CN112871867A - Stepping type cleaning line - Google Patents

Abstract

The invention relates to a stepping type cleaning line which comprises a crawler transmission mechanism, and an ultrasonic cleaning mechanism, a rotary scrubbing mechanism, a rinsing and rust preventing mechanism, a movable water cutting mechanism and a hot air drying mechanism which are sequentially arranged along the crawler transmission mechanism. This marching type cleaning line can realize high-efficient serialization washing through the cooperation each other of specially designed's track drive mechanism, ultrasonic cleaning mechanism, rotatory scrubbing mechanism, the rust-resistant mechanism of rinsing, removal cutting water mechanism, hot-blast drying mechanism, improves product quality, satisfies the product demand of high requirement.

Description

Stepping type cleaning line

The technical field is as follows:

the invention relates to the technical field of ultrasonic cleaning, in particular to a stepping cleaning line for a hollow circular tube workpiece.

Background art:

some existing hollow round pipes with special requirements need to be cleaned by ultrasonic waves in the production process. In the prior art, a workpiece is generally manually conveyed into an ultrasonic cleaning pool, and after cleaning is finished, the workpiece is manually taken out, and after cleaning is finished, the workpiece needs to be conveyed into a subsequent station for drying, dust removal and the like to gradually finish various processing. The process has poor continuity, needs continuous station transfer, has poor processing efficiency and is easy to cause product damage.

The invention content is as follows:

aiming at the problems, the invention provides a stepping type cleaning line which is high in automation degree, high in cleaning efficiency and good in cleaning effect.

The invention has the following difficulties:

1. after the workpiece manually placed in the ultrasonic cleaning tank is cleaned, the workpiece is conveyed out in order;

2. how to automatically transfer the workpieces from the first conveying belt to the second conveying belt, wherein the workpieces on the two conveying belts are placed in different modes;

3. when the brush is cleaned, the brush needs to be cleaned in a rotating way after being cleaned, and water is continuously sprayed to ensure that the cleaning is more thorough;

4. how to clamp a workpiece when the brush is cleaned;

5. how to use compressed air to move the cut water.

Aiming at the problems, the invention is realized by the following technical scheme:

a stepping type cleaning line comprises a track transmission mechanism, and an ultrasonic cleaning mechanism, a rotary scrubbing mechanism, a rinsing and rust preventing mechanism, a movable water cutting mechanism and a hot air drying mechanism which are sequentially arranged along the track transmission mechanism;

the crawler transmission mechanism is used for automatically transmitting workpieces and comprises a rack, a transmission crawler arranged on the rack and a positioning block arranged on the transmission crawler;

the ultrasonic cleaning mechanism is correspondingly arranged on one side of the inlet end of the track transmission mechanism and used for carrying out ultrasonic cleaning on workpieces, and comprises an ultrasonic cleaning box body, an ultrasonic vibration box and a feeding track, wherein the ultrasonic vibration box and the feeding track are arranged in the ultrasonic cleaning box body;

the rotary scrubbing mechanism is correspondingly arranged on one side of the output end of the ultrasonic cleaning mechanism, is used for rotary scrubbing of the inner wall of the workpiece and comprises a clamping component for clamping the workpiece and a hairbrush component for rotary scrubbing of the inner wall of the workpiece;

the rinsing and rust preventing mechanism is correspondingly arranged on one side of the output end of the rotary scrubbing mechanism, is used for spraying and cleaning the outer wall and the inner wall of the workpiece, and comprises a plurality of uniformly distributed spray heads;

the movable water cutting mechanism is correspondingly arranged on one side of the output end of the rinsing and rust preventing mechanism and used for blowing off the moisture on the surface and the inner wall of the workpiece, and comprises an air knife seat and a driving component connected with the air knife seat;

the hot air drying mechanism is correspondingly arranged on one side of the output end of the movable water cutting mechanism and used for heating and drying the workpiece, and comprises an oven and hot air ports uniformly distributed in the oven.

In order to facilitate accurate positioning of the workpiece and guarantee that the workpiece cannot deviate in the conveying process, the positioning block is provided with a V-shaped groove for positioning the workpiece.

In order to facilitate blanking and guarantee the ultrasonic cleaning effect, a blanking plate which inclines downwards is arranged in the ultrasonic cleaning mechanism, and the blanking plate is correspondingly arranged above the ultrasonic vibration box.

In order to facilitate the sequential one-by-one feeding, the feeding crawler belt is obliquely and upwards arranged, and a plurality of material separating plates are uniformly distributed on the feeding crawler belt.

In order to guarantee blanking one by one and accurately adjust according to different types of workpieces, a blanking adjusting mechanism is arranged between the feeding crawler and the conveying crawler and comprises a blanking plate inclining downwards, a blanking channel arranged on one side of the blanking plate and an adjusting screw rod correspondingly arranged on the blanking channel, and the adjusting screw rod can control the opening of the blanking channel.

In order to guarantee that a plurality of workpieces are accurately clamped and improve the cleaning efficiency and the cleaning precision, the clamping assembly comprises an upper clamping seat, a lower clamping seat and a clamping driving piece for driving the upper clamping seat and the lower clamping seat to ascend and descend, clamping plates are respectively fixed on the upper clamping seat and the lower clamping seat, and a plurality of V-shaped grooves used for positioning the workpieces are respectively formed in opposite surfaces of the two clamping plates.

Furthermore, in order to simplify the driving structure, the clamping driving part comprises an air cylinder and two groups of chains, the air cylinder is connected with the upper clamping seat or the lower clamping seat, two sides of the upper clamping seat and the lower clamping seat are respectively connected through the two groups of chains, two ends of the upper clamping seat and two ends of the lower clamping seat are respectively provided with a lifting guide wheel, and the air cylinder can simultaneously drive the upper clamping seat and the lower clamping seat to lift through the chains so as to clamp or loosen a workpiece.

In order to guarantee the cleaning performance, the brush subassembly includes no pole cylinder, motor, sliding seat, brush pole and brush, no pole cylinder is connected with the sliding seat, the brush pole is a plurality of, sets up on the sliding seat to be connected with the motor, the brush pole is hollow structure, and brush pole one end is provided with rotary joint, the brush is fixed at the brush pole other end, and no pole cylinder can drive the sliding seat and remove, makes the brush of brush pole stretch into the work piece inner chamber, and the motor can drive the brush pole rotatory, thereby washs the work piece inner chamber rotation.

In order to guarantee the drying effect, drive assembly includes cylinder, connecting rod and guide rail, the cylinder is connected with the connecting rod, the wind blade holder sets up on the connecting rod, and the wind blade holder can slide along the guide rail, and wind blade holder one side is provided with the air cock, and the cylinder can drive wind blade holder reciprocating motion to the reciprocal water of cutting of work piece.

The invention has the beneficial effects that: this marching type cleaning line can realize high-efficient serialization washing through the cooperation each other of specially designed's track drive mechanism, ultrasonic cleaning mechanism, rotatory scrubbing mechanism, the rust-resistant mechanism of rinsing, removal cutting water mechanism, hot-blast drying mechanism, improves product quality, satisfies the product demand of high requirement.

Description of the drawings:

FIG. 1 is a schematic structural view of a step-by-step cleaning line according to the present invention;

FIG. 2 is a schematic structural view of the track drive of the present invention;

FIG. 3 is an enlarged view of a portion A of FIG. 2;

FIG. 4 is a schematic structural view of an ultrasonic cleaning mechanism of the present invention;

FIG. 5 is a schematic structural view of a blanking adjustment mechanism of the present invention;

FIG. 6 is a front view of the clamping assembly of the present invention;

FIG. 7 is a side view of the clamping assembly of the present invention;

FIG. 8 is a side view of the brush assembly and clamping assembly of the present invention;

fig. 9 is a schematic structural view of the mobile water cutting mechanism of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention more readily understood by those skilled in the art, and thus will more clearly and distinctly define the scope of the invention.

As shown in fig. 1, the step-by-step cleaning line includes a track transmission mechanism 1, and an ultrasonic cleaning mechanism 3, a blanking adjusting mechanism 4, a rotary brushing mechanism 5, a rinsing and rust-preventing mechanism 6, a movable water cutting mechanism 7, and a hot air drying mechanism 8, which are sequentially arranged along the track transmission mechanism 1, and in addition, each mechanism is connected with a waste gas recovery system 2.

The crawler transmission mechanism shown in fig. 2 and 3 is used for automatically conveying a workpiece 9 (a cylindrical hollow structure), and includes a frame 11, a conveying crawler 13 disposed on the frame 11, and a positioning block 14 disposed on the conveying crawler 13. The conveying crawler 13 (preferably a chain in the invention) is driven by a stepping motor 12, a plurality of positioning blocks 14 are uniformly distributed on the conveying crawler 13, V-shaped grooves for supporting the workpieces 9 are formed in the positioning blocks 14, and a discharge hole is formed in the right output end of the conveying crawler 13.

The ultrasonic cleaning mechanism 3 shown in fig. 4 is correspondingly arranged on one side (left side) of an inlet end of a track transmission mechanism and used for ultrasonic cleaning of workpieces, and comprises an ultrasonic cleaning box body 31, an ultrasonic vibration box 32 arranged in the ultrasonic cleaning box body 31, a feeding track 34 and a discharging plate 33, wherein the discharging plate 33 is arranged in a downward inclined mode and correspondingly arranged above the ultrasonic vibration box 32, the feeding track 34 (a preferable chain in the invention) is driven by a motor, a plurality of material separation plates 35 are customized on the chain, the material separation plates 35 are bent pieces, the left chain and the right chain are connected by the bent pieces between the two parallel chains, a driving wheel and a driven wheel are placed in an upward and downward inclined mode, and the cylindrical hollow workpieces 9 are conveyed out of the ultrasonic cleaning box body 31 one by one skillfully utilizing the bent surfaces connected left and right. When the workpiece rotates along the driving wheel to the top, the workpiece turns right and downwards, and enters a transition line (blanking adjusting mechanism) in a proper way.

The blanking adjusting mechanism shown in fig. 5 includes a blanking plate 41 inclined downward to the right, a blanking channel 42 disposed at the outlet end of the right side of the blanking plate 41, and an adjusting screw 43 correspondingly disposed at one side of the blanking channel 42, wherein a side baffle is disposed at the side of the blanking plate 41, and can be adjusted according to the length of a workpiece, so that the workpiece is not inclined in the moving process, and can orderly fall into the caterpillar driving mechanism from top to bottom. The adjusting screw 43 can drive the adjusting plate 44 to move so as to control the width of the blanking channel 42 and adapt to workpieces with different diameters.

The rotary brushing mechanism shown in fig. 6-8 is correspondingly arranged on one side (right side) of the output end of the ultrasonic cleaning mechanism, and is used for rotary brushing of the inner wall of the workpiece, and comprises a clamping component for clamping the workpiece and a brush component for rotary brushing of the inner wall of the workpiece.

As shown in fig. 6 and 7, the clamping assembly includes a bracket 51, an upper clamping seat 55, a lower clamping seat 56, and a clamping driving member for driving the upper clamping seat 55 and the lower clamping seat 56 to move up and down, a set of parallel clamping plates 54 are respectively fixed on the upper clamping seat 55 and the lower clamping seat 56, and a plurality of V-shaped grooves for positioning a workpiece are respectively formed on opposite surfaces of the clamping plates 54. The clamping driving part comprises an air cylinder 53 and two groups of chains 59, the air cylinder 53 is connected with the upper clamping seat 55, the two sides of the upper clamping seat 55 and the two sides of the lower clamping seat 56 are respectively connected through the two groups of chains 59, the chains 59 are supported by the chain wheels 52, the chain wheels 52 are connected through the connecting rod 510, and the two ends of the upper clamping seat 55 and the two ends of the lower clamping seat 56 are respectively fixed with the lifting guide wheel 58 and the guide block 57. The air cylinder 53 can simultaneously drive the upper clamping seat 55 and the lower clamping seat 56 through the chain 59, the chain wheel 52 and the connecting rod 510, and the upper clamping seat 55 and the lower clamping seat 56 move along the guide rail 511 of the bracket 51 through the lifting guide wheel 58 and the guide block 57, so that the clamping plate 54 is driven to clamp or loosen a workpiece.

As shown in fig. 8, the brush assembly includes a rodless cylinder 513, a motor 512, a plurality of sliding seats 517, brush rods 516 and brushes 514, the rodless cylinder 513 is connected to the sliding seats 517, the brush rods 516 are arranged in parallel on the sliding seats 517 through bearing seats, the motor 521 is connected to each brush rod 516 through a coupling, the brush rods 516 are hollow structures, a rotary joint 518 is arranged at the left end of each brush rod 516, and the brushes 514 are fixed at the right end of each brush rod 516 through a connector 515. The brush component can not only brush forwards and backwards, but also brush rotationally, and spray water while brushing. The middle of the brush rod 516 is hollow, the front end of the brush rod is connected with a brush 514 and is provided with a hole, the rear end of the brush rod is arranged on a sliding seat 517 through a bearing seat, 4 brush rods 516 which are arranged in parallel are arranged on the sliding seat 517, the distance between each brush 514 is equal to the distance between the V-shaped grooves of the clamping plates for placing workpieces in front, a chain wheel transmission system is arranged between the two bearing seats, the motor 512 arranged on the support transmits the motion to the first brush rod 516, and the first brush rod 516 transmits the rotary motion to the other three brush rods 516. Therefore, when the workpiece is clamped, the rodless cylinder 513 mounted behind the workpiece moves forward, the motor 512 starts to rotate, and the brush 514 also enters the inside of the workpiece to perform back-and-forth and rotary brushing. Meanwhile, the rear end of each brush rod 516 is provided with a rotary joint 518, cleaning media enter the brush rods 516 from the rotary joints 518 through a filter pump, and spray on the inner wall of the workpiece through a plurality of small holes at the front end of the brush 514, so that the front and back, rotation and spraying actions of the brush 514 are realized.

The rinse anti-rust mechanism is correspondingly arranged on one side (right side) of the output end of the rotary scrubbing mechanism and used for spraying and cleaning the outer wall and the inner wall of a workpiece, and comprises a plurality of uniformly distributed spray heads which are correspondingly arranged on the upper side, the lower side and the side surface and can spray and clean the workpiece in an all-around and timing mode.

As shown in fig. 9, the movable water cutting mechanism is correspondingly disposed on one side (right side) of the output end of the rinsing and rust preventing mechanism, and is used for blowing off moisture on the surface of the workpiece, and includes an air knife holder 73 and a driving component connected to the air knife holder 73. The driving assembly comprises an air cylinder 71, a connecting rod 72 and a guide rail 76, wherein the air cylinder 71 is connected with the connecting rod 72, the wind blade holder 73 is fixed on the connecting rod 72, and the wind blade holder 73 slides along the guide rail 76 through a roller 74 and a roller 75. In addition, the movable water cutting mechanism is provided with an air nozzle 77 at the side part. When the conveying chain conveys the workpiece in place, the air cylinder 71 arranged behind the workpiece works, the air cylinder 71 moves back and forth, the air knife seat 73 and the air knife move back and forth, the function of back and forth reciprocating water cutting is achieved, in order to guarantee the air knife to cut water stably, rollers 74 and 75 and a guide rail 76 are arranged on the left and right, and the piston is guaranteed to move on a straight line. At the same time, an air nozzle 77 connected with compressed air is arranged behind the workpiece, and water is cut from the rear of the workpiece to the inner pipe wall of the workpiece.

The hot air drying mechanism is correspondingly arranged on one side (right side) of the output end of the movable water cutting mechanism and used for heating and drying workpieces and comprises an oven and hot air ports uniformly distributed in the oven.

During machining, as shown in fig. 1 to 9, the operator feeds the workpiece 9 (round pipe) into the ultrasonic cleaning mechanism 3. The workpiece 9 cleaned by ultrasonic waves is automatically uploaded through the transmission of the crawler belt, and the workpiece 9 is separated from the crawler belt to enter the blanking adjusting mechanism 4 through overturning of the driving end chain wheel and then enters the second transmission crawler belt in a side-by-side manner. The workpiece falls from the upper surface and just falls into the V-shaped groove of the positioning block 14, and then enters the second cleaning station along with the track. The air cylinder 53 clamps the workpiece 9 through chain centering clamping, the rodless air cylinder 513 on the side pushes the hairbrush 514 into the workpiece 9, the hairbrush 514 is simultaneously driven by the motor 512 through a chain wheel, the inner wall of the workpiece 9 is cleaned through rotating and pushing, and water is continuously sprayed. And the workpiece 9 enters a third cleaning station after being cleaned regularly, the outer wall of the workpiece is cleaned by spraying up and down, the inner wall of the workpiece is cleaned by spraying from the side surface, the workpiece is cleaned by spraying regularly, and the workpiece enters a fourth station after being cleaned by cutting water. The movable water cutting mechanism 7 is used for blowing off moisture on the surface of a workpiece by utilizing a compressed air knife to move back and forth, the workpiece enters the drying oven after water cutting is finished, an air heating pipe and a heating box are arranged behind the drying oven, a heat insulation fan blows hot air in the heating box into the drying oven and is opposite to the center of the workpiece, the hot air returns to an air inlet of the fan from the bottom of the drying oven to form hot air circulation, and the workpiece passes through the drying oven and then is automatically discharged to finish the whole cleaning process.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", "top", "bottom", "side", "end", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In addition, in the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "disposed," "provided," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that: any person skilled in the art can modify or easily conceive the technical solutions described in the foregoing embodiments or equivalent substitutes for some technical features within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the embodiments of the present invention, and they should be construed as being included therein. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. The utility model provides a marching type cleaning line which characterized in that: the ultrasonic cleaning machine comprises a crawler transmission mechanism, and an ultrasonic cleaning mechanism, a rotary scrubbing mechanism, a rinsing and rust preventing mechanism, a movable water cutting mechanism and a hot air drying mechanism which are sequentially arranged along the crawler transmission mechanism;

the crawler transmission mechanism is used for automatically transmitting workpieces and comprises a rack, a transmission crawler arranged on the rack and a positioning block arranged on the transmission crawler;

the ultrasonic cleaning mechanism is correspondingly arranged on one side of the inlet end of the track transmission mechanism and used for carrying out ultrasonic cleaning on workpieces, and comprises an ultrasonic cleaning box body, an ultrasonic vibration box and a feeding track, wherein the ultrasonic vibration box and the feeding track are arranged in the ultrasonic cleaning box body;

the rotary scrubbing mechanism is correspondingly arranged on one side of the output end of the ultrasonic cleaning mechanism, is used for rotary scrubbing of the inner wall of the workpiece and comprises a clamping component for clamping the workpiece and a hairbrush component for rotary scrubbing of the inner wall of the workpiece;

the rinsing and rust preventing mechanism is correspondingly arranged on one side of the output end of the rotary scrubbing mechanism, is used for spraying and cleaning the outer wall and the inner wall of the workpiece, and comprises a plurality of uniformly distributed spray heads;

the movable water cutting mechanism is correspondingly arranged on one side of the output end of the rinsing and rust preventing mechanism and used for blowing off the moisture on the surface and the inner wall of the workpiece, and comprises an air knife seat and a driving component connected with the air knife seat;

the hot air drying mechanism is correspondingly arranged on one side of the output end of the movable water cutting mechanism and used for heating and drying the workpiece, and comprises an oven and hot air ports uniformly distributed in the oven.

2. The stepwise cleaning line of claim 1, wherein: and the positioning block is provided with a V-shaped groove for positioning the workpiece.

3. The stepwise cleaning line of claim 1, wherein: the ultrasonic cleaning mechanism is internally provided with a downward-inclined blanking plate, and the blanking plate is correspondingly arranged above the ultrasonic vibration box.

4. The stepwise cleaning line of claim 1, wherein: the feeding crawler belt is obliquely and upwards arranged, and a plurality of material separating plates are uniformly distributed on the feeding crawler belt.

5. The stepwise cleaning line of claim 1, wherein: the blanking adjusting mechanism comprises a blanking plate which inclines downwards, a blanking channel arranged on one side of the blanking plate and an adjusting screw rod correspondingly arranged on the blanking channel, and the adjusting screw rod can control the opening of the blanking channel.

6. The stepwise cleaning line of claim 1, wherein: the clamping assembly comprises an upper clamping seat, a lower clamping seat and a clamping driving piece for driving the upper clamping seat and the lower clamping seat to ascend and descend, clamping plates are respectively fixed on the upper clamping seat and the lower clamping seat, and a plurality of V-shaped grooves used for positioning workpieces are respectively formed in opposite surfaces of the two clamping plates.

7. The stepwise cleaning line of claim 6, wherein: the clamping driving piece comprises an air cylinder and two groups of chains, the air cylinder is connected with the upper clamping seat or the lower clamping seat, the two sides of the upper clamping seat and the two sides of the lower clamping seat are respectively connected through the two groups of chains, lifting guide wheels are respectively arranged at the two ends of the upper clamping seat and the two ends of the lower clamping seat, and the air cylinder can simultaneously drive the upper clamping seat and the lower clamping seat to lift through the chains so as to clamp or loosen workpieces.

8. The stepwise cleaning line of claim 1, wherein: the brush subassembly includes no pole cylinder, motor, sliding seat, brush pole and brush, no pole cylinder is connected with the sliding seat, the brush pole is a plurality of, sets up on the sliding seat to be connected with the motor, the brush pole is hollow structure, and brush pole one end is provided with rotary joint, the brush is fixed at the brush pole other end, and no pole cylinder can drive the sliding seat and remove, makes the brush of brush pole stretch into the work piece inner chamber, and the motor can drive the brush pole rotatory to the rotatory washing of work piece inner chamber.

9. The stepwise cleaning line of claim 1, wherein: the driving assembly comprises an air cylinder, a connecting rod and a guide rail, the air cylinder is connected with the connecting rod, the air knife holder is arranged on the connecting rod, the air knife holder can slide along the guide rail, an air faucet is arranged on one side of the air knife holder, and the air cylinder can drive the air knife holder to reciprocate so as to cut water to the workpiece in a reciprocating manner.

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