CN111067444A - Mop squeezer - Google Patents

Abstract

A mop squeezer capable of quickly removing a large amount of moisture on a mop body comprises a shell, a nut, a pulley, a water pipe, an air inlet, a water inlet and a water outlet, and is characterized by further comprising a pressing plate, a pull rod, a bearing plate, a guide rod pipe, a cylinder sleeve plate, a cylinder sleeve, a piston rod, a transmission frame, a water controller and a water cylinder; the utility model discloses a press plate, the pull rod, the drive frame, the piston rod, piston and nut all are a fixed connection's whole, this fixed connection's whole is along with the piston motion, the bearing plate, the guide bar pipe, the cylinder sleeve board, the cylinder liner, casing and water pipe are a fixed connection's whole, when squeezing the towed body, this fixed connection's whole is immovable, put into the towed body and apply between clamp plate and the bearing plate, open the water inlet when the outlet is closed to rethread water accuse ware, make water get into the water jar from the water inlet and promote the piston and drive and apply the clamp plate and apply pressure for the towed body, the position that the casing surrounds is fixed in the wall.

Description

Mop squeezer

Technical Field

The technology belongs to mop dewatering equipment.

Background

At present, a plurality of types of mops are available, but the cluster mop with poor mop dehydration effect, good water absorption capacity and strongest dirt-removing capacity does not have the self-dehydration function, various bacteria which can cause serious diseases to human bodies and comprise helicobacter are arranged on the mop, but the possibility that people suffer serious diseases is increased if people spin the mop by hands in order to obtain the mop with less moisture, and diseases such as rheumatism can also be caused if the mop with more moisture is used for mopping the floor.

Disclosure of Invention

Aiming at the defects of the prior art, the mop squeezer is designed by the inventor.

The technical scheme adopted by the invention is as follows:

a mop squeezer capable of quickly removing a large amount of water on a mop body comprises the mop body, a nut, a pulley, a water pipe, a wall, an air inlet, a water inlet and a water outlet, and is characterized in that the mop squeezer also comprises a pressing plate, a pull rod, a bearing plate, a guide rod pipe, a cylinder sleeve plate, a cylinder sleeve, a piston rod, a transmission frame, a water controller, a shell and a water cylinder; the pressure applying plate, the pull rod, the transmission frame, the piston rod, the piston and the nut are fixedly connected into a whole, the fixedly connected whole moves along with the piston, the pressure bearing plate, the guide rod pipe, the cylinder sleeve plate, the cylinder sleeve, the shell and the water pipe are fixedly connected into a whole, and the fixedly connected whole is fixed when the mop body is squeezed.

The advantage of mop squeezer is exactly that can press the body clamp of mop between applying pressure board and bearing plate fast and press futilely (moisture content is few), avoid people to remove the contact ice-cold dirty body of dragging with the hand, the dehydration effect of this mop squeezer is that any mop that has now can't reach, present most mop can all adopt this mop squeezer dehydration, the casing of this mop squeezer surrounds the part and installs in the wall, only this party of applying pressure board exposes outside, consequently, the mop squeezer does not occupy the ground, can also become the decoration in the lavatory.

Drawings

Fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24 and fig. 25 are schematic structural diagrams of the mop press of the present design. In FIG. 1, 1a, 1b, 1c, 1d are tie rods, 2 is a pressure plate. In FIG. 2, 1a, 1b, 1c, 1d are tie rods, 2 is a pressure plate. In fig. 3, 3-bearing plate, 4a, 4b, 4c, 4 d-guide rod tube. In fig. 4, 4a, 4b, 4c, 4 d-guide rod pipe, 5-cylinder sleeve plate, 6-cylinder sleeve, 7-air inlet, 8-water inlet, 9-water outlet. In fig. 5, 3-bearing plate, 4a, 4 b-guide rod tube, 5-cylinder sleeve plate, 10 a-pulley, in fig. 6, 3-bearing plate, 5-cylinder sleeve plate, 6-cylinder sleeve, 7-air inlet. In fig. 7, 3-bearing plate, 5-cylinder sleeve plate, 6-cylinder sleeve, 8-water inlet, 9-water outlet, 14-water controller, 23a, 23 b-water pipe. In fig. 8, 11-piston, 12-piston rod. In fig. 9, 13 — the transmission frame. In fig. 10, 1c, 1 d-tie rod, 2-pressure plate, 3-bearing plate, 4c, 4 d-guide rod pipe, 5-cylinder sleeve plate, 10 b-pulley, 13-transmission frame, 15d, 15 e-nut. In FIG. 11, 16-the chassis. In fig. 12, 1a, 1b, 1c, 1 d-tie rod, 2-pressure plate, 3-pressure bearing plate, 4a, 4b, 4c, 4 d-guide rod pipe, 5-cylinder sleeve plate, 6-cylinder sleeve, 11-piston, 12-piston rod, 13-transmission frame, 15a, 15b, 15c, 15d, 15 e-nut, 16-machine shell, 17-wall, 18-towing body, 19-water cylinder. In fig. 13, 3-bearing plate, 4a, 4b, 4c, 4 d-guide rod pipe, 20-limiting rod sleeve. In fig. 14, 1a, 1 b-tie rod, 2-pressure plate, 3-pressure plate, 4a, 4 b-guide rod tube, 10a, 10 c-pulley, 13-driving frame, 15a, 15 b-nut. In FIG. 15, 2-pressure plate, 3-pressure plate, 20-rod limiting sleeve. In fig. 16, 1a, 1b, 1c, 1 d-draw bar, 2-pressure plate, 3-pressure bearing plate, 4a, 4b, 4c, 4 d-guide bar pipe, 13-transmission frame, 15a, 15b, 15d, 15 e-nut, 16-machine shell, 18-towing body, 20-rod limiting sleeve, 21-supporting screw rod, 22-electric wrench. In fig. 17, 1e, 1 f-pull rod, 2-press plate. In FIG. 18, 1e, 1 f-pull rod, 2-press plate. In fig. 19, 3-bearing plate, 4e, 4 f-guide rod tube. In fig. 20, 13 — the transmission frame. In fig. 21, 1e, 1 f-draw bar, 2-pressure plate, 3-bearing plate, 18-drag, 4e, 4 f-guide tube, 16-machine shell, 24a, 24 b-pulley shaft, 25a, 25b, 25c, 25d, 25 e-rope-winding pulley, 26a, 26 b-pulley rope, 13-transmission frame. In FIG. 22, 2-pressure plate, 3-bearing plate, 13-transmission frame, 18-drag, 27-fulcrum, 28-crowbar. In FIG. 23, 1e, 1 f-pull rod, 2-press plate, 29-press shaft, 30-press sleeve. In fig. 24, 3-bearing plate, 4e, 4 f-guide rod tube, 31-bearing shaft, 32-bearing sleeve. In fig. 25, 1e, 1 f-pull rod, 2-pressure plate, 3-bearing plate, 4e, 4 f-guide rod tube, 13-driving frame, 15a, 15 d-nut, 16-machine shell, 17-wall, 25 d-rope-winding pulley, 26 b-pulley rope, 33a, 33 b-spring.

Detailed Description

1. A mop squeezer capable of quickly removing a large amount of water on a mop body is shown in figures 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 and 12, and comprises a mop body 18, a machine shell 16, nuts 15a, 15b, 15c, 15d and 15e, pulleys 10a and 10b, water pipes 23a and 23b, a wall 17, an air inlet 7 and an air inlet pipeThe mop squeezer comprises a water gap 8 and a water outlet 9 and is characterized by further comprising a pressing plate 2, pull rods 1a, 1b, 1c and 1d, a bearing plate 3, guide rod pipes 4a, 4b, 4c and 4d, a cylinder sleeve plate 5, a cylinder sleeve 6, a piston 11, a piston rod 12, a transmission frame 13, a water controller 14 and a water cylinder 19; the pressing plate 2 is a square stainless steel plate or a square plastic plate, the material of the pressing plate is not limited, and the pressing plate is not easy to damage, but the mop pressing machine is generally arranged in a wall in a toilet, and the pressing plate is the only exposed part, so that the pressing plate has a decoration effect, people can feel beautiful, four corners of the pressing plate are fixedly connected with pull rods, the diameter of the far end of each pull rod is smaller, and the pressing plate is provided with threads; the pressure bearing plate 3 is a square metal plate or plastic plate with a round hole on each corner communicated with the guide rod pipe, the guide rod pipe is fixedly connected on each corner of the pressure bearing plate, the cylinder sleeve plate 5 is a square metal plate or plastic plate with a round hole capable of being sleeved on the guide rod pipe on each corner, the cylinder sleeve plate 5 is fixedly connected with the pressure bearing plate 3 through the guide rod pipes 4a, 4b, 4c and 4d, the middle part of the cylinder sleeve plate 5 is fixedly connected with the cylinder sleeve 6 in a sealing way, an air inlet 7, a water inlet 8 and a water outlet 9 on the cylinder sleeve plate are all arranged in the range surrounded by the cylinder sleeve, the outside of the air inlet 7 is controlled by an automatic valve, namely, the pressure inside of the cylinder sleeve is larger than the outside air pressure, the automatic valve is closed, the pressure inside of the cylinder sleeve is smaller than the outside air pressure, the outside air can enter the cylinder through the automatic valve, and the valve is arranged for discharging the water in the cylinder, the water inlet 8 is fixedly connected and communicated with a water pipe of tap water through a water pipe 23a, the water inlet is fixedly connected and communicated with the water pipe 23a, the water flow of the water inlet is controlled by the water controller 14, the water outlet 9 is communicated to the outside through a water pipe 23b, the water outlet is fixedly connected and communicated with the water pipe 23b, the water flow of the water outlet is controlled by the water controller 14, the water controller 14 is conventional equipment capable of controlling the water flow conditions of the water inlet and the water outlet simultaneously, the conventional arrangement is adopted, how can be done, the water inlet can be closed when the water inlet can be opened and the water outlet can be closed or the water outlet can be opened, the piston is circular, the piston and the piston rod are fixedly connected integrally, a piston groove can be arranged on the piston, and a metal sealing ring or plastic cement is usedThe sealing ring can be used for sealing, a piston groove can be omitted from the piston, the sealing ring can be omitted for sealing, the diameter of one end, far away from the piston, of the piston rod is smaller than that of one end, close to the piston, of the piston rod, and threads are arranged at the end, small in diameter, of the piston rod; the water cylinder 19 is a cylinder with the capacity surrounded by the cylinder liner plate, the cylinder liner and the piston changing along with the movement of the piston; the transmission frame 13 is a frame like a cross, each corner of the transmission frame is provided with a round hole which can be matched with the small end of the pull rod, and the middle part of the transmission frame is provided with a round hole which can be matched with the small end of the piston rod; the pulleys 10a and 10b are arranged for reducing the friction resistance generated by the movement of the pull rod in the guide rod pipe, and the pulleys 10a and 10b are available and can not be used; the machine shell 16 is a square frame consisting of five planes, which is equivalent to a quadrilateral square frame without a cover, the machine shell is fixedly connected with the edge of the pressure bearing plate and is tightly matched with the outer sides of the guide rod pipes, the mop press is fixed in the wall through the machine shell, only the pressure applying plate is exposed outside the wall, and the machine shell is provided with holes through which the water pipes and the ropes can pass. When the mop squeezer is assembled, the pull rods integrated with the pressing plate are inserted into the round holes of the bearing plate and penetrate through the guide rod pipes integrated with the bearing plate, the cylinder sleeve plate and the cylinder sleeve, the piston is installed in the cylinder sleeve, the small end of each guide rod pipe and the small end of the piston rod penetrate through the corresponding round holes in the transmission frame, the nut is tightened on each pull rod and the piston rod, the shell is sleeved on the machine body assembled in advance, the shell and the edge of the bearing plate are fixedly connected through bolts or welding or plastic bonding to form the mop squeezer, the mop squeezer is installed in a wall through a user, the water pipe 23a is fixedly connected with a tap water pipe and communicated with the tap water pipe for use, and the mop body refers to the part of the mop which is directly wiped on the ground. When the mop squeezer is used: firstly, the mop is washed clean by tap water. And secondly, the pressing plate is withdrawn to the outermost end position by pulling a rope tied on the transmission frame. Thirdly, the mop body part of the cleaned mop is placed in the gap between the pressure bearing plate and the pressure applying plate, and the mop rod faces upwards. Fourthly, the water outlet is closed and the water inlet is opened through the water controller, so that tap water is suppliedThe mop squeezing device comprises a water inlet, a water cylinder 19, a piston 11, a piston rod, a transmission frame and a pull rod, wherein the piston rod, the transmission frame and the pull rod are arranged on the water cylinder 19, the piston rod, the transmission frame and the pull rod are used for pushing a pressing plate to move towards the direction of a wall, the piston rod, the transmission frame and the pull rod are used for pushing the pressing plate to move towards the direction of the wall, pressure is applied to a mop body clamped between the pressing plate and a bearing plate, namely the mop body is squeezed through the pressing plate, most of moisture on the mop body is squeezed out, a water outlet can be opened through a water controller, a water inlet is closed, air is automatically fed through an air inlet 7, therefore, water in the water cylinder can automatically flow out from the water outlet, the pressing plate does not apply pressure to the mop body any more, at the. And (3) water pressure calculation: if the piston diameter is 12 cm, the tap water head is 10 m (1 standard atmospheric pressure or slightly higher than the water head of a three-storey building), and the thrust force (water pressure obtained by the piston) obtained by the pressing plate is F ═ ps ═ ρ h π r²＝1000kg/m³×10m×3.14×(0.06m)²113kg, is sufficient to squeeze dry mops, and if the water pressure head exceeds 10 m, the effect is better, and the diameter of the piston and the cylinder sleeve can be enlarged or a mop squeezer can be formed by combining two cylinder sleeves and two pistons.

2. An electric mop squeezer using an electric wrench as power is disclosed, which is specifically structured as shown in fig. 1, fig. 2, fig. 9, fig. 11, fig. 13, fig. 14, fig. 15 and fig. 16, and comprises pull rods 1a, 1b, 1c and 1d, a pressure applying plate 2, a transmission frame 13, a machine shell 16, guide rod pipes 4a, 4b, 4c and 4d, a pressure bearing plate 3, an electric wrench 22, pulleys 10a and 10c, nuts 15a, 15b, 15e and 14d and a mop body 18, and is characterized in that the electric mop squeezer further comprises a limited rod sleeve 20 and a supporting screw 21; the limit rod sleeve 20 and the bearing plate 3 are fixedly connected into a whole, the limit rod sleeve limits the supporting screw 21 to be always vertical to the bearing plate, a round hole in the middle of the transmission frame 13 is internally provided with a thread which can be matched with the thread on the supporting screw 21, the round rod of the supporting screw is provided with threads, one end of the supporting screw is provided with a hexagonal screw head which can be matched with a sleeve on the electric wrench 22, the electric wrench can be fixed on the shell, or a frame which is fixedly connected with the bearing plate 3 can be additionally arranged for fixing, no matter how fixed, as long as the sleeve on the electric wrench can be correctly sleeved on the hexagonal screw head of the supporting screw, one end of the supporting screw is propped against the bearing plate 3, the other end is propped against the sleeve of the electric wrench, the periphery of the supporting screw is limited by the limit rod sleeve, therefore, the supporting screw can only be controlled to rotate by the electric wrench, when the mop body after being cleaned is put between the pressure applying plate and the bearing plate, the electric wrench is started to push the supporting screw to rotate clockwise, the supporting screw 21 can push the transmission frame 13 to drive the pull rods 1a, 1b, 1c and 1d and the pressing plate 3 to move towards the electric wrench, the pressing plate 3 can press the mop body clamped between the pressing plate and the bearing plate to be dry when moving towards the electric wrench, and after the mop body is pressed to be dry, the electric wrench is rotated reversely, the pressing plate is withdrawn, and the squeezed mop can be taken down to mop the ground. The mode can also adopt a jack to replace an electric wrench and a supporting screw to generate the squeezing force.

3. A mop squeezer saving labor by adopting pulleys is disclosed, and the specific mechanism of the mode is shown in figures 17, 18, 19, 20 and 21, and comprises pull rods 1e and 1f, a pressure applying plate 2, a pressure bearing plate 3, guide rod pipes 4e and 4f, a transmission frame 13, a machine shell 16 and a mop body 18, and is characterized in that the mop squeezer also comprises pulley shafts 24a and 24b, rope winding pulleys 25a, 25b, 25c, 25d and 25e and pulley ropes 26a and 26 b; the rope winding pulleys 25a and 25b are sleeved on the pulley shaft 24a, the pulley shaft 24a is fixedly connected with the casing 16, the middle part of the transmission frame 13 is circular, the rope winding pulley 25c is sleeved on the middle part of the transmission frame, the rope winding pulleys 25d and 25e are sleeved on the pulley shaft 24b, the pulley shaft 24b is fixedly connected with the bearing plate 3, one end of the pulley rope 26a is tied on the transmission frame 13, the other end of the pulley rope passes around the rope winding pulley 25b and then sequentially passes around the rope winding pulleys 25c, 25a and 25e, then vertically passes through the rope hole on the casing upwards, then vertically passes downwards around the pulley hung on the upper wall, the tail end of the vertically downward pulley rope 26a is provided with a pull ring suitable for being pulled by hand, one end of the pulley rope 26b is tied on the transmission frame 13, the other end of the pulley rope winding pulley 25d passes through the rope hole on the casing vertically, then vertically passes through the pulley hung on the upper wall downwards, the end of the vertical downward pulley rope 26b is also provided with a pull ring suitable for being pulled by hand, the part surrounded by the shell of the mop squeezer is still to be installed in the wall, after the installation, the pull ring at the end of the pulley rope 26b is pulled by hand, a very wide gap is formed between the pressing plate 2 and the pressure bearing plate 3, the mop body of the cleaned mop is placed in the gap, the pull ring at the end of the pulley rope 26a is pulled by hand, the pressing plate 2 moves towards the direction of the pressure bearing plate 3, the pressing plate presses the mop body to be dry, and the pulley rope 26b is pulled to take out the mop body to be dried to mop the ground.

4. A kind of swab squeezer which produces squeezing force with the prying of crowbar, the concrete organization of this way is as shown in fig. 17, fig. 18, fig. 19, fig. 22, including tie rod 1e, 1f, exert the pressing plate 2, the bearing plate 3, the guide bar pipe 4e, 4f, the drive frame 13, the swab 18, its characteristic is that this swab squeezer also includes the fulcrum 27, the crowbar 28, this technology is to pry the drive frame 13 with the crowbar and drive and exert the pressing plate and exert pressure to the swab and squeeze the swab to dry with the crowbar lever principle.

5. A mop press using springs to generate pressing force is disclosed, the structure of the mop press is shown in fig. 20, 23, 24 and 25, and the mop press comprises pull rods 1e and 1f, a pressing plate 2, a bearing plate 3, guide rod pipes 4e and 4f, a transmission frame 13, nuts 15a and 15d, a machine shell 16, a wall 17, a rope winding pulley 25d and a pulley rope 26, and is characterized in that the mop press further comprises a pressing shaft 29, a pressing shaft sleeve 30, a bearing shaft 31, a bearing shaft sleeve 32 and springs 33a and 33 b; the pressing plate 2 is changed into a pressing shaft 29 and a pressing shaft sleeve 30 which can roll around the shaft, the bearing plate 3 is changed into a bearing shaft 31 and a bearing shaft sleeve 32 which can roll around the shaft, two ends of the central shaft of a rope winding pulley 25d are fixedly connected on the machine shell, the other end of a pulley rope 26b tied on the transmission frame 13 passes through a rope hole on the machine shell after passing around the rope winding pulley 25d and then passes vertically downwards around a pulley hung on the upper wall, the tail end of the vertically downwards pulley rope 26b is provided with a pull ring, when the mop press is used, after the pull ring at the tail end of the pulley rope is pulled by hands to lead the transmission frame 13 to press a spring to widen a gap between the pressing plate and the bearing plate, the mop body of the cleaned flat mop is put into the gap together with the flat plate, the hands are separated from the pull ring to lead the spring force to act on the mop body, the pressing shaft sleeve and the bearing shaft sleeve roll along the mop body by pulling upwards and, the water on the mop body can be squeezed out by repeatedly pushing and pulling the mop body for several times.

Claims (1)

1. The utility model provides a mop squeezer that can quick removal is a large amount of moisture on mop body, this mop squeezer includes casing (16), nut (15a, 15b, 15c, 15d, 15e), pulley (10a, 10b), water pipe (23a, 23b), air inlet (7), water inlet (8), outlet (9), characterized by mop squeezer still including exerting pressure board (2), pull rod (1a, 1b, 1c, 1d), bearing plate (3), guide bar pipe (4a, 4b, 4c, 4d), cylinder jacket board (5), cylinder liner (6), piston (11), piston rod (12), driving frame (13), water controller (14), water jar (19): the pressure applying plate, the pull rod, the transmission frame, the piston rod, the piston and the nut are all fixedly connected whole bodies, the fixedly connected whole bodies move along with the piston, the bearing plate, the guide rod pipe, the cylinder sleeve plate, the cylinder sleeve, the shell and the water pipe are fixedly connected whole bodies, when the mop body is squeezed, the fixedly connected whole bodies are fixed, the water controller is conventional equipment capable of controlling water flow of a water inlet and a water outlet simultaneously, the water cylinder (19) is a cylinder with the capacity changed along with the movement of the piston and surrounded by the cylinder sleeve plate, the cylinder sleeve and the piston, the mop body is placed between the pressure applying plate and the bearing plate, the water outlet is closed through the water controller, the water inlet is opened at the same time, water enters the water cylinder (19) from the water inlet to push the piston to drive the pressure applying plate to apply pressure to the mop body, and the part surrounded by the shell is fixed in.

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