CN115283722A - Automobile motor processing tapping device - Google Patents

Abstract

The invention discloses an automobile motor machining and perforating device which comprises a drilling workbench, a supporting frame, a drilling horizontal moving device, an electric drilling device and an antirust circulating cooling device. The invention belongs to the technical field of automobile motor machining, and particularly relates to an automobile motor machining hole-forming device, which aims to meet the effect that a drill bit keeps hardness when being formed with a hole, namely, the drill bit is cooled in time.

Description

Automobile motor processing tapping device

Technical Field

The invention belongs to the technical field of automobile motor machining, and particularly relates to an automobile motor machining and punching device.

Background

The automobile generator is the main power source of the automobile, and the function of the automobile generator is to supply power to all electric equipment (except a starter) and charge a storage battery when the engine runs normally. With the development of automobile technology, automobile power consumption is higher and higher. The output power of the generator of the middle-class car is only about 500 watts generally 20 years ago, and the generator of the middle-class car is about 1000 watts generally at present. The increase in generator power increases as the number of electrical devices on the vehicle increases.

The motors of the electric vehicle can be classified into an alternating current motor, a direct current motor, an alternating current/direct current dual-purpose motor, a control motor, a switched reluctance motor, a signal motor and the like. Motors suitable for electric drive can be classified into two types, direct current motors (motors that convert direct current electric energy into mechanical energy) and alternating current motors (motors that convert alternating current electric energy into mechanical energy). The motor has application prospect in electric vehicles, such as direct current motors, alternating current induction motors, permanent magnet brushless motors, switched reluctance motors and the like.

However, in the production process of any kind of motor, the motor casing needs to be drilled, the drill bit of the existing drilling device needs to be cooled and kept hard due to the fact that the drill bit is in a working state and is in a friction and temperature-generating state, and most of the existing drilling devices cannot cool the drill bit.

Disclosure of Invention

In order to overcome the defects of the prior art and solve the problems, the invention provides an automobile motor processing and perforating device, and aims to achieve the effect that a drill bit keeps hardness during perforating, namely, the drill bit is cooled in time.

The technical scheme adopted by the invention is as follows: the invention provides an automobile motor processing tapping device, which comprises a drilling workbench, a supporting frame, a drilling horizontal moving device, an electric drilling device and an antirust circulating cooling device, wherein the supporting frame is arranged on the drilling workbench, the drilling workbench is used for firmly fixing the supporting frame by utilizing a supporting column, the drilling horizontal moving device is arranged on the supporting frame, the supporting frame is used for firmly fixing the drilling horizontal moving device, the drilling horizontal moving device is used for driving the electric drilling device to move in the horizontal direction, the electric drilling device is arranged on the drilling horizontal moving device, the drilling horizontal moving device is used for firmly fixing the electric drilling device, the antirust circulating cooling device is arranged on the supporting frame, the supporting frame is used for firmly fixing the antirust circulating cooling device, and the antirust circulating cooling device is used for realizing the cooling effect on a drill bit on the premise of avoiding rusting the drill bit, the antirust circulative cooling device comprises a liquid storage tank, a cooling assembly, an air compressor and a heat dissipation assembly, wherein the liquid storage tank is arranged on a support frame, the support frame firmly fixes the liquid storage tank, the cooling assembly is arranged on the liquid storage tank, the air compressor is arranged on the support frame, the support frame firmly fixes the air compressor, one group of heat dissipation assemblies is arranged on the liquid storage tank, the other end of each heat dissipation assembly is arranged at the other end of the air compressor, the cooling assembly comprises an extraction pump, a cooling transmission pipe, a cooling threaded pipe, a protective sleeve, a drying filter, an electromagnetic valve, an expansion valve, a temperature sensor and a liquid sight glass, the extraction pump is arranged on the side wall of the liquid storage tank, the liquid storage tank firmly fixes the extraction pump, one end of the cooling transmission pipe is arranged at the bottom of the extraction pump, the other end of the cooling transmission pipe is arranged on the air compressor, the air compressor utilizes a compression sleeve to fix a cooling transmission pipe, the cooling threaded pipe is arranged on the cooling transmission pipe, a protective sleeve is arranged inside the cooling threaded pipe, the cooling threaded pipe firmly fixes the protective sleeve, the protective sleeve can prevent a high-temperature drill bit from directly contacting the cooling threaded pipe so as to protect the cooling threaded pipe, a drying filter is arranged on the cooling transmission pipe, the cooling transmission pipe firmly fixes the drying filter, the drying filter can absorb moisture in a refrigerant to improve the cooling effect, the electromagnetic valve is arranged on the cooling transmission pipe and firmly fixes the electromagnetic valve, the electromagnetic valve can be opened or closed by utilizing the electromagnetic action, the expansion valve is arranged on the cooling transmission pipe, the cooling transmission pipe firmly fixes the expansion valve, the expansion valve throttles the internal refrigerant to quickly reduce the temperature of the refrigerant, the temperature sensor is arranged on the cooling transmission pipe, the cooling transmission pipe firmly fixes a temperature sensor, the liquid viewing mirror is arranged on the cooling transmission pipe, the cooling transmission pipe firmly fixes the liquid viewing mirror, and a user can see bubbles in the cooling transmission pipe to judge whether the refrigerant is properly filled.

Wherein, the radiator unit includes the heating panel, separates the temperature post, separates the temperature board, fixed bolster, heat dissipation motor, heat dissipation fan and cooling tube, on the carriage was located to the heating panel, the carriage utilized the connecting plate to carry out firmly fixed to the heating panel, separate the temperature post and locate on the heating panel, the heating panel firmly fixes separating the temperature post, separate the temperature board and locate on separating the temperature post, the temperature board firmly fixes separating the temperature post, and the heat board can prevent the hot-air around the cooling tube to remove to cooling thread pipe department, the fixed bolster is located on the heating panel, and the heating panel firmly fixes the fixed bolster, the heat dissipation motor is located on the fixed bolster, and the fixed bolster firmly fixes the heat dissipation motor, on the heat dissipation motor was located to the heat dissipation fan, the inside high temperature gaseous refrigerant of heat dissipation fan can accelerate the heat dissipation of heat dissipation fan makes its heat dissipation become liquid, on the liquid storage pot was located to cooling tube one end, the liquid storage pot utilizes the liquid storage pot sealed tube to firmly fix the cooling tube, the cooling tube other end is located on the air compressor.

Preferably, the horizontal drilling moving device comprises a threaded plate, a movable groove, a movable block, a threaded bearing, a threaded motor, a threaded rod and a limiting plate, wherein the threaded plate is arranged on a support frame, the support frame is used for firmly fixing the threaded plate, the movable groove is arranged on the support frame, the support frame is used for firmly fixing the movable groove, the movable block is arranged on the movable groove, the movable block can freely slide on the movable groove, the threaded bearing is arranged on the threaded plate, the threaded motor is arranged on the threaded plate, the threaded plate is used for firmly fixing the threaded motor, the threaded rod penetrates through the movable block and is arranged on the threaded motor, the limiting plate is arranged inside the support frame, and the limiting plate can ensure that the movable block cannot be separated from the movable groove to avoid accidents.

In order to ensure the stable moving effect of the electric drilling device, the drilling horizontal moving devices are provided with two groups, and the drilling horizontal moving devices are respectively arranged on two sides in the supporting frame.

Preferably, electric drilling device includes fixed plate, fixed frame, electric telescopic handle, drilling motor, drilling rod and drill bit, on the movable block was located to the fixed plate, the movable block firmly fixed the fixed plate, on the fixed plate was located to fixed frame, the fixed plate firmly fixed frame, inside electric telescopic handle located fixed frame, fixed frame firmly fixed electric telescopic handle, inside electric telescopic handle was located to drilling motor, drilling motor bottom was located to the drilling rod, the drill bit is located the drilling rod bottom.

Stability when in order to realize electric telescopic handle is flexible, be equipped with stable hydraulic stem on the fixed frame lateral wall, fixed frame utilizes the mounting to firmly fix stable hydraulic stem, stable hydraulic stem bottom is equipped with the steady pressing board, is equipped with drilling bearing on the steady pressing board, and drilling bearing can guarantee the stability when the drilling rod is rotatory.

In order to further realize the location and the stability of drilling, be equipped with the stable drilling positioner of liftable on the support column, the stable drilling positioner of liftable includes adjustable lift groove, hydraulic telescoping rod, connecting block, sliding tray, connecting piece and location stabilising arrangement, adjustable lift groove is located on the support column, hydraulic telescoping rod locates on the support column lateral wall, and the support column utilizes the mounting to firmly fix hydraulic telescoping rod, on hydraulic telescoping rod was located to the connecting block, hydraulic telescoping rod firmly fixed the connecting block, on adjustable lift inslot portion lateral wall was located to the sliding tray, the stability of connecting block going up and down in adjustable lift inslot portion can be guaranteed to the sliding tray, the connecting block bottom is located to the connecting piece, location stabilising arrangement located on the connecting piece, the connecting piece firmly fixed location stabilising arrangement.

The positioning and stabilizing device comprises a stabilizing plate, a positioning hole, a spring frame, a limiting spring, a limiting block, a connecting column and a supporting block, wherein the stabilizing plate is arranged on the connecting piece, the positioning hole is formed in the stabilizing plate, the stabilizing plate is firmly fixed to the positioning hole, the positioning hole is used for positioning the drill rod, the spring frame is arranged on the stabilizing plate, the stabilizing plate is firmly fixed to the spring frame, the limiting spring is arranged inside the spring frame, the limiting block is arranged at the top of the limiting spring, the limiting spring is firmly fixed to the limiting block, the connecting column is arranged on the limiting block, the limiting block is firmly fixed to the connecting column, and the supporting block is arranged at the top of the connecting column.

In order to realize the processing trompil effect to two sets of motor casings, be equipped with the slipmat on the drilling workstation, the slipmat is equipped with two sets ofly, positioning and stabilizing device is equipped with two sets ofly.

As a further preferable mode of the present invention, an infrared emitter is disposed at the bottom of the stabilizing pressure plate, and an infrared receiver is disposed at the top of the stabilizing pressure plate.

The invention with the structure has the following beneficial effects:

(1) In order to realize the cooling effect after the drill bit works, a refrigerant circularly flows in the cooling threaded pipe, the cooling transmission pipe and the heat dissipation pipe, an air compressor, a heat dissipation fan and an expansion valve are used for continuously changing pressure and temperature, the continuous circulating refrigeration and cooling effect is realized, meanwhile, a liquid sight glass, a temperature sensor and a drying filter are used for improving the whole circulating process, and meanwhile, a protective sleeve is used for protecting the cooling threaded pipe.

(2) Set up the threaded motor and drive the threaded rod and rotate, and the movable block can not rotate with the threaded rod together because the limiting displacement in activity groove, but can carry out horizontal migration along the activity groove, and two sets of movable blocks can guarantee the stable removal effect to electronic drilling equipment.

(3) The stable hydraulic stem on the side walls of the two sides of the fixing frame can be extended and shortened along with the electric telescopic rod synchronously, so that the stability of the electric telescopic rod during descending is ensured.

(4) When drilling, the stabilizing pressure plate oppresses spacing spring through supporting shoe and spliced pole when descending, guarantees the further stability when drilling descends, and the drilling rod can also reach the location effect through the locating hole.

(5) When the movable block drives the electric drilling device to move, the infrared emitter at the bottom of the stabilizing pressing plate can generate infrared signals, and when the infrared receiver at the top of the stabilizing pressing plate receives the generated infrared signals, the infrared emitter indicates that drilling and a drill bit are right above the positioning hole at the moment, and then the electric telescopic rod can be utilized to perform hole opening operation at the moment.

(6) The motor casing's of trompil specification size can be advanced as required equally, can utilize hydraulic telescoping rod to drive the connecting block and reciprocate at the sliding tray, avoids leading to inadequately because electric telescopic handle descends the height and can't accomplish the trompil.

(7) The arrangement of the heat insulation plate ensures that hot air at the radiating pipe cannot move too fast to influence the cooling effect of the cooling threaded pipe.

Drawings

Fig. 1 is a schematic overall structure diagram of an automobile motor machining tapping device provided by the invention;

FIG. 2 is a cross-sectional view of an automotive motor tapping apparatus in accordance with the present invention;

FIG. 3 is a perspective view of an automobile motor machining hole forming device according to the present invention;

FIG. 4 is an enlarged view of a portion A of FIG. 3 according to the present invention;

FIG. 5 is a cross-sectional view of another angle of the motor vehicle drilling apparatus of the present invention;

fig. 6 is an overall structural view of an electric drilling device of an automobile motor processing tapping device provided by the invention;

FIG. 7 is a schematic view of the overall structure of an antirust circulative cooling device of an automobile motor machining tapping device according to the present invention;

FIG. 8 is a perspective view of an antirust circulatable cooling device of an automobile motor machining tapping device according to the present invention;

fig. 9 is a top view of the rustproof circulative cooling device of the automobile motor machining tapping device provided by the invention.

Wherein, 1, a drilling workbench, 2, a support frame, 3, a drilling horizontal moving device, 4, an electric drilling device, 5, an antirust circulative cooling device, 6, a support column, 7, a liquid storage tank, 8, a cooling component, 9, an air compressor, 10, a heat dissipation component, 11, a suction pump, 12, a cooling transmission pipe, 13, a cooling threaded pipe, 14, a protective sleeve, 15, a drying filter, 16, an electromagnetic valve, 17, an expansion valve, 18, a temperature sensor, 19, a liquid viewing mirror, 20, a compression sleeve, 21, a heat dissipation plate, 22, a temperature insulation column, 23, a temperature insulation plate, 24, a fixed support, 25, a heat dissipation motor, 26, a heat dissipation fan, 27, a heat dissipation pipe, 28, a connecting plate, 29, a sealing pipe, 30 and a threaded plate, 31, a movable groove, 32, a movable block, 33, a threaded bearing, 34, a threaded motor, 35, a threaded rod, 36, a limiting plate, 37, a fixing plate, 38, a fixing frame, 39, an electric telescopic rod, 40, a drilling motor, 41, a drill rod, 42, a drill bit, 43, a stable hydraulic rod, 44, a fixing piece, 45, a stable pressing plate, 46, a drilling bearing, 47, an adjustable lifting groove, 48, a hydraulic telescopic rod, 49, a connecting block, 50, a sliding groove, 51, a connecting piece, 52, a positioning stabilizing device, 53, a stabilizing plate, 54, a positioning hole, 55, a spring frame, 56, a limiting spring, 57, a limiting block, 58, a connecting column, 59, a supporting block, 60, an anti-skid pad, 61, an infrared emitter, 62 and an infrared receiver.

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

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.

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

As shown in fig. 1, 5, 7, 8 and 9, the invention relates to an automobile motor processing tapping device, which comprises a drilling workbench 1, a supporting frame 2, a drilling horizontal moving device 3, an electric drilling device 4 and an antirust circulating cooling device 5, wherein the supporting frame 2 is arranged on the drilling workbench 1, the drilling workbench 1 utilizes a supporting column 6 to firmly fix the supporting frame 2, the drilling horizontal moving device 3 is arranged on the supporting frame 2, the supporting frame 2 firmly fixes the drilling horizontal moving device 3, the drilling horizontal moving device 3 plays a role of driving the electric drilling device 4 to move in the horizontal direction, the electric drilling device 4 is arranged on the drilling horizontal moving device 3, the drilling horizontal moving device 3 firmly fixes the electric drilling device 4, the antirust circulating cooling device 5 is arranged on the supporting frame 2, the supporting frame 2 firmly fixes the antirust circulating cooling device 5, the rust-proof circulative cooling device 5 realizes the cooling effect on the drill bit 42 on the premise of avoiding the rust of the drill bit 42, the rust-proof circulative cooling device 5 comprises a liquid storage tank 7, a cooling component 8, an air compressor 9 and a heat dissipation component 10, the liquid storage tank 7 is arranged on a support frame 2, the support frame 2 firmly fixes the liquid storage tank 7, the cooling component 8 is arranged on the liquid storage tank 7, the air compressor 9 is arranged on the support frame 2, the air compressor 9 of the support frame 2 is firmly fixed, a group of heat dissipation components 10 are arranged on the liquid storage tank 7, the other end of the heat dissipation component 10 is arranged at the other end of the air compressor 9, the cooling component 8 comprises an extraction pump 11, a cooling transmission pipe 12, a cooling threaded pipe 13, a protective sleeve 14, a drying filter 15, a solenoid valve 16, an expansion valve 17, a temperature sensor 18 and a liquid sight glass 19, the extraction pump 11 is arranged on the side wall of the liquid storage tank 7, the liquid storage tank 7 is used for firmly fixing the extraction pump 11, one end of a cooling transmission pipe 12 is arranged at the bottom of the extraction pump 11, the other end of the cooling transmission pipe 12 is arranged on an air compressor, the air compressor is used for fixing the cooling transmission pipe 12 by using a compression sleeve 20, the cooling threaded pipe 13 is arranged on the cooling transmission pipe 12, a protective sleeve 14 is arranged inside the cooling threaded pipe 13, the cooling threaded pipe 13 is used for firmly fixing the protective sleeve 14, the protective sleeve 14 can prevent a high-temperature drill bit 42 from directly contacting the cooling threaded pipe 13 so as to protect the cooling threaded pipe 13, a drying filter 15 is arranged on the cooling transmission pipe 12, the cooling transmission pipe 12 is used for firmly fixing the drying filter 15, the drying filter 15 can absorb moisture in a refrigerant to improve the cooling effect, an electromagnetic valve 16 is arranged on the cooling transmission pipe 12, and the cooling transmission pipe 12 is used for firmly fixing the electromagnetic valve 16, the electromagnetic valve 16 can be opened or closed by utilizing the electromagnetic action, the expansion valve 17 is arranged on the cooling transmission pipe 12, the cooling transmission pipe 12 firmly fixes the expansion valve 17, the expansion valve 17 throttles and reduces the pressure of the internal refrigerant to quickly reduce the temperature of the internal refrigerant, the temperature sensor 18 is arranged on the cooling transmission pipe 12, the cooling transmission pipe 12 firmly fixes the temperature sensor 18, the liquid viewing mirror 19 is arranged on the cooling transmission pipe 12, the cooling transmission pipe 12 firmly fixes the liquid viewing mirror 19, the liquid viewing mirror 19 can enable a user to see air bubbles in the cooling transmission pipe 12 to judge whether the refrigerant amount is properly filled, the heat dissipation assembly 10 comprises a heat dissipation plate 21, a heat insulation column 22, a heat insulation plate 23, a fixed support 24, a heat dissipation motor 25, a heat dissipation fan 26 and a heat dissipation pipe 27, the heat dissipation plate 21 is arranged on the support frame 2, and the support frame 2 firmly fixes the heat dissipation plate 21 by utilizing the connecting plate 28, the heat insulation column 22 is arranged on the heat dissipation plate 21, the heat dissipation plate 21 firmly fixes the heat insulation column 22, the heat insulation plate 23 is arranged on the heat insulation column 22, the heat insulation plate 23 firmly fixes the heat insulation column 22, the heat insulation plate 23 can prevent hot air around the heat dissipation pipe 27 from moving to the cooling threaded pipe 13, the fixing support 24 is arranged on the heat dissipation plate 21, the heat dissipation plate 21 firmly fixes the fixing support 24, the heat dissipation motor 25 is arranged on the fixing support 24, the fixing support 24 firmly fixes the heat dissipation motor 25, the heat dissipation fan 26 is arranged on the heat dissipation motor 25, the heat dissipation fan 26 can accelerate high-temperature gaseous refrigerant inside the heat dissipation pipe 27 to enable the high-temperature gaseous refrigerant to dissipate heat into liquid, one end of the heat dissipation pipe 27 is arranged on the liquid storage tank 7, the liquid storage tank 7 firmly fixes the heat dissipation pipe 27 by using the sealing pipe 29, and the other end of the heat dissipation pipe 27 is arranged on the air compressor.

As shown in fig. 1, the drilling horizontal movement device 3 includes a threaded plate 30, a movable groove 31, a movable block 32, a threaded bearing 33, a threaded motor 34, a threaded rod 35 and a limiting plate 36, the threaded plate 30 is arranged on a support frame 2, the support frame 2 firmly fixes the threaded plate 30, the movable groove 31 is arranged on the support frame 2, the support frame 2 firmly fixes the movable groove 31, the movable block 32 is arranged on the movable groove 31, the movable block 32 can freely slide on the movable groove 31, the threaded bearing 33 is arranged on the threaded plate 30, the threaded motor 34 is arranged on the threaded plate 30, the threaded plate 30 firmly fixes the threaded motor 34, the threaded rod 35 runs through the movable block 32 and is arranged on the threaded motor 34, the limiting plate 36 is arranged inside the support frame 2, the limiting plate 36 can ensure that the movable block 32 cannot be separated from the movable groove 31 so as to avoid accidents, the drilling horizontal movement device 3 is provided with two sets, two sets of drilling horizontal movement devices 3 are arranged on two sides inside the support frame 2 respectively.

As shown in fig. 3 and 6, the electric drilling device 4 includes a fixing plate 37, a fixing frame 38, an electric telescopic rod 39, a drilling motor 40, a drill rod 41 and a drill bit 42, the fixing plate 37 is disposed on the movable block 32, the movable block 32 is firmly fixed to the fixing plate 37, the fixing frame 38 is disposed on the fixing plate 37, the fixing plate 37 is firmly fixed to the fixing frame 38, the electric telescopic rod 39 is disposed inside the fixing frame 38, the fixing frame 38 is firmly fixed to the electric telescopic rod 39, the drilling motor 40 is disposed inside the electric telescopic rod 39, the drill rod 41 is disposed at the bottom of the drilling motor 40, and the drill bit 42 is disposed at the bottom of the drill rod 41.

As shown in fig. 1, 2, 3 and 4, a stable hydraulic rod 43 is disposed on a side wall of a fixed frame 38, the fixed frame 38 is used for firmly fixing the stable hydraulic rod 43 by using a fixing member 44, a stable pressing plate 45 is disposed at the bottom of the stable hydraulic rod 43, a drilling bearing 46 is disposed on the stable pressing plate 45, the drilling bearing 46 can ensure the stability of a drill rod 41 during rotation, a lifting stable drilling positioning device is disposed on a support column 6, the lifting stable drilling positioning device comprises an adjustable lifting groove 47, a hydraulic telescopic rod 48, a connecting block 49, a sliding groove 50, a connecting member 51 and a positioning and stabilizing device 52, the adjustable lifting groove 47 is disposed on the support column 6, the hydraulic telescopic rod 48 is disposed on an outer side wall of the support column 6, the support column 6 is used for firmly fixing the hydraulic telescopic rod 48 by using the fixing member 44, the connecting block 49 is disposed on the hydraulic telescopic rod 48, and the hydraulic telescopic rod 48 is used for firmly fixing the connecting block 49, the sliding groove 50 is arranged on the side wall inside the adjustable lifting groove 47, the sliding groove 50 can ensure the lifting stability of the connecting block 49 inside the adjustable lifting groove 47, the connecting piece 51 is arranged at the bottom of the connecting block 49, the positioning and stabilizing device 52 is arranged on the connecting piece 51, the connecting piece 51 firmly fixes the positioning and stabilizing device 52, the drilling workbench 1 is provided with the anti-slip mat 60, the anti-slip mat 60 is provided with two groups, the positioning and stabilizing device 52 comprises a stabilizing plate 53, a positioning hole 54, a spring frame 55, a limiting spring 56, a limiting block 57, a connecting column 58 and a supporting block 59, the stabilizing plate 53 is arranged on the connecting piece 51, the positioning hole 54 is arranged on the stabilizing plate 53, the stabilizing plate 53 firmly fixes the positioning hole 54, the positioning hole 54 positions the drill rod 41, the spring frame 55 is arranged on the stabilizing plate 53, and the spring frame 55 is firmly fixed by the stabilizing plate 53, inside spring frame 55 was located to spacing spring 56, spacing spring 56 top was located to spacing block 57, and spacing spring 56 firmly fixes spacing block 57, and on spacing block 57 was located to spliced pole 58, spacing block 57 firmly fixed spliced pole 58, and spliced pole 58 top was located to supporting shoe 59, and stabilizing pressure plate 45 bottom was equipped with infrared emitter 61, and stabilizing plate 53 top is equipped with infrared receiver 62.

During specific use, the user can at first place the motor casing that needs carry out the trompil on the protection pad, the user can once only place two sets of motor casings simultaneously, further improved the processing trompil efficiency to the motor casing, the user can make hydraulic telescoping rod 48 stretch out and draw back according to the specification size of motor casing this moment, hydraulic telescoping rod 48 drives connecting block 49 and freely slides on sliding tray 50 when going up and down, then can adjust the height of steadying plate 53, avoid leading to the condition appearance that can't carry out the trompil inadequately because electric telescoping rod 39 extension degree, embody the superiority of whole device.

After the adjustment of the stabilizing plate 53 is completed, the user can open the threaded motor 34 to drive the threaded rod 35 to rotate inside the threaded bearing 33, and the movable block 32 can not rotate together with the threaded rod 35 due to the limiting function of the movable groove 31, but can horizontally move along the movable groove 31, the movable blocks 32 arranged on both sides of the support frame 2 ensure the stability of the electric drilling device 4 during horizontal movement, when the movable block 32 drives the fixing plate 37 to move, the infrared receiver 62 arranged under the stabilizing pressure plate 45 at the bottom of the electric telescopic rod 39 can transmit an infrared signal, which can be received by the infrared receiver 62 on the stabilizing plate 53, when the infrared receiver 62 receives the infrared signal, it indicates that the drill rod 41 and the drill bit 42 are located right above the positioning hole 54 at the moment, the electric telescopic rod 39 can be extended, the stabilizing hydraulic rod 43 can be extended while extending the electric telescopic rod 39, so as to ensure that the stabilizing pressure plate 45 cannot deviate on the horizontal when the drill rod descends, and simultaneously when the stabilizing pressure plate 45 descends, the stabilizing pressure plate 45 compresses the limiting spring 56 and the restoring force can further ensure that the drill rod 39 can rotate to open the hole while the drill rod 41 and the anti-slip-drilling motor shell can open the hole 41, and the anti-slip-drilling motor shell, and the anti-drilling motor shell can open the anti-slip-drilling motor shell when the drill rod 41 can rotate the anti-slip-drilling motor shell.

Because the surface temperature of the drill 42 will rise rapidly due to friction when the drill 42 drills, the hardness of the drill 42 will decrease when the temperature rises, if the drill 42 is worn easily due to continuous drilling, the service life of the drill 42 will be damaged too much, so the drill 42 that drills once needs to be cooled, the user can start the thread motor 34 to drive the movable block 32 and the fixed plate 37 to move right above the cooling thread pipe 13, then the user can extend the electric telescopic rod 39 again until the drill 42 fully extends into the protective sleeve 14, the protective sleeve 14 ensures that the high temperature drill 42 will not directly contact the cooling thread pipe 13, the damage to the cooling thread pipe 13 caused by the high temperature drill 42 is avoided, when the drill 42 fully enters the protective sleeve 14, the user can start the extraction pump 11 and the electromagnetic valve 16 to pump the refrigerant at normal temperature into the cooling transmission pipe 12, the refrigerant filters the water affecting the cooling effect inside the refrigerant when passing through the drying filter 15, the refrigerant reduces the pressure of the sprayed refrigerant liquid mist when passing through the expansion valve 17, so as to further reduce the temperature of the refrigerant, at the moment, the refrigerant becomes low temperature liquid mist, the refrigerant of the low temperature liquid mist performs the cooling effect on the drill 42 by using the protective sleeve 14 when passing through the cooling threaded pipe 13, the refrigerant is gasified into low pressure gas while absorbing the heat of the drill 42, the viewing mirror 19 can enable a user to observe the gas inside the cooling transmission pipe 12 to remind the user to add the refrigerant in time, the low pressure gas refrigerant enters the air compressor, the low pressure refrigerant gas becomes high temperature and high pressure gas under the action of the air compressor, the high temperature and high pressure gas enters the radiating pipe 27 and is blown out most of the heat by the radiating fan 26, then high temperature high pressure gas becomes high temperature liquid this moment, and gets into inside liquid storage pot 7, and high temperature liquid is taken out to cooling transmission pipe 12 inside by extraction pump 11 again this moment, then becomes low pressure low temperature refrigerant liquid fog again by expansion valve 17, accomplishes the circulative cooling effect, accomplishes the cooling effect to drill bit 42 under the condition of guaranteeing that the refrigerant directly sprays the drill bit 42 not speaking, avoids drill bit 42 to rust, above is just the use flow of whole car motor processing trompil device.

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 various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides an automobile motor processing trompil device which characterized in that: including drilling workstation, carriage, drilling horizontal migration device, electronic drilling device and rust-resistant circulative cooling device, be equipped with the support column on the drilling workstation, the support column is located on the support column, drilling horizontal migration device locates on the support frame, electronic drilling device locates on the drilling horizontal migration device, rust-resistant circulative cooling device locates on the carriage, rust-resistant circulative cooling device includes liquid storage pot, cooling module, air compressor and radiator unit, the liquid storage pot is located on the carriage, cooling module locates on the liquid storage pot, air compressor locates on the support frame, radiator unit is a set of on locating the liquid storage pot, the radiator unit other end is located the air compressor other end, cooling module is including extraction pump, cooling transmission pipe, cooling screw pipe, protective sheath, dry filter, solenoid valve, expansion valve, temperature sensor and sight glass, the extraction pump is located on the liquid storage pot lateral wall, extraction pump bottom is located to cooling transmission pipe one end, the cooling transmission pipe other end is located on the air compressor, and the air compressor utilizes compression sleeve to fix the cooling transmission pipe, the cooling transmission pipe is located on the cooling screw thread, the cooling filter locates on the cooling transmission pipe the dry filter cooling transmission pipe the cooling filter locates the cooling transmission pipe on the sight glass.

2. The automotive electric machine tooling tapping device of claim 1, wherein: the heat dissipation assembly comprises a heat dissipation plate, a heat insulation column, a heat insulation plate, a fixing support, a heat dissipation motor, a heat dissipation fan and a heat dissipation tube, wherein the heat dissipation plate is arranged on the support frame, the heat insulation column is arranged on the heat dissipation plate, the heat insulation plate is arranged on the heat insulation column, the fixing support is arranged on the heat dissipation plate, the heat dissipation motor is arranged on the fixing support, the heat dissipation fan is arranged on the heat dissipation motor, one end of the heat dissipation tube is arranged on the liquid storage tank, and the other end of the heat dissipation tube is arranged on the air compressor.

3. The automotive electric machine tooling tapping device of claim 2, wherein: the drilling horizontal migration device comprises a threaded plate, a movable groove, a movable block, a threaded bearing, a threaded motor, a threaded rod and a limiting plate, wherein the threaded plate is arranged on the supporting frame, the movable groove is arranged on the supporting frame, the movable block is arranged on the movable groove, the threaded bearing is arranged on the threaded plate, the threaded motor is arranged on the threaded plate, the threaded rod penetrates through the movable block and is arranged on the threaded motor, and the limiting plate is arranged inside the supporting frame.

4. The automotive electric machine processing tapping device of claim 3, wherein: the drilling horizontal moving devices are two groups, and the drilling horizontal moving devices are arranged on two sides in the supporting frame respectively.

5. The automotive electric machine tooling tapping device of claim 4, wherein: electric drilling device includes fixed plate, fixed frame, electric telescopic handle, drilling motor, drilling rod and drill bit, the fixed plate is located on the movable block, fixed frame is located on the fixed plate, electric telescopic handle locates inside the fixed frame, inside electric telescopic handle was located to the drilling motor, drilling motor bottom was located to the drilling rod, the drill bit is located the drilling rod bottom.

6. The automotive electric machine processing tapping device of claim 5, wherein: be equipped with stable hydraulic stem on the fixed frame lateral wall, stable hydraulic stem bottom is equipped with stable clamp plate.

7. The automotive electric machine tooling tapping device of claim 6, wherein: the drilling device is characterized in that a lifting stable drilling positioning device is arranged on the supporting column and comprises an adjustable lifting groove, a hydraulic telescopic rod, a connecting block, a sliding groove, a connecting piece and a positioning stabilizing device, wherein the adjustable lifting groove is formed in the supporting column, the hydraulic telescopic rod is arranged on the outer side wall of the supporting column, the connecting block is arranged on the hydraulic telescopic rod, the sliding groove is formed in the side wall of the inner part of the adjustable lifting groove, the connecting piece is arranged at the bottom of the connecting block, and the positioning stabilizing device is arranged on the connecting piece.

8. The automotive electric machine tooling tapping device of claim 7, wherein: the positioning and stabilizing device comprises a stabilizing plate, a positioning hole, a spring frame, a limiting spring, a limiting block, a connecting column and a supporting block, wherein the stabilizing plate is arranged on the connecting piece, the positioning hole is arranged on the stabilizing plate, the spring frame is arranged on the stabilizing plate, the limiting spring is arranged in the spring frame, the limiting block is arranged at the top of the limiting spring, the connecting column is arranged on the limiting block, and the supporting block is arranged at the top of the connecting column.

9. The automotive electric machine tooling tapping device of claim 8, wherein: the drilling workbench is provided with two sets of anti-slip pads, and the positioning and stabilizing devices are provided with two sets.

10. The automotive electric machine processing tapping device of claim 9, wherein: the bottom of the stabilizing pressing plate is provided with an infrared transmitter, and the top of the stabilizing plate is provided with an infrared receiver.

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