CN209439146U - A kind of use for laboratory glass tube cleaning apparatus for self - Google Patents

Abstract

The utility model discloses a kind of use for laboratory glass tube cleaning apparatus for self, for solving the problems, such as existing glass inside pipe wall large labor intensity by way of manually cleaning.The utility model includes shell, the shell lower end is provided with drain valve, middle part is connected with placing box in the shell, first hydraulic cylinder is provided in the placing box, first telescopic shaft of the first hydraulic cylinder is connected with placement plate after passing through placing box upper wall, the placement plate is equipped with two rows of putting holes, clean plate is additionally provided with above the placement plate, the clean plate is respectively arranged with two rows of swabs corresponding with putting hole, the upper wall rear enclosure that the upper end of swab passes through clean plate is equipped with gear, gear is engaged with rack gear, the rack gear is mutually engaged with each gear, rack gear is connected with slewing equipment.

Description

A kind of use for laboratory glass tube cleaning apparatus for self

Technical field

The utility model relates to cleaning device technical fields, more particularly to a kind of use for laboratory glass tube automatically cleaning Device.

Background technique

At present in the lab, contain the class I liquid I using a large amount of glass tube, and be all now using manually come into The cleaning of row glass tube, large batch of glass tube need completely manually using brush be the problem of cleaning, bring in this way While wasting a large amount of labours, to the cleaning low efficiency of glass tube, and after cleaning, it is also necessary to artificial independent Glass inside pipe wall is dried, it is inconvenient for operation to glass inside pipe wall by way of manual wipping, if passing through natural drying The mode of evaporation, consuming time is long.

Utility model content

The purpose of this utility model is that: it is worked by way of manually cleaning by force to solve existing glass inside pipe wall Big problem is spent, the utility model provides a kind of use for laboratory glass tube cleaning apparatus for self.

The utility model specifically uses following technical scheme to achieve the goals above:

The use for laboratory glass tube cleaning apparatus for self of the utility model, including shell, the shell lower end are provided with draining Valve, middle part is connected with placing box in the shell, is provided with first hydraulic cylinder in the placing box, and the of the first hydraulic cylinder One telescopic shaft is connected with placement plate after passing through placing box upper wall, and the placement plate is equipped with two rows of putting holes, in the placement plate Side is additionally provided with clean plate, and the clean plate is respectively arranged with two rows of swabs corresponding with putting hole, swab The upper wall rear enclosure that upper end passes through clean plate is equipped with gear, and gear is engaged with rack gear, and the rack gear is mutually engaged with each gear, Rack gear is connected with slewing equipment.

The utility model is preferably, the slewing equipment includes, servo motor, link block, the first rotating block, second Rotating block, rotary shaft, the first guide groove and the second guide groove；The shape of first guide groove is in rectangle, second guiding The shape of slot is oval, and first guide groove and the second guide groove are interconnected, and one end of the rack gear is located at first and leads It is rotatablely connected into slot and through link block and the first rotating block, one end of the rotary shaft is after the outer wall of the second guide groove It is connected with each other with servo motor, the other end of the rotary shaft and the interconnection of the second rotating block, first rotating block and the The rotation connection of two rotating blocks.

Preferably, first telescopic shaft upper end is connected with lifter plate, the lifter plate upper end is set the utility model Be equipped with driving motor, the drive shaft of the driving motor is connected with Cam splitter, the output shaft of the Cam splitter with put The lower end for setting plate is connected with each other.

The utility model is preferably, the swab includes the first cleaning rod and the second cleaning rod；Described first Cleaning rod is listed as a row and a wherein row for putting hole is mutually aligned, and second cleaning rod is listed as a row and putting hole Another row is mutually aligned, and first cleaning rod is arranged with the first cleaning brush, and second cleaning rod is arranged with the second cleaning brush.

Preferably, the first cleaning brush material is banister brush, the second cleaning brush material is the utility model Absorbent wool.

For the utility model preferably, the clean plate is set side by side with water storage box, the water storage box is provided with water outlet It manages, diversion trench is offered in the clean plate, the diversion trench and outlet pipe are interconnected, the diversion trench and the first cleaning rod The first cleaning brush conducting.

Preferably, the lower end of the clean plate is provided with water squeezing plate, the water squeezing plate offers more the utility model It is a with the one-to-one water squeezing hole of the second cleaning rod, be respectively arranged at left and right sides of the upper end of the clean plate second hydraulic cylinder and After third hydraulic cylinder, the second telescopic shaft of the second hydraulic cylinder and the third telescopic shaft of third hydraulic cylinder extend through clean plate It is connected with each other with water squeezing plate.

The beneficial effects of the utility model are as follows:

1, two rows of putting holes for being used to place glass tube are offered in the placement plate of the utility model, it can be simultaneously to multiple glass Glass pipe is cleaned, and working efficiency is improved, and is driven placement plate to move up by first hydraulic cylinder, is the clean plate being located above The swab of setting protrudes into glass tube and carries out wiping cleaning to glass tube, and swab is arranged behind the upper end of clean plate With gear, gear is engaged with rack gear, and rack gear engages simultaneously with all gears, and the slewing equipment of rack gear connection can drive all wipings Cleaning device rotation, carries out friction cleaning to glass inside pipe wall；After to be cleaned, by the effect of first hydraulic cylinder, drive is put It sets plate to move down, is detached from glass tube and swab, glass tube is taken out, complete the cleaning to glass inside pipe wall.

2, the servo motor rotation of slewing equipment drives rotary shaft rotation, and rotary shaft rotation drives the rotation of the second rotating block, The rotation of second rotating block drives the link block mutually rotated with rack gear to rotate, and wherein rotary shaft and the second rotating block are fixed turn Dynamic, the second rotating block and the first rotating block rotary motion, the first rotating block and link block are rotatablely connected, in servo motor work In the process, the second rotating block is around rotary shaft axis rotation, and ellipse is done around rotary shaft in the second rotating block and the first rotating block connecting pin Movement, in the process, that is, realizes the rotary motion with link block rack gear interconnected；The rotary motion of rack gear drive with The movement of rack gear meshed gears, and then realizes the rotary motion of first connecting rod and the second connecting rod, the first cleaning brush and the Two cleaning brush rub back and forth interiorly glass tube, guarantee thorough cleaning of first cleaning brush to glass inside pipe wall, Yi Ji Thorough absorption of two cleaning brush to the moisture of glass inside pipe wall.

3, the first telescopic shaft upper end of first hydraulic cylinder is connected with lifter plate, the drive of the upper end upper end setting of the lifter plate The drive shaft of dynamic motor and the input shaft of Cam splitter are connected with each other, and the output shaft of Cam splitter is mutually interconnected with placement plate It connects, driving motor work drives placement plate intermittent rotary by the effect of Cam splitter, and the angle rotated every time is arranged and is It 180 °, that is, realizes that the position of two rows of glass tubes rotates 180 °, cooperates with the clean plate of placement plate upper end, outside the first cleaning rod The first swab being arranged is that banister brush cleans row's glass tube on placement plate plate, is arranged outside the second cleaning rod Second cleaning brush is wash water cotton, and another row's glass tube is dried, and wash water cotton can be sponge or the item that washes cloth that absorbs water；It realizes pair Glass inside pipe wall can achieve the effect that the moisture absorption of glass inside pipe wall dry after being cleaned, not need artificial list Solely the glass tube after cleaning is dried, improves working efficiency.

4, the ejected wash water in the water storage box that clean plate is set side by side is entered in diversion trench by drainpipe, diversion trench and First cleaning brush mutual conduction of one cleaning rod, even if the cleaning water energy in diversion trench is along the outer wall of the first cleaning rod to first Cleaning brush is soaked, and is entered in glass tube, is rubbed back and forth glass inside pipe wall by the first cleaning rod, to glass inside pipe wall Dirt carry out thorough cleaning.

5, during lasting use, the moisture in the second cleaning brush reaches the second cleaning brush being arranged outside the second cleaning rod It to saturation state, cannot continue to absorb the moisture of glass inside pipe wall, pass through second hydraulic cylinder and third hydraulic cylinder at this time While act on, drive water squeezing plate to move up and down, during water squeezing plate moves up and down, water squeezing hole inner wall that water squeezing plate opens up Second cleaning brush is squeezed, by the very extrusion in the second cleaning brush, the moisture of extrusion enters shell lower end, by squeezing After pressure, the second cleaning brush keeps drying, can continue that glass inside pipe wall is dried.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the overlooking structure diagram of clean plate；

Fig. 3 is the enlarged structure schematic diagram of the second cleaning rod；

Fig. 4 is the enlarged diagram of slewing equipment；

Fig. 5 is the example 1 of slewing equipment rotation process；

Fig. 6 is the example 2 of slewing equipment rotation process；

Fig. 7 is the overlooking structure diagram of placement plate；

Appended drawing reference: 1- shell, 2- drain valve, 3- placing box, 4- first hydraulic cylinder, the first telescopic shaft of 41-, 42- lifting Plate, 5- driving motor, 51- drive shaft, 6- Cam splitter, 61- output shaft, 7- placement plate, 71- putting hole, 8- clean plate, 9- Water storage box, 91- outlet pipe, 92- diversion trench, 10- swab, the first cleaning rod of 101-, the first cleaning brush of 1011-, 102- Two cleaning rods, the second cleaning brush of 1021-, 11- gear, 12- rack gear, 13- slewing equipment, 131- link block, 132- first are rotated Block, the second rotating block of 133-, 134- rotary shaft, the second guide groove of 135-, the first guide groove of 136-, 137- servo motor, 141- Second hydraulic cylinder, the second telescopic shaft of 142-, 151- third hydraulic cylinder, 152- third telescopic shaft, 16- water squeezing plate, 161- water squeezing hole.

Specific embodiment

In order to which those skilled in the art better understand the utility model, 1-7 and following embodiment with reference to the accompanying drawing The utility model is described in further detail.

Embodiment 1

The use for laboratory glass tube cleaning apparatus for self of the utility model, including shell 1,1 lower end of shell are provided with row Water valve 2, the interior middle part of the shell 1 are connected with placing box 3, first hydraulic cylinder 4, first liquid are provided in the placing box 3 First telescopic shaft 41 of cylinder pressure 4 is connected with placement plate 7 after passing through 3 upper wall of placing box, and the placement plate 7 is equipped with two rows of putting holes 71, clean plate 8 is additionally provided with above the placement plate 7, the clean plate 8 is respectively arranged with two rows of corresponding with putting hole 71 Swab 10, the upper wall rear enclosure that the upper end of swab 10 passes through clean plate 8 are equipped with gear 11, and gear 11 is engaged with rack gear 12, the rack gear 12 is mutually engaged with each gear 11, and rack gear 12 is connected with slewing equipment 13.

After the technical solution, offered in the placement plate 7 of the utility model two rows of for placing the placement of glass tube Hole 71, can simultaneously clean multiple glass tubes, improve working efficiency, drive placement plate 7 to moving up by first hydraulic cylinder 4 It is dynamic, it is that swab 10 that the clean plate 8 being located above is arranged protrudes into glass tube and carries out wiping cleaning to glass tube, cleans dress It sets 10 and is arranged behind the upper end of clean plate 8 and be engaged with rack gear 12 with gear 11, gear 11, rack gear 12 and all gears 11 are simultaneously Engagement, the slewing equipment 13 that rack gear 12 connects can drive all swabs 10 to rotate, and rub to glass inside pipe wall clear It washes；After to be cleaned, by the effect of first hydraulic cylinder 4, drive placement plate 7 to move down, make glass tube and swab 10 are detached from, and glass tube is taken out, and complete the cleaning to glass inside pipe wall.

Embodiment 2

The present embodiment is that advanced optimizing of making on the basis of embodiment 1 is as follows: the slewing equipment 13 includes servo Motor 137, link block 131, the first rotating block 132, the second rotating block 133, rotary shaft 134, the first guide groove 136 and second are led To slot 135；The shape of first guide groove 136 is in rectangle, and the shape of second guide groove 135 is oval, and described the One guide groove 136 and the second guide groove 135 are interconnected, and one end of the rack gear 12 is located in the first guide groove 136 and passes through Link block 131 and the first rotating block 132 are rotatablely connected, and one end of the rotary shaft 134 is after the outer wall of the second guide groove 135 It being connected with each other with servo motor 137, the other end of the rotary shaft 134 and the second rotating block 133 are connected with each other, and described first turn Motion block 132 and the second rotating block 133 are rotatablely connected.

After the technical solution, the servo motor 137 of slewing equipment 13 is rotated, and drives rotary shaft 134 to rotate, rotary shaft 134 rotations drive the rotation of the second rotating block 133, and the rotation of the second rotating block 133 drives the link block 131 mutually rotated with rack gear 12 Rotation, wherein rotary shaft 134 and the second rotating block 133 are fixed rotation, and the second rotating block 133 and the first rotating block 132 rotate Rotation, the first rotating block 132 are rotatablely connected with link block 131, during servo motor 137 works, the second rotating block 133 Around 134 axis rotation of rotary shaft, elliptic motion is done around rotary shaft 134 in the second rotating block 133 and 132 connecting pin of the first rotating block, In the process, that is, the rotary motion with the rack gear 12 interconnected of link block 131 is realized；The rotary motion of rack gear 12 drives The gear 11 being engaged with rack moves, and then realizes the rotary motion of first connecting rod and the second connecting rod, the first cleaning brush 1011 rub with the second cleaning brush 1021 in the interior of glass tube back and forth, guarantee the first cleaning brush 1011 to the thorough of glass inside pipe wall The thorough absorption of the cleaning at bottom and the second cleaning brush 1021 to the moisture of glass inside pipe wall.

Embodiment 3

The present embodiment is that advanced optimizing of making on the basis of embodiment 1 is as follows: 41 upper end of the first telescopic shaft connects It is connected to lifter plate 42,42 upper end of lifter plate is provided with driving motor 5, and the drive shaft 51 of the driving motor 5 is connected with convex Divider is taken turns, the output shaft 61 of the Cam splitter 6 and the lower end of placement plate 7 are connected with each other.The swab 10 includes First cleaning rod 101 and the second cleaning rod 102；First cleaning rod 101 is listed as the wherein row of a row Yu putting hole 71 It is mutually aligned, second cleaning rod 102 is listed as a row and another row of putting hole 71 is mutually aligned, first cleaning rod 101 are arranged with the first cleaning brush 1011, and second cleaning rod 102 is arranged with the second cleaning brush 1021.First cleaning brush 1011 materials are banister brush, and 1021 material of the second cleaning brush is absorbent wool.

After the technical solution, 41 upper end of the first telescopic shaft of first hydraulic cylinder 4 is connected with lifter plate 42, the lifting The drive shaft 51 of driving motor 5 and the input shaft of Cam splitter 6 of the upper end setting of plate 42 are connected with each other, Cam splitter 6 Output shaft 61 and placement plate 7 be connected with each other, driving motor 5 works, and by the effect of Cam splitter 6, drives between placement plate 7 It has a rest rotation, it is 180 ° that the angle rotated every time, which is arranged, that is, realizes that the position of two rows of glass tubes rotates 180 °, with 7 upper end of placement plate Clean plate 8 cooperate, the first swab 10 being arranged outside the first cleaning rod 101 is banister brush on 7 plate of placement plate One row's glass tube cleans, and the second cleaning brush 1021 being arranged outside the second cleaning rod 102 is wash water cotton, to another row's glass tube It is dried, wash water cotton can be sponge or the item that washes cloth that absorbs water；Realizing can be by glass after cleaning to glass inside pipe wall The moisture absorption of glass inside pipe wall achievees the effect that dry, does not need that manually individually the glass tube after cleaning is dried, Improve working efficiency.

Embodiment 4

The present embodiment is that advanced optimizing of making on the basis of embodiment 1 is as follows: the clean plate 8 is set side by side with storage Water tank 9, the water storage box 9 are provided with outlet pipe 91, offer diversion trench 92 in the clean plate 8, the diversion trench 92 with go out Water pipe 91 is interconnected, the first cleaning brush 1011 conducting of the diversion trench 92 and the first cleaning rod 101.

After the technical solution, the ejected wash water in water storage box 9 that clean plate 8 is set side by side is entered by drainpipe to be led In chute 92,1011 mutual conduction of the first cleaning brush of diversion trench 92 and the first cleaning rod 101, even if the cleaning in diversion trench 92 Water energy soaks the first cleaning brush 1011 along the outer wall of the first cleaning rod 101, and enters in glass tube, passes through first Cleaning rod 101 rubs glass inside pipe wall back and forth, carries out thorough cleaning to the dirt of glass inside pipe wall.

Embodiment 5

The present embodiment is that advanced optimizing of making on the basis of embodiment 1 is as follows: the lower end of the clean plate 8 is provided with Water squeezing plate 16, the water squeezing plate 16 offer the multiple and one-to-one water squeezing hole 161 of the second cleaning rod 102, the clean plate 8 Upper end at left and right sides of be respectively arranged with second hydraulic cylinder 141 and third hydraulic cylinder 151, the second of the second hydraulic cylinder 141 The third telescopic shaft 152 of telescopic shaft 142 and third hydraulic cylinder 151 is connected with each other after extending through clean plate 8 with water squeezing plate 16.

After the technical solution, the second cleaning brush 1021 being arranged outside the second cleaning rod 102 is in the process for continuing to use In, the moisture in the second cleaning brush 1021 reaches saturation state, cannot continue to absorb the moisture of glass inside pipe wall, at this time By acting on while second hydraulic cylinder 141 and third hydraulic cylinder 151, water squeezing plate 16 is driven to move up and down, on water squeezing plate 16 During lower movement, 161 inner wall of water squeezing hole that water squeezing plate 16 opens up squeezes the second cleaning brush 1021, by the second cleaning Very extrusion in brush 1021, the moisture of extrusion enter 1 lower end of shell, and after squeezing, the second cleaning brush 1021 keeps dry It is dry, can continue that glass inside pipe wall is dried.

The above, the only preferred embodiment of the utility model, are not intended to limit the utility model, the utility model Scope of patent protection be subject to claims, it is equivalent made by all specifications and accompanying drawing content with the utility model Structure change similarly should be included in the protection scope of the utility model.

Claims (7)

1. a kind of use for laboratory glass tube cleaning apparatus for self, including shell (1), shell (1) lower end is provided with drain valve (2), which is characterized in that middle part is connected with placing box (3) in the shell (1), and it is hydraulic to be provided with first in the placing box (3) Cylinder (4), the first telescopic shaft (41) of the first hydraulic cylinder (4) are connected with placement plate (7), institute after passing through placing box (3) upper wall It states placement plate (7) and is equipped with two rows of putting holes (71), be additionally provided with clean plate (8), the clean plate above the placement plate (7) (8) two rows of swabs (10) corresponding with putting hole (71) are respectively arranged with, the upper end of swab (10) passes through cleaning The upper wall rear enclosure of plate (8) is equipped with gear (11), and gear (11) is engaged with rack gear (12), the rack gear (12) and each gear (11) It mutually engages, rack gear (12) is connected with slewing equipment (13).

2. use for laboratory glass tube cleaning apparatus for self according to claim 1, which is characterized in that the slewing equipment (13) Including servo motor (137), link block (131), the first rotating block (132), the second rotating block (133), rotary shaft (134), One guide groove (136) and the second guide groove (135)；

The shape of first guide groove (136) is in rectangle, and the shape of second guide groove (135) is oval, and described the One guide groove (136) and the second guide groove (135) are interconnected, and one end of the rack gear (12) is located at the first guide groove (136) Interior and be rotatablely connected by link block (131) and the first rotating block (132), one end of the rotary shaft (134) is led through second It is connected with each other after to the outer wall of slot (135) with servo motor (137), the other end and the second rotating block of the rotary shaft (134) (133) it is connected with each other, first rotating block (132) and the second rotating block (133) are rotatablely connected.

3. use for laboratory glass tube cleaning apparatus for self according to claim 1, which is characterized in that first telescopic shaft (41) upper end is connected with lifter plate (42), and lifter plate (42) upper end is provided with driving motor (5), the driving motor (5) Drive shaft (51) be connected with Cam splitter (6), under the output shaft (61) of the Cam splitter (6) and placement plate (7) End is connected with each other.

4. use for laboratory glass tube cleaning apparatus for self according to claim 1, which is characterized in that the swab (10) Including the first cleaning rod (101) and the second cleaning rod (102)；

First cleaning rod (101) is listed as a row and a wherein row for putting hole (71) is mutually aligned, second cleaning Bar (102) is listed as a row and another row of putting hole (71) is mutually aligned, and it is clear that first cleaning rod (101) is arranged with first It scrubs (1011), second cleaning rod (102) is arranged with the second cleaning brush (1021).

5. use for laboratory glass tube cleaning apparatus for self according to claim 4, which is characterized in that first cleaning brush (1011) material is banister brush, and the second cleaning brush (1021) material is absorbent wool.

6. use for laboratory glass tube cleaning apparatus for self according to claim 4, which is characterized in that the clean plate (8) is simultaneously Column are provided with water storage box (9), and the water storage box (9) is provided with outlet pipe (91), offer diversion trench in the clean plate (8) (92), the diversion trench (92) and outlet pipe (91) are interconnected, and the first of the diversion trench (92) and the first cleaning rod (101) Cleaning brush (1011) conducting.

7. use for laboratory glass tube cleaning apparatus for self according to claim 4, which is characterized in that the clean plate (8) Lower end is provided with water squeezing plate (16), and the water squeezing plate (16) offers multiple and the second cleaning rod (102) one-to-one water squeezing The upper end left and right sides in hole (161), the clean plate (8) is respectively arranged with second hydraulic cylinder (141) and third hydraulic cylinder (151), the third telescopic shaft (152) of the second telescopic shaft (142) of the second hydraulic cylinder (141) and third hydraulic cylinder (151) Clean plate (8) is extended through to be connected with each other with water squeezing plate (16) afterwards.