CN110508577B

CN110508577B - Hand-held quick bottle washer

Info

Publication number: CN110508577B
Application number: CN201910888627.8A
Authority: CN
Inventors: 郭涛
Original assignee: Shenzhen Hua Bao Technology Co ltd
Current assignee: Shenzhen Hua Bao Technology Co ltd
Priority date: 2019-09-19
Filing date: 2019-09-19
Publication date: 2021-08-10
Anticipated expiration: 2039-09-19
Also published as: CN110508577A

Abstract

The invention relates to a handheld quick bottle washer, which comprises an insertion rod, two fixing blocks, a conduction pipe, a spray head, a water supply device, an electric driving device and a manual driving device, wherein the two fixing blocks are integrally formed on the end surface of one end of the insertion rod, the conduction pipe is rotatably connected between the two fixing blocks, the spray head is in threaded connection with the conduction pipe and is communicated with the conduction pipe, the water supply device is installed on the insertion rod and is used for supplying cleaning liquid to the spray head, the electric driving device is installed on the insertion rod and is used for driving the conduction pipe to rotate, and the manual driving device is installed on the insertion rod and is used for driving a guide pipe to rotate. The advantages are that: the round-bottom flask is cleaned without dead angles by adopting a high-pressure water washing mode, so that dirt attached to the inner wall of the round-bottom flask is washed away.

Description

Hand-held quick bottle washer

Technical Field

The invention relates to the field of bottle cleaning equipment, in particular to a handheld quick bottle washer.

Background

The round-bottom flask is a heating and reaction vessel commonly used in a laboratory, and is a transparent glass flask with a hollow ball at the bottom, wherein the neck of the flask is long, and the mouth of the flask is small. After the round-bottom flask is used, dirt generally adheres to the inner wall of the round-bottom flask, a user needs to put a brush into the round-bottom flask for cleaning the round-bottom flask, and the brush which is put into the round-bottom flask is relatively thin due to the long neck and the small mouth of the round-bottom flask, so that the user can hardly reach the inner peripheral surface of the hollow sphere part of the round-bottom flask by using the brush, and the round-bottom flask cannot be cleaned.

Disclosure of Invention

The invention aims to provide a handheld quick bottle washer, which has the advantages that: the round-bottom flask is cleaned without dead angles by adopting a high-pressure water washing mode, so that dirt attached to the inner wall of the round-bottom flask is washed away.

The above object of the present invention is achieved by the following technical solutions: the utility model provides a quick bottle cleaning device of hand-held type, includes the inserted bar, still includes two integrated into one piece fixed blocks on inserted bar one end terminal surface, rotate the conduction pipe of connection between two fixed blocks, threaded connection on the conduction pipe and with the shower nozzle of conduction pipe intercommunication, install the water supply installation who is used for providing the washing liquid to the shower nozzle on the inserted bar, install and be used for driving conduction pipe pivoted electric drive device on the inserted bar and install and be used for driving conduction pipe pivoted manual drive arrangement on the inserted bar.

Through the technical scheme, the round-bottom flask can be cleaned without dead angles, so that dirt attached to the inner wall of the round-bottom flask is washed away. When the round-bottom flask is cleaned, the round-bottom flask is taken up and inverted, then one end of the insertion rod, which is provided with the spray nozzle, is inserted into the round-bottom flask, the lower end of the insertion rod is enabled to be flush with the lower end of the bottleneck of the round-bottom flask as far as possible, then the electric driving device and the water supply device are started, the insertion rod is slowly rotated, and cleaning liquid enters the spray nozzle and is sprayed out by the spray nozzle under the action of the water supply device; the arrangement of the electric driving device can enable the spray head to continuously rotate around the conduction pipe, and in addition, a user slowly rotates the inserted bar in the cleaning process, the spray head can spray cleaning liquid on the whole inner wall of the hollow ball part of the round-bottom flask, and the whole inner wall of the hollow ball part of the round-bottom flask is washed at high pressure; if the user finds that stubborn stains are in the hollow ball part of the round-bottom flask, the user can turn off the electric driving device, the inserting rod is rotated, the manual driving device is utilized to drive the spray head to rotate, the spray head faces the stubborn stains, and the cleaning liquid is continuously sprayed to the stubborn stains, so that the stubborn stains are flushed from the inner wall of the round-bottom flask. After the hollow ball part of round flask washed well, the user can be under the condition of closing electric drive device, drive the shower nozzle through manual drive device and rotate and make the shower nozzle towards the inserted bar, then under the condition that water supply installation opened, continuous along round flask bottleneck push-and-pull inserted bar, make from the shower nozzle blowout and sputter the washing liquid on the round flask bottleneck and clear up the round flask bottleneck.

The invention is further configured to: the water supply device comprises a water supply pump arranged at one end of the inserted link far away from the spray head and a water outlet pipe connected to a water outlet of the water supply pump, water inlet holes communicated with the conduction pipe and the end face of the inserted link far away from the end face of the spray head are formed in the inserted link and the fixed block, and one end of the water outlet pipe far away from the water supply pump penetrates into the water inlet hole and is communicated with the water inlet hole; the water inlet of the water supply pump is connected and communicated with a tap water pipe, a detergent pipe and a pure water pipe, and valves are arranged on the tap water pipe, the detergent pipe and the pure water pipe.

Through above-mentioned technical scheme, the user can make different liquid through the water feed pump and blow the opening and closing of the valve on water pipe, detergent pipe and the pure water pipe to shower nozzle department and spout by the shower nozzle for when the user washs the round bottom flask, can wash with the running water earlier, then wash with the detergent, then wash with the pure water again, thereby guarantee that the round bottom flask can be by the sanitization, no detergent remains.

The invention is further configured to: the water pumping device is used for pumping accumulated water at the bottom of the bottle out and comprises a water suction pump, a water suction pipe and a waste water pipe, wherein the water suction pump is installed in the water tank, the water suction pipe is connected to a water inlet of the water suction pump, and the waste water pipe is connected and communicated with a water outlet of the water suction pump.

Through the technical scheme, the water pumping device is arranged, so that when a person cleans the round-bottom flask, the round-bottom flask can be placed on a table, and the cleaning liquid accumulated at the bottom of the round-bottom flask is pumped out by the water pumping device, so that the cleaning liquid is prevented from accumulating at the bottom of the round-bottom flask and affecting the flushing force of the cleaning liquid sprayed by the spray head on the inner wall of the round-bottom flask; meanwhile, the condition that cleaning liquid flows from the bottle mouth of the round-bottom flask to hands due to the fact that the round-bottom flask needs to be inverted when being cleaned can be avoided, and therefore the hands are prevented from directly contacting cleaning waste liquid and being protected; on the other hand, the physical strength of the user can be saved.

The invention is further configured to: the pipe that absorbs water includes that the water hole of crossing, intercommunication suction pump and the first inlet tube in crossing the water hole of seting up in inserted bar and fixed block along inserted bar length direction, deviate from inserted bar one end by the fixed block and insert the water hole and with the second inlet tube and the fixed connection that cross water hole threaded connection deviate from the hose of crossing water hole one end at the second inlet tube, seted up a plurality of water absorbing hole just on the lateral wall of hose week the hose deviates from the one end of second inlet tube and installs the balancing weight.

Through the technical scheme, the second water inlet pipe is in threaded connection with the water through hole, so that a user can adjust the length of the second water suction pipe extending out of the water through hole part according to the size of the hollow ball part of the round-bottomed flask to be cleaned, when inserting the inserted bar into the round-bottomed flask, the lower end of the inserted bar can be flush with the lower end of the bottleneck of the round-bottomed flask, and the inserted bar is prevented from influencing a spray head to carry out dead-angle-free spray washing on the inner wall of the hollow ball part of the round-bottomed flask; the arrangement of the hose can increase the water absorption area so as to reduce the water accumulation at the bottom of the bottle; the setting of balancing weight can avoid the hose to stick up, does benefit to pumping device and absorbs water.

The invention is further configured to: the second inlet tube includes with cross water hole threaded connection's first connecting portion and integrated into one piece in first connecting portion keep away from water hole one end and with first connecting portion vertically second connecting portion, the hose is connected and is linked together with the second connecting portion.

Through above-mentioned technical scheme, the phenomenon of breaking can be avoided appearing in the junction of hose and second connecting pipe in the setting of second connecting portion to make flowing in the pipe that absorbs water that water can be smooth.

The invention is further configured to: the electric driving device comprises two supporting blocks fixedly connected to one end, far away from the spray head, of the inserted link, pivots which penetrate through the two supporting blocks and are in running fit with the supporting blocks, a first bevel gear sleeved on the pivots, a mounting groove formed in one side, back to the spray head, of a fixing block, and a transmission rod penetrating through the inserted link along the length direction of the inserted link; one end of the transmission rod is fixedly connected with a second bevel gear meshed with the first bevel gear, and the other end of the transmission rod is positioned in the mounting groove and fixedly connected with a third bevel gear; one end of the conduction pipe is closed, the closed end penetrates into the mounting groove, and a fourth bevel gear meshed with the third bevel gear is fixedly connected with the conduction pipe; the electric driving device also comprises a motor which is fixedly connected on the inserted link and the output shaft of which is fixedly connected with the pivot.

Through above-mentioned technical scheme, when the motor during operation, the motor passes through the pivot and drives first bevel gear rotation, and first bevel gear can drive second bevel gear rotation, and second bevel gear passes through the transfer line and drives third bevel gear rotation, and third bevel gear drives fourth bevel gear rotation, and third bevel gear drives the conduction pipe and rotates to make the shower nozzle of installing on the conduction pipe rotate around the conduction pipe.

The invention is further configured to: the manual driving device comprises an installation block fixedly connected to one end, far away from the spray head, of the inserted bar, a sliding hole formed in the installation block, a sleeve penetrating through the sliding hole and in sliding fit with the sliding hole, and a rotary table fixedly connected to one end of the sleeve; the sleeve is coaxial with the pivot, a transmission key is processed on the inner peripheral wall of the sleeve, and the sleeve is in running fit with the slide hole; the pivot is processed on the one end periphery wall of motor dorsad and is had with drive key complex keyway just the one end of pivot dorsad motor stretches into in the sleeve.

Through the technical scheme, the sleeve and the pivot are separated from each other in the working state of the motor, so that the condition that the motor drives the turntable to rotate and a user accidentally touches the turntable to hurt fingers is avoided; when the motor stop work, the user can make the muffjoint on the pivot through promoting the carousel, then the user can make the shower nozzle rotate around the conduction pipe through rotating the carousel to make the shower nozzle can be fixed towards the assigned position in the hollow ball portion of round flask and continuously spray water, clear up stubborn dirt from round flask inner wall.

The invention is further configured to: an annular convex edge is processed on the outer peripheral wall of the sleeve, and two grooves for the annular convex edge to be embedded into are arranged on the wall of the sliding hole at intervals; when the annular convex rib is embedded into the groove close to the pivot, the sleeve is sleeved on the pivot; when the annular convex rib is embedded into the groove far away from the pivot, the sleeve and the pivot are separated from each other.

Through the technical scheme, the arrangement of the annular convex rib and the two grooves can prevent the sleeve from being separated from the pivot when a user drives the pivot to rotate through the rotary disc and the sleeve; on the other hand, when the motor drives the pivot to rotate, the sleeve slides along the sliding hole, so that the sleeve is contacted with the pivot, and the sleeve or the pivot is prevented from being damaged.

The invention is further configured to: the spray head is a high-pressure atomization spray head.

Through the technical scheme, the coverage area of the water sprayed by the spray head is increased, so that the cleaning efficiency is improved, and the cleaning dead angle is avoided.

In conclusion, the beneficial technical effects of the invention are as follows:

1. the round-bottom flask can be cleaned without dead angles, so that dirt attached to the inner wall of the round-bottom flask is washed away;

2. the arrangement of the electric driving device can enable the spray head to continuously rotate around the conduction pipe, and in addition, a user slowly rotates the inserting rod in the cleaning process, the spray head can spray water onto the whole inner wall of the hollow ball part of the round-bottom flask, and the whole inner wall of the hollow ball part of the round-bottom flask is washed at high pressure;

3. the water pumping device can suck the water accumulated at the bottom of the round-bottom flask back into the water tank, so that the water is recycled, water resources are saved, and the water accumulated at the bottom of the round-bottom flask can be prevented from affecting the flushing force of the water sprayed by the spray head on the inner wall of the round-bottom flask; (ii) a

4. The arrangement of the hose can increase the water absorption area of the water pumping device so as to reduce the water accumulation at the bottom of the bottle; the arrangement of the balancing weight can avoid the tilting of the hose, and is beneficial to the water suction of the water pumping device;

5. if the user finds that stubborn stains are in the hollow ball part of the round-bottom flask, the user can turn off the electric driving device, and the spray head is driven to rotate by rotating the inserting rod and utilizing the manual driving device, so that the spray head faces the stubborn stains and continuously sprays water to the stubborn stains, and the stubborn stains are flushed from the inner wall of the round-bottom flask.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a partial sectional view showing the structure of the water supply device and the structure of the water pumping device;

FIG. 3 is an exploded pictorial illustration of a structure embodying an electric drive and a manual drive;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

fig. 5 is an exploded view of a coupling structure embodying a mounting block and a sleeve.

In the figure, 1, a plug rod; 11. a rod member; 12. mounting a plate; 3. a fixed block; 4. a conduction pipe; 5. a spray head; 7. a water supply device; 71. a feed pump; 72. a water outlet pipe; 73. a water inlet hole; 74. a tap water pipe; 75. a detergent tube; 76. a pure water pipe; 77. a valve; 8. a water pumping device; 81. a water suction pump; 821. water passing holes; 822. a first water inlet pipe; 823. a second water inlet pipe; 824. a hose; 825. a water suction hole; 826. a balancing weight; 83. a waste pipe; 9. an electric drive device; 90. a protective cover; 91. a support block; 92. a pivot; 93. a first bevel gear; 94. mounting grooves; 95. a transmission rod; 96. a second bevel gear; 97. a third bevel gear; 98. a fourth bevel gear; 99. a motor; 10. a manual drive device; 101. mounting blocks; 102. a slide hole; 103. a sleeve; 104. a turntable; 105. a drive key; 106. a keyway; 107. an annular rib; 108. and (4) a groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the hand-held quick bottle washer disclosed by the present invention comprises an insertion rod 1, and specifically, the insertion rod 1 comprises a rod 11 and a mounting plate 12 integrally formed at one end of the rod 11.

With reference to fig. 1, the hand-held fast bottle washer further comprises two fixing blocks 3 which are integrally formed at one end of the rod piece 11, which is away from the mounting plate 12, a conduction pipe 4 which is rotatably connected between the two fixing blocks 3, a nozzle 5 which is in threaded connection with the conduction pipe 4 and is perpendicular to the conduction pipe 4, a water supply device 7 which is arranged on the insertion rod 1 and is used for providing cleaning liquid for the nozzle 5, a water pumping device 8 which is arranged on the insertion rod 1 and is used for pumping out accumulated water at the bottom of the bottle, an electric driving device 9 which is arranged on the insertion rod 1 and is used for driving the conduction pipe 4 to rotate, and a manual driving device 10 which is arranged on the insertion rod 1 and is used for driving the conduction pipe to rotate.

Referring to fig. 1 and 2, the water supply device 7 includes a water supply pump 71 fixed on the mounting plate 12 and a water outlet pipe 72 connected to a water outlet of the water supply pump 71, water inlet holes 73 communicating the conduction pipe 4 and the end face of the insertion rod 1 far away from the nozzle 5 are formed in the insertion rod 1 and the fixed block 3, and one end of the water outlet pipe 72 far away from the water supply pump 71 is inserted into the water inlet holes 73; a tap water pipe 74, a detergent pipe 75 and a plain water pipe 76 are connected to and communicated with a water inlet of the water feed pump 71, and valves 77 are installed on the tap water pipe 74, the detergent pipe 75 and the plain water pipe 76; the user can control the opening and closing of the valves 77 on the tap water pipe 74, the detergent pipe 75 and the pure water pipe 76 to make different liquids flow to the spray head 5 through the water feed pump 71 and the water blowing pipe and be sprayed from the spray head 5.

Referring to fig. 1 and 2, the water pumping device 8 includes a suction pump 81 installed in the water tank, a suction pipe connected to and communicated with a water inlet of the suction pump 81, and a waste water pipe 83 connected to and communicated with a water outlet of the suction pump 81. Specifically, the water suction pipe comprises a water through hole 821 which is formed in the insertion rod 1 and the fixed block 3 along the length direction of the insertion rod 1, a first water inlet pipe 822 which is communicated with a water inlet of the water suction pump 81 and one end of the water through hole 821 far away from the fixed block 3, a second water inlet pipe 823 which is inserted into the water through hole 821 from one end of the fixed block 3 far away from the insertion rod 1 and is in threaded connection with the water through hole 821, and a hose 824 which is fixedly connected to one end of the second water inlet pipe 823 far away from the water through hole 821; in order to increase the water suction area of the water suction device 8, a plurality of water suction holes 825 are formed in the peripheral side wall of the hose 824, and in order to prevent the hose 824 from extending to the bottom of the round bottom and then tilting, a balancing weight 826 is installed at one end of the hose 824, which deviates from the second water inlet pipe 823.

When the hose 824 is located in water and the water suction pump 81 is operated, water enters the hose 824 through the water suction hole 825, and then enters the water tank through the hose 824, the second water inlet pipe 823, the water through hole 821 and the first water inlet pipe 822.

With reference to fig. 2, in order to avoid the situation that the joint between the hose 824 and the second water inlet tube 823 is bent to cause water to flow unsmoothly in the water suction tube due to the fact that the second water inlet tube 823 directly contacts with the bottom of the round-bottom flask after the user inserts the insert rod 1 into the round-bottom flask, the second water inlet tube 823 is designed to be L-shaped. Specifically, the second water inlet pipe 823 includes a first connection portion inserted into the water passing hole 821 and connected to the water passing hole 821 by a screw thread, and a second connection portion integrally formed on the first connection portion and far away from one end of the water passing hole 821 and perpendicular to the first connection portion, and the hose 824 is connected to and communicated with one end of the second connection portion far away from the first connection portion.

Referring to fig. 1 and 3, the electric driving device 9 includes two supporting blocks 91 fixedly connected to one side of the mounting plate 12 opposite to the rod 11, a pivot 92 penetrating through the two supporting blocks 91 and rotatably engaged with the supporting blocks 91, a first bevel gear 93 sleeved on the pivot 92, an installation groove 94 opened on one side of the fixing block 3 opposite to the nozzle 5, and a transmission rod 95 penetrating through the insertion rod 1 along the length direction of the insertion rod 1; one end of the transmission rod 95 is fixedly connected with a second bevel gear 96 meshed with the first bevel gear 93, and the other end is positioned in the mounting groove 94 and fixedly connected with a third bevel gear 97; one end of the conduction pipe 4 is closed, the closed end penetrates into the installation groove 94, and a fourth bevel gear 98 meshed with the third bevel gear 97 is fixedly connected to the closed end; a motor 99 is also fixedly connected to the mounting plate 12, and an output shaft of the motor 99 is fixedly connected to the pivot 92. When the motor 99 works, the motor 99 drives the pivot 92 to rotate, the first bevel gear 93 drives the second bevel gear 96 to rotate, the second bevel gear 96 drives the third bevel gear 97 to rotate through the transmission rod 95, the third bevel gear 97 drives the fourth bevel gear 98 to rotate, and the third bevel gear 97 drives the conduction pipe 4 to rotate, so that the spray head 5 mounted on the conduction pipe 4 rotates around the conduction pipe 4.

Referring to fig. 3 and 4, the manual driving device 10 includes a mounting block 101 fixedly connected to the mounting plate 12 and located on a side of the pivot 92 opposite to the motor 99, a sliding hole 102 formed in the mounting block 101, a sleeve 103 penetrating the sliding hole 102 and rotatably engaged with the sliding hole 102, and a turntable 104 fixedly connected to one end of the sleeve 103; the sleeve 103 is coaxial with the pivot 92, a transmission key 105 is processed on the inner peripheral wall of the sleeve 103, and the sleeve 103 can slide along the axial direction of the slide hole 102; a key groove 106 matched with the transmission key 105 is formed on the outer peripheral wall of the end of the pivot 92 opposite to the motor 99, and the end of the pivot 92 opposite to the motor 99 extends into the sleeve 103.

When the user rotates the rotating disc 104, the rotating disc 104 rotates the pivot 92 through the sleeve 103, thereby rotating the nozzle 5 around the conduit 4 through a series of gear drives. The user may disengage the sleeve 103 from the pivot 92 by sliding the sleeve 103 along the slide hole 102 so that the dial 104 does not rotate when the motor 99 rotates the pivot 92.

When cleaning the round-bottomed flask, a user can insert the tap water pipe 74, the detergent pipe 75 and the pure water pipe 76 into the tap water bottle containing tap water, the detergent bottle containing detergent and the pure water bottle containing pure water, respectively, and then clean the round-bottomed flask with tap water, detergent and pure water in sequence, so as to reduce the consumption of pure water and save cost. The following is an example of washing a round-bottom flask with tap water.

Firstly, one end of an inserting rod 1 provided with a spray nozzle 5 is inserted into a round-bottom flask, the lower end of the inserting rod 1 is ensured to be flush with the lower end of the bottleneck of the round-bottom flask as far as possible, then an electric driving device 9, a water feeding pump 71, a water suction pump 81 and a valve 77 on a tap water pipe 74 are started, the inserting rod 1 is slowly rotated, and water in the tap water bottle is discharged into the spray nozzle 5 and is sprayed out by the spray nozzle 5 under the action of a water supply device 7; under the action of an electric driving device 9 and the continuous rotation of the inserted bar 1 by a user, the spray head 5 sprays water on the whole inner wall of the hollow ball part of the round-bottom flask, and the whole inner wall of the hollow ball part of the round-bottom flask is washed at high pressure; the water pumping device 8 can pump the water accumulated at the bottom of the round-bottom flask out of the round-bottom flask, so that the water accumulated at the bottom of the round-bottom flask is prevented from affecting the flushing force of the water sprayed by the spray head 5 on the inner wall of the round-bottom flask. If a user finds stubborn stains in the hollow ball part of the round-bottom flask, the user can turn off the electric driving device 9, and the electric driving device rotates the inserting rod 1 and drives the spray head 5 to rotate by using the manual driving device 10, so that the spray head 5 faces the stubborn stains and continuously sprays water to the stubborn stains, and the stubborn stains are flushed from the inner wall of the round-bottom flask. When the hollow ball part of the round-bottom flask is washed clean, a user can drive the spray head 5 to rotate through the manual driving device 10 under the condition that the electric driving device 9 is turned off so that the spray head 5 faces the insertion rod 1, and then the insertion rod 1 is continuously pushed and pulled along the bottleneck of the round-bottom flask under the condition that the water supply device 7 is turned on, so that water sprayed out of the spray head 5 and splashed onto the bottleneck of the round-bottom flask cleans the bottleneck of the round-bottom flask.

Further, referring to fig. 5, an annular rib 107 is formed on the outer circumferential wall of the sleeve 103, and two grooves 108 for the annular rib 107 to be embedded are formed on the wall of the slide hole 102 at intervals; with reference to fig. 3, when the annular rib 107 is engaged in the groove 108 adjacent to the pivot 92, the sleeve 103 is fitted over said pivot 92; when the annular ridge 107 is engaged in the groove 108 remote from the pivot 92, the sleeve 103 is disengaged from the pivot 92. The annular rib 107 and the two grooves 108 are arranged to prevent the sleeve 103 from being separated from the pivot 92 when the user drives the pivot 92 to rotate through the rotary disc 104 and the sleeve 103; on the other hand, when the motor 99 rotates the pivot 92, the sleeve 103 slides along the sliding hole 102, so that the sleeve 103 contacts the pivot 92, and the sleeve 103 or the pivot 92 is prevented from being damaged.

Further, in order to improve the safety of the hand-held quick bottle washer, referring to fig. 3, a protective cover 90 is further bolted to the mounting plate 12, and the protective cover 90 covers the first bevel gear 93, the second bevel gear 96 and the two supporting blocks 91, so as to prevent the fingers from being injured due to the fact that the fingers extend onto the first bevel gear 93 and the second bevel gear 96 by misoperation.

Further, referring to fig. 1, the spray head 5 employs a high-pressure atomizing spray head 5. So as to improve the coverage area of the water sprayed by the spray head 5, thereby improving the cleaning efficiency and avoiding the occurrence of cleaning dead angles.

The hand-held quick bottle washer disclosed by the invention is light in weight, easy to use and widely applied to cleaning containers with mild and moderate pollution; in addition, the cleaning device can clean containers such as a solvent bottle, a beaker and a volumetric flask, besides the round-bottom flask, and is not affected by the material of the cleaned container.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides a quick bottle cleaning device of hand-held type, includes inserted bar (1), characterized by: the cleaning device comprises an insertion rod (1), two fixing blocks (3) which are integrally formed on one end face of the insertion rod (1), a conduction pipe (4) which is rotatably connected between the two fixing blocks (3), a spray head (5) which is in threaded connection with the conduction pipe (4) and is communicated with the conduction pipe (4), a water supply device (7) which is arranged on the insertion rod (1) and used for providing cleaning liquid for the spray head (5), an electric driving device (9) which is arranged on the insertion rod (1) and used for driving the conduction pipe (4) to rotate, and a manual driving device (10) which is arranged on the insertion rod (1) and used for driving the conduction pipe (4) to rotate; the electric driving device (9) comprises two supporting blocks (91) fixedly connected to one end, away from the spray head (5), of the inserted link (1), a pivot (92) penetrating through the two supporting blocks (91) and rotationally matched with the supporting blocks (91), a first bevel gear (93) sleeved on the pivot (92), a mounting groove (94) formed in one side, opposite to the spray head (5), of one fixed block (3), and a transmission rod (95) penetrating through the inserted link (1) along the length direction of the inserted link (1); one end of the transmission rod (95) is fixedly connected with a second bevel gear (96) meshed with the first bevel gear (93), and the other end of the transmission rod is positioned in the mounting groove (94) and fixedly connected with a third bevel gear (97); one end of the conduction pipe (4) is closed, the closed end penetrates into the installation groove (94), and a fourth bevel gear (98) meshed with the third bevel gear (97) is fixedly connected with the conduction pipe; the electric driving device (9) also comprises a motor (99) which is fixedly connected on the inserted link (1) and the output shaft of which is fixedly connected with the pivot (92); the manual driving device (10) comprises an installation block (101) fixedly connected to one end, far away from the spray head (5), of the inserted link (1), a sliding hole (102) formed in the installation block (101), a sleeve (103) penetrating through the sliding hole (102) and in sliding fit with the sliding hole (102), and a rotary table (104) fixedly connected to one end of the sleeve (103); the sleeve (103) is coaxial with the pivot (92), a transmission key (105) is machined on the inner peripheral wall of the sleeve (103), and the sleeve (103) is in rotating fit with the sliding hole (102); a key groove (106) matched with the transmission key (105) is formed in the peripheral wall of one end, facing away from the motor (99), of the pivot (92), and one end, facing away from the motor (99), of the pivot (92) extends into the sleeve (103).

2. The hand-held quick bottle washer as claimed in claim 1, wherein: the water supply device (7) comprises a water supply pump (71) arranged at one end, far away from the spray head (5), of the inserted rod (1) and a water outlet pipe (72) connected to a water outlet of the water supply pump (71), water inlet holes (73) communicated with the conduction pipe (4) and the end face, far away from the spray head (5), of the inserted rod (1) and the fixed block (3) are formed in the inserted rod (1) and the fixed block (3), one end, far away from the water supply pump (71), of the water outlet pipe (72) penetrates into the water inlet holes (73) and is communicated with the water inlet holes (73); the water inlet of the water supply pump (71) is connected and communicated with a tap water pipe (74), a detergent pipe (75) and a pure water pipe (76), and valves (77) are respectively arranged on the tap water pipe (74), the detergent pipe (75) and the pure water pipe (76).

3. The hand-held quick bottle washer as claimed in claim 1, wherein: install on inserted bar (1) and be used for pumping device (8) of taking out the ponding at the bottom of the bottle, pumping device (8) are including installing suction pump (81) in the water tank, connecting suction pipe on suction pump (81) water inlet and connecting and communicate waste pipe (83) on suction pump (81) delivery port.

4. A hand-held quick bottle washer as claimed in claim 3, wherein: the pipe that absorbs water includes along inserted bar (1) length direction set up in inserted bar (1) and fixed block (3) cross water hole (821), intercommunication water suction pump (81) and first inlet tube (822) of crossing water hole (821), deviate from inserted bar (1) one end by fixed block (3) and insert through water hole (821) and with second inlet tube (823) and fixed connection that cross water hole (821) threaded connection deviate from hose (824) of crossing water hole (821) one end in second inlet tube (823), seted up on hose (824) week lateral wall a plurality of holes (825) that absorb water and hose (824) deviate from the one end of second inlet tube (823) and install balancing weight (826).

5. The hand-held quick bottle washer as claimed in claim 4, wherein: the second water inlet pipe (823) comprises a first connecting portion and a second connecting portion, wherein the first connecting portion is in threaded connection with the water passing hole (821), the second connecting portion is integrally formed on the first connecting portion, one end of the first connecting portion is far away from the water passing hole (821) and the second connecting portion is perpendicular to the first connecting portion, and the hose (824) is connected with the second connecting portion and communicated with the second connecting portion.

6. The hand-held quick bottle washer as claimed in claim 1, wherein: an annular rib (107) is machined on the outer peripheral wall of the sleeve (103), and two grooves (108) for the annular rib (107) to be embedded are arranged on the wall of the sliding hole (102) at intervals; when the annular convex rib (107) is embedded into the groove (108) close to the pivot (92), the sleeve (103) is sleeved on the pivot (92); when the annular rib (107) is engaged in the groove (108) away from the pivot (92), the sleeve (103) and the pivot (92) are disengaged from each other.

7. The hand-held quick bottle washer as claimed in claim 1, wherein: the spray head (5) is a high-pressure atomization spray head.