CN212252040U - Automatic butter machine - Google Patents

Abstract

The utility model discloses an automatic butter machine, which comprises a housin, the oil gun, outside actuating mechanism, inside actuating mechanism, the annular cover of producing oil and separator, the oil gun sets up on the casing, outside actuating mechanism drives inside actuating mechanism drive oil gun down oil to separator and drive the oil separator oil delivery to the annular cover of producing oil, is equipped with a plurality of oil outlets on the annular cover radial direction of producing oil, is equipped with the oil feed screw rod on lieing in the annular cover axis of producing oil on the casing, the separator includes spacing flight, rotates the flight, dials the board, middle circle and hydraulic fluid port telescopic machanism, the utility model discloses an defeated oil pipe carries the butter to the oil storage intracavity from the oil feed screw rod, exports the butter through the annular cover of producing oil by the guide pin bushing that stretches into in the oil outlet, drives spacing flight and rotation flight in proper order by dialling the board, makes hydraulic fluid port telescopic machanism can withdraw from the oil outlet, drive rotatory tooth of middle circle through the guide pin bushing, And the oil outlet hole extends into the next oil outlet hole after resetting, the sequential oil outlet is finished through the circulating action, and the sequential oil outlet is realized through the structural linkage.

Description

Automatic butter machine

Technical Field

The utility model relates to a butter machine technical field especially relates to an automatic butter machine.

Background

Grease guns are hand tools for grease filling of mechanical equipment. An iron gun head can be used in a spacious place where the oiling position is convenient, and a hose flat gun head is needed to oil in a hidden place of the oiling position. Along with the continuous development and progress of industry, the use of lubricating grease has not been paid attention to before, and the traditional grease gun that relies on the arm to provide pressure has long been unable to satisfy the demand of epoch development, adopts traditional manual refueling in-process, not only wastes time and energy, still can not guarantee to refuel evenly at robotic arm's rotation station department.

In the using process of the butter machine, how to evenly and effectively convey butter to each part of the whole machine needing lubrication by an automatic oiling mode becomes a problem to be solved by the automatic butter machine technology divination by means of the milfoil; meanwhile, the conventional butter machine needs to be driven by external power (such as a motor), so that the energy-saving effect is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic butter machine, the utility model discloses the defeated oil pipe of accessible carries the butter to the oil storage intracavity from sending oily screw rod, by the last guide pin bushing that stretches into in the oil outlet on the hydraulic fluid port telescopic machanism with the butter through the output ring sheathes in, via dialling the board and drive spacing tooth piece in proper order and rotate the tooth piece, make the last guide pin bushing of hydraulic fluid port telescopic machanism withdraw from the oil outlet, through middle circle drive rotation, stretch into next oil outlet through reseing, through the aforesaid circulation action completion order oil, realize order oil through the structure linkage.

In order to achieve the above purpose, the utility model adopts the technical scheme that: an automatic butter machine comprises a shell, a butter gun, an external driving mechanism, an internal driving mechanism, an oil outlet annular sleeve and an oil distributor, wherein the butter gun is arranged on the shell and is communicated with the oil distributor arranged on the shell through an oil conveying pipe, the external driving mechanism drives the internal driving mechanism to drive the butter gun to discharge oil to the oil distributor and drive the oil distributor to deliver oil to the oil outlet annular sleeve, the oil outlet annular sleeve is fixed on the shell, a plurality of oil outlet holes penetrating through the shell are formed in the radial direction of the oil outlet annular sleeve, an oil delivery screw rod is arranged on the shell and is positioned on a central axis of the oil outlet annular sleeve, the oil distributor comprises a limiting toothed sheet, a rotating toothed sheet, a shifting plate, a middle circle and an oil port telescopic mechanism used for delivering oil to the oil outlet holes, the middle circle is provided with an oil storage middle cavity, the middle circle is rotatably sleeved on the oil delivery screw rod through the oil storage middle cavity, and the outer wall of the middle circle is, the oil storage device is characterized in that a through hole communicated with the oil storage middle cavity is formed in the middle circle in the radial direction, a sliding groove which vertically penetrates through the through hole and the body of the oil storage middle cavity is formed in the middle circle, the rotating tooth piece and the limiting tooth piece are rotatably arranged on the oil delivery screw rod, the rotating tooth piece is fixed on the middle circle and located between the middle circle and the limiting tooth piece, a shifting plate is hinged to the limiting tooth piece, one side of the upper end of the shifting plate is hinged to the rotating tooth piece after penetrating through the rotating tooth piece, the other side of the upper end of the shifting plate is abutted to an oil port telescopic mechanism which is arranged in the sliding groove and can slide, and the driving mechanism sequentially drives the limiting tooth piece and the rotating tooth piece to rebound to the direction of an adjacent oil port and is clamped in the oil.

As further optimization, inside actuating mechanism includes bent axle, first connecting rod, curb plate, second connecting rod, pressure head and drive plate, the bent axle is rotatable to be set up on the casing, first connecting rod cover is located on the bent axle, and rotatable connection of its other end articulates the curb plate on the casing, the homonymy that is located first connecting rod on the curb plate articulates there is the second connecting rod, and its opposite side articulates on the fixed plate on the casing through swing waist hole, rotatable drive plate that is equipped with on the fixed plate, the oil under the pressure head extrusion that second connecting rod drive is located its top and stretches into in the oil gun, the curb plate drives the reciprocal swing of drive plate and stirs spacing tooth piece and rotation tooth piece in proper order.

As further optimization, hydraulic fluid port telescopic machanism includes slide, mounting panel, guide pin bushing, cylinder clamp, reference column and reset spring, the mounting panel vertical fixation can with dial on the slide of board butt, and it is located the spout, the guide pin bushing runs through behind the mounting panel through the cylinder clamp tight, and it is located the through-hole, and is a pair of reference column parallel arrangement is in the guide pin bushing both sides, reset spring cover locate on the reference column and with spout inner wall butt.

As further optimization, one side of the inner wall of the sliding groove, which is far away from the oil outlet annular sleeve, is provided with a pair of blind holes, and one side of the reset spring, which is far away from the cylindrical clamp, is abutted in the blind holes.

As a further optimization, the limiting tooth piece comprises an upper limiting piece and a lower limiting piece, a mounting cavity is formed in the upper limiting piece, and the shifting plate is hinged to the lower limiting piece and located in the mounting cavity.

As a further optimization, the rotating tooth piece comprises an upper rotating piece and a lower rotating piece, the upper end of the shifting plate is hinged to the lower rotating piece through a displacement waist hole, and the top end face of the shifting plate is flush with the upper end face of the upper rotating piece.

As a further optimization, a pressing plate used for sealing the oil port telescopic mechanism in the sliding groove is arranged on one side, close to the rotating tooth piece, of the middle circle, and the sliding plate can abut against the pressing plate to slide.

As a further optimization, the limiting tooth plate and the rotating tooth plate have the same tooth number and are equal to the oil outlet holes in number; the number of the oil outlet holes is ten to thirty.

As further optimization, a positioning ring is arranged on one side, far away from the rotating tooth piece, of the oil outlet annular sleeve, a limiting bearing is arranged on the inner wall of the positioning ring, and a guide clamp which can be clamped with the limiting bearing is fixed on one side, far away from the rotating tooth piece, of the middle circle; the positioning ring is provided with a cover plate.

As a further optimization, a first oil inlet hole and a second oil inlet hole which are communicated with each other are respectively formed in the end part and the middle part of the oil delivery screw, the first oil inlet hole is located outside the cover plate, and the second oil inlet hole is located in the oil storage cavity.

Compared with the prior art, the utility model discloses following beneficial effect has: the utility model discloses accessible oil pipe carries the butter to the intracavity in the oil storage from the oil feeding screw rod, and the guide pin bushing that stretches into in the oil outlet on the hydraulic fluid port telescopic machanism is put the butter on through the oil outlet ring and is exported, drives spacing pick and rotates the pick in proper order via dialling the board, makes the guide pin bushing on the hydraulic fluid port telescopic machanism withdraw from the oil outlet, through the rotation of middle circle drive, stretch into next oil outlet through reseing, accomplishes the order through the above-mentioned circulation action and produces oil, realizes the order through the structural linkage and produces oil; by using the oil outlet mechanism, the limiting toothed sheet and the rotating toothed sheet automatically rotate, so that the guide sleeve can uniformly and effectively discharge oil along each oil outlet hole of the oil outlet annular sleeve, and the automatic butter conveying of the whole machine is realized; and the driving action can be completed by the swinging of the large arm of the whole machine (such as a digging machine) without an external power source.

Drawings

Fig. 1 is an installation schematic diagram of the present invention.

Fig. 2 is an internal structure diagram of the present invention.

Fig. 3 is a schematic diagram of the operation of the driving plate of the present invention.

Fig. 4 is a structural diagram of the oil separator of the present invention installed on the oil feed screw.

Fig. 5 is a structural diagram of the oil feed screw of the present invention.

Fig. 6 is a structural diagram of the middle circle of the present invention.

Fig. 7 is the installation schematic diagram of the shifting plate, the oil port telescopic mechanism, the limiting tooth piece and the rotating tooth piece of the present invention.

Fig. 8 is a structural diagram of the plate-shifting and oil-port telescoping mechanism of the present invention.

Fig. 9 is an installation schematic diagram of the poking plate, the middle circle and the oil outlet annular sleeve of the utility model.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 9, an automatic butter making machine comprises a casing 1, a grease gun 61, an external driving mechanism 7, an internal driving mechanism, a grease outlet ring 3 and a grease distributor 4, wherein the grease gun 61 is arranged on the casing 1 and is communicated with the grease distributor 4 arranged on the casing 1 through a grease pipe 62, the external driving mechanism 7 drives the internal driving mechanism to drive the grease gun 61 to discharge grease to the grease distributor 4 and drive the grease distributor 4 to deliver grease to the grease outlet ring 3, the grease outlet ring 3 is fixed on the casing 1 and is provided with a plurality of grease outlet holes 31 penetrating through the body in the radial direction, a grease delivery screw rod 5 is arranged on the casing 1 on the central axis of the grease outlet ring 3, the grease distributor 4 comprises a limiting toothed plate 41, a rotating toothed plate 42, a shifting plate 44, a middle circle 43 and a telescopic mechanism 45 for delivering grease to the grease outlet hole 31, the middle circle 43 is provided with a grease storage middle cavity 431, and is rotatably sleeved on the grease delivery screw rod 5 through the grease storage middle cavity 431, the outer wall of the middle circle 43 is abutted against the inner wall of the oil outlet annular sleeve 3, a through hole 432 communicated with the oil storage middle cavity 431 is arranged in the radial direction of the middle circle 43, a sliding groove 433 vertically penetrating through the through hole 432 and the body of the middle circle 43 is arranged on the middle circle 43, the rotating tooth piece 42 and the limiting tooth piece 43 are both rotatably arranged on the oil delivery screw 5, the rotating tooth piece 42 is fixed on the middle circle 43 and is positioned between the middle circle 43 and the limiting tooth piece 41, a shifting plate 44 is hinged on the limiting tooth piece 41, one side of the upper end of the shifting plate 44 after penetrating through the rotating tooth piece 42 is hinged on the rotating tooth piece 42, the other side of the upper end of the shifting plate is abutted against an oil port telescopic mechanism 45 which is arranged in the sliding groove 433, and the driving mechanism sequentially drives the limiting tooth piece 41 and the rotating tooth piece 42 to rotate around the oil delivery screw 5 to enable the telescopic mechanism 45 to be far away from the oil.

The internal driving mechanism comprises a crankshaft 75, a first connecting rod 21, a side plate 22, a second connecting rod 241, a pressure head 242 and a driving plate 231, wherein the crankshaft 75 is rotatably arranged on the shell 1, the first connecting rod 21 is sleeved on the crankshaft 75, the other end is rotatably connected and hinged with a side plate 22 on the shell 1, a second connecting rod 241 is hinged on the side plate 22 which is positioned at the same side of the first connecting rod 21, the other side is hinged on the fixing plate 11 on the shell 1 through the swinging waist hole 221, the middle part is hinged on the shell 1, the fixing plate 11 is rotatably provided with a driving plate 231, the driving plate 231 rotates through a hinge hole 2311, the second connecting rod 241 drives a pressure head 242 which is positioned at the top end and extends into the oil gun 61 to extrude the oil, the oil gun is provided with a guide hole 611, the oil can be squeezed by the aid of reciprocating linear motion of the pressure head, and the side plate 22 drives the driving plate 231 to reciprocate to stir the limiting toothed sheet 41 and the rotating toothed sheet 42 in sequence. The movement of the internal driving mechanism can be linked through the external driving mechanism 7, the casing 1 of the butter machine is arranged on the swing arm of the machinery such as the digging machine and the like as shown in fig. 1, the lower end of the swing arm is provided with arc-shaped teeth 70, a large gear 71 is meshed with the arc-shaped teeth 70, the large gear is driven to rotate through the reciprocating motion of the swing arm, the large gear drives a small gear 72 to rotate, the flywheel 74 is rotatably arranged on the casing 1, the small gear drives the flywheel 74 to rotate through a chain 73, a crankshaft 75 is fixed on the flywheel, and the movement of the internal driving mechanism is realized through the.

The oil port extending and retracting mechanism 45 includes a sliding plate 451, a mounting plate 452, a guide sleeve 453, a cylindrical clamp 454, a positioning column 455 and a return spring (not shown), the mounting plate 452 is vertically fixed on the sliding plate 451 capable of abutting against the shifting plate 44 and is located in the sliding groove 433, the guide sleeve 453 penetrates through the mounting plate 452 and then is clamped by the cylindrical clamp 454 and is located in the through hole 432, the pair of positioning columns 455 are arranged in parallel on two sides of the guide sleeve 453, and the return spring is sleeved on the positioning column 455 and abuts against the inner wall of the sliding groove 433.

One side of the inner wall of the sliding groove 433, which is far away from the oil outlet annular sleeve 3, is provided with a pair of blind holes 434, and one side of the return spring, which is far away from the cylindrical clamp 454, abuts against the blind holes 434.

Spacing teeth piece 41 includes the spacing piece 411 of upper strata and the spacing piece 412 of lower floor, has the installation cavity 4111 on the spacing piece 411 of upper strata, dials board 44 and articulates on the spacing piece 412 of lower floor, and is located the installation cavity 4111.

The rotating tooth piece 42 includes an upper rotating piece 421 and a lower rotating piece 422, the upper end of the shifting plate 44 is hinged on the lower rotating piece 422 through a displacement waist hole 442, and the top end surface of the shifting plate is flush with the upper end surface of the upper rotating piece 421.

A pressing plate 435 for sealing the oil port expansion mechanism 45 in the sliding groove 433 is arranged on one side of the middle circle 43 close to the rotating tooth piece 42, and the sliding plate 451 can abut against the pressing plate 435 to slide.

The limiting tooth plate 41 and the rotating tooth plate 42 have the same number of teeth and are equal to the number of the oil outlet holes 31; the number of the oil outlet holes 31 is ten to thirty.

A positioning ring 81 is arranged on one side, far away from the rotating tooth piece 42, of the oil outlet annular sleeve 3, a limiting bearing 82 is arranged on the inner wall of the positioning ring 81, a guide clamp 46 which can be clamped with the limiting bearing 82 is fixed on one side, far away from the rotating tooth piece 42, of the middle circle 43, and the guide clamp can assist the oil port telescopic mechanism to position in a matched mode, so that the guide sleeve is accurately embedded into the oil outlet; the positioning ring 81 has a cover plate 9 thereon.

The end part and the middle part of the oil feeding screw rod 5 are respectively provided with a first oil inlet hole 51 and a second oil inlet hole 52 which are communicated, the first oil inlet hole 51 is positioned outside the cover plate 9, and the second oil inlet hole 52 is positioned in the oil storage middle cavity 431.

The driving mechanism comprises a driving plate 231 which is moved by the driving plate 231 (shifted by a non-arc surface on one side close to the toothed sheet), the limiting toothed sheet and the rotating toothed sheet rotate anticlockwise around the oil feeding screw rod shown in figure 3, the action process of the driving plate is to wave the limiting toothed sheet and the rotating toothed sheet in sequence, specifically, when the driving plate drives the limiting toothed sheet to rotate, the lower end of a shifting plate which is positioned in the mounting cavity and hinged on a lower limiting sheet through a hinged round hole 441 is driven to generate displacement relative to the rotating toothed sheet, one side of the upper end of the shifting sheet is rotatably and movably hinged on the lower rotating sheet through a displacement waist hole 442, under the premise that the lower end of the shifting plate generates displacement, the upper end of the shifting plate rotates through the displacement waist hole and drives the other side of the upper end to generate displacement towards one side of the oil feeding screw rod, and the shifting plate can be abutted against the sliding plate to enable the sliding plate to move towards, at this time, the driving plate 231 moving according to a certain frequency moves to the rotating tooth piece and stirs the rotating tooth piece to rotate, the middle circle arranged on the rotating tooth piece rotates to the next oil outlet and drives the sliding plate positioned in the sliding groove to rotate together, the shifting plate is reset along with the gradual reduction and disappearance of the angular displacement between the rotating tooth piece and the limiting tooth piece, and at this time, after the acting force of the shifting plate is lost, the sliding plate can be pushed to the side far away from the oil feeding screw rod again through the reset spring and enters the oil outlet again when the through hole and the oil outlet are positioned on the same axis.

The driving plate 231 is hinged to the fixing plate 11, the action of the driving plate can be driven by the crankshaft 75, specifically, the crankshaft 75 is driven by external acting force to rotate to drive the first connecting rod 21 to move, the other end of the first connecting rod is hinged to the side plate 22, the middle part of the side plate is hinged to the shell, the other end of the side plate is hinged to the fixing plate 11 through the swing waist hole 221, and the side plate 22 reciprocates to stir the driving plate 231 to sequentially and circularly stir the limiting tooth piece and the rotating tooth piece at a certain frequency.

The utility model discloses the defeated oil pipe of accessible is carried the butter to the oil storage cavity in from the screw rod that send oil, by the last guide pin bushing that stretches into in the oil outlet of hydraulic fluid port telescopic machanism with the butter through the output on the annular of producing oil, via dialling the spacing tooth piece of board drive in proper order and rotate the tooth piece, make the last guide pin bushing of hydraulic fluid port telescopic machanism can withdraw from the oil outlet, through middle circle drive rotation, stretch into next oil outlet through reseing, through the aforesaid circulation action completion order oil.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. An automatic butter making machine is characterized by comprising a shell, a butter gun, an external driving mechanism, an internal driving mechanism, a butter outlet annular sleeve and a butter distributor, wherein the butter gun is arranged on the shell and is communicated with the butter distributor arranged on the shell through a butter pipe, the external driving mechanism drives the internal driving mechanism to drive the butter gun to discharge butter to the butter distributor and drive the butter distributor to deliver the butter to the butter outlet annular sleeve, the butter outlet annular sleeve is fixed on the shell, a plurality of oil outlet holes penetrating through the shell are formed in the radial direction of the oil outlet annular sleeve, an oil delivery screw is arranged on the shell and positioned on a central axis of the butter outlet annular sleeve, the butter distributor comprises a limiting tooth sheet, a rotating tooth sheet, a shifting plate, a middle circle and a telescopic oil port mechanism used for delivering the butter to the oil outlet holes, the middle circle is provided with a butter storage middle cavity, the middle circle is rotatably sleeved on the oil delivery screw through the butter storage middle cavity, and the outer wall of the middle circle is abutted against, the oil storage device is characterized in that a through hole communicated with the oil storage middle cavity is formed in the middle circle in the radial direction, a sliding groove which vertically penetrates through the through hole and the body of the oil storage middle cavity is formed in the middle circle, the rotating tooth piece and the limiting tooth piece are rotatably arranged on the oil delivery screw rod, the rotating tooth piece is fixed on the middle circle and located between the middle circle and the limiting tooth piece, a shifting plate is hinged to the limiting tooth piece, one side of the upper end of the shifting plate is hinged to the rotating tooth piece after penetrating through the rotating tooth piece, the other side of the upper end of the shifting plate is abutted to an oil port telescopic mechanism which is arranged in the sliding groove and can slide, and the driving mechanism sequentially drives the limiting tooth piece and the rotating tooth piece to rebound to the direction of an adjacent oil port and is clamped in the oil.

2. The automatic butter machine of claim 1, characterized in that, the internal driving mechanism comprises a crankshaft, a first connecting rod, a side plate, a second connecting rod, a pressure head and a driving plate, the crankshaft is rotatably arranged on the housing, the first connecting rod is sleeved on the crankshaft, the other end of the first connecting rod is rotatably connected and hinged with the side plate on the housing, the second connecting rod is hinged on the side plate on the same side of the first connecting rod, the other side of the side plate is hinged on a fixing plate on the housing through a swinging waist hole, the fixing plate is rotatably provided with the driving plate, the second connecting rod drives the pressure head on the top end of the second connecting rod and extends into the butter gun to press oil, and the side plate drives the driving plate to reciprocate to shift the limit tooth piece and the.

3. The automatic butter machine as claimed in claim 1, wherein the oil port retracting mechanism comprises a sliding plate, a mounting plate, a guide sleeve, a cylindrical clamp, positioning columns and a return spring, the mounting plate is vertically fixed on the sliding plate which can abut against the shifting plate and is located in the chute, the guide sleeve penetrates through the mounting plate and then is clamped by the cylindrical clamp and is located in the through hole, a pair of the positioning columns are arranged on two sides of the guide sleeve in parallel, and the return spring is sleeved on the positioning columns and abuts against the inner wall of the chute.

4. The automatic butter machine of claim 3, characterized in that, the spout inner wall is equipped with a pair of blind holes far away from the side of oil outlet annular cover, the reset spring is kept away from the side of cylinder clamp and is supported in the blind hole.

5. The automatic butter machine of claim 1, wherein the limiting tooth piece comprises an upper limiting piece and a lower limiting piece, the upper limiting piece is provided with a mounting cavity, and the shifting plate is hinged on the lower limiting piece and is positioned in the mounting cavity.

6. The automatic butter machine as claimed in claim 5, wherein the rotary teeth comprise an upper rotary sheet and a lower rotary sheet, the upper end of the poking plate is hinged on the lower rotary sheet through a displacement waist hole, and the top end surface of the poking plate is flush with the upper end surface of the upper rotary sheet.

7. The automatic butter machine as claimed in claim 3, wherein a pressing plate for sealing the oil port telescoping mechanism in the chute is provided on one side of the middle circle near the rotating tooth piece, and the sliding plate can be abutted against the pressing plate to slide.

8. The automatic butter machine of claim 1, wherein the limit tooth plate and the rotating tooth plate have the same number of teeth and are equal to the number of the oil outlet holes; the number of the oil outlet holes is ten to thirty.

9. The automatic butter machine as claimed in claim 1, wherein a positioning ring is arranged on one side of the oil outlet annular sleeve far away from the rotating tooth piece, a limit bearing is arranged on the inner wall of the positioning ring, and a guide clamp which can be clamped with the limit bearing is fixed on one side of the middle circle far away from the rotating tooth piece; the positioning ring is provided with a cover plate.

10. The automatic butter machine of claim 9, characterized in that the end and the middle of the oil feeding screw are respectively provided with a first oil inlet and a second oil inlet which are communicated, the first oil inlet is positioned outside the cover plate, and the second oil inlet is positioned in the oil storage cavity.

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