneously rotated inwards towards each other to form a cylindrical handle, and then the spring bolt 6 on the main handle 4 locks the auxiliary handle 5 to restore the original shape of the rag with the squeezing dewatering plate.

The embodiments described above are only some embodiments of the present utility model, but not all embodiments, and it should be considered that other embodiments can be obtained by those skilled in the art to which the present utility model pertains without departing from the concept of the present utility model.

Claims (11)

1. The rag with the extrusion dehydration plates comprises one rag body, two extrusion dehydration plates, two bow-shaped double-head hinges, one main handle, one auxiliary handle, one handle hinge base, two handle limit baffles, one spring bolt and one rebound device assembly, and is characterized in that the rag body is correspondingly buckled below the two extrusion dehydration plates through buckles on the two sticky plates; the two extrusion dehydration plates are hinged together by two bow-shaped double-head hinges; the front end of the main handle is fixedly arranged on one of the two squeezing dehydration plates; the front end of the auxiliary handle is hinged with a handle hinge base on the other squeezing dehydration plate; the tail ends of the main handle and the auxiliary handle are buckled and closed together by a spring bolt; the two handle limiting baffles are arranged on an extrusion dehydration plate hinged with the auxiliary handle and are respectively arranged in front of and behind the front end of the auxiliary handle; the spring latch and rebound catch assembly is mounted in front of the end grip of the main handle.

2. The rag with the squeezing dewatering plate according to claim 1, wherein the rag body is composed of a rag and two sticky plates, the rag is made of soft elastic materials with a water absorption function, the lower parts of the two sticky plates and the upper parts of the rag are adhered and connected together by glue, a space is reserved between the corresponding inner sides of the two sticky plates adhered to the rag, at least one buckle is arranged on each sticky plate of the two sticky plates, each sticky plate of the two sticky plates is made of plastic through one-time injection molding, and the buckle and the sticky plate connected with the buckle are integrated.

3. The rag with squeezing dewatering plates according to claim 1, wherein at least one buckling female groove is reserved on each squeezing dewatering plate of the two squeezing dewatering plates, at least one hinge base is arranged on the inner side edge of each squeezing dewatering plate of the two squeezing dewatering plates, a space is reserved between the corresponding inner sides of the two squeezing dewatering plates and the two squeezing dewatering plates run in parallel, the two squeezing dewatering plates are hinged together through a bow-type double-head hinge, each squeezing dewatering plate of the two squeezing dewatering plates is made of polyoxymethylene through one-time injection molding, and each squeezing dewatering plate is integrated with the connected hinge base.

4. A wipe with squeeze dewatering plate according to claim 1, wherein the main handle is provided with at least one spring latch and a set of rebound catch assemblies.

5. The rag with squeeze dewatering plate of claim 1, wherein the secondary handle is provided with at least one spring latch slot.

6. The rag with the extrusion dehydration plates comprises one rag body, two extrusion dehydration plates, two bow-shaped double-head hinges, one main handle, one auxiliary handle, two round shaft-bearing pressing blocks, two square concave gaskets, two nuts, two handle limiting baffles, one spring bolt and one rebound device component, and is characterized in that the rag body is correspondingly buckled below the two extrusion dehydration plates through buckles on the two sticky plates on the rag body; the two extrusion dehydration plates are hinged together by two bow-shaped double-head hinges; the front end of the main handle is provided with a round pressing block with a shaft, a square concave gasket and a nut, and the square concave gasket and the nut are arranged on one of the two extrusion dehydration plates; the front end of the auxiliary handle is provided with a round pressing block with a shaft, a square concave gasket and a nut, and the square concave gasket and the nut are arranged on the other extrusion dehydration plate; the tail end handles of the main handle and the auxiliary handle are buckled and combined together by a spring bolt; the two handle limiting baffles are respectively arranged at the outer sides of the main handle and the auxiliary handle and are integrated with the extrusion dehydration plate correspondingly connected with the two handle limiting baffles; the spring latch and rebound catch assembly is mounted in front of the end grip of the main handle.

7. The rag with squeezing dewatering plates according to claim 6, wherein a square groove is formed below each squeezing dewatering plate, and a square shaft pin hole is formed at the center point of each square groove.

8. A cloth with squeeze dewatering plate according to claim 6, wherein the main handle and the auxiliary handle are provided with handle fulcrums below the rear of the cylindrical rotating bodies at the front ends of the handles, the handle fulcrums being planar and in contact with the corresponding planar surfaces above the squeeze dewatering plate.

9. The rag with squeeze dewatering plate of claim 6, wherein the end handles of the primary and secondary handles are semi-cylindrical with the inside of the semi-cylindrical being semi-circular in shape and the outside of the semi-cylindrical being planar.

10. The rag with squeeze dewatering plate of claim 6, wherein the upper half of the pin of the round pin block is cylindrical with a square in the middle and a screw at the lower end.

11. The rag with the squeezing dewatering plate according to claim 6, wherein a square shaft pin hole is formed in the center point of the two square concave gaskets, the two square concave gaskets are respectively inlaid in grooves below the corresponding squeezing dewatering plate, and the center square shaft pin hole of each square concave gasket in the two square concave gaskets is aligned with the square shaft pin hole formed in the corresponding squeezing dewatering plate, and the two square concave gaskets are consistent in size.