CN114378634A

CN114378634A - Machining device for production of continuously variable transmission

Info

Publication number: CN114378634A
Application number: CN202210026768.0A
Authority: CN
Inventors: 王兴洪
Original assignee: Zhetuo Benye Ningbo Tractor Manufacturing Co ltd
Current assignee: Zhetuo Benye Ningbo Tractor Manufacturing Co ltd
Priority date: 2022-01-11
Filing date: 2022-01-11
Publication date: 2022-04-22

Abstract

The application relates to the technical field of gearbox production, and discloses a processingequipment is used in infinitely variable transmission production, including the processing platform, the processing case is installed to the upside of processing platform, the processing unit is installed with the inner wall of processing case to the upside of processing platform, the rear side of processing bench end is connected with loading attachment, the bottom of processing platform is connected with cyclic utilization device, the upside of processing platform has evenly seted up material hole thoroughly, belt cleaning device is installed to the inner wall of processing case, cyclic utilization device includes the rose box, the motor is installed through the mounting bracket to the back lateral wall of rose box, the lateral wall is connected with the bull stick around the rose box, the transmission end of motor is connected with the rear side of bull stick. The invention has the advantages that: can cut apart clear water and coolant liquid through setting up cyclic utilization device, improve the cyclic utilization to the coolant liquid, make things convenient for this device to wash after processing simultaneously, improve the quality of follow-up processing operation.

Description

Machining device for production of continuously variable transmission

Technical Field

The application relates to the technical field of gearbox production, in particular to a processing device for production of a continuously variable transmission.

Background

The stepless speed changing box saves complex and heavy gear combination variable speed transmission and only uses two groups of belt wheels for variable speed transmission. The speed change is carried out by changing the contact radius of the driving wheel and the driven wheel transmission belt, because the CVT can realize the continuous change of the transmission ratio, thereby obtaining the best matching of the transmission system and the working condition of the engine, improving the fuel economy and the dynamic property of the whole vehicle, improving the operation convenience of a driver and the riding comfort of passengers, therefore, the transmission device is an ideal automobile transmission device, the prior stepless gearbox parts need to use belt wheels, metal blades, driving wheels or driven wheels in the processing process, when these parts are processed, a cutting device or a punching device is inevitably used, and the course of working of these parts still need cool off, washes the processing position through the coolant liquid in the course of working, and before the piece followed the coolant liquid entering circulation system in the course of washing, need filter the piece in the coolant liquid, avoids influencing the use of circulation system and the quality of coolant liquid.

Most for sealed production of current apparatus for producing, the piece removes along with the coolant liquid in the production process, but because of the difference of processing tool and method, just can cause the coolant liquid to splash to the seal box when punching device uses, after the interval time falls, tiny piece gets into the processing district, cause the quality of raw materials processing to descend easily, so need wash processing district and seal box, make abluent clear water and coolant liquid take place the mixed phenomenon easily during washing, cause the waste of coolant liquid, wash the reduction of number of times simultaneously, cause the problem of part machining quality decline.

Disclosure of Invention

The embodiment of the application provides a processingequipment is used in continuously variable transmission production, including the processing platform, the processing case is installed to the upside of processing platform, the processing unit is installed with the inner wall of processing case to the upside of processing platform, the rear side of processing platform upper end is connected with loading attachment, the bottom of processing platform is connected with cyclic utilization device, the upside of processing platform has evenly been seted up and has been passed through the material hole, belt cleaning device is installed to the inner wall of processing case.

Further, the cyclic utilization device includes the rose box, the motor is installed through the mounting bracket to the back lateral wall of rose box, the lateral wall is connected with the bull stick around the rose box, the transmission end of motor is connected with the rear side of bull stick, the diapire of rose box is connected with the separation plate, the outer wall connection of bull stick has the guide plate.

Further, the lower lateral wall of rose box inner chamber is connected with two sets of filter tubes, the inner wall connection of rose box has two sets of honeycomb ducts, the honeycomb duct is the infundibulate setting, the downside of honeycomb duct is connected with the upside of filter tube.

Further, the lower lateral wall of rose box is connected with two sets of pipes of slagging tap, the four corners of rose box bottom all is connected with the bracing piece, the solenoid valve is installed to the pipe downside of slagging tap.

Further, both ends all are connected with the action layer around the guide plate, the material on action layer is rubber, the upside of guide plate is provided with the guiding gutter.

Further, the lateral wall of rose box is connected with two sets of filters, the filter is located the upside of filter tube, the filter is located the downside of honeycomb duct, the lateral wall all is connected with the outlet pipe about the rose box, the outlet pipe is located the upside of filter, the outlet pipe is located the downside of honeycomb duct.

Furthermore, the rear side wall of the filter box is hinged with two groups of sealing box doors, sealing strips are arranged on the outer walls of the sealing box doors, and the rear sides of the sealing box doors are connected with handles.

Furthermore, one end of the water outlet pipe, which is positioned in the inner cavity of the filter box, is connected with a filter bobbin, and one side of the lower end of the flow guide pipe, which is close to the water outlet pipe, is connected with a magnetic block.

Furthermore, the front side wall of the filter box is provided with an observation window, and the front side wall of the processing box is provided with an observation window.

Further, the downside of bracing piece is connected with the mounting panel, the mounting hole has all been seted up in the four corners of mounting panel, the bottom of bracing piece is connected with the shock pad, the material of shock pad is rubber.

The embodiment of the application adopts at least one technical scheme which can achieve the following beneficial effects:

firstly, the clear water and the cooling liquid can be separated by the recycling device, so that the recycling of the cooling liquid is improved, the device is convenient to clean after processing, and the quality of subsequent processing operation is improved;

secondly, clean water and cooling liquid are filtered for three times through the filter pipe, the filter pipe and the filter bobbin, so that the filtering quality and speed are improved, when the cooling liquid and the clean water enter the filter bobbin after being filtered by the filter plate, if metal debris still exists in the cooling liquid and the clean water, the cooling liquid and the clean water can be adsorbed by the magnetic block, and the influence of the fine debris on the secondary utilization of the clean water and the cooling liquid is avoided;

thirdly, the slag discharge pipe is arranged to be matched with the electromagnetic valve, so that residues can be discharged and removed quickly, the device is long in service time and does not need to be cleaned frequently by workers, and the inner cavity of the filter box is cleaned by the workers through the sealing box door.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

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

FIG. 2 is a rear view of the present invention;

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

FIG. 4 is a schematic diagram of a separator plate structure according to the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 4 according to the present invention.

In the figure: 100. a processing table; 120. a processing box; 130. processing the machine set; 140. a feeding device; 150. a cleaning device; 200. a recycling device; 210. a filter box; 211. a motor; 212. a rotating rod; 213. a separation plate; 214. a baffle; 215. an active layer; 216. a support bar; 217. mounting a plate; 218. a shock pad; 220. a filter tube; 230. a flow guide pipe; 240. a slag pipe; 250. an electromagnetic valve; 260. a filter plate; 270. a water outlet pipe; 271. filtering the yarn tube; 280. sealing the box door; 290. a magnetic block.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The technical solutions provided by the embodiments of the present application are described in detail below with reference to the accompanying drawings.

In this embodiment, as shown in fig. 1 to 5, a processing device for manufacturing a continuously variable transmission comprises a processing table 100, a processing box 120 is installed on the upper side of the processing table 100, a processing unit 130 is installed on the upper side of the processing table 100 and the inner wall of the processing box 120, the processing unit 130 includes a punching device, an automatic lathe, a fixture, a moving device, a mechanical arm and the like, a feeding device 140 is connected to the rear side of the upper end of the processing table 100, a recycling device 200 is connected to the bottom end of the processing table 100, material through holes are uniformly formed in the upper side of the processing table 100, a cleaning device 150 is installed on the inner wall of the processing box 120, and the cleaning device 150 includes, but is not limited to, a water pump, a water pipe, a spray head and a spray head adjusting device.

Specifically, the recycling device 200 comprises a filter box 210, a motor 211 is mounted on the rear side wall of the filter box 210 through a mounting frame, rotary rods 212 are connected to the front side wall and the rear side wall of the filter box 210, the transmission end of the motor 211 is connected with the rear side of the rotary rods 212, a separation plate 213 is connected to the bottom wall of the filter box 210, the upper side of the separation plate 213 is arranged in an arc shape, the height of the separation plate 213 needs to be noticed and cannot affect the operation of the guide plate 214, and meanwhile, the separation effect on clean water and cooling liquid is achieved, the guide plate 214 is connected to the outer wall of the rotary rods 212, the clean water and the cooling liquid can be separated through the recycling device 200, the recycling of the cooling liquid is improved, meanwhile, the device can be cleaned after being processed, the quality of subsequent processing operation is improved, two sets of filter pipes 220 are connected to the lower side wall of the inner cavity of the filter box 210, two sets of guide pipes 230 are connected to the inner wall of the filter box 210, and the guide pipes 230 are arranged in a funnel shape, the lower side of the guide pipe 230 is connected with the upper side of the filter pipe 220, the coolant and clean water can be filtered by arranging the filter pipe 220, meanwhile, the filtered residues are collected, the guide pipe 230 is arranged to guide the coolant and the clean water to enter the filter pipe 220, the lower side wall of the filter box 210 is connected with two groups of slag discharging pipes 240, four corners of the bottom end of the filter box 210 are connected with supporting rods 216, an electromagnetic valve 250 is arranged at the lower side of the slag discharging pipe 240, the upper side of the slag discharging pipe 240 penetrates through the lower side wall of the filter box 210 and extends to the bottom of the inner cavity of the filter pipe 220, the device can be supported by arranging the supporting rods 216 to facilitate the work of the slag discharging pipe 240, the residues can be rapidly discharged and removed by arranging the slag discharging pipe 240 to be matched with the electromagnetic valve 250, the front end and the rear end of the guide plate 214 are connected with the active layers 215, the material of the active layers 215 is rubber, the upper side of the guide plate 214 is provided with a guide groove, the action layer 215 is arranged to prevent cooling liquid or clean water from flowing out of the front side and the rear side of the guide plate 214 and further influence the quality of the cooling liquid, the action layer 215 is wear-resistant and simultaneously fully fills a gap between the guide plate 214 and the inner wall of the filter box 210, the side wall of the filter box 210 is connected with two groups of filter plates 260, the filter plates 260 are arranged on the upper side of the filter tubes 220, the filter plates 260 are arranged on the lower side of the guide tube 230, the left side wall and the right side wall of the filter box 210 are both connected with water outlet pipes 270, the water outlet pipes 270 are arranged on the upper side of the filter plates 260, the water outlet pipes 270 are arranged on the lower side of the guide tube 230, the clean water and the cooling liquid can be secondarily filtered by arranging the filter plates 260, the filtering quality is improved, the filtered clean water and the cooling liquid are discharged through the water outlet pipes 270 to be secondarily utilized, the rear side wall of the filter box 210 is hinged with two groups of sealing doors 280, sealing strips are arranged on the outer walls of the sealing box doors 280, and handles are connected with the rear sides of the sealing boxes doors 280, the inner cavity of the filter box 210 is cleaned by workers through the arrangement of the sealing box door 280, one end of the water outlet pipe 270, which is positioned in the inner cavity of the filter box 210, is connected with the filtering yarn tube 271, one side, which is close to the water outlet pipe 270, of the lower end of the guide pipe 230 is connected with the magnetic block 290, clean water and cooling liquid are filtered for the third time through the arrangement of the filtering yarn tube 271, the clean water and the cooling liquid are discharged out of the inner cavity of the filter box 210 through the water outlet pipe 270 after being filtered for recycling, when the cooling liquid and the clean water enter the filtering yarn tube 271 after being filtered by the filter plate 260, if metal debris still exists in the cooling liquid and the clean water, the metal debris can be adsorbed by the magnetic block 290, the influence of the fine debris on the secondary utilization of the clean water and the cooling liquid is avoided, the front side wall of the filter box 210 is provided with the observation window, the front side wall of the processing box 120 is convenient for the workers to check and check the internal conditions of the filter box 210 and the processing box 120 through the observation window, the lower side of the supporting rod 216 is connected with a mounting plate 217, mounting holes are formed in four corners of the mounting plate 217, the device can be conveniently and rapidly fixed and mounted through the mounting plate 217, the bottom end of the supporting rod 216 is connected with a shock pad 218, the shock pad 218 is made of rubber, and the shock pad 218 is arranged, so that large vibration during operation of the device is avoided, and the device is prevented from being influenced.

The working process of the invention is as follows: the device is used for feeding materials through the feeding device 140 during working, the raw materials are brought into the processing box 120 through the fixture in the processing unit 130, the raw materials are punched and cut through the punching device meshed with the processing unit 130, the shapes of internal parts of the stepless transmission, such as belt wheels, metal blades, driving wheels or driven wheels, are produced from the raw materials, the raw materials are sent back to the feeding device 140 through the processing unit 130 after production is finished, the next group of raw materials are operated, when the processing unit 130 is opened during production, a cooling nozzle of the processing unit 130 can spray cooling liquid to rapidly cool the raw materials and the processing device in the processing unit 130, the cooling liquid drives raw material scraps to enter an inner cavity of the filter box 210 through a feeding hole of the processing table 100 during cooling, clean water is discharged through the cleaning device 150 after processing is finished, and the upper sides of the processing unit 130 and the processing table 100 are cleaned, avoid the influence of residual residue on the processing work of the next group of raw materials, clear water and residue enter the inner cavity of the filter box 210 through the material through hole of the processing table 100, the motor 211 is started, the rotating rod 212 is driven to rotate through the motor 211, the guide plate 214 is driven to rotate through the rotation of the rotating rod 212 to carry out angle adjustment, when cooling liquid enters the filter box 210, the left side of the guide plate 214 is lowered, the cooling liquid enters the guide pipe 230 on the left side, when clear water enters the right side of the guide plate 214, the right side of the guide plate 214 is lowered, clear water enters the guide pipe 230 on the right side, clear water and raw materials enter the filter pipe 220 through the guide of the guide pipe 230, the clear water and the raw materials enter the inner cavity of the filter box 210 after being filtered through the filter pipe 220, the raw materials and the clear water are separated through the separation plate 213, the raw materials and the clear water are stacked and then rise in the inner cavity of the filter box 210, when the raw materials and the clear water are stacked to a certain height, the filter plate 260 can cross the filter plate 260 to carry out the secondary filtration on impurities in the raw materials and the clear water, the filtered raw materials and clean water are filtered for the third time through the filtering yarn tube 271, the filtered raw materials and the filtered clean water are discharged out of the inner cavity of the filtering box 210 through the water outlet pipe 270 for cyclic utilization, when the debris in the residue discharging pipe 240 is more, the electromagnetic valve 250 is opened, the debris is discharged out of the filtering pipe 220 through the residue discharging pipe 240, when the debris in the inner cavity of the filtering box 210 is accumulated too much, the sealing box door 280 is opened, a worker cleans the inner cavity of the filtering box 210, when the cooling liquid and the clean water enter the filtering yarn tube 271 after being filtered by the filtering plate 260, if metal debris still exists in the cooling liquid and the clean water, the metal debris can be adsorbed by the magnetic block 290, the influence of the fine debris on the secondary utilization of the clean water and the cooling liquid is avoided, when the impurities in the filtering pipe 220 are discharged through the residue discharging pipe 240 and the worker opens the sealing box door 280 to clean the inner part of the filtering box 210, the waste of the cooling liquid and the clean water can be inevitably caused, the drain pipe can be installed at the bottom of the filtering box 210, the coolant and clean water filtered by the filter tube 220 are collected and returned to the inner cavity of the filter box 210 after being cleaned.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims

1. The utility model provides a processingequipment is used in infinitely variable transmission production which characterized in that: including processing platform (100), processing case (120) are installed to the upside of processing platform (100), processing unit (130) are installed with the inner wall of processing case (120) to the upside of processing platform (100), the rear side of processing platform (100) upper end is connected with loading attachment (140), the bottom of processing platform (100) is connected with cyclic utilization device (200), the material hole has evenly been seted up to the upside of processing platform (100), belt cleaning device (150) are installed to the inner wall of processing case (120).

2. The machining device for the production of the continuously variable transmission as claimed in claim 1, wherein: cyclic utilization device (200) include rose box (210), motor (211) are installed through the mounting bracket to the back lateral wall of rose box (210), the front and back lateral wall of rose box (210) is connected with bull stick (212), the transmission end of motor (211) is connected with the rear side of bull stick (212), the diapire of rose box (210) is connected with separator plate (213), the outer wall connection of bull stick (212) has guide plate (214).

3. The machining device for the production of the continuously variable transmission as claimed in claim 2, wherein: the lower lateral wall of rose box (210) inner chamber is connected with two sets of filter tubes (220), the inner wall of rose box (210) is connected with two sets of honeycomb ducts (230), honeycomb duct (230) are the infundibulate setting, the downside of honeycomb duct (230) is connected with the upside of filter tube (220).

4. The machining device for the production of the continuously variable transmission as claimed in claim 2, wherein: the lower lateral wall of rose box (210) is connected with two sets of pipes (240) of slagging tap, the four corners of rose box (210) bottom all is connected with bracing piece (216), solenoid valve (250) are installed to pipe (240) downside of slagging tap.

5. The machining device for the production of the continuously variable transmission as claimed in claim 2, wherein: both ends all are connected with action layer (215) around guide plate (214), the material of action layer (215) is rubber, the upside of guide plate (214) is provided with the guiding gutter.

6. The machining device for the production of the continuously variable transmission as claimed in claim 3, wherein: the lateral wall of rose box (210) is connected with two sets of filters (260), filter (260) are located the upside of filter tube (220), filter (260) are located the downside of honeycomb duct (230), the lateral wall all is connected with outlet pipe (270) about rose box (210), outlet pipe (270) are located the upside of filter (260), outlet pipe (270) are located the downside of honeycomb duct (230).

7. The machining device for the production of the continuously variable transmission as claimed in claim 2, wherein: the rear side wall of the filter box (210) is hinged with two groups of sealing box doors (280), the outer wall of each sealing box door (280) is provided with a sealing strip, and the rear side of each sealing box door (280) is connected with a handle.

8. The machining device for the production of the continuously variable transmission as claimed in claim 6, wherein: one end of the water outlet pipe (270) positioned in the inner cavity of the filter box (210) is connected with a filter yarn tube (271), and one side of the lower end of the flow guide pipe (230) close to the water outlet pipe (270) is connected with a magnetic block (290).

9. The machining device for the continuously variable transmission is characterized in that an observation window is arranged on the front side wall of the filter box (210), and an observation window is arranged on the front side wall of the machining box (120).

10. The machining device for the continuously variable transmission is characterized in that a mounting plate (217) is connected to the lower side of the supporting rod (216), mounting holes are formed in four corners of the mounting plate (217), a shock pad (218) is connected to the bottom end of the supporting rod (216), and the shock pad (218) is made of rubber.