CN215463696U - Cutting fluid full-automatic distribution device for cutting - Google Patents

Abstract

The utility model discloses a cutting fluid full-automatic distribution device for cutting processing, which comprises a device body, a stirring structure, an anti-precipitation structure, a cutting fluid filling structure, a cutting stock solution barrel, a cutting fluid conveying pipe I, a cutting fluid conveying pipe II, a cutting fluid pump, a water storage barrel, a water pipe I, a water pipe II, a water pump and a controller. The utility model relates to the technical field of chemical production equipment, and particularly provides a cutting fluid full-automatic distribution device for cutting machining, which is reasonable and simple in structure, has a function of automatically proportioning cutting fluid, can prevent the cutting fluid from precipitating and accumulating, and can automatically fill the cutting fluid according to the using amount of the cutting fluid of equipment.

Description

Cutting fluid full-automatic distribution device for cutting

Technical Field

The utility model relates to the technical field of chemical production equipment, in particular to a full-automatic cutting fluid distribution device for cutting machining.

Background

Cutting fluid is an industrial fluid used in metal cutting processes to cool and lubricate tools and workpieces. The lubricating action of cutting fluid in cutting process can effectively reduce the friction between cutter and smear metal and machined surface, cutting fluid forms the lubricant film at cutter and machined surface simultaneously, cutting fluid needs the manual work to allocate among the prior art, then add equipment and supply equipment to use, the whole journey is wasted time and energy, personnel can't accurately learn equipment cutting fluid quantity condition, process under the no cutting fluid condition, can cause serious wearing and tearing and injury to cutter and work piece, cutting fluid is because of the ratio problem or sneak into impurity and easily produce the sediment, thereby influence the cutting fluid quality.

SUMMERY OF THE UTILITY MODEL

Aiming at the situation, in order to overcome the technical defects at present, the utility model provides the cutting fluid full-automatic distribution device for cutting processing, which has a reasonable and simple structure, has the function of automatically proportioning the cutting fluid, can prevent the cutting fluid from depositing and accumulating, and can automatically fill the cutting fluid according to the consumption condition of the cutting fluid of equipment.

The technical scheme adopted by the utility model is as follows: a cutting fluid full-automatic distribution device for cutting machining comprises a device body, a stirring structure, an anti-precipitation structure, a cutting fluid filling structure, a cutting stock solution barrel, a cutting fluid conveying pipe I, a cutting fluid conveying pipe II, a cutting fluid pump, a water storage barrel, a water pipe I, a water pipe II, a water pump and a controller, wherein a partition plate is arranged in the device body, a partition plate cavity is arranged in the partition plate, the cutting fluid filling structure is arranged in the partition plate cavity, a blending cavity and a storage cavity are arranged in the device body, the blending cavity and the storage cavity are located above and below the partition plate, a connecting pipe is arranged in the partition plate cavity, the upper end of the connecting pipe penetrates through the top wall of the partition plate cavity and is communicated with the blending cavity, the lower end of the connecting pipe penetrates through the bottom wall of the partition plate cavity and is communicated with the storage cavity, a pressure sensor is arranged on the bottom wall of the storage cavity, a discharging pipe is arranged on the bottom of the side wall of the device body, and the stirring structure is arranged on the top of the device body, the controller is arranged at the top of the device body, the anti-precipitation structure is arranged at the bottom of the device body, the cutting stock solution barrel is arranged on one side of the device body, the cutting liquid pump is arranged on the cutting stock solution barrel, one end of the cutting liquid conveying pipe is arranged on the cutting liquid pump, the other end of the cutting liquid conveying pipe is connected with the cutting stock solution barrel, one end of the cutting liquid conveying pipe is arranged on the cutting liquid pump, the other end of the cutting liquid conveying pipe penetrates through the top wall of the device body and extends into the blending cavity, the water storage barrel is arranged on the other side of the device body, the water pump is arranged on the water storage barrel, one end of the water pipe is arranged on the water pump, the other end of the water pipe is connected with the water storage barrel, one end of the water pipe is arranged on the water pump, and the other end of the water pipe penetrates through the top wall of the device body and extends into the blending cavity; stirring structure includes stirring casing, agitator motor, initiative bevel gear, driven bevel gear, pivot and allotment stirring leaf, device body top is located to the stirring casing, the stirring casing inside wall is located to agitator motor, initiative bevel gear is located on agitator motor power output shaft, the roof in the stirring casing is located in the rotation of pivot upper end, the pivot lower extreme runs through in proper order that diapire and device body top rotate in the stirring casing and locates the allotment intracavity, driven bevel gear locates the pivot and is located stirring casing one and serves, initiative bevel gear and driven bevel gear meshing, allotment stirring leaf is located in the pivot, pressure sensor, water pump, cutting liquid pump and agitator motor all with controller electric connection.

Further, the cutting fluid filling structure comprises a stepping motor, a driving gear, driven gears, a threaded sleeve, a screw rod, a gear belt and a supporting plate, wherein the stepping motor is arranged on the top wall of the partition plate cavity, the driving gear is arranged on a power output shaft of the stepping motor, one end of the threaded sleeve is rotatably arranged on the top wall in the partition plate cavity, the other end of the threaded sleeve penetrates through the bottom wall of the partition plate cavity and is rotatably arranged in the storage cavity, the screw rod is connected in the threaded sleeve through threads, the driven gears are arranged at one ends of the threaded sleeve in the partition plate cavity, the driven gears, the threaded sleeve and the screw rod are symmetrically arranged in two groups with respect to the stepping motor, the gear belt is sleeved on the two groups of driven gears and the driving gear, the gear belt is meshed with the two groups of driven gears and the driving gear, the supporting plate is arranged at the lower ends of the two groups of screw rods, and a blocking column is arranged on the supporting plate, the stepping motor is electrically connected with the controller, and when the stepping motor is used specifically, the connecting pipe is plugged by the plugging column in an initial unused state.

Further, prevent deposiing the structure and include low-speed motor, motor protective housing, prevent deposiing the (mixing) shaft and prevent deposiing the stirring leaf, device body bottom is located to the motor protective housing, low-speed motor locates on the motor protective housing inner wall, low-speed motor power output shaft runs through device body bottom and extends to the storage intracavity, prevent deposiing the (mixing) shaft and locate on the low-speed motor power output shaft, prevent deposiing the stirring leaf and locate on preventing deposiing the (mixing) shaft, low-speed motor and controller electric connection.

Furthermore, the bottom of the device body is provided with four groups of support pads, and the four groups of support pads are arranged in a rectangular shape.

The utility model with the structure has the following beneficial effects: compared with the traditional cutting fluid full-automatic distribution device, the cutting fluid full-automatic distribution device for cutting processing has the advantages that: the cutting fluid mixing device is reasonable and simple in structure, and cutting fluid is mixed through the stirring structure, the cutting stock solution barrel, the cutting fluid conveying pipe I, the cutting fluid conveying pipe II, the cutting fluid pump, the water storage barrel, the water pipe I, the water pipe II and the water pump; filling the prepared cutting fluid into the storage cavity through the cutting fluid filling structure; the cutting fluid consumption is monitored through the controller and the pressure sensor, the condition that a cutter is seriously abraded and a workpiece is damaged due to the fact that machining is carried out under the condition that no cutting fluid exists is effectively avoided, the cutting fluid is used in situ, labor cost is reduced, and production efficiency is improved; prevent deposiing the structure can effectively prevent to produce because of proportion problem or sneak into impurity and deposit the gathering on the storage chamber diapire.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic view of the overall structure of a cutting fluid automatic dispensing device for cutting machining according to the present invention;

FIG. 2 is an enlarged view of a portion of the structure of FIG. 1A;

fig. 3 is a structural diagram illustrating a using state of a cutting fluid filling structure of the cutting fluid full-automatic dispensing device for cutting processing according to the present invention.

Wherein, 1, the device body, 2, the stirring structure, 3, the precipitation-proof structure, 4, the cutting fluid filling structure, 5, the cutting stock solution barrel, 6, the first cutting fluid conveying pipe, 7, the second cutting fluid conveying pipe, 8, the cutting fluid pump, 9, the water storage barrel, 10, the first water pipe, 11, the second water pipe, 12, the water pump, 13, the controller, 14, the partition plate, 15, the partition plate cavity, 16, the mixing cavity, 17, the storage cavity, 18, the connecting pipe, 19, the pressure sensor, 20, the discharge pipe, 21, the stirring shell, 22, the stirring motor, 23, the driving bevel gear, 24, the driven bevel gear, 25, the rotating shaft, 26, the mixing blade, 27, the stepping motor, 28, the driving gear, 29, the driven gear, 30, the threaded sleeve, 31, the screw, 32, the gear belt, 33, the supporting plate, 34, the blocking column, 35, the low-speed motor, 36, the motor protective shell, 37, the precipitation-proof stirring shaft, 38. stirring the leaves.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1 to 3, the technical scheme adopted by the utility model is as follows: a cutting fluid full-automatic distribution device for cutting processing comprises a device body 1, a stirring structure 2, an anti-precipitation structure 3, a cutting fluid filling structure 4, a cutting stock solution barrel 5, a cutting fluid conveying pipe I6, a cutting fluid conveying pipe II 7, a cutting fluid pump 8, a water storage barrel 9, a water pipe I10, a water pipe II 11, a water pump 12 and a controller 13, wherein a partition plate 14 is arranged in the device body 1, a partition plate cavity 15 is arranged in the partition plate 14, the cutting fluid filling structure 4 is arranged in the partition plate cavity 15, a blending cavity 16 and a storage cavity 17 are arranged in the device body 1, the blending cavity 16 and the storage cavity 17 are positioned above and below the partition plate 14, a connecting pipe 18 is arranged in the partition plate cavity 15, the upper end of the connecting pipe 18 penetrates through the top wall of the partition plate cavity 15 and is communicated with the blending cavity 16, the lower end of the connecting pipe 18 penetrates through the bottom wall of the partition plate cavity 15 and is communicated with the storage cavity 17, a pressure sensor 19 is arranged on the bottom wall of the storage cavity 17, a discharge pipe 20 is arranged at the bottom of the side wall of the device body 1, the stirring structure 2 is arranged at the top of the device body 1, the controller 13 is arranged at the top of the device body 1, the anti-sedimentation structure 3 is arranged at the bottom of the device body 1, the cutting stock solution barrel 5 is arranged at one side of the device body 1, the cutting solution pump 8 is arranged on the cutting stock solution barrel 5, one end of a first cutting solution conveying pipe 6 is arranged on the cutting solution pump 8, the other end of the first cutting solution conveying pipe 6 is connected with the cutting stock solution barrel 5, one end of a second cutting solution conveying pipe 7 is arranged on the cutting solution pump 8, the other end of the second cutting solution conveying pipe 7 penetrates through the top wall of the device body 1 and extends into the blending cavity 16, the water storage barrel 9 is arranged at the other side of the device body 1, the water pump 12 is arranged on the water storage barrel 9, one end of a first water pipe 10 is arranged on the water pump 12, the other end of the first water pipe 10 is connected with the water storage barrel 9, one end of the second water pipe 11 is arranged on the water pump 12, and the other end of the second water pipe 11 penetrates through the top wall of the device body 1 and extends into the blending cavity 16; stirring structure 2 includes stirring housing 21, agitator motor 22, drive bevel gear 23, driven bevel gear 24, pivot 25 and allotment stirring leaf 26, stirring housing 21 locates 1 top of device body, agitator motor 22 locates the 21 inside walls of stirring housing, drive bevel gear 23 is located on agitator motor 22 power output shaft, roof in stirring housing 21 is located in the rotation of pivot 25 upper end, 25 lower extremes of pivot run through in proper order in stirring housing 21 diapire and the rotation of 1 top of device body locate allotment chamber 16, driven bevel gear 24 is located pivot 25 and is located stirring housing 21 one and serve, drive bevel gear 23 and the meshing of driven bevel gear 24, allotment stirring leaf 26 is located on pivot 25, pressure sensor 19, water pump 12, cutting liquid pump 8 and agitator motor 22 all with controller 13 electric connection.

Wherein, the cutting fluid filling structure 4 comprises a stepping motor 27, a driving gear 28, a driven gear 29, a threaded sleeve 30, a screw 31, a gear belt 32 and a support plate 33, the stepping motor 27 is arranged on the top wall of the partition plate cavity 15, the driving gear 28 is arranged on a power output shaft of the stepping motor 27, one end of the threaded sleeve 30 is rotatably arranged on the top wall in the partition plate cavity 15, the other end of the threaded sleeve 30 penetrates through the bottom wall of the partition plate cavity 15 and is rotatably arranged in the storage cavity 17, the screw 31 is connected in the threaded sleeve 30 through threads, the driven gear 29 is arranged at one end of the threaded sleeve 30 in the partition plate cavity 15, two groups of driven gears 29, threaded sleeves 30 and screws 31 are symmetrically arranged about the stepping motor 27, the gear belt 32 is sleeved on the two groups of driven gears 29 and driving gear 28, the gear belt 32 is engaged with the two groups of driven gears 29 and driving gear 28, the support plate 33 is arranged at the lower ends of the two groups of screws 31, the supporting plate 33 is provided with a plugging column 34, the stepping motor 27 is electrically connected with the controller 13, and when the stepping motor is used specifically, the plugging column 34 plugs the connecting pipe 18 in an initial unused state. Prevent deposiing structure 3 and include low-speed motor 35, motor protective housing 36, prevent deposiing (mixing) shaft 37 and prevent deposiing stirring leaf 38, device body 1 bottom is located to motor protective housing 36, low-speed motor 35 is located on motor protective housing 36 interior diapire, low-speed motor 35 power output shaft runs through device body 1 bottom and extends to in the storage chamber 17, prevent deposiing (mixing) shaft 37 and locate on low-speed motor 35 power output shaft, prevent deposiing stirring leaf 38 and locate on preventing deposiing (mixing) shaft 37, low-speed motor 35 and controller 13 electric connection. The bottom of the device body 1 is provided with four groups of supporting foot pads, and the four groups of supporting foot pads are arranged in a rectangular shape.

When the cutting fluid mixing device is used specifically, the pressure sensor 19 monitors the amount of cutting fluid in the storage cavity 17, when the amount of cutting fluid is lower than a set value, the pressure sensor 19 sends cutting fluid mixing information to the controller 13, the controller 13 starts the water pump 12, the cutting fluid pump 8 and the stirring motor 22 to start cutting fluid mixing, water is injected into the mixing cavity 16 through the first water pipe 10 and the second water pipe 11, cutting stock fluid is injected into the mixing cavity 16 through the first cutting fluid conveying pipe 6 and the second cutting fluid conveying pipe 7, the stirring motor 22 drives the driving bevel gear 23 to rotate, the driving bevel gear 23 drives the driven bevel gear 24 to rotate, the driven bevel gear 24 drives the rotating shaft 25 to rotate, further drives the mixing stirring blades 26 to fully stir mixed fluid, after the mixed fluid is mixed and mixed, the stepping motor 27 is started, the stepping motor 27 drives the driving gear 28 to rotate, the driving gear 28 drives the gear belt 32 to rotate, and the gear belt 32 drives the threaded sleeve 30 to rotate, and then drive screw rod 31 downstream, two sets of screw rods 31 drive backup pad 33 downstream, and then make shutoff post 34 take out from connecting pipe 18, make the cutting fluid after the allotment flow into in storage chamber 17 from allotment chamber 16, cutting fluid filling structure 4 resumes initial condition after accomplishing the cutting fluid of annotating, shutoff post 34 carries out the shutoff to connecting pipe 18, the cutting fluid is discharged from discharging pipe 20 according to the equipment demand, start according to the settlement prevention structure 3 of settlement, low-speed motor 35 action drives and prevents that sediment (mixing) shaft 37 rotates, prevent that sediment (mixing) shaft 37 drives and prevent that sediment (mixing) impeller 38 from scraping to storage chamber 17 diapire, prevent that the cutting fluid from producing the sediment and piling up.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a full-automatic dispensing device of cutting fluid that cutting process used which characterized in that: the cutting fluid feeding device comprises a device body, a stirring structure, a precipitation prevention structure, a cutting fluid filling structure, a cutting stock solution barrel, a cutting fluid conveying pipe I, a cutting fluid conveying pipe II, a cutting fluid pump, a water storage barrel, a water pipe I, a water pipe II, a water pump and a controller, wherein a partition plate is arranged in the device body, a partition plate cavity is arranged in the partition plate, the cutting fluid filling structure is arranged in the partition plate cavity, a blending cavity and a storage cavity are arranged in the device body, the blending cavity and the storage cavity are positioned above and below the partition plate, a connecting pipe is arranged in the partition plate cavity, the upper end of the connecting pipe penetrates through the top wall of the partition plate cavity and is communicated with the blending cavity, the lower end of the connecting pipe penetrates through the bottom wall of the partition plate cavity and is communicated with the storage cavity, the bottom wall of the storage cavity is provided with a pressure sensor, the bottom of the side wall of the device body is provided with a discharging pipe, the stirring structure is arranged at the top of the device body, and the controller is arranged at the top of the device body, the anti-precipitation structure is arranged at the bottom of the device body, the cutting stock solution barrel is arranged on one side of the device body, the cutting liquid pump is arranged on the cutting stock solution barrel, one end of a cutting liquid conveying pipe is arranged on the cutting liquid pump, the other end of the cutting liquid conveying pipe is connected with the cutting stock solution barrel, one end of the cutting liquid conveying pipe is arranged on the cutting liquid pump, the other end of the cutting liquid conveying pipe penetrates through the top wall of the device body and extends into the blending cavity, the water storage barrel is arranged on the other side of the device body, the water pump is arranged on the water storage barrel, one end of the water pipe is arranged on the water pump, the other end of the water pipe is connected with the water storage barrel, one end of the water pipe is arranged on the water pump, and the other end of the water pipe penetrates through the top wall of the device body and extends into the blending cavity; stirring structure includes stirring casing, agitator motor, initiative bevel gear, driven bevel gear, pivot and allotment stirring leaf, device body top is located to the stirring casing, the stirring casing inside wall is located to agitator motor, initiative bevel gear is located on agitator motor power output shaft, the roof in the stirring casing is located in the rotation of pivot upper end, the pivot lower extreme runs through in proper order that diapire and device body top rotate in the stirring casing and locates the allotment intracavity, driven bevel gear locates the pivot and is located stirring casing one and serves, initiative bevel gear and driven bevel gear meshing, allotment stirring leaf is located in the pivot, pressure sensor, water pump, cutting liquid pump and agitator motor all with controller electric connection.

2. The cutting fluid full-automatic dispensing device for cutting processing according to claim 1, characterized in that: the cutting fluid filling structure comprises a stepping motor, a driving gear, a driven gear, a threaded sleeve, a screw rod, a gear belt and a supporting plate, wherein the stepping motor is arranged on the top wall of a partition plate cavity, the driving gear is arranged on a power output shaft of the stepping motor, one end of the threaded sleeve is rotatably arranged on the top wall in the partition plate cavity, the other end of the threaded sleeve penetrates through the bottom wall of the partition plate cavity and is rotatably arranged in a storage cavity, the screw rod is arranged in the threaded sleeve through threaded connection, the driven gear is arranged at one end of the threaded sleeve in the partition plate cavity, two groups of the driven gear, the threaded sleeve and the screw rod are symmetrically arranged around the stepping motor, the gear belt is sleeved on the two groups of the driven gear and the driving gear, the gear belt is meshed with the two groups of the driven gear and the driving gear, the supporting plate is arranged at the lower ends of the two groups of the screw rods, and a plugging column is arranged on the supporting plate, the stepping motor is electrically connected with the controller.

3. The cutting fluid full-automatic dispensing device for cutting processing according to claim 1, characterized in that: prevent deposiing the structure and include low-speed motor, motor protective housing, prevent deposiing the (mixing) shaft and prevent deposiing the stirring leaf, device body bottom is located to the motor protective housing, low-speed motor locates on the motor protective housing diapire, low-speed motor power output shaft runs through device body bottom and extends to the storage intracavity, prevent deposiing the (mixing) shaft and locate on the low-speed motor power output shaft, prevent deposiing the stirring leaf and locate on preventing deposiing the (mixing) shaft, low-speed motor and controller electric connection.

4. The cutting fluid full-automatic dispensing device for cutting processing according to claim 1, characterized in that: the device body bottom is equipped with the support and fills up the foot, the support is filled up the foot and is equipped with four groups, four groups the support is filled up the foot and is the rectangle setting.

Images