CN204429457U - A kind of intelligent milling apparatus - Google Patents

Abstract

The utility model relates to mechanical equipment technical field, particularly relates to a kind of intelligent milling apparatus; Intelligent milling apparatus of the present utility model, comprise cylindrical shell, also comprise the first motor, the first drive disk assembly, the second abrasive disk, feed hopper, dividing plate, install bin, the second motor, second driving shaft, the first abrasive disk, the first carrier pipe, the second carrier pipe, the 3rd motor, sand cylinder, the 3rd power transmission shaft, the 3rd rotating shaft, mixing roll, discharge bucket, the check-out console being arranged at the upper end of described first carrier pipe, the controller be arranged on the outer wall of described cylindrical shell, be embedded at alarm lamp on described controller and switch; Described check-out console is electrically connected with described controller; Milling apparatus grinding efficiency of the present utility model is high, and Grinding Quality is high.

Description

A kind of intelligent milling apparatus

Technical field

The utility model relates to mechanical equipment technical field, particularly relates to a kind of intelligent milling apparatus.

Background technology

Traditional milling apparatus can not be real-time the product of process of lapping and grinding is monitored, grinding effect is poor, and grinding efficiency is lower.Therefore, need to provide a kind of milling apparatus, the milling apparatus that grinding efficiency is higher that can control grinding situation in real time.

Utility model content

The purpose of this utility model is to provide a kind of intelligent milling apparatus, solves traditional milling apparatus grinding efficiency low, the problem that Grinding Quality is poor.

The technical scheme that the utility model adopts for its technical problem of solution is:

A kind of intelligent milling apparatus, comprises cylindrical shell, also comprises the first motor of the upper end being arranged at described cylindrical shell, direction along the upper plate perpendicular to described cylindrical shell is arranged in the first drive disk assembly of the upper end of described cylindrical shell, revolve the second abrasive disk of the lower end being located at described first drive disk assembly, be arranged in the feed hopper on the top of described cylindrical shell, direction along the sidewall perpendicular to described cylindrical shell is arranged in the dividing plate in described cylindrical shell, be arranged at the install bin of the downside of described dividing plate, be arranged at the second motor in described install bin, be arranged in described dividing plate and one end along the direction perpendicular to described dividing plate and revolve the second driving shaft be located on described second motor, revolve first abrasive disk of the one end away from described second motor being located at described second driving shaft, the first carrier pipe of the downside of described dividing plate is arranged at along the direction perpendicular to described dividing plate, be arranged at the second carrier pipe of the bottom of described first carrier pipe, be arranged at the bottom of described cylindrical shell and be in the 3rd motor of the inside of described cylindrical shell, be arranged at the sand cylinder of the lower end of described second carrier pipe, revolve the end being located at described 3rd motor and the 3rd power transmission shaft be arranged in described sand cylinder, axis along described sand cylinder is arranged in the 3rd rotating shaft in described sand cylinder, revolve the mixing roll be located on described 3rd rotating shaft, be arranged at one end away from described 3rd motor of described sand cylinder and the discharge bucket be arranged in the sidewall of described cylindrical shell, be arranged at the check-out console of the upper end of described first carrier pipe, be arranged at the controller on the outer wall of described cylindrical shell, be embedded at the alarm lamp on described controller and switch, described check-out console is electrically connected with described controller.

Wherein, described first drive disk assembly comprise the first power transmission shaft, revolve the stop sleeve be located on described first power transmission shaft, revolve be located on described first power transmission shaft and be in the downside of described stop sleeve the sleeve that spins, be arranged at described in spin the support bar on the sidewall of sleeve and be arranged at the connecting plate of the one end away from the described sleeve that spins of described support bar; Described support bar and described first power transmission shaft angle are θ; Described θ >=10 °, and θ≤30 °; Support bar described in several is uniformly distributed along the excircle of the described sleeve that spins.

Wherein, described 3rd rotating shaft comprise rotary body, the installing card relay part be sheathed on described rotary body, along the mounting rod being axially set in the end of described rotary body of described rotary body and the clamping tooth be located at along the radial convex of described mounting rod on the outer wall of described mounting rod; The longitudinal section of described clamping tooth is trapezoidal; Described in several, clamping tooth is uniformly distributed along the axis of described mounting rod; To contact with described rotary body in described mounting rod and be provided with intermediate incline; Concave side wall in described installing card relay part is provided with the first groove; The sidewall of described first groove is ellipsoid; Described in several, installing card relay part is uniformly distributed along the axis of described rotary body.

The utility model has the advantage of:

Intelligent milling apparatus of the present utility model, comprises cylindrical shell, also comprises the first motor of the upper end being arranged at described cylindrical shell, direction along the upper plate perpendicular to described cylindrical shell is arranged in the first drive disk assembly of the upper end of described cylindrical shell, revolve the second abrasive disk of the lower end being located at described first drive disk assembly, be arranged in the feed hopper on the top of described cylindrical shell, direction along the sidewall perpendicular to described cylindrical shell is arranged in the dividing plate in described cylindrical shell, be arranged at the install bin of the downside of described dividing plate, be arranged at the second motor in described install bin, be arranged in described dividing plate and one end along the direction perpendicular to described dividing plate and revolve the second driving shaft be located on described second motor, revolve first abrasive disk of the one end away from described second motor being located at described second driving shaft, the first carrier pipe of the downside of described dividing plate is arranged at along the direction perpendicular to described dividing plate, be arranged at the second carrier pipe of the bottom of described first carrier pipe, be arranged at the bottom of described cylindrical shell and be in the 3rd motor of the inside of described cylindrical shell, be arranged at the sand cylinder of the lower end of described second carrier pipe, revolve the end being located at described 3rd motor and the 3rd power transmission shaft be arranged in described sand cylinder, axis along described sand cylinder is arranged in the 3rd rotating shaft in described sand cylinder, revolve the mixing roll be located on described 3rd rotating shaft, be arranged at one end away from described 3rd motor of described sand cylinder and the discharge bucket be arranged in the sidewall of described cylindrical shell, be arranged at the check-out console of the upper end of described first carrier pipe, be arranged at the controller on the outer wall of described cylindrical shell, be embedded at the alarm lamp on described controller and switch, described check-out console is electrically connected with described controller, milling apparatus grinding efficiency of the present utility model is high, and Grinding Quality is high.

Accompanying drawing explanation

Fig. 1 is the front view of intelligent milling apparatus of the present utility model.

Fig. 2 is the front view of the first drive disk assembly of the present utility model.

Fig. 3 is the front view of the 3rd rotating shaft of the present utility model.

1-cylindrical shell; 2-first abrasive disk; 3-second abrasive disk; 4-first drive disk assembly; 41-first power transmission shaft; 42-stop sleeve; 43-spins sleeve; 44-support bar; 45-connecting plate; 5-first motor; 6-feed hopper; 7-dividing plate; 8-second motor; 9-install bin; 10-discharge bucket; 11-the 3rd rotating shaft; 1101-clamping tooth; 1102-mounting rod; 1103-rotary body; 1104-installing card relay part; 12-mixing roll; 13-sand cylinder; 14-the 3rd power transmission shaft; 15-the 3rd motor; 16-second carrier pipe; 17-first carrier pipe; 18-check-out console; 19-controller; 20-alarm lamp; 21-switch; 22-second driving shaft.

Detailed description of the invention

The technological means realized to make the utility model, creation characteristic, reaching object and effect is easy to understand, below in conjunction with diagram and specific embodiment, setting forth the utility model further.

Composition graphs 1 to Fig. 3 is described in detail to intelligent milling apparatus of the present utility model.

Intelligent milling apparatus of the present utility model, comprises cylindrical shell 1, also comprises the first motor 5 of the upper end being arranged at described cylindrical shell 1, direction along the upper plate perpendicular to described cylindrical shell 1 is arranged in the first drive disk assembly 4 of the upper end of described cylindrical shell 1, revolve the second abrasive disk 3 of the lower end being located at described first drive disk assembly 4, be arranged in the feed hopper 6 on the top of described cylindrical shell 1, direction along the sidewall perpendicular to described cylindrical shell 1 is arranged in the dividing plate 7 in described cylindrical shell 1, be arranged at the install bin 9 of the downside of described dividing plate 7, be arranged at the second motor 8 in described install bin 9, to be arranged in along the direction perpendicular to described dividing plate 7 in described dividing plate 7 and the second driving shaft 22 be located on described second motor 8 is revolved in one end, revolve first abrasive disk 2 of the one end away from described second motor 8 being located at described second driving shaft 22, the first carrier pipe 17 of the downside of described dividing plate 7 is arranged at along the direction perpendicular to described dividing plate 7, be arranged at the second carrier pipe 16 of the bottom of described first carrier pipe 17, be arranged at the bottom of described cylindrical shell 1 and be in the 3rd motor 15 of the inside of described cylindrical shell 1, be arranged at the sand cylinder 13 of the lower end of described second carrier pipe 16, revolve the end being located at described 3rd motor 15 and the 3rd power transmission shaft 14 be arranged in described sand cylinder 13, axis along described sand cylinder 13 is arranged in the 3rd rotating shaft 11 in described sand cylinder 13, revolve the mixing roll 12 be located on described 3rd rotating shaft 11, be arranged at one end away from described 3rd motor 15 of described sand cylinder 13 and the discharge bucket 10 be arranged in the sidewall of described cylindrical shell 1, be arranged at the check-out console 18 of the upper end of described first carrier pipe 17, be arranged at the controller 19 on the outer wall of described cylindrical shell 1, be embedded at the alarm lamp 20 on described controller 19 and switch 21, described check-out console 18 is electrically connected with described controller 19.

Described first drive disk assembly 4 comprises the first power transmission shaft 41, revolve the stop sleeve 42 be located on described first power transmission shaft 41, revolve be located on described first power transmission shaft 41 and be in the downside of described stop sleeve 42 the sleeve 43 that spins, be arranged at described in spin the support bar 44 on the sidewall of sleeve 43 and be arranged at the connecting plate 45 of the one end away from the described sleeve 43 that spins of described support bar 44; Described support bar 44 is θ with described first power transmission shaft 41 angle; Described θ >=10 °, and θ≤30 °; Support bar 44 described in several is uniformly distributed along the described excircle spinning sleeve 43.

Described 3rd rotating shaft 11 comprises rotary body 1103, the installing card relay part 1104 be sheathed on described rotary body 1103, along the mounting rod 1102 being axially set in the end of described rotary body 1103 of described rotary body 1103 and the clamping tooth 1101 be located at along the radial convex of described mounting rod 1102 on the outer wall of described mounting rod 1102; The longitudinal section of described clamping tooth 1101 is trapezoidal; Clamping tooth 1101 described in several is uniformly distributed along the axis of described mounting rod 1102; To contact with described rotary body 1103 in described mounting rod 1102 and be provided with intermediate incline; Concave side wall in described installing card relay part 1104 is provided with the first groove; The sidewall of described first groove is ellipsoid; Installing card relay part 1104 described in several) be uniformly distributed along the axis of described rotary body 1103.

More than show and describe general principle of the present utility model, principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope, the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (3)

1. an intelligent milling apparatus, comprise cylindrical shell (1), it is characterized in that: the first motor (5) also comprising the upper end being arranged at described cylindrical shell (1), direction along the upper plate perpendicular to described cylindrical shell (1) is arranged in first drive disk assembly (4) of the upper end of described cylindrical shell (1), revolve second abrasive disk (3) of the lower end being located at described first drive disk assembly (4), be arranged in the feed hopper (6) on the top of described cylindrical shell (1), direction along the sidewall perpendicular to described cylindrical shell (1) is arranged in the dividing plate (7) in described cylindrical shell (1), be arranged at the install bin (9) of the downside of described dividing plate (7), be arranged at the second motor (8) in described install bin (9), to be arranged in along the direction perpendicular to described dividing plate (7) in described dividing plate (7) and the second driving shaft (22) be located on described second motor (8) is revolved in one end, revolve first abrasive disk (2) of the one end away from described second motor (8) being located at described second driving shaft (22), first carrier pipe (17) of the downside of described dividing plate (7) is arranged at along the direction perpendicular to described dividing plate (7), be arranged at second carrier pipe (16) of the bottom of described first carrier pipe (17), be arranged at the bottom of described cylindrical shell (1) and be in the 3rd motor (15) of the inside of described cylindrical shell (1), be arranged at the sand cylinder (13) of the lower end of described second carrier pipe (16), revolve the end being located at described 3rd motor (15) and the 3rd power transmission shaft (14) be arranged in described sand cylinder (13), axis along described sand cylinder (13) is arranged in the 3rd rotating shaft (11) in described sand cylinder (13), revolve the mixing roll (12) be located on described 3rd rotating shaft (11), be arranged at one end away from described 3rd motor (15) of described sand cylinder (13) and the discharge bucket (10) be arranged in the sidewall of described cylindrical shell (1), be arranged at the check-out console (18) of the upper end of described first carrier pipe (17), be arranged at the controller (19) on the outer wall of described cylindrical shell (1), be embedded at the alarm lamp (20) on described controller (19) and switch (21), described check-out console (18) is electrically connected with described controller (19).

2. the intelligent milling apparatus of one according to claim 1, it is characterized in that: described first drive disk assembly (4) comprises the first power transmission shaft (41), revolve the stop sleeve (42) be located on described first power transmission shaft (41), revolve that to be located at described first power transmission shaft (41) upper and be in the sleeve that spins (43) of the downside of described stop sleeve (42), spin described in being arranged at the support bar (44) on the sidewall of sleeve (43) and be arranged at the connecting plate (45) of the one end away from the described sleeve that spins (43) of described support bar (44), described support bar (44) and described first power transmission shaft (41) angle are θ, described θ >=10 °, and θ≤30 °, support bar described in several (44) is uniformly distributed along the excircle of the described sleeve that spins (43).

3. the intelligent milling apparatus of one according to claim 2, is characterized in that: described 3rd rotating shaft (11) comprises rotary body (1103), the installing card relay part (1104) be sheathed on described rotary body (1103), along the mounting rod (1102) being axially set in the end of described rotary body (1103) of described rotary body (1103) and the clamping tooth (1101) be located at along the radial convex of described mounting rod (1102) on the outer wall of described mounting rod (1102); The longitudinal section of described clamping tooth (1101) is trapezoidal; Described in several, clamping tooth (1101) is uniformly distributed along the axis of described mounting rod (1102); To contact with described rotary body (1103) in described mounting rod (1102) and be provided with intermediate incline; Concave side wall in described installing card relay part (1104) is provided with the first groove; The sidewall of described first groove is ellipsoid; Described in several, installing card relay part (1104) is uniformly distributed along the axis of described rotary body (1103).