CN109700396B - Squeezing hydraulic tightening mechanism of collodion mop cleaning barrel - Google Patents

Abstract

The invention provides a squeezing hydraulic tightening mechanism of a collodion mop cleaning barrel, and belongs to the technical field of daily necessities. The cleaning barrel solves the technical problems that the existing collodion mop cleaning barrel cannot squeeze the collodion head to dry and the like. The collodion mop cleaning barrel comprises a barrel body and a pedal hinged on the barrel body, wherein a pull rod extending into the barrel body is connected to the pedal, the squeezing water pressure tightening mechanism comprises a guide seat, a lifting seat and a squeezing seat, the guide seat is fixedly arranged in the barrel body, the lifting seat is sleeved on the guide seat, the rear side of the lifting seat on the guide seat is provided with a connecting part, the upper end of the pull rod is hinged with the connecting part, the lifting seat is provided with a hinge part on the front side of the guide seat, the squeezing seat comprises a swing arm and a squeezing head positioned at one end of the swing arm, the other end of the swing arm is hinged to the hinge part, a swinging guide wheel positioned between the guide seat and the hinge part is arranged on the guide seat, and an elastic piece is arranged between the swing arm and the hinge part. The invention has the advantages of drying the collodion cotton head and simple structure.

Description

Squeezing hydraulic tightening mechanism of collodion mop cleaning barrel

Technical Field

The invention belongs to the technical field of daily necessities, and relates to a collodion mop cleaning barrel, in particular to a squeezing water pressing mechanism of the collodion mop cleaning barrel.

Background

The collodion mop is a mop which adopts collodion as a wiping object, and one of the existing collodion mops adopts the way that a collodion head is fixed on a mounting plate. When the collodion mop is used, water adsorbed on the collodion head needs to be extruded, and the squeezing of the collodion head fixed on the mounting plate is generally realized by adopting a squeezing mechanism arranged on a mop cleaning barrel.

For example, a collodion flat plate mopping and squeezing device disclosed in Chinese patent literature [ application publication number CN108030456A ] comprises a base, wherein a mop working head placing cavity is formed in the base, the top of the mop working head placing cavity is of an open structure, and a water drain hole is formed in the bottom surface of the mop working head placing cavity in the base; two groups of extrusion parts which are horizontally arranged are arranged in the mop working head placing cavity, and the two groups of extrusion parts are respectively positioned at two sides of the mop working head placing cavity; the pressing pieces and the base are connected through a guide mechanism which can enable the two groups of pressing pieces to move vertically downwards and reduce the interval between the two groups of pressing pieces in the moving process; the two groups of extrusion pieces are connected through a linkage mechanism which can enable the two groups of extrusion pieces to synchronously move. In the patent, extrusion of the collodion cotton heads is realized through two groups of extrusion parts which are positioned at two sides of the collodion cotton heads and can synchronously and relatively move, so that the integral structure is complex, the stability is poor, and the collodion cotton heads are easy to damage; meanwhile, the two groups of extrusion parts are connected with the pedal main body through the transverse connecting rods, the transverse connecting rods cannot bear larger acting force in the pressing process, so that the pressure acting on the collodion cotton head is limited, the collodion cotton head cannot be squeezed to dry, more water is still contained in the collodion cotton head after water squeezing, and the water absorbing effect of the collodion cotton head is poor when mopping.

Disclosure of Invention

The invention aims at solving the problems in the prior art, and provides a squeezing water pressing mechanism of a collodion mop cleaning barrel.

The aim of the invention can be achieved by the following technical scheme:

The utility model provides a crowded water tight mechanism of collodion mop washtub, washs the bucket and includes staving and articulates the footboard on the staving, be connected with the pull rod that stretches into the staving on the footboard, its characterized in that, this crowded water tight mechanism includes guide holder, lifting seat and extrusion seat, guide holder fixed mounting is in the staving, lifting seat cover is on the guide holder and goes up and down under the guide of guide holder, the lifting seat is equipped with connecting portion in the rear side of guide holder, the upper end and the connecting portion of pull rod are articulated, the lifting seat is equipped with the articulated portion in the front side of guide holder, the extrusion seat includes the swing arm and is located the extrusion head of swing arm one end, the other end of swing arm articulates at the articulated portion, be equipped with the swing guide pulley between swing arm and the articulated portion on the guide holder, be equipped with the elastic component under the effect of elastic component the swing arm can be pasted with the swing guide pulley all the time, when the lifting seat moves down the swing relatively and moves and makes the swing arm drive the extrusion head and swing down.

A squeezing plate is fixed in the barrel body in front of the squeezing seat, when squeezing water, the pedal is stepped down, the pull rod is pulled downwards by downward swinging of the pedal, the pull rod drives the lifting seat to move downwards along the guide seat, the lifting seat moves downwards to drive the squeezing seat to move downwards, the swinging guide wheel on the guide seat is fixed in the vertical direction, the swinging arm of the squeezing seat slides downwards relative to the swinging guide wheel, the swinging arm swings forwards under the limit of the swinging guide wheel to enable the squeezing head to swing to the position right above the squeezing plate, the squeezing head continues to swing downwards to the mop head abutting against and pressing the collodion mop, the collodion head on the mop head is compressed to the squeezing plate by the squeezing head to realize squeezing of the collodion head, and the squeezing seat swings and resets under the driving of the elastic piece after squeezing water is completed; meanwhile, downward acting force on the pedal is transmitted in the vertical direction through the pull rod and the lifting seat, so that larger downward acting force can be born, the collodion head can be pressed by larger pressure, further, the downward acting force on the pedal directly acts on the pressing seat, the effect of directly stepping on the collodion head by feet is equivalent when the collodion head is pressed, the pressing acting force on the collodion head is large, the water squeezing of the collodion head is better, and the collodion head can be squeezed; the hydraulic squeezing tight mechanism composed of the guide seat, the lifting seat and the squeezing seat is few in parts, and the lifting seat is connected with the guide seat in a sleeved mode, so that firm connection between the lifting seat and the guide seat is achieved, the structure is compact, meanwhile, the structure is more stable, larger downward pressure can be transferred in the process of sliding up and down, and the requirement on compressing collodion cotton heads is met.

In the water squeezing pressing mechanism of the collodion mop cleaning barrel, the swing arm comprises a guide section and a connecting section which are bent, the extrusion head is connected to the end part of the connecting section, the back surface of the guide section is a guide surface, the swing guide wheel can be abutted to the guide surface when the lifting seat moves downwards so that the guide section is vertical, the extrusion head is provided with an extrusion surface which can be tightly pressed on the collodion mop, and the included angle between the extrusion surface and the guide surface is a right angle. When the structure is used for squeezing water, the swinging guide wheel is abutted against the guide surface of the guide section, and the guide surface is abutted against the upper side surface of the mop head, so that the squeezing head can be ensured to vertically downwards compress the collodion head, and the collodion head can be squeezed.

In the squeezing water pressing mechanism of the collodion mop cleaning barrel, the swing arm is further provided with an accommodating section connected with the guide section, the accommodating section is provided with an accommodating groove, and the swing arm swings backwards when the swing guide wheel is located in the accommodating groove. When not needing to squeeze water open, the swing guide pulley is located the accommodation groove, therefore the swing arm can be bigger to the amplitude of rear side wobbling for the extrusion head shifts out the position directly over the wringing plate, conveniently places the mop head on the wringing plate.

In the squeezing water pressing mechanism of the collodion mop cleaning barrel, the squeezing head is of a strip shape, the squeezing head comprises an arc-shaped squeezing shell and flanges located at two ends of the length direction of the squeezing shell, the middle section of one side of the width direction of the squeezing shell is connected with the connecting section, a plurality of reinforcing ribs are arranged in the concave surface of the squeezing shell along the width direction of the squeezing shell, and the edge of the other side of the width direction of the squeezing shell, the bottom surface of the flanges and the bottom surface of the reinforcing ribs are located on the same plane to form the squeezing surface. The extrusion face comprises above-mentioned structure, is non-positive plane, and extrusion head can be inseparabler when squeezing water laminating with the mop head, the condition of relative mop head slope can not appear in the extrusion head, and extrusion head can vertically compress tightly the collodion head downwards, can evenly act on the mop head with the compaction force simultaneously for the collodion head can be evenly squeezed.

In the squeezing water pressing mechanism of the collodion mop cleaning barrel, the middle section of the squeezing shell is provided with the abdication groove, the edge of the abdication groove is provided with the downward extending propping flanging, and the edge of the propping flanging is coplanar with the squeezing surface. When squeezing water, the mop rod passes through the abdication groove, and the squeezing heads positioned at the two sides of the abdication groove are respectively propped against the mop heads positioned at the two sides of the mop rod; the propping flanging can be attached and pressed at the position of the mop head close to the mop rod, and the pressing force is uniformly applied to the mop head, so that the collodion cotton head can be uniformly squeezed.

In the squeezing hydraulic tightening mechanism of the collodion mop cleaning barrel, the lifting seat further comprises two sliding parts connected with the hinge parts and two ends of the connecting part, lifting sliding grooves are formed in the inner sides of the sliding parts along the vertical direction, the guide seat comprises lifting sliding rails which are arranged on two sides and are respectively and slidably connected in the lifting sliding grooves of the corresponding sliding parts. Through this structure can guarantee the stable relative guide holder slip of elevating seat.

In the squeezing water pressing mechanism of the collodion mop cleaning barrel, the hinge part and the connecting part are staggered in the vertical direction, and the connecting part is positioned above the hinge part and is aligned with the squeezing head in the horizontal direction. Through this structure can make the lifting seat receive the position that the pull rod pulled down and the extrusion head compress tightly the position height of mop head the same, realize being equivalent to the effect that the foot was directly stepped on when compressing tightly the collodion head, compress tightly the effort to the collodion head big to make the crowded water of collodion head better, the collodion head can be crowded drier.

In the squeezing water pressing mechanism of the collodion mop cleaning barrel, one side wall of the barrel body protrudes inwards to form an installation boss, fixing strips are vertically fixed on two sides of the installation boss, fixing slots are formed in the inner sides of the lifting sliding rails, and the fixing strips are inserted into the fixing slots corresponding to the lifting sliding rails. The structure can ensure that the guide seat is stably fixed on the installation boss.

In the water squeezing and pressing mechanism of the collodion mop cleaning barrel, the guide seat further comprises a fixing portion located between the two lifting sliding rails, a clamping hole is formed in the fixing portion, a buckle is arranged on the upper table top of the installation boss, and the fixing portion is fixed in the installation boss through the buckle in a clamping mode.

Compared with the prior art, the squeezing water pressing mechanism of the collodion mop cleaning barrel has the advantages of larger force pressed on the mop head, better squeezing water effect, and simpler and compact structure.

Drawings

Fig. 1 is a schematic perspective view of a cleaning barrel of the collodion mop.

FIG. 2 is a schematic diagram showing the positional relationship between the squeezing plate and the squeezing mechanism when the squeezing mechanism is opened.

FIG. 3 is a schematic diagram showing the positional relationship between the squeezing plate and the squeezing plate when squeezing water.

Fig. 4 is a schematic perspective view of the guide holder fixed on the tub.

Fig. 5 is a schematic perspective view of a tub.

Fig. 6 is a schematic top view of the positional relationship between the guide holder and the lift holder.

Fig. 7 is a schematic perspective view of a guide holder.

Fig. 8 is a schematic perspective view of a lifting seat.

Fig. 9 is a schematic side view of the squeeze seat.

Fig. 10 is a schematic perspective view of the pressing seat.

In the figure, 1, a barrel body; 11. a mounting boss; 12. a fixing strip; 13. a buckle; 14. a wringing plate; 2. a pedal; 21. a pull rod; 3. a guide seat; 31. swinging guide wheels; 32. lifting the sliding rail; 33. a fixed slot; 34. a fixing part; 35. a clamping hole; 4. a lifting seat; 41. a connection part; 42. a hinge part; 43. a sliding part; 44. lifting sliding grooves; 5. extruding a base; 50. swing arms; 51. a guide section; 51a, a guide surface; 52. a connection section; 53. a receiving section; 53a, a receiving groove; 54. an extrusion head; 54a, an extrusion surface; 541. extruding the shell; 542. flanging; 543. reinforcing ribs; 55. a relief groove; 55a, abutting the flanging; 56. an elastic member.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 and 5, the collodion mop cleaning barrel comprises a barrel body 1 and a pedal 2 hinged on the barrel body 1, a side wall of the barrel body 1 protrudes inwards to form an installation boss 11, a wringing plate 14 is fixed in front of the installation boss 11 in the middle of the barrel body 1, the pedal 2 is hinged in a concave cavity of the installation boss 11, a torsion spring which enables the pedal 2 to swing upwards all the time is arranged between the pedal 2 and the barrel body 1, and a pull rod 21 penetrating through the upper end of the installation boss 11 and extending into the barrel body 1 is connected to the pedal 2.

As shown in fig. 1 to 10, the hydraulic squeezing mechanism comprises a guide holder 3, a lifting seat 4 and a squeezing seat 5, wherein the guide holder 3 is fixedly installed on an installation boss 11, the lifting seat 4 is sleeved on the guide holder 3 and is lifted up and down under the guide of the guide holder 3, a connecting part 41 is arranged at the rear side of the guide holder 3, the upper end of a pull rod 21 is hinged with the connecting part 41, the lifting seat 4 is provided with a hinging part 42 at the front side of the guide holder 3, the squeezing seat 5 comprises a swinging arm 50 and a squeezing head 54 positioned at one end of the swinging arm 50, the other end of the swinging arm 50 is hinged with the hinging part 42, the guide holder 3 is in rolling connection with a swinging guide wheel 31 positioned between the guide holder 3 and the hinging part 42, an elastic piece 56 is arranged between the swinging arm 50 and the hinging part 42, the elastic piece 56 is a torsion spring or a tension spring, the elastic piece 56 in the embodiment can be always attached to the swinging guide wheel 31 under the action of the elastic piece 56, and the swinging guide wheel 31 moves relatively to the swinging arm 50 when the lifting seat 4 moves downwards so that the swinging guide arm 54 swings downwards.

Specifically, the swing arm 50 includes a guide section 51 and a connecting section 52 that are arranged in a bending manner, the extrusion head 54 is connected to the end of the connecting section 52, the back surface of the guide section 51 is a guide surface 51a, the swing guide wheel 31 can be abutted against the guide surface 51a when the lifting seat 4 moves downwards so that the guide section 51 is vertical, the extrusion head 54 has an extrusion surface 54a that can be pressed on the collodion mop, and the included angle between the extrusion surface 54a and the guide surface 51a is a right angle. The swing arm 50 is further provided with a receiving section 53 connected to the guide section 51, the receiving section 53 is provided with a receiving groove 53a, and the swing arm 50 swings backward when the swing guide wheel 31 is positioned in the receiving groove 53 a.

The extrusion head 54 is rectangular shape, and the extrusion head 54 is including being curved extrusion casing 541 and being located the turn-ups 542 at extrusion casing 541 length direction both ends, and the middle section and the link 52 of one side of extrusion casing 541 width direction meet, are equipped with a plurality of strengthening ribs 543 along the width direction of extrusion casing 541 in the concave surface of extrusion casing 541, and the opposite side border of extrusion casing 541 width direction, the bottom surface of turn-ups 542 and the bottom surface of strengthening rib 543 all are located the coplanar and constitute above-mentioned extrusion face 54a. The middle section of the extrusion housing 541 is provided with a relief groove 55, and an edge of the relief groove 55 has a downward extending abutment flange 55a, and an edge of the abutment flange 55a is coplanar with the extrusion surface 54a.

The lifting seat 4 further comprises two sliding parts 43 connected with the two ends of the hinge part 42 and the connecting part 41, lifting sliding grooves 44 are formed in the inner side of the sliding parts 43 along the up-down direction, the guide seat 3 comprises vertically arranged lifting sliding rails 32 positioned on two sides, and the two lifting sliding rails 32 are respectively and slidably connected in the lifting sliding grooves 44 of the corresponding sliding parts 43. The hinge portion 42 and the connecting portion 41 are offset in the up-down direction, and the connecting portion 41 is located above the hinge portion 42 and aligned in the horizontal direction with the extrusion head 54 at the connecting portion 41.

Fixing strips 12 are vertically fixed on two sides of the mounting boss 11, fixing slots 33 are formed in the inner sides of the lifting slide rails 32, and the fixing strips 12 are inserted into the corresponding fixing slots 33 of the lifting slide rails 32. The guide seat 3 further comprises a fixing part 34 positioned between the two lifting slide rails 32, a clamping hole 35 is formed in the fixing part 34, a buckle 13 is arranged on the upper table surface of the installation boss 11, and the fixing part 34 is clamped in the clamping hole 35 through the buckle 13 and is positioned in the installation boss 11 for fixing.

When squeezing water, by stepping on the pedal 2, the pedal 2 swings downwards to pull the pull rod 21 downwards, the pull rod 21 drives the lifting seat 4 to move downwards along the guide seat 3, the lifting seat 4 moves downwards to drive the squeezing seat 5 to move downwards, the swinging guide wheel 31 on the guide seat 3 is fixed in the up-down direction, the swinging arm 50 of the squeezing seat 5 slides downwards relative to the swinging guide wheel 31, the swinging arm 50 swings forwards under the limit of the swinging guide wheel 31 to enable the squeezing head 54 to swing to the position right above the squeezing plate 14, the squeezing head 54 is located right above the squeezing plate 14 and then continuously swings downwards to the mop head abutting against and pressing the collodion mop, the collodion cotton head on the mop head is compressed to the squeezing plate 14 through the squeezing head 54 to achieve squeezing of the collodion cotton head, and after squeezing water is completed, swinging reset is achieved through the elastic piece 56 and a torsion spring on the pedal 2.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (9)

1. The water squeezing pressure tight mechanism of the collodion mop cleaning barrel comprises a barrel body (1) and a pedal (2) hinged on the barrel body (1), wherein a pull rod (21) extending into the barrel body (1) is connected to the pedal (2), the water squeezing pressure tight mechanism is characterized by comprising a guide seat (3), a lifting seat (4) and a squeezing seat (5), the guide seat (3) is fixedly arranged in the barrel body (1), the lifting seat (4) is sleeved on the guide seat (3) and can lift up and down under the guide of the guide seat (3), a connecting part (41) is arranged at the rear side of the guide seat (3), the upper end of the pull rod (21) is hinged with the connecting part (41), the front side of the lifting seat (4) is provided with a hinge part (42), the squeezing seat (5) comprises a swing arm (50) and a squeezing head (54) positioned at one end of the swing arm (50), the other end of the swing arm (50) is hinged with the hinge part (42), the swing arm (3) is provided with an elastic part (56) between the swing arm (42) and the swing arm (31), under the action of the elastic piece (56), the swing arm (50) can be always abutted against the swing guide wheel (31), and when the lifting seat (4) moves downwards, the swing guide wheel (31) moves relative to the swing arm (50) so that the swing arm (50) drives the extrusion head (54) to swing downwards.

2. The squeezing water tightening mechanism of a collodion mop cleaning barrel according to claim 1, wherein the swinging arm (50) comprises a guide section (51) and a connecting section (52) which are arranged in a bending way, the squeezing head (54) is connected to the end part of the connecting section (52), the back surface of the guide section (51) is a guide surface (51 a), the swinging guide wheel (31) can be abutted against the guide surface (51 a) when the lifting seat (4) moves downwards so that the guide section (51) is vertical, the squeezing head (54) is provided with a squeezing surface (54 a) which can be tightly pressed on the collodion mop, and the included angle between the squeezing surface (54 a) and the guide surface (51 a) is a right angle.

3. The squeezing water tightening mechanism of the collodion mop cleaning barrel according to claim 2, wherein the swinging arm (50) is further provided with a containing section (53) connected with the guiding section (51), the containing section (53) is provided with a containing groove (53 a), and the swinging arm (50) swings backwards when the swinging guide wheel (31) is positioned in the containing groove (53 a).

4. The squeezing water tightening mechanism of a collodion mop cleaning barrel according to claim 1,2 or 3, wherein the squeezing head (54) is strip-shaped, the squeezing head (54) comprises an arc-shaped squeezing shell (541) and flanges (542) positioned at two ends of the squeezing shell (541) in the length direction, a middle section of one side of the squeezing shell (541) in the width direction is connected with the swinging arm (50), a plurality of reinforcing ribs (543) are arranged in a concave surface of the squeezing shell (541) along the width direction of the squeezing shell (541), and the edge of the other side of the squeezing shell (541) in the width direction, the bottom surface of the flanges (542) and the bottom surface of the reinforcing ribs (543) are all positioned on the same plane to form the squeezing surface (54 a).

5. The squeezing water tightening mechanism of the collodion mop cleaning barrel according to claim 4, wherein a relief groove (55) is formed in the middle section of the squeezing shell (541), the edge of the relief groove (55) is provided with a downward extending abutting flanging (55 a), and the edge of the abutting flanging (55 a) is coplanar with the squeezing surface (54 a).

6. The squeezing water tightening mechanism of the collodion mop cleaning barrel according to claim 1,2 or 3, wherein the lifting seat (4) further comprises two sliding parts (43) connected with two ends of the hinge part (42) and the connecting part (41), lifting sliding grooves (44) are formed in the inner side of the sliding parts (43) along the up-down direction, the guide seat (3) comprises lifting sliding rails (32) which are arranged vertically and are positioned on two sides, and the two lifting sliding rails (32) are respectively and slidably connected in the lifting sliding grooves (44) of the corresponding sliding parts (43).

7. The squeezing water tightening mechanism of a collodion mop cleaning bucket according to claim 6, wherein the hinge part (42) and the connecting part (41) are staggered in the up-down direction, the connecting part (41) is located above the hinge part (42) and is aligned with the squeezing head (54) in the horizontal direction at the connecting part (41).

8. The squeezing water tightening mechanism of a collodion mop cleaning barrel according to claim 6, wherein a side wall of the barrel body (1) protrudes inwards to form an installation boss (11), fixing strips (12) are vertically fixed on two sides of the installation boss (11), fixing slots (33) are formed in the inner sides of the lifting sliding rails (32), and the fixing strips (12) are inserted into the fixing slots (33) of the corresponding lifting sliding rails (32).

9. The squeezing water tightening mechanism of the collodion mop cleaning barrel according to claim 6, wherein the guide holder (3) further comprises a fixing portion (34) located between the two lifting slide rails (32), a clamping hole (35) is formed in the fixing portion (34), a buckle (13) is arranged on the upper table top of the installation boss (11), and the fixing portion (34) is clamped in the clamping hole (35) through the buckle (13) and is fixed in the installation boss (11).