CN117123551B - Cleaning and drying integrated device for gear machining - Google Patents

Abstract

The invention relates to the technical field related to cleaning, drying and purifying treatment of gears, and discloses a cleaning, drying and integrating device for gear processing, which comprises an equipment base and a gear processing machine body, wherein a processing cavity is arranged in the gear processing machine body, a spraying carrying groove is arranged on an array of the inner wall of the processing cavity, a spraying and drying assembly is arranged in the spraying carrying groove, a rotating functional mechanism is rotatably arranged in the processing cavity and comprises a rotating bottom plate, a screen bottom plate is arranged on the rotating bottom plate, a hexagonal frame is fixedly arranged on the upper surface of the screen bottom plate, and a functional matching shaft body is fixedly arranged on the upper surface of the screen bottom plate; according to the cleaning and drying integrated device for gear processing, the vertical type gear distribution effect is achieved through the arrangement of the three-dimensional carrying mechanism, and meanwhile the arrangement gear can be driven to rotate in multiple directions, so that the actual spraying effect is improved.

Description

Cleaning and drying integrated device for gear machining

Technical Field

The invention relates to the technical field related to cleaning, drying and purifying treatment of gears, in particular to a cleaning, drying and integrating device for gear machining.

Background

A gear is a rotating circular machine part with cutting teeth, or in the case of gears or gearwheels, with interposed teeth (called gears), which mesh with another (compatible) toothed part to transfer (convert) torque and speed, which may also be informally called gears. The gearing may change the speed, torque and direction of the power source. Gears of different sizes produce torque variation through their gear ratios, creating a mechanical advantage, and thus gears are one of the most commonly used types of transmission components in existing machines.

In the process of processing and producing gears, the gears after processing are required to be cleaned, and oil stains and scraps on the surfaces are removed, and the existing cleaning operation mode of the gears has the following defects:

1. the gear is usually placed in the cleaning solution by workers to manually match with the instrument for cleaning, the cleaning mode is extremely low in efficiency, and meanwhile, the health of the workers is endangered due to the fact that part of the cleaning solution is chemically volatilized.

2. Compared with the manual cleaning device, the device for cleaning the gears in the prior art can improve the cleaning efficiency, but the gears are of a multi-surface uneven structure, so that the cleaning quality is poor, and the efficient cleaning operation on each structural surface of the gears cannot be ensured;

3. in the prior art, in the gear cleaning equipment, the gear adopts a stacking mode in the cleaning operation process to cause the problem of structural shielding, the cleaning and drying operation effect is affected, and the cleaning operation efficiency is low by adopting a dispersion distribution mode, so that the processing efficiency of the gear in a factory cannot be met.

Disclosure of Invention

The invention aims to provide a cleaning and drying integrated device for gear processing, which is used for overcoming the defects in the prior art.

The invention is realized by the following technical scheme.

The invention relates to a cleaning and drying integrated device for gear processing, which comprises an equipment base and a gear processing machine body, wherein a processing cavity is arranged in the gear processing machine body, a spraying carrying groove is arranged in an array of the inner wall of the processing cavity, a spraying drying component is arranged in the spraying carrying groove, a rotating functional mechanism is rotatably arranged in the processing cavity and comprises a rotating bottom plate, the rotating bottom plate is provided with a screen bottom plate, the upper surface of the screen bottom plate is fixedly provided with a hexagonal frame, the upper surface of the screen bottom plate is fixedly provided with a functional matching shaft body, six groups of spraying drying components are fixedly arranged in the array of the functional matching shaft body, each surface of the hexagonal frame is provided with a built-in screen plate which can ensure that each group of spraying drying components perform spraying drying operation, each corner of the hexagonal frame is fixedly provided with a separation outer plate, each separation outer plate divides the space between the processing cavity and the hexagonal frame into six fan-shaped working spaces, a three-dimensional carrying mechanism is detachably embedded in the fan-shaped working spaces and comprises a fan-shaped carrying frame, a transmission fan-shaped top seat is fixedly arranged in a fan-shaped groove at the top of the fan-shaped carrying frame, a transmission fan-shaped base is fixedly arranged in a fan-shaped groove at the bottom of the fan-shaped carrying frame, gear carrying mechanisms are rotationally arranged in an array distribution between the transmission fan-shaped top seat and the transmission fan-shaped base, each gear carrying mechanism comprises a supporting carrying pipe body, a rotating carrying ring capable of axially rotating is rotationally arranged in the supporting carrying pipe body array, a gear mounting shaft is rotationally arranged on the front end face of the rotating carrying ring, the gear is fixed through the gear mounting shaft and is matched with the gear mounting shaft to rotate, the rotation carrying ring rotates axially, the gear is driven to rotate in a multidirectional mode in the spraying and drying operation process, and the surface array of the supporting carrying tube body is provided with an output end hole capable of spraying, drying and outputting operation.

According to the further technical scheme, the number of the supporting and carrying pipes is seven, and the supporting and carrying pipes are in two rows and distributed along an arc shape, so that the supporting and carrying pipes are not shielded from each other, and the spraying and drying effects are not affected.

Further technical scheme, control panel is installed to gear treatment fuselage front end face, gear treatment fuselage upper surface rotates installs the top apron, gear treatment fuselage top end face symmetry is equipped with the inlays the dress groove, inlay the intraductal rotation of dress and install flexible bracing piece, flexible bracing piece end support connect in the top apron, the handle is installed at top apron top, spray and carry on groove lateral wall and be equipped with the intercommunication passageway, the intercommunication passageway end is arranged in equipment carries on the chamber, the processing cavity bottom is equipped with and rotates the embedding groove, it is equipped with the slope guide face to rotate the embedding groove bottom, slope guide face center fixed mounting has the supporting range ring body, slope guide face center is equipped with and walks the pipe through groove, it is equipped with the back to take out the port to walk a tub through groove avris, supporting range ring body outer wall array is equipped with the inflow mouth, processing cavity inner wall fixed mounting has annular rib, walk the pipe through groove and be used for the intercommunication pipeline to pass and prevent overflow through the sealing tube cover, it installs to rotate the embedding groove rotation bottom plate to carry out the rotation through supporting range.

Further technical scheme, be equipped with equipment in the equipment frame and carry the chamber, equipment carries on intracavity fixed mounting and has main control module, equipment carries on intracavity fixed mounting and has clean output mechanism, clean output mechanism includes water cavity, inlet channel, spray output pump, output pipeline, communication valve, equipment carries on intracavity fixed mounting and has back to take out processing mechanism, back to take out processing mechanism includes sewage cavity, blowdown back to take out pump, back to take out pipeline, blowdown pipeline, filtration module, back to take out processing mechanism pass through blowdown back to take out pump cooperation hose with back to take out port intercommunication, equipment carries on intracavity fixed mounting and has stoving output mechanism, stoving output mechanism includes output air pump, heating module, stoving output pipeline, equipment carries on the intracavity top and is equipped with the cavity roof-rack, gear processing fuselage bottom terminal surface laminating support set up in cavity roof-rack upside and cooperation bolt hole groove structure are fixed, driving motor installs driving gear through installation, equipment frame output shaft back door plant is equipped with behind the equipment frame, clean output mechanism and inside and the inside of pump body and the end of pump body intercommunication.

Further technical scheme, spray drying assembly is the output and spray the board, the inside cavity that is equipped with of output sprays the board, output sprays the board pointed end outer wall and is equipped with the output spout that communicates with inside cavity, output spray the board top be equipped with the interior cavity intercommunication spout board input port, set up in spray carry on the inslot output spray the board through top spout board input port with corresponding the intercommunication cavity way is by the pipeline intercommunication.

Further technical scheme, be equipped with the intra-axis transmission chamber in the function cooperation axis body, intra-axis transmission chamber top array is equipped with and switches on the mouth of pipe, function cooperation axis body outer wall array fixed mounting has the mount, the mount is used for fixed mounting the output jet plate, switch on the mouth of pipe with corresponding the jet plate input port intercommunication, many intercommunication bases are installed to function cooperation axis body bottom, be equipped with the base transmission chamber in many intercommunication bases, base transmission chamber center be equipped with central intercommunication port and with intra-axis transmission chamber intercommunication, function cooperation axis body bottom passes drain wire bottom plate central through groove, many intercommunication bases pass through the snap fit bolt fixed in drain wire bottom plate central bottom, base transmission chamber limit side array is equipped with side branch port and intercommunication and installs side branch pipe, base transmission chamber bottom intercommunication is installed the liquid pipe, the liquid pipe other end pass through the hose with clean output mechanism in the multi-pass valve mouth intercommunication, the base transmission chamber bottom intercommunication is equipped with the trachea, the trachea other end pass through the hose with dry output mechanism's the pipeline motor center through the groove, the multi-pass valve mouth of pipe is equipped with the outer tooth drive groove is the bottom plate, the bottom plate drive is by the outer tooth drive groove, the bottom plate is equipped with the outer tooth drive groove.

Further technical scheme, leak net bottom plate in corresponding fan-shaped operation space internal fixation has the location chamber board, be equipped with the cavity in the location chamber board and pass through the side branch pipe with base transmission cavity intercommunication, location chamber board top is equipped with the butt joint pipe with inside cavity intercommunication, be equipped with the narrow chamber of transmission in the fan-shaped base of transmission, the narrow chamber bottom of transmission is equipped with the counterpoint recess, counterpoint recess symmetry be equipped with can with the butt joint siphunculus of butt joint pipe butt joint intercommunication, the fan-shaped base top array of transmission is equipped with the fixed port of intercommunication, support and carry the body bottom intercommunication and install the intercommunication butt joint base, the intercommunication butt joint base with the fixed port top butt joint of intercommunication is fixed to be linked together.

According to a further technical scheme, an embedded rotating groove is formed in the rotating carrying ring, the inner end of the gear installation shaft is rotatably arranged in the embedded rotating groove, a spiral rotating part is arranged at the tail end of the gear installation shaft, and a protruding clamping strip is arranged on the outer wall array of the gear installation shaft.

According to a further technical scheme, a transmission cavity is arranged in a transmission fan-shaped footstock, central transmission teeth are rotatably arranged in the transmission cavity, three groups of matched transmission teeth are arranged in meshing transmission mode between symmetrical teeth on two sides of the central transmission teeth, a central shaft seat is fixedly arranged at the top of the central transmission teeth, a matched transmission shaft is fixedly arranged at the central shaft seat, a transmission fan-shaped footstock top cover is observed at the top of the matched transmission shaft and is provided with shaft external teeth, a transmission toothed ring is arranged on the inner wall of the bottom of a top cover plate, inner teeth of the transmission toothed ring can be meshed with the shaft external teeth for transmission, a transmission inner shaft is rotatably arranged in a supporting carrying tube body through a top embedded bearing, a clamping transmission sleeve member is arranged at a position corresponding to the transmission inner shaft in the rotary carrying ring, the outer wall of the clamping transmission sleeve member is fixedly connected with the inner wall of a vertical hole of the rotary carrying ring through the tail end of a supporting piece, the top of the transmission inner shaft penetrates through the bottom hole of the transmission fan-shaped footstock and is fixedly arranged in the corresponding matched transmission teeth central hole, and the centremoral hole of the transmission fan-shaped footstock penetrates through the transmission cavity, and the transmission top in the transmission ring body penetrates through the transmission center bottom of the transmission center hole and is fixedly arranged in the corresponding inner shaft hole of the corresponding transmission teeth.

According to a further technical scheme, the outer wall of the top of the transmission fan-shaped footstock is provided with pull rings, six groups of inner matching partition plates are fixedly arranged on the annular array of the outer wall of the functional matching shaft body, the inner matching partition plates correspond to the positions of the separating outer plates, so that the inner space of the hexagonal frame is divided into six corresponding matching action spaces, the front and rear parts of the fan-shaped carrying frame are of an open structure and can be embedded with a net-shaped guard plate, and a front door plate is arranged on the front side of the processing cavity in a grooved mode and can be opened and closed in a rotating mode.

The invention has the beneficial effects that:

according to the integrated cleaning and drying device for gear processing, a three-dimensional distribution setting effect can be achieved through the arrangement of the three-dimensional carrying mechanism, a plurality of groups of gear carrying mechanisms in the three-dimensional carrying mechanism are used, the gears are fixed in a plugging manner through the vertically distributed groups of gear mounting shafts in the gear carrying mechanisms, the installation convenience and the efficiency are high, meanwhile, the utilization efficiency of an internal cleaning and drying space can be improved when a plurality of groups of gears are vertically distributed and carried, the problems of low efficiency and poor effect caused by shielding surfaces of the gears in the cleaning and drying processes are avoided, a higher-efficiency cleaning and drying operation mode is achieved through rotation and omni-directional spraying output effect, and the yield and efficiency of gear processing are improved;

the cleaning and drying integrated device for gear processing can realize the vertical type gear distribution effect and drive the gears arranged in the device to rotate in multiple directions to improve the actual spraying effect through the arrangement of the three-dimensional carrying mechanisms, when each group of three-dimensional carrying mechanisms is arranged in the corresponding fan-shaped working space, the external teeth of the shaft at the top end of each matched transmission shaft are meshed with the internal teeth of the transmission toothed ring at the bottom surface of the top cover plate through the buckling of the top cover plate, so that in the rotating process of the rotating functional mechanism, the meshed transmission drives the matched transmission shaft to rotate to enable the central transmission gear to rotate and drive the meshed multiple groups of matched transmission gears to jointly rotate, the gear is driven to axially rotate along the support carrying tube body through the transmission inner shaft, high-pressure liquid or air flow enters the support carrying tube body after being transmitted through the base transmission cavity, the side branch pipe, the positioning cavity plate and the transmission narrow cavity, and the gear mounting shaft is driven to continuously rotate at the spiral rotating part in the embedded rotating groove through the impact effect, so that the gear axially rotates along the support carrying tube body and axially rotates along the gear mounting shaft, a multidirectional rotation effect is realized, and the actual effect of liquid and gas on the surface of the gear in the gear cleaning and drying process is greatly improved through the cooperation of the multidirectional spraying effect, so that the multidirectional and dynamic spraying and drying effect is realized;

according to the cleaning and drying integrated device for gear processing, a cleaning and drying operation with higher efficiency and effect in the gear drying process can be realized through the omnidirectional dead-angle-free spraying and drying function, in the spraying and drying process, the output nozzles at the front side of the output spraying plates are in a high-pressure fan shape to realize the output of spraying and drying hot gas, the arrangement positions of the output spraying plates are respectively arranged in the spraying carrying grooves at the outer sides of the processing cavity to realize the high-pressure spraying function of the external side-rotating function mechanism, meanwhile, the annular array of the six groups of output spraying plates is matched in the hexagonal frame and is separated by the inner matched partition plate to realize the high-pressure spraying and drying function of a plurality of groups of gears vertically and three-dimensionally distributed in the fan-shaped operation space from inside to outside, so that the omnidirectional dead-angle-free spraying and drying process is realized by matching with the rotating effect and the output effect of the output end holes close to the gears in the process, and the vertical three-dimensional gear distribution state is matched with the rotating action and the high-pressure spraying function at the front and back time, so that the gear cleaning and drying efficiency and drying effects are greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained from these drawings without inventive effort for a person skilled in the art.

The invention will be further described with reference to the drawings and examples.

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

fig. 2 is a schematic view showing a state structure of the front door panel 13 of the present invention after being detached;

FIG. 3 is a schematic rear view of the present invention;

FIG. 4 is a schematic elevational view of the present invention;

FIG. 5 is a schematic view of the overall structure of the equipment stand 11 according to the present invention;

FIG. 6 is a schematic view of the overall structure of the gear processing body 12 of the present invention;

FIG. 7 is a schematic diagram of the overall construction of the rotary functional mechanism 20 of FIG. 2 according to the present invention;

FIG. 8 is a schematic diagram of the front view of the rotary functional mechanism 20 of the present invention;

FIG. 9 is a schematic top view of the rotary mechanism 20 according to the present invention;

FIG. 10 is a schematic sectional view showing the installation and connection state of the functionally mating shaft 57 of FIG. 7 according to the present invention;

FIG. 11 is a schematic side view of the three-dimensional mounting mechanism 70 of FIG. 9 according to the present invention;

FIG. 12 is a schematic cross-sectional top view of the drive fan-shaped top mount 81 of FIG. 11 according to the present invention;

fig. 13 is a schematic top view of the conveyor sector base 82 of fig. 11 in accordance with the present invention;

fig. 14 is a schematic bottom view and front cross-sectional view of the conveyor fan base 82 of fig. 11 in accordance with the present invention;

fig. 15 is a schematic overall structure of the gear mounting mechanism 85 in fig. 11 according to the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-15, wherein for convenience of description the orientations described below are now defined as follows: the vertical, horizontal, front-rear directions described below are identical to the vertical, horizontal, front-rear directions of the projection relationship of fig. 1 itself.

The integrated cleaning and drying device for gear processing comprises a device base 11, a gear processing machine body 12, a processing cavity 15 arranged in the gear processing machine body 12, a spraying carrying groove 21 arranged on the inner wall array of the processing cavity 15, a spraying drying component arranged in the spraying carrying groove 21, a rotary functional mechanism 20 rotatably arranged in the processing cavity 15, the rotary functional mechanism 20 comprising a rotary bottom plate 50, a screen bottom plate 53 arranged on the rotary bottom plate 50, a hexagonal frame 54 fixedly arranged on the upper surface of the screen bottom plate 53, a functional matching shaft 57 fixedly arranged on the upper surface of the screen bottom plate 53, six groups of spraying drying components fixedly arranged on the functional matching shaft 57, wherein the hexagonal frame 54 has built-in screen plates 56 for ensuring that the groups of spraying drying components perform spraying drying operation, the separation outer plates 55 are fixedly arranged at each corner end of the hexagonal frame 54, each group of separation outer plates 55 divides the space between the processing cavity 15 and the hexagonal frame 54 into six fan-shaped working spaces 110, a three-dimensional carrying mechanism 70 is detachably embedded in the fan-shaped working spaces 110, the three-dimensional carrying mechanism 70 comprises a fan-shaped carrying frame 80, a transmission fan-shaped top seat 81 is fixedly arranged in a fan-shaped groove at the top of the fan-shaped carrying frame 80, a transmission fan-shaped base 82 is fixedly arranged in a fan-shaped groove at the bottom of the fan-shaped carrying frame 80, gear carrying mechanisms 85 are rotatably arranged between the transmission fan-shaped top seat 81 and the transmission fan-shaped base 82 in an array distribution manner, the gear carrying mechanisms 85 comprise supporting carrying tube bodies 96, rotating carrying rings 98 capable of axially rotating are rotatably arranged in an array of the supporting carrying tube bodies 96, a gear mounting shaft 103 is rotatably arranged on the front end face of the rotating carrying rings 98, the gear is fixed through the gear mounting shaft 103 and is matched with the gear mounting shaft 103 to rotate and the rotary carrying ring 98 to axially rotate, so that the gear is driven to rotate in a multidirectional manner in the spraying and drying operation process, and the surface array of the supporting carrying tube 96 is provided with an output end hole 97 capable of carrying out spraying and drying output operation.

Preferably, the number of the supporting and carrying pipes 96 is seven, and each supporting and carrying pipe 96 is two rows and distributed along an arc shape, so that the supporting and carrying pipes 96 are not shielded from each other, and the spraying and drying effects are not affected.

Preferably, the front end face of the gear processing machine body 12 is provided with the control panel 14, the upper surface of the gear processing machine body 12 is rotatably provided with the top cover plate 16, the top end face of the gear processing machine body 12 is symmetrically provided with the embedded groove 18, the inner wall of the embedded groove 18 is rotatably provided with the telescopic supporting rod 17, the tail end of the telescopic supporting rod 17 is connected with the top cover plate 16 in a supporting way, the top of the top cover plate 16 is provided with the handle 19, the side wall of the spraying carrying groove 21 is provided with the communicating cavity 23, the tail end of the communicating cavity 23 is arranged in the equipment carrying cavity 31, the bottom of the processing cavity 15 is provided with the rotary embedded groove 41, the bottom surface of the rotary embedded groove 41 is provided with the inclined guide surface 43, the center of the inclined guide surface 43 is fixedly provided with the supporting range ring body 42, the center of the inclined guide surface 43 is provided with the running pipe through groove 45, the side of the running pipe through groove 45 is provided with the back suction port 65, the outer wall of the supporting range ring body 42 is provided with the inflow port 44, the inner wall of the processing cavity 15 is fixedly provided with the annular protection frame 46, the running pipe through groove 45 is used for the communicating pipe to pass through and overflow through the sealing sleeve, the rotary embedded groove 41 is rotatably provided with the rotary bottom plate 50 through the supporting range 42, and the running range ring body 42 is rotatably supported through the supporting range ring body 42.

Preferably, a device carrying cavity 31 is arranged in the device base 11, a main control module 38 is fixedly installed in the device carrying cavity 31, a cleaning output mechanism 33 is fixedly installed in the device carrying cavity 31, the cleaning output mechanism 33 comprises a water cavity, a water inlet pipeline, a spray output pump, an output pipeline and a communication valve, a back-pumping treatment mechanism 34 is fixedly installed in the device carrying cavity 31, the back-pumping treatment mechanism 34 comprises a sewage cavity, a sewage drainage back-pumping pump, a back-pumping pipeline, a sewage drainage pipeline and a filtering module, the back-pumping treatment mechanism 34 is communicated with the back-pumping port 65 through a sewage drainage back-pumping pump matched hose, a drying output mechanism 35 is fixedly installed in the device carrying cavity 31, the drying output mechanism 35 comprises an output air pump, a heating module and a drying output pipeline, a cavity top frame 32 is arranged at the top of the device carrying cavity 31, a driving motor 39 is fixedly installed on the cavity top frame 32 through a mounting plate fixedly, a driving gear 40 is installed on the output shaft of the driving motor 39, a back-wall of the driving motor 11 is installed on the back-wall of the device base 11, a back door plate 25 is fixedly installed on the back-wall of the device carrying cavity 33, the drying output mechanism 35 is connected with one end of the drying output pipeline 23 through the drying output pipeline, and the back-wall of the back-wall is communicated with one end of the drying output pipeline 23.

Preferably, the spray drying component is an output spray plate 62, a cavity is arranged in the output spray plate 62, an output nozzle 69 communicated with the internal cavity is arranged on the outer wall of the tip end of the output spray plate 62, a spray plate input port 73 communicated with the internal cavity is arranged at the top of the output spray plate 62, and the output spray plate 62 arranged in the spray carrying groove 21 is communicated with the corresponding communication cavity channel 23 through a pipeline through the top spray plate input port 73.

Preferably, an intra-shaft transmission cavity 74 is arranged in the functional fit shaft body 57, a conduction pipe orifice 61 is arranged at the top array of the intra-shaft transmission cavity 74, a fixing frame 71 is fixedly arranged at the outer wall array of the functional fit shaft body 57, the fixing frame 71 is used for fixedly mounting the output jet plate 62, the conduction pipe orifice 61 is communicated with a corresponding jet plate input port 73, a multi-communication base 63 is arranged at the bottom of the functional fit shaft body 57, a base transmission cavity 75 is arranged in the multi-communication base 63, a central communication port 77 is arranged at the center of the base transmission cavity 75 and communicated with the intra-shaft transmission cavity 74, the bottom of the functional fit shaft body 57 penetrates through a central through groove of the drain mesh bottom plate 53, the multi-communication base 63 is fixedly arranged at the center bottom of the drain mesh bottom plate 53 through a snap fit bolt, a side array of the base transmission cavity 75 is provided with a side branch port 76 and communicated with a side branch pipe 72, a liquid pipe 64 is arranged at the bottom of the base transmission cavity 75, the other end of the liquid pipe 64 is communicated with a multi-communication valve orifice of a pump body in the cleaning output mechanism 33 through a hose, an air pipe 66 is arranged at the bottom of the base transmission cavity 75, the other end of the air pipe 66 is communicated with the multi-communication valve orifice of the pump body of the drying output mechanism 35 through the hose, a multi-communication base 63 is fixedly arranged at the bottom of the base transmission cavity 63, a transmission bottom plate 67 is fixedly arranged at the bottom of the pump bottom plate 67, the transmission bottom 67 is provided with an outer gear 67 is meshed with an outer gear 67, and an outer gear drive gear 67 is meshed with an outer gear 39, and a drive gear 39 is meshed with an outer gear 39, and a drive gear is meshed with the outer gear 39, and a drive gear 39 is meshed with the outer gear groove 41.

Preferably, the positioning cavity plate 51 is fixedly installed in the corresponding fan-shaped working space 110 of the grid leakage bottom plate 53, a cavity groove is formed in the positioning cavity plate 51 and is communicated with the base transmission cavity 75 through the side branch pipe 72, the butt joint guide pipe 52 communicated with the internal cavity groove is arranged at the top of the positioning cavity plate 51, the transmission fan-shaped base 82 is internally provided with the transmission narrow cavity 94, the bottom of the transmission narrow cavity 94 is provided with the alignment groove 92, the alignment groove 92 is symmetrically provided with the butt joint through pipe 93 which can be in butt joint communication with the butt joint guide pipe 52, the top array of the transmission fan-shaped base 82 is provided with the communication fixed port 95, the communication butt joint base 99 is installed at the bottom of the support carrying tube 96 in a communicating manner, and the communication butt joint base 99 is fixedly communicated with the top of the communication fixed port 95 in a butt joint manner.

Preferably, an embedded rotating groove 101 is formed in the rotating carrying ring 98, the inner end of a gear mounting shaft 103 is rotatably arranged in the embedded rotating groove 101, a spiral rotating part 102 is arranged at the tail end of the gear mounting shaft 103, and a protruding clamping strip 104 is arranged on the outer wall array of the gear mounting shaft 103.

Preferably, a transmission cavity 90 is arranged in the transmission fan-shaped top seat 81, a central transmission tooth 88 is rotatably arranged in the transmission cavity 90, three groups of matched transmission teeth 89 are arranged on two sides of the central transmission tooth 88 in a meshing transmission manner, a central shaft seat 87 is fixedly arranged at the top of the central transmission tooth 88, a matched transmission shaft 84 is fixedly arranged on the central shaft seat 87, the top of the matched transmission shaft 84 penetrates through the top cover of the transmission fan-shaped top seat 81 and is provided with an external shaft tooth 86, a transmission toothed ring 29 is arranged on the inner wall of the bottom of the top cover plate 16, the inner ring teeth of the transmission toothed ring 29 can be meshed with the external shaft tooth 86 for transmission, a transmission inner shaft 111 is rotatably arranged in the supporting carrying tube 96 through a top embedded bearing, a clamping transmission sleeve 100 is arranged at the position corresponding to the rotary carrying ring 98, the outer wall of the clamping transmission sleeve 100 is fixedly connected with the inner wall of a vertical hole of the rotary carrying ring 98 through the tail end of a supporting piece, the top of the transmission inner shaft 111 penetrates through the bottom hole of the transmission fan-shaped top seat 81 and is fixedly arranged in the transmission cavity 90 and fixedly connected with the corresponding central hole of the matched transmission tooth 89, the top seat 96, the top of the transmission inner shaft 111 in the centermost center in the supporting tube 96 penetrates through the bottom of the central hole of the transmission fan-shaped top seat 81 and is fixedly arranged in the transmission cavity 90, and is fixedly arranged with the central hole 88.

Preferably, the outer wall of the top of the transmission fan-shaped top seat 81 is provided with pull rings 83, six groups of inner matching partition plates 59 are fixedly arranged on the outer wall annular array of the functional matching shaft body 57, the positions of the inner matching partition plates 59 and the separating outer plate 55 correspond to each other, so that the inner space of the hexagonal frame 54 is divided into six corresponding matching action spaces, the fan-shaped carrying frame 80 is of an open structure and can be embedded with a net-shaped guard plate, and a groove is formed in the front side of the processing cavity 15 and can be opened and closed to rotatably install the front door plate 13.

The specific application method of the invention comprises the following steps:

when the cleaning machine is used, gears to be cleaned are inserted into the gear mounting shafts 103 on the supporting carrying tube bodies 96 in the fan-shaped carrying frame 80 in a butt joint mode through the central holes, the gears are fixed through the raised clamping strips 104 and the strong damping of the gear central holes, after the insertion is completed, the top cover plate 16 and the front door plate 13 are rotated to open, the hexagonal frame 54 is rotated to drive the whole rotary functional mechanism 20 to slowly rotate, six groups of three-dimensional carrying mechanisms 70 which are completed in the insertion are lifted through the handheld pull rings 83 and are installed into the corresponding fan-shaped working spaces 110 through the front side openings of the processing cavity 15, the positioning grooves 92 are in butt joint and embedded with the positioning cavity plate 51 to ensure correct installation positions, then the front door plate 13 and the top cover plate 16 are closed, the rear sealing plate 26 is opened to ensure correct communication of internal components and sufficient cleaning agent dosage in the cleaning output mechanism 33, and then the cleaning processing mode is determined and started through the control panel 14;

in the cleaning process, the cleaning machine is started by a driving motor 39, the cleaning machine is driven among teeth by a driving gear 40, a functional matching shaft body 57 is fixed at the bottom of a screen bottom plate 53 through a bottom multi-communication base 63, thereby driving a rotary functional mechanism 20 to integrally rotate through the inter-tooth transmission, meanwhile, a cleaning output mechanism 33 is started (a back-pumping treatment mechanism 34 is started during drying), a pump body and a communicated multi-way valve pipe are used for outputting the cleaning agent at high pressure, the cleaning agent and the drying air flow have two output directions, one is that an output spray plate 62 communicated with the communication cavity 23 in a plurality of groups of spray carrying grooves 21 of the inner wall of a treatment cavity 15 is sprayed and output at high pressure outwards through an output nozzle 69, thereby realizing the spray treatment from outside to inside on all fan-shaped working spaces 110 and gears arranged inside by the periphery of the rotary functional mechanism 20, the other is communicated with a base transmission cavity 75 in the multi-communication base 63 through a liquid pipe 64 (the drying air flow is an air pipe 66), so that the high-pressure spraying effect from inside to outside is realized by each group of output spraying plates 62 on the outer side through the top conducting pipe orifice 61 of the functional matching shaft body 57 and each group of fan-shaped working spaces 110 in the hexagonal frame 54, and simultaneously, the high-pressure air flow in the base transmission cavity 75 can pass through the side branch ports 76 to the outside and pass through the side branch pipes 72 to be closely contacted with the gears through the output end holes 97 on the surfaces of the supporting carrying pipe bodies 96 by the corresponding transmission narrow cavities 94 of the butt joint guide pipes 52 of the positioning cavity plates 51, so that the high-pressure spraying output is carried out by each group of supporting carrying pipe bodies 96, the laminating effect spraying efficiency and effect are improved, the problem that the shielding effect on the cleaning effect is influenced due to the front-rear spraying effect formed by the supporting carrying pipe bodies 96 in the close output of the outer walls of adjacent gears in the rotating process can be realized, and the cleaning agent in the spraying and drying process is simultaneously, liquid and other debris flow downwardly through the screen floor 53 into the inclined guide surface 43 and are initiated by the evacuation port 65 through the evacuation treatment mechanism 34 to effect evacuation;

according to the integrated cleaning and drying device for gear processing, a three-dimensional distribution setting effect can be achieved through the arrangement of the three-dimensional carrying mechanism 70, a plurality of groups of gears carrying mechanisms 85 in the three-dimensional carrying mechanism 70 and the vertically distributed groups of gear mounting shafts 103 in the gears carrying mechanisms 85 are used for realizing the insertion and fixation of gears, so that the installation convenience and the efficiency are high, meanwhile, the utilization efficiency of an internal cleaning and drying space can be improved when a plurality of groups of gears are vertically distributed and carried, the problems of low efficiency and poor effect caused by shielding surfaces of the gears in the cleaning and drying processes are avoided, a cleaning and drying operation mode with higher efficiency is achieved through rotation and omni-directional spraying output effect, and the yield and efficiency of gear processing are achieved;

in the integrated cleaning and drying device for gear processing, the vertical three-dimensional gear distribution effect is realized through the arrangement of the three-dimensional carrying mechanisms 70, and meanwhile, the arrangement gears of the three-dimensional carrying mechanisms 70 can be driven to rotate in multiple directions to improve the actual spraying effect, when the three-dimensional carrying mechanisms 70 are arranged in the corresponding fan-shaped working spaces 110, the top cover plate 16 is buckled, the external teeth 86 of the top ends of the matched transmission shafts 84 are meshed with the internal teeth of the transmission toothed rings 29 on the bottom surfaces of the top cover plate 16, so that in the rotating process of the rotating functional mechanism 20, the meshed transmission drives the matched transmission shafts 84 to rotate to enable the central transmission teeth 88 to rotate, and the meshed multiple groups of matched transmission teeth 89 are driven to rotate together, so that the transmission inner shafts 111 drive the gears to rotate along the axial direction of the supporting carrying pipes 96, and simultaneously high-pressure liquid or air flow enters the supporting carrying pipes 96 through the base transmission cavities 75, the side 72, the positioning cavity plates 51 and the transmission narrow cavities 94, and the spiral rotating parts 102 of the gear mounting shafts 103 in the embedded rotating grooves 101 are driven to rotate continuously through the impact action, so that the gears are enabled to rotate along the supporting bodies 96 and the multiple groups of the gears are driven to rotate along the axial direction, and the multiple spraying effect of the multiple spraying effect is realized, and the multiple axial and the actual drying effect of the multiple spraying effect is realized;

in the integrated cleaning and drying device for gear processing, higher efficiency and effect cleaning and drying operation can be realized in the gear drying process through the omnidirectional dead-angle-free spraying and drying function, in the spraying and drying process, the output nozzles 69 at the front side of the output spraying plate 62 are in a high-pressure fan shape to realize the output of spraying and drying hot gas, the arrangement positions of the output spraying plate 62 are respectively arranged in the spraying carrying grooves 21 at the outer side of the processing cavity 15 to realize the high-pressure spraying function of the external side rotating function mechanism 20, and simultaneously, the annular array of six groups of output spraying plates 62 are matched in the hexagonal frame 54 and are separated by the internal matched partition plate 59 to realize the high-pressure spraying and drying function of a plurality of groups of gears which are vertically and three-dimensionally distributed in the fan-shaped operation space 110 from inside to outside, so that the omnidirectional dead-angle-free spraying and drying process is realized by matching the rotating effect and the output effect of the output end holes 97 close to the gears in the process, and the vertical three-dimensional gear distribution state is matched with the rotating action and the high-pressure spraying function at the front and back time, so that the gear cleaning and drying efficiency and drying effect are greatly improved;

the above embodiments are only for illustrating the technical concept and features of the present invention, and are intended to enable those skilled in the art to understand the present invention and implement it without limiting the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims (5)

1. The utility model provides a washing stoving integrated device that gear machining used, includes equipment frame, gear treatment fuselage, be equipped with equipment in the equipment frame and carry on the chamber, be equipped with the processing cavity in the gear treatment fuselage, its characterized in that: the inner wall array of the processing cavity is provided with a spraying carrying groove, the spraying carrying groove is internally provided with a spraying drying component, the processing cavity is internally provided with a rotary functional mechanism in a rotating way, the rotary functional mechanism comprises a rotary bottom plate, the rotary bottom plate is provided with a grid bottom plate, the upper surface of the grid bottom plate is fixedly provided with a hexagonal frame, the upper surface of the grid bottom plate is fixedly provided with a functional matching shaft body, the functional matching shaft body array is fixedly provided with six groups of spraying drying components, each surface of the hexagonal frame is internally provided with a built-in screen plate, each group of spraying drying components can be ensured to spray and dry, each corner end of the hexagonal frame is fixedly provided with a separation outer plate, each group of separation outer plate separates the space between the processing cavity and the hexagonal frame into six fan-shaped working spaces, the detachable embedded mounting three-dimensional carrying mechanism in the fan-shaped working spaces, the three-dimensional carrying mechanism comprises a fan-shaped carrying frame, a transmission fan-shaped top seat is fixedly arranged in a fan-shaped groove at the top of the fan-shaped carrying frame, a transmission fan-shaped base is fixedly arranged in a fan-shaped groove at the bottom of the fan-shaped carrying frame, gear carrying mechanisms are rotatably arranged between the transmission fan-shaped top seat and the transmission fan-shaped base in an array distribution manner, the gear carrying mechanisms comprise supporting carrying pipe bodies, a rotating carrying ring capable of axially rotating is rotatably arranged on the supporting carrying pipe body array, a gear mounting shaft is rotatably arranged on the front end surface of the rotating carrying ring, the gear mounting shaft is fixed through the gear mounting shaft and is matched with the gear mounting shaft to rotate and the rotating carrying ring to axially rotate so as to drive the gear to rotate in a multi-direction in the spraying and drying operation process, an output end hole capable of spraying and drying output operation is arranged on the surface of the supporting carrying pipe body, the front end face of the gear treatment machine body is provided with a control panel, the upper surface of the gear treatment machine body is rotationally provided with a top cover plate, the top end face of the gear treatment machine body is symmetrically provided with an embedded groove, a telescopic supporting rod is rotationally arranged in the embedded groove, the tail end of the telescopic supporting rod is connected with the top cover plate in a supporting way, the top of the top cover plate is provided with a handle, the side wall of the spraying carrying groove is provided with a communicating cavity, the tail end of the communicating cavity is arranged in the equipment carrying cavity, the bottom of the treatment cavity is provided with a rotary embedded groove, the bottom of the rotary embedded groove is provided with an inclined guide surface, the center of the inclined guide surface is fixedly provided with a supporting range ring body, the center of the inclined guide surface is provided with a pipe passing through groove, the side of the pipe passing through groove is provided with a back-drawing port, the outer wall array of the supporting range ring body is provided with an inflow port, the inner wall of the treatment cavity is fixedly provided with an annular protection frame, the pipe passing through groove is used for the communicating pipe to pass through and overflow prevention through the sealing pipe sleeve, the rotating bottom plate is rotationally arranged in the rotating embedding groove and rotationally supported by the supporting range ring body, the main control module is fixedly arranged in the equipment carrying cavity, the cleaning output mechanism is fixedly arranged in the equipment carrying cavity and comprises a water cavity, a water inlet pipeline, a spraying output pump, an output pipeline and a communicating valve, the equipment carrying cavity is internally and fixedly provided with a back-pumping treatment mechanism, the back-pumping treatment mechanism comprises a sewage cavity, a sewage back-pumping pump, a back-pumping pipeline, a sewage pipeline and a filtering module, the back-pumping treatment mechanism is communicated with the back-pumping port through a sewage back-pumping pump matching hose, the equipment carrying cavity is internally and fixedly provided with a drying output mechanism, and the drying output mechanism comprises an output air pump, a sewage pump and a filtering module, the device comprises a heating module and a drying output pipeline, wherein a cavity top frame is arranged at the top of a carrying cavity of the device, a gear processing machine body is arranged at the bottom end face of the gear processing machine body in a fitting and supporting mode, the gear processing machine body is fixed on the upper side of the cavity top frame through a bolt hole groove structure, a driving motor is fixedly arranged on the cavity top frame through a mounting plate, a driving gear is arranged on an output shaft of the driving motor, a post-maintenance door plate is arranged on the rear wall of a machine seat of the device, a cleaning output mechanism is connected with a multi-way valve in the output pipeline of a pump body in the drying output mechanism, one end of the multi-way valve is communicated with the tail end of the communicating cavity, the spraying and drying assembly is an output spray plate, a cavity is arranged in the output spray plate, an output nozzle communicated with the internal cavity is arranged on the outer wall of the tip of the output spray plate, a spray plate input port communicated with the internal cavity is arranged at the top of the output spray plate, the output spraying plate arranged in the spraying carrying groove is communicated with the corresponding communication cavity through a top spraying plate input port by a pipeline, an in-shaft transmission cavity is arranged in the functional matching shaft body, a conduction pipe orifice is arranged at the top of the in-shaft transmission cavity in an array manner, a fixing frame is fixedly arranged on the outer wall array of the functional matching shaft body and used for fixedly mounting the output spraying plate, the conduction pipe orifice is communicated with the corresponding spraying plate input port, a plurality of communication bases are arranged at the bottoms of the functional matching shaft body, a base transmission cavity is arranged in the plurality of communication bases, a center communication port is arranged at the center of the base transmission cavity and is communicated with the in-shaft transmission cavity, the bottoms of the functional matching shaft body penetrate through the center communication groove of the bottom plate of the leakage net, the plurality of communication bases are fixedly arranged at the center bottom of the bottom plate of the leakage net through a buckle matching bolt, the base transmission chamber avris array is equipped with side branch port and intercommunication and installs side branch pipe, base transmission chamber bottom intercommunication is installed the liquid pipe, the liquid pipe other end pass through the hose with the interior pump body multipotency valve mouth intercommunication of clean output mechanism, base transmission chamber bottom intercommunication is installed the trachea, the trachea other end pass through the hose with the pump body pipeline multipotency valve mouth intercommunication of stoving output mechanism, many intercommunication base bottom fixed mounting has the transmission bottom plate, transmission bottom plate center is the logical groove structure, transmission bottom plate outer wall is equipped with the external tooth, the driving motor output shaft passes rotate embedded groove diapire through-hole and by driving gear with external tooth meshing transmission, the drain wire bottom plate is in correspondence fan-shaped operation space internal fixed mounting has the location chamber board, be equipped with the cavity in the location chamber board and pass through side branch pipe with base transmission chamber intercommunication, the location chamber board top be equipped with the butt joint pipe of inside cavity groove intercommunication, be equipped with the transmission narrow chamber in the transmission fan-shaped base, transmission narrow chamber bottom is equipped with the alignment recess, the alignment recess symmetry be equipped with can carry out the butt joint pipe and install the fixed port of butt joint bottom plate, the base is connected with the fixed connection top of base intercommunication, the base is connected with the fixed connection port.

2. The integrated cleaning and drying device for gear processing according to claim 1, wherein: the number of the supporting and carrying pipes is seven, and the supporting and carrying pipes are in two rows and distributed along an arc shape, so that the supporting and carrying pipes are not mutually shielded, and the spraying and drying effects are not affected.

3. The integrated cleaning and drying device for gear processing according to claim 1, wherein: the rotary carrying ring is internally provided with an embedded rotary groove, the inner end of the gear installation shaft is rotatably arranged in the embedded rotary groove, the tail end of the gear installation shaft is provided with a spiral rotary part, and the outer wall array of the gear installation shaft is provided with a protruding clamping strip.

4. The integrated cleaning and drying device for gear processing according to claim 1, wherein: the transmission mechanism comprises a transmission fan-shaped footstock, a transmission cavity is arranged in the transmission fan-shaped footstock, a central transmission tooth is rotatably arranged in the transmission cavity, three groups of matched transmission teeth are arranged on two sides of the central transmission tooth in an engaged transmission manner, the matched transmission teeth on two sides are symmetrically arranged, a central shaft seat is fixedly arranged at the top of the central transmission tooth, a matched transmission shaft is fixedly arranged in the central shaft seat, the top of the matched transmission shaft penetrates through the top cover of the transmission fan-shaped footstock and is provided with an external shaft tooth, a transmission toothed ring is arranged on the inner wall of the bottom of a top cover plate, inner teeth of the transmission toothed ring can be meshed with the external shaft tooth for transmission, a transmission inner shaft is rotatably arranged in a supporting carrying tube body through a top embedded bearing, a clamping transmission sleeve is arranged at a position corresponding to the transmission inner shaft, the outer wall of the clamping transmission sleeve is fixedly connected with the inner wall of a vertical hole of the rotary carrying ring through the tail end of a supporting piece, and the bottom hole of the transmission fan-shaped footstock is fixedly arranged in the transmission cavity and the corresponding central hole of the matched transmission tooth, and the transmission tooth is fixedly arranged in the center hole of the center of the transmission fan-shaped footstock, and the transmission sleeve body passes through the central tooth and the central transmission hole in the central transmission hole.

5. The integrated cleaning and drying device for gear processing according to claim 1, wherein: the outer wall of the top of the transmission fan-shaped top seat is provided with a pull ring, six groups of inner matching partition plates are fixedly arranged on the annular array of the outer wall of the functional matching shaft body, the inner matching partition plates correspond to the positions of the separation outer plates, so that the inner space of the hexagonal frame is divided into six corresponding matching action spaces, the front and rear parts of the fan-shaped carrying frame are of an open structure and can be embedded with a net-shaped guard plate, and a front door plate is arranged on the front side of the processing cavity body in a openable and openable rotation mode.