CN210788427U - Ultrasonic cleaning machine for cleaning base station - Google Patents

Abstract

The utility model relates to the technical field of ultrasonic cleaning equipment, in particular to an ultrasonic cleaning machine for cleaning a base station, which comprises a cleaning machine body, an extraction device and a driving device, wherein the cleaning machine body comprises a machine body, an output system and a control system, the output system is coupled with the control system and is installed in the machine body, a cavity is arranged on the upper surface of the machine body, a plurality of baffles are arranged at the bottom of the cavity at intervals, a plurality of cleaning grooves are formed between the baffles and the cavity, the extraction device comprises an extraction cup and a turning piece, two rotating shafts are symmetrically and radially arranged on the turning piece and are coaxially arranged, two through holes are symmetrically arranged on the peripheral wall of the extraction cup, and the two rotating shafts are rotationally connected with the two through holes; the driving device is used for controlling the turning piece. The utility model discloses be difficult for being stained with the effect of oil film when taking out the base station.

Description

Ultrasonic cleaning machine for cleaning base station

Technical Field

The utility model relates to an ultrasonic cleaning equipment technical field, in particular to an ultrasonic cleaner for rinsing base station.

Background

The abutment is a full-name implant abutment which is arranged on an implant platform anchored in a bone and extends towards the oral cavity for linking, supporting and fixing a prosthesis or an implant upper structure. And is therefore also referred to as a transmucosal abutment.

The base table is generally machined in the production process, cutting fluid and other articles are used in the machining process, so that solid cutting fluid residues exist in the produced base table, the residues cannot be removed by a common cleaning process, and the base table is generally cleaned by an ultrasonic cleaner, wherein the ultrasonic cleaner is based on the principle that a high-frequency oscillation signal sent by an ultrasonic generator is converted into high-frequency mechanical oscillation through a transducer and is transmitted into a medium, namely a cleaning solvent, ultrasonic waves are radiated forwards at intervals in a cleaning solution, the liquid flows to generate tens of thousands of micro-bubbles with the diameter of 50-500 mu m, and the micro-bubbles existing in the liquid vibrate under the action of a sound field. These bubbles are formed and grown in a negative pressure region where the ultrasonic wave propagates in the longitudinal direction, and in a positive pressure region, when the sound pressure reaches a certain value, the bubbles rapidly increase and then suddenly close. When the bubbles are closed, shock waves are generated, thousands of atmospheric pressures are generated around the bubbles, insoluble dirt is damaged, and the insoluble dirt is dispersed in the cleaning liquid, and when the group particles are wrapped by the oil dirt and adhered to the surface of a cleaning piece, the oil is emulsified, solid particles are separated, so that the aim of cleaning the cleaning piece is fulfilled. In this process, known as the "cavitation" effect, the closing of the bubbles can create high temperatures of several hundred degrees and transient high pressures in excess of 1000 atmospheres.

When the base station is cleaned, the base station can be placed into a cleaning tank of an ultrasonic cleaning machine, then cleaning liquid is placed into the cleaning tank, the ultrasonic waves can clean the base station by taking the cleaning liquid as a medium, the residual cutting liquid can float on the surface layer of the cleaning liquid in a layer of oil film, and the base station is taken out of the cleaning liquid by using tweezers or other appliances after the cleaning is finished.

The above prior art solutions have the following drawbacks: because the oil film floats on the surface layer of the cleaning solution, the base platform is still easy to be stained with the oil film (cutting fluid remains) in the process of taking out the base platform by tweezers after the cleaning is finished, so that the use of the base platform is influenced subsequently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ultrasonic cleaner for rinsing base station, it has the difficult characteristics of being stained with the oil film when taking out the base station.

The above object of the present invention can be achieved by the following technical solutions:

an ultrasonic cleaning machine for cleaning a base station comprises a cleaning machine body, an extraction device and a driving device, wherein the cleaning machine body comprises a machine body, an output system and a control system, the output system is coupled with the control system and is installed in the machine body, a cavity is formed in the upper surface of the machine body, a plurality of baffles are arranged at the bottom of the cavity at intervals, a plurality of cleaning tanks are formed between the baffles and the cavity, the extraction device comprises an extraction cup and a turning piece, two rotating shafts are symmetrically and radially arranged on the turning piece and coaxially arranged, two through holes are symmetrically formed in the peripheral wall of the extraction cup, and the two rotating shafts are rotationally connected with the two through holes; the driving device comprises a connecting rod and a driving rod, the connecting rod is fixedly connected with one end of the turning piece, which is far away from the rotating shaft, and the driving rod is hinged with one end of the rotating shaft, which is far away from the connecting rod.

By adopting the technical scheme, through the arrangement of the extraction device, when the base station is cleaned, the turnover piece is in a vertical state through the driving device, the cleaned oil film can float up to the surface layer of the cleaning solution through the two sides of the turnover piece, when the base station is cleaned and taken out, the driving device can be controlled again to enable the turnover piece to be in a horizontal state, the base station is in a top-closed state in the extraction cup, and therefore the oil film on the surface layer of the cleaning solution can not be stained on the base station when the base station is taken out along with the extraction cup, and subsequent use of the base station can not be influenced.

The utility model discloses further set up to: the cup bottom of the extraction cup is open, and one end of the cup bottom of the extraction cup is coaxially provided with a permeation net.

Through adopting above-mentioned technical scheme, when extracting the cup and taking out, the washing liquid that is located the piece below of turning over can directly stay in the washing tank through the infiltration net to can not make and leave the washing liquid in extracting the cup.

The utility model discloses further set up to: the infiltration net is detachably connected with the extraction cup.

Through adopting above-mentioned technical scheme, because the base station is located the bottom of cup of drawing the cup, place on the infiltration net promptly, so probably have a small part to remain in adhering to the net of infiltration net during the washing, need change after the infiltration net is used for a long time, here infiltration net and draw the removable connection purpose of being connected between the cup be for the convenience change the infiltration net.

The utility model discloses further set up to: an annular boss is arranged on the permeation net, a circle of clamping groove is formed in the upper surface of the boss, and the extraction cup is connected with the clamping groove in an inserted mode.

Through adopting above-mentioned technical scheme, infiltration net accessible draw-in groove on the boss comes and draws and form the joint structure between the cup to realize the infiltration net in drawing the cup on can dismantling and be connected.

The utility model discloses further set up to: a reinforcing rod is arranged between the connecting rod and the rotating shaft.

Through adopting above-mentioned technical scheme, can form the triangle-shaped structure between stiffener and connecting rod and the pivot to intensity between connecting rod and the pivot can be strengthened.

The utility model discloses further set up to: the heights of the baffles are different, and the baffles are distributed in the cavity in a stepped manner according to the heights.

By adopting the technical scheme, the baffle is arranged in the step shape, so that when the three cleaning tanks are filled with cleaning liquid, the liquid levels of the three cleaning tanks are arranged in the step shape, the oil film in the cleaning tank with the highest liquid level can flow into the middle cleaning tank along with the cleaning liquid overflowing the baffle, the oil film in the middle cleaning tank can flow into the cleaning tank with the lowest liquid level together with the oil film which just flows into the middle cleaning tank, and at the moment, after the cleaning work is finished, only the oil film in the cleaning tank with the lowest liquid level needs to be cleaned.

The utility model discloses further set up to: the cavity is equipped with a plurality of circles of cooling tubes on the inner wall all around in a spiral manner, be equipped with a plurality of backing plates at the interval respectively on two inner walls of cavity length direction, the cooling tube with the backing plate offsets, deviates from the cooling tube butt is in position department on the backing plate is equipped with a clamp plate respectively, seted up on the clamp plate and let the mouth, the cooling tube agrees with and is in the mouth of stepping down, interval threaded connection has a plurality of screws on the clamp plate, the screw with be threaded connection between the backing plate.

Through adopting above-mentioned technical scheme, the temperature in the cavity can further be reduced in the setting of cooling tube to reduce the volatilization of washing liquid. And the backing plate can make and have the space between cooling tube and the cavity inner wall, and the position mouth of letting of seting up on the clamp plate can make clamp plate and cooling tube more intact agree with, and reuse screw is at last fastened clamp plate and backing plate to realize the cooling tube and be connected in dismantling in the cavity, in order to make things convenient for follow-up to carry out daily maintenance and change to it.

The utility model discloses further set up to: and a circle of guide plate is arranged on the inner wall around the cavity below the cooling pipe, and the guide plate is downwards inclined towards the cleaning tank.

By adopting the technical scheme, the method has the advantages that,

to sum up, the utility model discloses following beneficial effect has:

1. through the arrangement of the extracting device, when the base station is cleaned, the turning piece is in a vertical state through the driving device, an oil film cleaned out through the turning piece can float up to the surface layer of cleaning liquid through two sides of the turning piece, when the base station is cleaned and taken out, the driving device can be controlled again to enable the turning piece to be in a horizontal state, the base station is in a top-closed state in the extracting cup, and therefore when the base station is taken out along with the extracting cup, the oil film on the surface layer of the cleaning liquid cannot be attached to the base station, and subsequent use of the base station cannot be influenced;

2. the baffle is arranged in a step shape, so that when the three cleaning tanks are filled with cleaning liquid, the liquid levels of the three cleaning tanks are arranged in a step shape, the oil film in the cleaning tank with the highest liquid level flows into the middle cleaning tank along with the cleaning liquid flowing over the baffle, the oil film in the middle cleaning tank flows into the cleaning tank with the lowest liquid level together with the oil film flowing in, and at the moment, after the cleaning operation is finished, only the oil film in the cleaning tank with the lowest liquid level needs to be cleaned;

3. the temperature in the cavity can be further reduced through the arrangement of the cooling pipe, so that the volatilization of the cleaning liquid is reduced. And the backing plate can make and have the space between cooling tube and the cavity inner wall, and the position mouth of letting of seting up on the clamp plate can make clamp plate and cooling tube more intact agree with, and reuse screw is at last fastened clamp plate and backing plate to realize the cooling tube and be connected in dismantling in the cavity, in order to make things convenient for follow-up to carry out daily maintenance and change to it.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the structure of the extraction apparatus;

fig. 3 is a schematic view of the structure of a permeable web.

In the figure, 1, a machine body; 11. a cavity; 12. a baffle plate; 121. a cleaning tank; 13. sealing the cover; 2. an extraction device; 21. an extraction cup; 211. a permeable web; 2111. a boss; 2112. a card slot; 22. turning the sheet; 221. a rotating shaft; 3. a drive device; 31. a connecting rod; 32. a drive rod; 4. a reinforcing bar; 5. a cooling tube; 6. a base plate; 7. pressing a plate; 71. a let position port; 8. a baffle.

Detailed Description

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

Example (b):

as shown in fig. 1, the utility model discloses an ultrasonic cleaning machine for cleaning a base station, which comprises a cleaning machine body, an extraction device 2 and a driving device 3.

The cleaning machine body comprises a machine body 1, an output system and a control system. The machine body 1 is a vertical cuboid, the top surface of the machine body is provided with a rectangular cavity 11 which is hollow inside and has an open top end, a plurality of baffle plates 12 (two baffle plates 12 are taken as examples here) are fixedly connected to the bottom of the cavity 11 at intervals, the baffle plates 12 are rectangular plates, the two baffle plates 12 form three rectangular groove bodies at the bottom of the cavity 11, and the three rectangular groove bodies can be called as a cleaning groove 121 here and are used for containing cleaning liquid. The upper surface of the machine body 1 is hinged with a rectangular sealing cover 13 through a hinge and is used for covering the cavity 11. An output system is simultaneously connected to the bottom of each cleaning tank 121 for outputting ultrasonic waves. The control system is mounted inside the body 1 below the cavity 11, which is coupled to the output system of the ultrasound waves for controlling the output system.

As shown in fig. 2, the extracting device 2 comprises an extracting cup 21 and a flap 22, wherein the extracting cup 21 is a transparent cylindrical cup for placing a base station to be cleaned. The turning piece 22 is a circular piece with a diameter equal to the inner diameter of the extracting cup 21, two rotating shafts 221 are symmetrically arranged on the peripheral wall of the turning piece 22, and the two rotating shafts 221 are both arranged along the radial direction of the turning piece 22. Two circular through holes are symmetrically arranged on the peripheral wall of the middle part of the extraction cup 21, two rotating shafts 221 are just respectively positioned in the two through holes and are rotatably connected with the two through holes, and one of the rotating shafts 221 penetrates through the through holes.

The driving device 3 includes a connecting rod 31 and a driving rod 32, the connecting rod 31 is vertically fixed on the rotating shaft 221 penetrating through the through hole and is distributed in an L shape with the rotating shaft 221, and the driving rod 32 is hinged with one end of the connecting rod 31 far away from the rotating shaft 221 and is distributed in a T shape with the connecting rod 31. The driving device 3 is used for driving the flap 22 to rotate tangentially in the extracting cup 21, and when the flap 22 is in the vertical state, the connecting rod 31 is in the horizontal state, and while the driving rod 32 is in the vertical state, one end of the driving rod is abutted against the bottom of the cleaning tank 121, and the other end of the driving rod extends out of the cleaning tank 121.

As shown in fig. 1, in use, the driving rod 32 is controlled to make the flap 22 in a vertical state, at this time, the base station to be cleaned is placed in the extracting cup 21, the extracting cup 21 is placed in the cleaning tank 121 (all three cleaning tanks 121 are placed), cleaning liquid is respectively added into the cleaning tanks 121 and is made to sink over the extracting cup 21, one end of the driving rod 32 is exposed out of the liquid level, at this time, the sealing cover 13 is covered, the control system is driven, so that the output system works, that is, the base station is cleaned by ultrasonic waves. After the cleaning is completed, the driving rod 32 is controlled to make the flap 22 in a horizontal state, i.e. the base station is sealed in the extracting cup 21 below the flap 22, at this time, one end of the driving rod 32 exposed out of the liquid level is pulled upwards to take out the extracting cup 21 in the cleaning liquid, the flap 22 is rotated to a vertical state again, and the base station is taken out of the extracting cup 21 by using a tool such as tweezers. Here, since the base is isolated from the cleaning liquid during the taking out of the extracting cup 21, the base does not stick to the oil film on the surface of the cleaning liquid. If part of the oil film sticks to the flap 22, the flap 22 is wiped down, and then the base and the extracting cup 21 are taken out.

As shown in fig. 1 and 3, when the extracting cup 21 is taken out, a part of the cleaning liquid is carried out in the extracting cup 21 under the flap 22, and here, in order that the extracting cup 21 does not carry out the cleaning liquid, the following steps can be further provided: the bottom of the extraction cup 21 is opened, a permeable net 211 is coaxially arranged at the bottom of the extraction cup 21, and the permeable net 211 is a circular net provided with a plurality of meshes. When the extracting cup 21 is taken out, the cleaning liquid below the flap 22 can directly remain in the cleaning tank 121 through the permeable net 211, so that the cleaning liquid cannot remain in the extracting cup 21, and the base station can be taken out conveniently.

As shown in fig. 2, when the extracting cup 21 is taken out from the cleaning solution by pulling the driving rod 32 after the base station is cleaned, the connecting rod 31 and the rotating shaft 221 are easily broken due to the gravity of the extracting cup 21, and here, in order to increase the strength between the connecting rod 31 and the rotating shaft 221, it may be further configured that: a reinforcing rod 4 is obliquely and fixedly connected between the connecting rod 31 and the rotating shaft 221, and a triangular structure can be formed between the reinforcing rod 4 and the connecting rod 31 as well as between the reinforcing rod 4 and the rotating shaft 221, so that the strength between the connecting rod 31 and the rotating shaft 221 can be enhanced.

As shown in fig. 2 and 3, since the base is located at the bottom of the extraction cup 21, that is, placed on the infiltration net 211, a small portion of the base may remain attached to the inside of the mesh of the infiltration net 211 during cleaning, and the infiltration net 211 needs to be replaced after being used for a long time, here, in order to facilitate replacement of the infiltration net 211, a detachable structure may be provided between the infiltration net 211 and the extraction cup 21, specifically: a ring of annular bosses 2111 are arranged along the edge of the infiltration net 211, the cross sections of the bosses 2111 are arranged in a concave mode, so that a rectangular groove, which can be called a clamping groove 2112, is formed on the boss 2111, the edge of the bottom of the extraction cup 21 can be just inserted into the clamping groove 2112, and the infiltration net 211 and the extraction cup 21 can be detached.

As shown in fig. 1, in order to clean the oil film on the surface of the cleaning solution, the following steps may be further provided: the two baffles 12 can be arranged in a stepped manner, namely the heights of the two baffles 12 are different, the arrangement can enable the three cleaning tanks 121 to be fully filled with cleaning liquid, the liquid levels of the three cleaning tanks 121 can be arranged in a stepped manner, oil films in the cleaning tank 121 with the highest liquid level can flow to the middle cleaning tank 121 along with the cleaning liquid overflowing the baffles 12, the oil films in the middle cleaning tank 121 can flow to the cleaning tank 121 with the lowest liquid level together with the oil films flowing in just now, and at the moment, after the cleaning operation is completed, only the oil films in the cleaning tank 121 with the lowest liquid level need to be cleaned.

Because ultrasonic cleaner is higher at the during operation temperature, so the washing liquid is heated easily and volatilizees, here in order to make the washing liquid reduce volatilizing, can further set up as: a plurality of circles of cooling pipes 5 are spirally arranged on the inner wall around the cavity 11 above the cleaning tank 121, one end of each cooling pipe 5 is used for entering cooling liquid, and the other end of each cooling pipe 5 is used for discharging the liquid. The cooling tube 5 is detachably connected with the inner wall of the cavity 11, and specifically comprises: on 11 length direction's of cavity two inside walls, respectively the interval sets up two backing plates 6, and this backing plate 6 is the U type setting, cooling tube 5 and backing plate 6 direct contact to there is the space between can making cooling tube 5 and the 11 inner walls of cavity. At this moment, a pressing plate 7 is covered on the base plate 6, the pressing plate 7 is also in a U-shaped arrangement, a plurality of yielding openings 71 are respectively arranged on two symmetrical side walls of the pressing plate 7 at intervals, the yielding openings 71 are circular-arc-shaped openings, when the pressing plate 7 is pressed on the base plate 6, the cooling pipe 5 can be just positioned in the yielding openings 71, a plurality of screws are connected on the pressing plate 7 at intervals in a threaded mode, the screws can penetrate into the base plate 6, and therefore the screws are also in threaded connection with the base plate 6 to complete the fixation of the cooling pipe 5. The cooling tube 5 here reduces the temperature in the entire cavity 11 and thus the temperature of the cleaning liquid during operation, in order to further reduce its evaporation.

In order to make the cleaning liquid droplets condensed on the cooling pipe 5 flow back into the cleaning tank 121 again to reduce the waste of the cleaning liquid, there may be further provided: on the cavity 11 inner wall near washing tank 121 top surface border department, set up round guide plate 8, this guide plate 8 is the rectangle and distributes, and all sets up towards the orientation downward sloping of washing tank 121. When the cleaning liquid water drops condensed on the cooling pipe 5 slide along the inner wall of the cavity 11, the cleaning liquid water drops can directly fall into the cleaning tank 121 due to the inclined arrangement of the guide plate 8, and the waste of the cleaning liquid is further reduced.

The implementation principle of the embodiment is as follows: during the use, turn over piece 22 to vertical, then will wait that abluent base station puts into extracting cup 21, again extract cup 21 and put into the washing tank 121, all fill the washing liquid with three washing tank 121, cover closing cap 13, start control system makes cooling tube 5 be in operating condition simultaneously, after a period, turn over piece 22 to the level earlier, then will extract cup 21 and take out in the washing liquid to it can to take out the base station in extracting cup 21. And finally cleaning the oil film in the cleaning solution.

By adopting the embodiment, through the arrangement of the extracting device 2, when the base platform is cleaned and taken out, the base platform can be in a top-closed state in the extracting cup 21 by controlling the turnover piece 22, so that the oil film on the surface layer of the cleaning solution can not be stained on the base platform, and the subsequent use of the base platform can not be influenced.

The embodiment of this embodiment is the utility model discloses preferred embodiment is not according to this restriction the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides an ultrasonic cleaner for rinsing base station which characterized in that: the cleaning machine comprises a cleaning machine body, an extraction device (2) and a driving device (3), wherein the cleaning machine body comprises a machine body (1), an output system and a control system, the output system is coupled with the control system and is installed in the machine body (1), a cavity (11) is formed in the upper surface of the machine body (1), a plurality of baffles (12) are arranged at the bottom of the cavity (11) at intervals, a plurality of cleaning grooves (121) are formed between the baffles (12) and the cavity (11), the extraction device (2) comprises an extraction cup (21) and a turning piece (22), two rotating shafts (221) are symmetrically and radially arranged on the turning piece (22), the two rotating shafts (221) are coaxially arranged, two through holes are symmetrically formed in the peripheral wall of the extraction cup (21), and the two rotating shafts (221) are rotatably connected with the two through holes; drive arrangement (3) include connecting rod (31) and actuating lever (32), connecting rod (31) with one of them pivot (221) are kept away from the one end rigid coupling of turning over piece (22), actuating lever (32) with connecting rod (31) are kept away from the one end of pivot (221) is articulated.

2. An ultrasonic cleaning machine for cleaning a base station as defined in claim 1, wherein: the bottom of the extracting cup (21) is open, and one end of the bottom of the extracting cup (21) is coaxially provided with a permeable net (211).

3. An ultrasonic cleaning machine for cleaning a base station according to claim 2, wherein: the permeable net (211) is detachably connected with the extraction cup (21).

4. An ultrasonic cleaning machine for cleaning a base station according to claim 3, wherein: an annular boss (2111) is arranged on the permeation net (211), a circle of clamping groove (2112) is formed in the upper surface of the boss (2111), and the extraction cup (21) is connected with the clamping groove (2112) in an inserting mode.

5. An ultrasonic cleaning machine for cleaning a base station as defined in claim 1, wherein: a reinforcing rod (4) is arranged between the connecting rod (31) and the rotating shaft (221).

6. An ultrasonic cleaning machine for cleaning a base station as defined in claim 1, wherein: the heights of the baffles (12) are different, and the baffles (12) are distributed in the cavity (11) in a step shape according to the heights.

7. An ultrasonic cleaning machine for cleaning a base station as defined in claim 1, wherein: circle cooling tube (5) on cavity (11) inner wall all around, separate on two inner walls of cavity (11) length direction and separate the interval and be equipped with a plurality of backing plates (6), cooling tube (5) with backing plate (6) offset, deviate from cooling tube (5) butt is in position department on backing plate (6) is equipped with a clamp plate (7) respectively, set up on clamp plate (7) and let a mouthful (71), cooling tube (5) agree with and are in let in a mouthful (71), interval threaded connection has a plurality of screws on clamp plate (7), the screw with be threaded connection between backing plate (6).

8. An ultrasonic cleaning machine for cleaning a base station as defined in claim 7, wherein: the cooling device is characterized in that a circle of guide plate (8) is arranged on the inner wall of the periphery of the cavity (11) below the cooling pipe (5), and the guide plate (8) inclines downwards towards the cleaning tank (121).

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