High-efficient dirt shallow
Technical Field
The invention relates to the field of cleaning appliances, in particular to a high-efficiency dust cart.
Background
The dirt shallow is the result of pushing away and taking off and electric motor car combination with artifical hand push dirt, and it makes original dependence on artificial operation to depend on the electric motor car to realize for the carrier can be automatic, when having saved the manpower, has still improved work efficiency, makes the scope of single management and control bigger. The cleaning agent is widely used in places with heavy cleaning tasks, such as large supermarkets, shopping malls, airport waiting halls, stations, various workshops, warehouses and the like.
The existing dust cart generally comprises a cart body, a front mop and a rear mop, but when the mops are arranged at the front end and the rear end, the cart body is large in size and large in occupied area. And because the mop often can be stained with water when mopping, under the great condition of volume, weight is heavier, and it is comparatively troublesome to dismantle the washing, needs often frequent dismantlement washing, and work load is great, and is inefficient.
When the mop is used for mopping, small steps often exist in markets and production workshops, and when the mop is used for mopping normally, dust and dirty water accumulated on the mop can squeeze the mop due to the action of the steps, so that the dust and the dirty water are remained on the steps.
Disclosure of Invention
The invention provides a high-efficiency dust cart which can solve the problem that dust and dirty water pushed on a mop are remained on a step when the mop is used for mopping in the prior art.
The utility model provides a high-efficient dirt shallow, includes automobile body and mop body, the mop body is the hexagonal body, and its both ends rotationally set up between the middle part of automobile body, front wheel and the rear wheel, every week is provided with the layer board that is used for mopping the ground all detachably on the side.
The mop also comprises a support spring and support rods respectively arranged at two ends of the mop body, wherein a support seat is arranged in the middle of the mop body, a support groove is formed in the support seat, one end of each support rod is rotatably arranged on the mop body, the other end of each support rod is positioned in the support groove, the support spring is positioned in the support groove, one end of the support spring is connected to the support rod, and the other end of the support spring is connected to the support seat.
Preferably, one end of the support rod in the support groove is provided with a limit block for preventing the support rod from falling off from the support groove.
The mop is characterized by further comprising a contraction spring, wherein each circumferential side surface of the mop body is provided with a containing groove for containing the supporting plate, the supporting plate can be arranged in the containing groove in a sliding mode, the bottom surface of the supporting plate is flush with one circumferential side surface of the mop body, one end of the contraction spring is connected to the mop body, and the other end of the contraction spring is connected to the supporting plate.
The mop is characterized in that sliding grooves are formed in two sides of the supporting plate, and sliding rods used for limiting the supporting plate are arranged on the mop body corresponding to the sliding grooves.
The supporting plate is partially exposed out of the mop body, and when any peripheral side face of the mop body is in a horizontal state, the projection of the mop body corresponding to the exposed side of the supporting plate in the vertical direction completely falls on the supporting plate.
The side surface of the supporting plate exposed part far away from the mop body is provided with a second arc-shaped part.
Preferably, the mop further comprises a steering mechanism, the steering mechanism comprises a reversing rod positioned on the vehicle body, a pawl with one end hinged to the reversing rod and a ratchet wheel fixedly arranged on the rotating shaft, and the pawl is matched with the ratchet wheel and used for driving the mop body to rotate under the action of the reversing rod; the pawl is provided with a limiting groove, and the vehicle body is provided with a limiting rod corresponding to the limiting groove.
The efficient dust cart provided by the invention has the advantages that the mop body is arranged in the middle of the cart body, the volume of the dust cart is reduced, six supporting plates can be mounted by utilizing a hexagonal structure, when the supporting plates are dirty, the dust cart can continuously work only by converting an angle, and the working efficiency is improved;
the layer board passes through spring coupling and accomodates the inslot, and when the mop body met the step, the layer board can stretch into the corner under the effect of spring, and received the effect of step when the layer board, also can retract under the effect of spring, but this in-process can support all the time and lean on the step, when the mop body crossed the step, the layer board can take dirty water and dust to continue to remove together to avoid dirty water and dust to be left over in the corner.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
FIG. 2 is a first schematic structural view of a high efficiency dust cart according to the present invention;
FIG. 3 is a schematic structural view of a high efficiency dust cart according to the present invention;
FIG. 4 is an enlarged view of a portion A of FIG. 1;
FIG. 5 is an enlarged view of a portion B of FIG. 1;
FIG. 6 is a schematic structural view of the mopping structure of FIG. 1;
FIG. 7 is a cross-sectional view taken at C-C of FIG. 5;
FIG. 8 is an enlarged view of a portion of FIG. 2 at D;
FIG. 9 is a first schematic diagram of the operation of the pallet;
FIG. 10 is a second schematic diagram of the operation of the pallet;
FIG. 11 is a schematic view of a pallet I;
FIG. 12 is a schematic view of a second embodiment of a pallet;
FIG. 13 is a schematic view I of the body of the mop;
FIG. 14 is a schematic view of a second embodiment of the mop body;
fig. 15 is a third schematic view of the holder body.
Description of reference numerals:
10-vehicle body, 20-cleaning mop, 21-mop body, 211-first arc part, 22-supporting plate, 221-sliding groove, 222-second arc part, 23-contraction spring, 24-positioning bolt, 30-supporting rod, 31-supporting seat, 32-supporting spring, 40-reversing rod, 41-pawl, 411-limiting groove, 42-ratchet wheel and 50-rear mop.
Detailed Description
An embodiment of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the embodiment.
As shown in fig. 1 to 15, the high-efficiency dust cart provided by the embodiment of the invention comprises a cart body 10 and a mop body 21, wherein the mop body 21 is a hexagonal body, two ends of the mop body 21 are rotatably arranged among the middle part of the cart body 10, a front wheel and a rear wheel through rotating shafts, a supporting plate 22 for mopping the ground is detachably arranged on each circumferential side surface, the mop body 21 is arranged in the middle part of the cart body 10, so that the volume of the dust cart can be effectively reduced, and the supporting plate 22 and the mop body 21 form a cleaning mop 20.
The mop further comprises a supporting spring 32 and supporting rods 30 respectively arranged at two ends of the mop body 21, a supporting seat 31 is arranged in the middle of the vehicle body 10, the supporting seat 31 is fixedly arranged on the vehicle body 10, a supporting groove is formed in the supporting seat 31, the supporting groove is in a round hole shape, one end of the supporting rod 30 is rotatably arranged on the mop body 21, the other end of the supporting rod 30 is positioned in the supporting groove, the supporting spring 32 is positioned in the supporting groove, one end of the supporting spring is connected to the supporting rod 30, the other end of the supporting spring is connected to the supporting seat 31, the mop body 21 is arranged on the supporting rod 30 through a rotating shaft, the supporting rod 30 is connected to the supporting seat 31 through the supporting spring 32, and the supporting groove can limit the position of the supporting rod 30, so that the mop body 21 cannot deviate or fall off. Because the mop body 21 is in a hexagonal structure, a high point can be formed when the mop body is turned, namely the diameter of the intersection of two adjacent side surfaces is larger than the diameter of an inscribed circle from the center of the hexagon to any side surface, so that the mop body can vibrate when the mop body is turned, the vibration can be avoided by the supporting spring 32, and the diameter difference can be compensated by the spring, namely the height difference generated when the mop body 21 in a hexagonal structure rotates.
As shown in fig. 6, one end of the support rod 30 located in the support groove has a limiting block for preventing the support rod 30 from falling off from the support groove. The diameter of the limiting block at the top end of the supporting rod 30 is larger than that of the supporting rod 30, and the bottom of the supporting groove is provided with a limiting part which is folded inwards, the inner diameter of the limiting part is equal to or slightly larger than the inner diameter of the supporting rod 30, but is smaller than the outer diameter of the limiting block, so that the supporting rod 30 is prevented from being separated from the supporting groove.
As shown in fig. 6 and 7, the present invention further includes a retraction spring 23, each circumferential side surface of the mop body 21 is provided with a receiving groove for receiving the support plate 22, the receiving groove does not penetrate through the mop body 21, side walls are left at both ends, the support plate 22 is slidably disposed in the receiving groove, the bottom surface of the support plate 22 is flush with one circumferential side surface of the mop body 21, that is, when any circumferential side surface is close to the ground, the working surface of the support plate 22 is also close to the ground, one end of the retraction spring 23 is connected to the mop body 21, and the other end is connected to the support plate 22. As shown in fig. 8 and 9, fig. 8 and 9 simplify the working principle of the mop body 21 and the blade 22. Because when mopping, in the market, often can have little step in the workshop, when normally mopping, accumulational dust and dirty water can be because the effect extrusion mop of step on the mop, thereby make dust and dirty water persist in step department, and connect layer board 22 in accomodating the groove through the spring, when mop body 21 meets the step, layer board 22 can stretch into the corner under the effect of spring, and receive the effect of step when layer board 22, also can retract under the effect of spring, but this in-process can support all the time and lean on the step, when mop body 21 crosses the step, layer board 22 can take dirty water and dust to continue to move together, thereby avoid dirty water and dust to be left over in the corner.
In order to enable the supporting plate 22 to effectively move on the mop body 21, sliding grooves 221 are formed in two sides of the supporting plate 22, a sliding rod for limiting the supporting plate 22 is arranged on the mop body 21 at a position corresponding to the sliding grooves 221, and if the sliding grooves 221 are formed in the mop body 21, the mop body is inconvenient to detach and install.
The supporting plate 22 is partially exposed out of the mop body 21, and when any peripheral side surface of the mop body 21 is in a horizontal state, a projection of the mop body 21 corresponding to the exposed side of the supporting plate 22 in the vertical direction completely falls on the supporting plate 22.
As shown in fig. 12, the side of the exposed part of the supporting plate 22 away from the mop body 21 has a second arc-shaped part 222, as shown in fig. 10, if the end of the supporting plate 22 away from the mop body 21 is upright, when a small step is encountered or a small pit or a small bulge is formed on the ground, the supporting plate 22 will abut against the small step, which may affect the movement of the dust removing cart and even damage the supporting plate 22. As shown in fig. 11, the side of the exposed part of the supporting plate 22 away from the mop body 21 has a second arc-shaped part 222, when the arc-shaped part meets a small step, a buffer is formed to force the supporting plate 22 to move towards the mop body 21, and at the same time, the mop body 21 is forced to move upwards, and due to the action of the supporting spring 32, an upward movement space is left, so that the supporting plate 22 can smoothly slide over the small step without damaging the supporting plate 22.
As shown in fig. 3, in order to facilitate the reversing, the mop body 21 is connected to the support rod 30 through a rotation shaft, the dust cart further comprises a steering mechanism, which includes a reversing rod 40 located on the cart body 10, a pawl 41 with one end hinged to the reversing rod 40, and a ratchet wheel 42 fixedly arranged on the rotation shaft, wherein the pawl 41 is matched with the ratchet wheel 42 for driving the mop body 21 to rotate under the action of the reversing rod 40. When reversing is needed, only the reversing rod 40 needs to be pushed, the reversing rod 40 drives the pawl 41 to move so as to drive the ratchet wheel 42 to rotate, and when the ratchet wheel 42 rotates, the rotating shaft is driven to rotate, and finally the mop body 21 is driven to rotate.
In order to prevent the detent 41 from falling off, a limit groove 411 is formed in the detent 41, and a limit rod is arranged on the vehicle body 10 corresponding to the position of the limit groove 411.
The mop also comprises a positioning bolt 24, a threaded jack is arranged on the mop body 21 corresponding to the sliding groove 221, an external thread matched with the threaded jack is separately arranged on the upper part of the sliding rod, and the part of the sliding rod, which is positioned in the sliding groove 221, is a polished rod. Thus, the supporting plate 22 can be conveniently disassembled and is convenient to clean. The entire mop body 21 is not detached.
As shown in fig. 14 and 15, the body of the supporting plate 22 has a first arc-shaped part 211 at the intersection of any two adjacent peripheral side surfaces. When a higher step is met (lower than the height from the center of the mop body 21 to the ground), the supporting plate 22 firstly abuts against the step to realize inward contraction, the first arc-shaped part abuts against the step to force the mop body 21 to move upwards, and under the action of the supporting spring 32, the mop body 21 moves upwards to pass over the step to cling to the ground again.
Since the front end of the support plate 22 is subjected to the step force when encountering the step, the end of the support plate 22 far from the body of the support plate 22 is made of metal, so that the service life is effectively prolonged.
In order to clean the mop, a rear mop 50 is arranged at the tail part of the vehicle body.
The above disclosure is only for a few specific embodiments of the present invention, however, the present invention is not limited to the above embodiments, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present invention.