CN208407293U - A kind of feeding device for airflow milling equipment - Google Patents

Abstract

The utility model relates to Nd-Fe-B permanent magnet production equipment technology, in particular to a kind of feeding device for airflow milling equipment.By the way that horizontal guide rail is arranged on the base, horizontal carriage is set on the horizontal guide rail, upright guide rail is connected in horizontal carriage, vertical balladeur train is slidably connected on upright guide rail, by the way that the first arc groove and the second arc groove are arranged on vertical balladeur train, batch can is erected on vertical balladeur train by the convex block of batch can two sides, batch can is set to be moved to the surface of hopper using the cooperation of upright guide rail and horizontal guide rail, push the upper section of batch can to using motor drive push plate, make batch can that slowly overturning occur, make discharge port overturning downwards, docks discharge port with hopper；Compared to conventional air mill feeding manner in by way of manually batch being lifted to eminence and manually being overturn, human cost is greatly saved, improves work efficiency.

Description

A kind of feeding device for airflow milling equipment

Technical field

The utility model relates to Nd-Fe-B permanent magnet production equipment technologies, in particular to a kind of to be used for airflow milling equipment Feeding device.

Background technique

The preparation process of entire sintered NdFeB belongs to powder metallurgical technique, during airflow milling powder process is this Crucial place.Airflow milling powder be using high pressure draught by powder particle accelerate to supersonic speed be allowed to mutually clash and be crushed.By It is contacted for a long time with air before sintering in neodymium iron boron and is easy spontaneous combustion, therefore in neodymium iron boron production process, turned between each process Journey is moved past to need using the strong container of air-tightness (batch can), and in airflow milling powder equipment, the position of feed hopper is usually in height Locate, needs worker to remove batch can to eminence in traditional airflow milling equipment feeding manner, then invert batch can, make original tank body top Feed inlet and outlet docked with hopper, thus by batch can neodymium iron boron powder input air flow mill equipment in continue to grind fine powder.

Seen from the above description, the feeding manner of traditional airflow milling equipment, which exists, expends a large amount of manpowers, and inefficient The problem of.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of efficient and labor-saving for airflow milling equipment Feeding device.

In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model are as follows:

A kind of feeding device for airflow milling equipment, including pedestal, horizontal mobile mechanism, vertical shift mechanism and push Mechanism.

The horizontal mobile mechanism includes horizontal guide rail and horizontal carriage, and the horizontal guide rail is fixed on the base, described Horizontal carriage is slidably connected with horizontal guide rail；

The vertical shift mechanism includes upright guide rail and vertical balladeur train, and the lower end of the upright guide rail is connected to horizontal cunning Frame, the vertical balladeur train are slidably connected with upright guide rail；

The vertical balladeur train is equipped with the first support arm and the second support arm, first support arm and the in the horizontal direction Two support arms are parallel, and first support arm is equipped with the first arc groove, and second support arm is equipped with the second arc groove, institute It states the first arc groove and the second arc groove is coaxially disposed；

The delivery device includes motor, shaft and push arm；The motor is fixedly connected on the first support arm or second Support arm, the shaft can be connected to rotation motor, and the shaft and the first arc groove are coaxially disposed, and the push arm includes Connecting rod and push plate, top of the push plate between the first support arm and the second support arm, the push plate are connected by connecting rod In shaft.

The utility model has the beneficial effects that: the utility model relates to a kind of feeding device for airflow milling equipment In structure, by the way that horizontal guide rail is arranged on the base, horizontal carriage is set on the horizontal guide rail, and it is vertical to connect in horizontal carriage Guide rail slidably connects vertical balladeur train on upright guide rail, by the way that the first arc groove and the second arc are arranged on vertical balladeur train Batch can is erected on vertical balladeur train by the convex block of batch can two sides, makes to expect using the cooperation of upright guide rail and horizontal guide rail by slot Tank is moved to the surface of hopper, drives push plate to push the upper section of batch can to using motor, makes batch can that slowly overturning occur, make to discharge Mouth overturning downwards, docks discharge port with hopper；It grinds in feeding manner compared to conventional air by manually lifting batch can to eminence And the mode manually overturn, human cost is greatly saved, improves work efficiency.

Detailed description of the invention

Fig. 1 is a kind of right view of feeding device for airflow milling equipment of specific embodiment of the present invention；

Fig. 2 is that push plate does not push in a kind of feeding device for airflow milling equipment of specific embodiment of the present invention Top view under batch can state；

Fig. 3 is push plate push material in a kind of feeding device for airflow milling equipment of specific embodiment of the present invention Top view during tank；

Label declaration:

1, pedestal；2, horizontal mobile mechanism；21, horizontal guide rail；22, horizontal carriage；3, vertical shift mechanism；31, vertical Guide rail；32, vertical balladeur train；321, the first support arm；322, the second support arm；323, the first arc groove；324, the second arc groove； 33, screw mechanism；331, lead screw ontology；

332, the first sliding block；333, the second sliding block；4, delivery device；41, motor；42, shaft；

43, connecting rod；44, push plate；5, batch can；51, upper section；52, middle section；53, lower section；54, the first convex block；55, second is convex Block.

Specific embodiment

For technology contents, the objects and the effects that the utility model is described in detail, below in conjunction with embodiment and match Attached drawing is closed to be explained.

The design of the utility model most critical is: so that batch can is moved to material using the cooperation of upright guide rail and horizontal guide rail The surface of bucket drives push plate to push the upper section of batch can to using motor, makes batch can that slowly overturning occur, make discharge port overturn to Under, dock discharge port with hopper.

Fig. 1 to Fig. 3 is please referred to, the utility model relates to a kind of feeding device for airflow milling equipment, including pedestal 1, Horizontal mobile mechanism 2, vertical shift mechanism 3 and delivery device 4.

The horizontal mobile mechanism 2 includes horizontal guide rail 21 and horizontal carriage 22, and the horizontal guide rail 21 is fixed on pedestal 1 On, the horizontal carriage 22 is slidably connected with horizontal guide rail 21；

The vertical shift mechanism 3 includes upright guide rail 31 and vertical balladeur train 32, and the lower end of the upright guide rail 31 connects In horizontal carriage 22, the vertical balladeur train 32 is slidably connected with upright guide rail 31；

The vertical balladeur train 32 in the horizontal direction be equipped with the first support arm 321 and the second support arm 322, described first Brace 321 is parallel with the second support arm 322, and first support arm 321 is equipped with the first arc groove 323, second support Arm 322 is equipped with the second arc groove 324, and first arc groove 323 and the second arc groove 324 are coaxially disposed；

The delivery device 4 includes motor 41, shaft 42 and push arm；The motor 41 is fixedly connected on the first support arm 321 or second support arm 322, the shaft 42 can be connected to rotation motor 41, the shaft 42 and the first arc groove 323 are same Axis setting, the push arm includes connecting rod 43 and push plate 44, and the push plate 44 is located at the first support arm 321 and the second support arm Top between 322, the push plate 44 are connected to shaft 42 by connecting rod 43.

Said flow grind equipment feeding device working principle explanation: due to neodymium iron boron between each process transfer process In, it needing to carry out in closed batch can 5, upper section 51 is generally designed as cone by the batch can 5 for accommodating neodymium iron boron powder, Discharge port is set in upper end, before needing the neodymium iron boron powder input air flow in batch can 5 grinding equipment, needs to lift batch can 5 extremely Eminence, and overturn, it docks discharge port with hopper downward, the material input air flow in batch can 5 is ground to the material of equipment using gravity In bucket；In order to the utility model relates to the feeding device of airflow milling be used cooperatively, cylinder is respectively set in the two sides of batch can 5 The convex block of shape；First on the first support arm 321 can be passed through by manually or mechanically installing batch can 5 to vertical balladeur train 32 The cylindrical bump of arc groove support 5 two sides of batch can on arc groove 323 and the second support arm 322, passes through vertical 32 edge of balladeur train Upright guide rail 31 is lifted upwards, then is displaced by horizontal carriage 22 along 21 horizontal direction of horizontal guide rail, and batch can 5 is made to be located at airflow milling The surface of the feed hopper of equipment；42 rotation of shaft is driven by motor 41 at this time, push plate 44 is driven to push 5 upper section 51 of batch can to, Overturn batch can 5, to make discharge port downward；Decline by manually or mechanically opening the discharge port of batch can 5, then by upright slide block A small distance docks the discharge port of batch can 5 with hopper, under gravity throw the material in batch can 5 to gas In stream mill equipment.

The beneficial effect of the above-mentioned feeding device for airflow milling equipment is: the utility model relates to one kind be used for gas In the feeding device structure of stream mill equipment, by the way that horizontal guide rail 21 is arranged on pedestal 1, it is arranged on horizontal guide rail 21 horizontal sliding Frame 22 connects upright guide rail 31 in horizontal carriage 22, vertical balladeur train 32 is slidably connected on upright guide rail 31, by perpendicular First arc groove 323 and the second arc groove 324 are set on straight balladeur train 32, are erected at batch can 5 by the convex block of 5 two sides of batch can perpendicular On straight balladeur train 32, the cooperation using upright guide rail 31 and horizontal guide rail 21 makes batch can 5 be moved to the surface of hopper, utilizes motor The upper section 51 of batch can 5 is pushed in 41 drive push plates 44 to, and batch can 5 is made to occur slowly to overturn, and makes discharge port overturning downwards, make discharge port with Hopper docking；It is ground in feeding manner by way of manually lifting batch can 5 to eminence and manually overturning, significantly compared to conventional air Human cost has been saved, has been improved work efficiency.

It further, further include batch can 5 in the above-mentioned feeding device structure for airflow milling equipment, the batch can 5 includes Upper section 51, middle section 52 and lower section 53,52 shape of middle section are cylindrical body, and 51 shape of upper section is cone, the upper section 51 upper end is equipped with discharge port, and 53 shape of lower section is inverted round estrade；The side in the middle section 52 is equipped with cylindrical The other side of first convex block 54, the middle section 52 is equipped with the second cylindrical convex block 55.

When batch can 5 is erected on vertical balladeur train 32, the first convex block 54 is erected at the first arc groove 323, the second convex block 55 It is erected at the second arc groove 324, the first convex block 54 and the second convex block 55 are designed as cylinder, make the first convex block 54 can be in the first arc Rotation in shape slot 323, convenient for the overturning of batch can 5.

Further, in the above-mentioned feeding device structure for airflow milling equipment, the side of the upper section 51 is equipped with first The other side of handle, the upper section 51 is equipped with second handle.

It is convenient that batch can 5 is manually or mechanically erected at vertical balladeur train by the way that the first in command and second handle is arranged in batch can 5 On 32.

It further, further include screw mechanism 33, the lead screw in the above-mentioned feeding device structure for airflow milling equipment Mechanism 33 is horizontally placed on vertical balladeur train 32, and the screw mechanism 33 includes lead screw ontology 331, the first sliding block 332 and second Sliding block 333, one end of first support arm 321 are connected to the first sliding block 332, one end connection of second support arm 322 In the second sliding block 333.

By the way that horizontal screw mechanism 33 is arranged on vertical balladeur train 32, divided by the first sliding block 332 and the second sliding block 333 The first support arm 321 and the second support arm 322 are not connected, it can be according to the first support arm of big minor adjustment 321 of batch can 5 and second The distance between brace 322.

Further, in the above-mentioned feeding device structure for airflow milling equipment, the push plate 44 is minor arc shape push plate 44.

Further, in the above-mentioned feeding device structure for airflow milling equipment, the motor 41 is connected to the first support The outside of arm 321.

Further, in the above-mentioned feeding device structure for airflow milling equipment, the motor 41 is connected to the second support The outside of arm 322.

Further, in the above-mentioned feeding device structure for airflow milling equipment, the motor 41 is decelerating motor 41.

Embodiment 1

A kind of feeding device for airflow milling equipment, including pedestal 1, horizontal mobile mechanism 2,3 and of vertical shift mechanism Delivery device 4.The horizontal mobile mechanism 2 includes horizontal guide rail 21 and horizontal carriage 22, and the horizontal guide rail 21 is fixed on base On seat 1, the horizontal carriage 22 is slidably connected with horizontal guide rail 21；The vertical shift mechanism 3 includes upright guide rail 31 and erects Straight balladeur train 32, the lower end of the upright guide rail 31 are connected to horizontal carriage 22, and the vertical balladeur train 32 is slided with upright guide rail 31 Connection；The vertical balladeur train 32 is equipped with the first support arm 321 and the second support arm 322, first support in the horizontal direction Arm 321 is parallel with the second support arm 322, and first support arm 321 is equipped with the first arc groove 323, second support arm 322 are equipped with the second arc groove 324, and first arc groove 323 and the second arc groove 324 are coaxially disposed；The delivery device 4 Including motor 41, shaft 42 and push arm；The motor 41 is fixedly connected on the first support arm 321, and the shaft 42 can rotation Ground is connected to motor 41, and the shaft 42 and the first arc groove 323 are coaxially disposed, and the push arm includes connecting rod 43 and minor arc shape Push plate 44, top of the minor arc shape push plate 44 between the first support arm 321 and the second support arm 322, the minor arc shape Push plate 44 is connected to shaft 42 by connecting rod 43.

The feeding device for airflow milling equipment further includes batch can 5, and the batch can 5 includes upper section 51,52 and of middle section Lower section 53,52 shape of middle section are cylindrical body, and 51 shape of upper section is cone, and the upper end of the upper section 51 is equipped with discharging Mouthful, 53 shape of lower section is inverted round estrade；The side in the middle section 52 is equipped with the first cylindrical convex block 54, it is described in The other side of section 52 is equipped with the second cylindrical convex block 55.The feeding device for airflow milling equipment further includes screw mechanism 33, the screw mechanism 33 is horizontally placed on vertical balladeur train 32, and the screw mechanism 33 is sliding including lead screw ontology 331, first Block 332 and the second sliding block 333, one end of first support arm 321 are connected to the first sliding block 332, second support arm 322 One end be connected to the second sliding block 333.

Embodiment 2

A kind of feeding device for airflow milling equipment, including pedestal 1, horizontal mobile mechanism 2,3 and of vertical shift mechanism Delivery device 4.The horizontal mobile mechanism 2 includes horizontal guide rail 21 and horizontal carriage 22, and the horizontal guide rail 21 is fixed on base On seat 1, the horizontal carriage 22 is slidably connected with horizontal guide rail 21；The vertical shift mechanism 3 includes upright guide rail 31 and erects Straight balladeur train 32, the lower end of the upright guide rail 31 are connected to horizontal carriage 22, and the vertical balladeur train 32 is slided with upright guide rail 31 Connection；The vertical balladeur train 32 is equipped with the first support arm 321 and the second support arm 322, first support in the horizontal direction Arm 321 is parallel with the second support arm 322, and first support arm 321 is equipped with the first arc groove 323, second support arm 322 are equipped with the second arc groove 324, and first arc groove 323 and the second arc groove 324 are coaxially disposed；The delivery device 4 Including motor 41, shaft 42 and push arm；The motor 41 is fixedly connected on the second support arm 322, and the shaft 42 can rotation Ground is connected to motor 41, and the shaft 42 and the first arc groove 323 are coaxially disposed, and the push arm includes connecting rod 43 and minor arc shape Push plate 44, top of the minor arc shape push plate 44 between the first support arm 321 and the second support arm 322, the minor arc shape Push plate 44 is connected to shaft 42 by connecting rod 43.

The feeding device for airflow milling equipment further includes batch can, and the batch can includes upper section, middle section and lower section, institute Stating middle section shape is cylindrical body, and the upper section shape is cone, and the upper end of the upper section is equipped with discharge port, the lower section shape For inverted round estrade；The side in the middle section is equipped with the first cylindrical convex block, and the other side in the middle section is equipped with cylinder The second convex block.The side of the feeding device for airflow milling equipment, the upper section is equipped with the first in command, the upper section The other side is equipped with second handle.The feeding device for airflow milling equipment further includes screw mechanism, the screw mechanism water Flat to be set on vertical balladeur train, the screw mechanism includes lead screw ontology, the first sliding block and the second sliding block, first support arm One end be connected to the first sliding block, one end of second support arm is connected to the second sliding block.

In conclusion the utility model relates to a kind of feeding device structure for airflow milling equipment in, by base Horizontal guide rail is set on seat, horizontal carriage is set on the horizontal guide rail, upright guide rail is connected in horizontal carriage, in upright guide rail On slidably connect vertical balladeur train, by the way that the first arc groove and the second arc groove are arranged on vertical balladeur train, pass through batch can two sides Convex block batch can is erected on vertical balladeur train, the cooperation using upright guide rail and horizontal guide rail makes batch can be moved to hopper just Top drives push plate to push the upper section of batch can to, makes batch can that slowly overturning occur, make discharge port overturning downwards, use using motor Material mouth is docked with hopper；Compared to the side in conventional air mill feeding manner by manually lifting batch can to eminence and manually overturning Human cost is greatly saved in formula, improves work efficiency.

The above description is only the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all Equivalents made based on the specification and figures of the utility model are applied directly or indirectly in relevant technology neck Domain is also included in the patent protection scope of the utility model.

Claims (8)

1. a kind of feeding device for airflow milling equipment, which is characterized in that including pedestal, horizontal mobile mechanism, vertical shift Mechanism and delivery device；

The horizontal mobile mechanism includes horizontal guide rail and horizontal carriage, and the horizontal guide rail is fixed on the base, the level Balladeur train is slidably connected with horizontal guide rail；

The vertical shift mechanism includes upright guide rail and vertical balladeur train, and the lower end of the upright guide rail is connected to horizontal carriage, The vertical balladeur train is slidably connected with upright guide rail；

The vertical balladeur train is equipped with the first support arm and the second support arm, first support arm and second in the horizontal direction Brace is parallel, and first support arm is equipped with the first arc groove, and second support arm is equipped with the second arc groove, and described the One arc groove and the second arc groove are coaxially disposed；

The delivery device includes motor, shaft and push arm；The motor is fixedly connected on the first support arm or the second support Arm, the shaft can be connected to rotation motor, and the shaft and the first arc groove are coaxially disposed, and the push arm includes connecting rod And push plate, top of the push plate between the first support arm and the second support arm, the push plate are connected to axis by connecting rod Bar.

2. the feeding device according to claim 1 for airflow milling equipment, which is characterized in that it further include batch can, it is described Batch can includes upper section, middle section and lower section, and the middle section shape is cylindrical body, and the upper section shape is cone, the upper section Upper end is equipped with discharge port, and the lower section shape is inverted round estrade；The side in the middle section is equipped with the first cylindrical convex block, The other side in the middle section is equipped with the second cylindrical convex block.

3. the feeding device according to claim 2 for airflow milling equipment, which is characterized in that the side of the upper section is set There is the first in command, the other side of the upper section is equipped with second handle.

4. the feeding device according to claim 1 for airflow milling equipment, which is characterized in that it further include screw mechanism, The screw mechanism is horizontally placed on vertical balladeur train, and the screw mechanism includes lead screw ontology, the first sliding block and the second sliding block, One end of first support arm is connected to the first sliding block, and one end of second support arm is connected to the second sliding block.

5. the feeding device according to claim 4 for airflow milling equipment, which is characterized in that the push plate is minor arc shape Push plate.

6. the feeding device according to claim 1 for airflow milling equipment, which is characterized in that the motor is connected to The outside of one support arm.

7. the feeding device according to claim 1 for airflow milling equipment, which is characterized in that the motor is connected to The outside of two support arms.

8. the feeding device according to claim 1 for airflow milling equipment, which is characterized in that the motor is the electricity that slows down Machine.