CN210062066U - High-efficient plastic casing machine convenient to use - Google Patents

Abstract

The utility model discloses a shell machine is moulded to high efficiency convenient to use relates to magnet steel processing production technical field. The plastic shell machining mechanism comprises a plastic shell conveying assembly, a plastic shell clamping assembly, a plastic shell linking assembly, a plastic shell glue dispensing assembly and a magnetic steel leading-in assembly, the plastic shell linking assembly, the plastic shell glue dispensing assembly and the magnetic steel leading-in assembly are located on the same straight line, the plastic shell clamping assembly is sleeved on the outer position of the middle section of the plastic shell conveying assembly in a non-contact mode, a small magnetic steel machining production line is formed by means of the components, the plastic shells are arranged, conveyed, limited, glued and the like in sequence in the production line, and finally the plastic shells are sleeved on the magnetic steel.

Description

High-efficient plastic casing machine convenient to use

Technical Field

The utility model relates to a magnet steel processing production technical field specifically is a shell machine is moulded to high efficiency convenient to use.

Background

Magnet steel is an important spare part in the motor, magnet steel paste and cooperate the rotor module to use together on flywheel module internal outer periphery, but current magnet steel adopts the neodymium iron boron material to make, and neodymium iron boron uses and receives external environment temperature to have very strong sensitive effect, and is very unstable, consequently, cup joints a plastic shell in magnet steel's outside usually at present to reach the purpose of stable use, this process need be accomplished with the help of the plastic shell machine.

But the shell machine is moulded to current, and not only the structure is complicated, and the function is comparatively single moreover, and current shell machine of moulding can't form the production line form of coherent when processing the magnet steel for at the in-process of work, it is lower to do efficiency, and need higher manufacturing cost, for this reason, we have proposed a convenient to use's high-efficient shell machine of moulding.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a shell machine is moulded to high efficiency convenient to use has solved current shell machine of moulding when carrying out processing to the magnet steel, can't form the production line form that links up formula for at the in-process of work, it is lower to make efficiency, and need higher manufacturing cost's problem.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a shell machine is moulded to high efficiency convenient to use, includes the switch board, fixed charging tray, PLC control panel and the shell processing agency of moulding that is provided with respectively on the table surface of switch board, the discharge end of charging tray that shakes is connected with the feed end of moulding the shell processing agency, PLC control panel is located the middle part rear side position of moulding the shell processing agency.

The plastic shell processing mechanism comprises a plastic shell conveying assembly, a plastic shell clamping assembly, a plastic shell connecting assembly, a plastic shell glue dispensing assembly and a magnetic steel leading-in assembly, wherein the plastic shell connecting assembly, the plastic shell glue dispensing assembly and the magnetic steel leading-in assembly are located on the same straight line and are located at the rear side position of the plastic shell conveying assembly, and the plastic shell clamping assembly is sleeved on the outer position of the middle section of the plastic shell conveying assembly in a non-contact mode.

The plastic shell linking assembly comprises a base A, a plastic shell pushing cylinder is fixedly mounted on one side of the upper surface of the base A, one end of a plastic shell pushing plate is fixedly connected with the driving end of the plastic shell pushing cylinder, a support plate is fixedly arranged on the other side of the upper surface of the base A, and a linking plate is fixedly connected to the upper surface of the support plate.

The magnetic steel leading-in component comprises a base B, a magnetic steel pushing cylinder, a magnetic steel pushing plate and a magnetic steel guide frame are arranged above the base B respectively, a magnetic steel push rod lifting cylinder is fixedly mounted on one side wall of the magnetic steel guide frame, a magnetic steel leading-out frame which is internally of a hollow structure is fixedly connected with one side wall of the magnetic steel guide frame at the position below the magnetic steel push rod lifting cylinder, and a magnetic steel push rod is fixedly connected with the driving end face of the magnetic steel push rod lifting cylinder.

Preferably, mould shell conveying subassembly includes two bracket A and bracket B that are the symmetry and set up on the switch board, a conveyer belt body has been cup jointed jointly to bracket A and bracket B's outside, the conveyer belt body is by running through the step motor drive that sets up on bracket A.

Preferably, the conveyer belt body and the bracket B and the bracket A and the conveyer belt body are rotatably connected through pin shafts, the driven end of the pin shaft on the bracket A is connected with the driving end of the stepping motor, and the parts of the bracket B, which are contacted with the pin shaft, are connected through bearings.

Preferably, mould shell centre gripping subassembly includes that two are the centre gripping frame that the symmetry set up, and two centre gripping frames splice each other, constitute a structure that is "U" font, and the bottom inboard of two centre gripping frames is connected with a support jointly, form the centre gripping hole of a diamond-shaped structure after two centre gripping frame top splices.

Preferably, a diversion trench in a U-shaped structure is fixedly formed in the connecting plate, blanking holes are fixedly formed in the position, corresponding to the arc end of the diversion trench, in the support plate, plastic shell discharge holes are fixedly formed in the lower surface of the support plate, the plastic shell discharge holes are formed in the position corresponding to the blanking holes, and the other end of the plastic shell push plate extends to the inside of the plastic shell discharge holes.

Preferably, the plastic shell dispensing assembly comprises a stand column, a glue chuck lifting cylinder is fixedly mounted on one side wall of the stand column, and a glue chuck is fixedly mounted on a driving end of the glue chuck lifting cylinder.

Preferably, magnet steel propelling movement cylinder, magnet steel propelling movement board and magnet steel guide frame are on the same straight line, the drive end of magnet steel propelling movement cylinder is connected with the driven end of magnet steel propelling movement board, the year thing end of magnet steel propelling movement board is corresponding with the feed opening of magnet steel guide frame, when magnet steel propelling movement cylinder is in the extension state, the year thing end of magnet steel propelling movement board extends to the inside that the frame was derived to the magnet steel, the through-hole has all been seted up to the upper and lower surface that the frame was derived to the magnet steel, and the position of through-hole and the bottom of magnet steel push rod are in same vertical plane.

Preferably, four corners of the bottom of the control cabinet are fixedly provided with universal wheels with the same structure and size.

Advantageous effects

The utility model provides a shell machine is moulded to high efficiency convenient to use. Compared with the prior art, the method has the following beneficial effects:

the convenient-to-use efficient plastic shell machine is characterized in that a material vibrating disc, a PLC control panel and a plastic shell processing mechanism are fixedly arranged on a working table of a control cabinet respectively, a discharge end of the material vibrating disc is connected with a feed end of the plastic shell processing mechanism, the PLC control panel is positioned at the rear side of the middle part of the plastic shell processing mechanism, the plastic shell processing mechanism comprises a plastic shell conveying assembly, a plastic shell clamping assembly, a plastic shell connecting assembly, a plastic shell glue dispensing assembly and a magnetic steel leading-in assembly, the plastic shell connecting assembly, the plastic shell glue dispensing assembly and the magnetic steel leading-in assembly are positioned on the same straight line and are positioned at the rear side of the plastic shell conveying assembly, the plastic shell clamping assembly is sleeved at the outer position of the middle section of the plastic shell conveying assembly in a non-contact manner, a small magnetic steel processing production line is formed by means of the components, and, finally, the plastic shell is sleeved on the magnetic steel, the processing production progress of the magnetic steel is improved, meanwhile, the processing cost of the magnetic steel and the labor intensity of workers are reduced, and the practical performance of the plastic shell machine for magnetic steel production is greatly improved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the plastic housing processing mechanism of the present invention;

fig. 3 is a schematic structural view of the plastic shell conveying assembly of the present invention;

fig. 4 is a schematic structural view of the plastic shell clamping assembly of the present invention;

fig. 5 is a schematic structural view of the plastic housing engaging assembly of the present invention;

fig. 6 is a schematic structural view of the plastic housing engagement assembly of the present invention with the engagement plate removed;

fig. 7 is a schematic structural view of the plastic shell dispensing assembly of the present invention;

fig. 8 is a schematic structural diagram of the magnetic steel leading-in component of the present invention.

In the figure: 1. a control cabinet; 2. a universal wheel; 3. vibrating the material tray; 4. a PLC control panel; 5. a plastic shell processing mechanism; 51. a plastic shell conveying assembly; 511. a bracket A; 512. a bracket B; 513. a stepping motor; 514. a conveyor belt body; 515. a pin shaft; 52. a plastic shell clamping assembly; 521. a support; 522. a clamping frame; 523. a clamping hole; 53. a plastic housing engagement assembly; 531. a base A; 532. a plastic shell pushing cylinder; 533. a plastic shell push plate; 534. a carrier plate; 535. a blanking hole; 536. a connector tile; 537. a plastic shell discharge hole; 538. a diversion trench; 54. a plastic shell dispensing assembly; 541. a column; 542. a glue chuck lifting cylinder; 543. a glue chuck; 55. a magnetic steel leading-in component; 551. a base B; 552. a magnetic steel pushing cylinder; 553. a magnetic steel push plate; 554. a magnetic steel material guide frame; 555. a magnetic steel push rod lifting cylinder; 556. a magnetic steel push rod; 557. the magnetic steel is led out of the frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a shell machine is moulded to high efficiency convenient to use, includes switch board 1, the equal fixed mounting of four corners of switch board 1 bottom has structure and the equal same universal wheel of size 2, fixed charging tray 3 that shakes, PLC control panel 4 and mould shell processing agency 5 of being provided with respectively on the table surface of switch board 1, and the discharge end that shakes charging tray 3 is connected with the feed end of moulding shell processing agency 5, and PLC control panel 4 is located the middle part rear side position of moulding shell processing agency 5.

Referring to fig. 2, the plastic housing processing mechanism 5 includes a plastic housing conveying assembly 51, a plastic housing clamping assembly 52, a plastic housing engaging assembly 53, a plastic housing glue dispensing assembly 54, and a magnetic steel guiding assembly 55, where the plastic housing engaging assembly 53, the plastic housing glue dispensing assembly 54, and the magnetic steel guiding assembly 55 are all located on a straight line and are located at a rear side position of the plastic housing conveying assembly 51, and the plastic housing clamping assembly 52 is sleeved at an external position of a middle section of the plastic housing conveying assembly 51 in a non-contact manner.

Referring to fig. 3, the plastic-shell conveying assembly 51 includes two brackets a511 and a bracket B512 symmetrically disposed on the control cabinet 1, a conveyor belt body 514 is sleeved outside the brackets a511 and B512, the conveyor belt body 514 is driven by a stepping motor 513 penetrating the brackets a511, the conveyor belt body 514 and the bracket B512 are rotatably connected by a pin 515, the pin 515 on the bracket a511 has a driven end connected to a driving end of the stepping motor 513, and the parts of the brackets B512 and the pin 515 that are in contact with each other are connected by bearings.

Referring to fig. 4, the plastic clamping assembly 52 includes two symmetrically disposed clamping frames 522, the two clamping frames 522 are connected to each other to form a u-shaped structure, the inner sides of the bottom ends of the two clamping frames 522 are connected to a support 521, and the top of the two clamping frames 522 are connected to form a clamping hole 523 with a diamond structure.

Referring to fig. 5-6, the plastic housing engagement assembly 53 includes a base a531, a plastic housing pushing cylinder 532 is fixedly mounted on one side of an upper surface of the base a531, a driving end of the plastic housing pushing cylinder 532 is fixedly connected with one end of a plastic housing pushing plate 533, a carrier plate 534 is fixedly disposed on the other side of the upper surface of the base a531, an engagement plate 536 is fixedly connected to an upper surface of the carrier plate 534, a U-shaped flow guide groove 538 is fixedly disposed inside the engagement plate 536, a blanking hole 535 is fixedly disposed inside the carrier plate 534 and at a position corresponding to an arc end of the flow guide groove 538, a plastic housing discharge hole 537 is fixedly disposed on a lower surface of the carrier plate 534, a position of the plastic housing discharge hole 537 corresponds to a position of the blanking hole 535, and the other end of the plastic housing pushing plate 533 extends to the inside of.

Referring to fig. 7, the plastic dispensing assembly 54 includes a vertical column 541, a glue chuck lifting cylinder 542 is fixedly installed on a sidewall of the vertical column 541, and a glue chuck 543 is fixedly installed on a driving end of the glue chuck lifting cylinder 542.

Referring to fig. 8, the magnetic steel introducing assembly 55 includes a base B551, a magnetic steel pushing cylinder 552, a magnetic steel pushing plate 553, and a magnetic steel guiding frame 554 are respectively disposed above the base B551, a magnetic steel push rod elevating cylinder 555 is fixedly mounted on a side wall of the magnetic steel guiding frame 554, a magnetic steel guiding frame 557 with a hollow structure inside is fixedly connected to a position below the magnetic steel push rod elevating cylinder 555 on a side wall of the magnetic steel guiding frame 554, a magnetic steel push rod 556 is fixedly connected to a driving end surface of the magnetic steel push rod elevating cylinder 555, the magnetic steel pushing cylinder 552, the magnetic steel pushing plate 553, and the magnetic steel guiding frame 554 are all located on a straight line, a driving end of the magnetic steel pushing cylinder 552 is connected to a driven end of the magnetic steel pushing plate, a material carrying end 553 of the magnetic steel pushing plate 553 corresponds to a material discharging port of the magnetic steel guiding frame 554, when the magnetic steel pushing cylinder 552 is in an extended state, a material carrying end of the magnetic steel pushing plate extends to the magnetic steel, through holes are formed in the upper surface and the lower surface of the magnetic steel leading-out frame 557, and the positions of the through holes and the bottom end of the magnetic steel push rod 556 are located in the same vertical plane.

When the feeding device is used, firstly, the plastic shells to be processed are poured into the vibration tray 3, then the subassembly structure of each part is started by the PLC control panel 4, the vibration tray 3 can output the plastic shells in a regular arrangement, the discharge hole of the vibration tray 3 is connected with the feed inlet of the diversion trench 538, therefore, the plastic shells can enter the diversion trench 538, the plastic shells positioned at the forefront are pushed to the position of the blanking hole 535 along with mutual pushing among the plastic shells, and then fall onto the plastic shell pushing plate 533 by the blanking hole 535, at the moment, the plastic shell pushing cylinder 532 is controlled to drive the plastic shell pushing plate 533 loaded with the plastic shells to move to the position of the plastic shell discharge hole 537, so that the plastic shell connecting assembly 53 is discharged, the plastic shells fall onto the conveying belt body 514 in the plastic shell conveying assembly 51, the conveying belt body 514 starts to rotate under the operation of the stepping motor 513, and the plastic shells move along with the conveying belt, when the plastic shell moves to the plastic shell clamping assembly 52 corresponding to the lower part of the plastic shell dispensing assembly 54, the plastic shell is positioned in the clamping hole 523 with the diamond structure, at the moment, the glue chuck lifting cylinder 542 drives the glue chuck 543 to act, so that the glue chuck 543 can perform gluing treatment on the inner side or the outer side surface of the plastic shell, after gluing, the plastic shell continues to move along with the conveyor belt body 514, when the plastic shell moves to the plastic shell clamping assembly 52 corresponding to the lower part of the magnetic steel leading-in assembly 55, the plastic shell is clamped again, at the moment, the magnetic steel pushing cylinder 552 is controlled to act, the magnetic steel pushing cylinder 552 drives the magnetic steel pushing plate 553 loaded with magnetic steel to act, so that the magnetic steel pushing plate 553 extends into the magnetic steel leading-out frame 557, because the magnetic steel pushing plate 553 and the magnetic steel leading-out frame 557 are both provided with through holes, and the positions of the through holes are, therefore, when the magnetic steel push rod lifting cylinder 555 is controlled to drive the magnetic steel push rod 556 to move, the magnetic steel push rod 556 can push the magnetic steel on the magnetic steel push plate 553 to the surface of the plastic shell, which is internally coated with glue, so that the magnetic steel can be processed, the structure is scientific and reasonable, and the use is safe and convenient.

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

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

Claims (8)

1. The utility model provides a shell machine is moulded to high efficiency convenient to use, includes switch board (1), its characterized in that: a vibration material tray (3), a PLC control panel (4) and a plastic shell processing mechanism (5) are respectively and fixedly arranged on the working table surface of the control cabinet (1), the discharge end of the vibration material tray (3) is connected with the feed end of the plastic shell processing mechanism (5), and the PLC control panel (4) is positioned at the rear side of the middle part of the plastic shell processing mechanism (5);

the plastic shell processing mechanism (5) comprises a plastic shell conveying assembly (51), a plastic shell clamping assembly (52), a plastic shell connecting assembly (53), a plastic shell glue dispensing assembly (54) and a magnetic steel leading-in assembly (55), wherein the plastic shell connecting assembly (53), the plastic shell glue dispensing assembly (54) and the magnetic steel leading-in assembly (55) are located on the same straight line and are located at the rear side position of the plastic shell conveying assembly (51), and the plastic shell clamping assembly (52) is sleeved on the outer position of the middle section of the plastic shell conveying assembly (51) in a non-contact manner;

the plastic shell connecting assembly (53) comprises a base A (531), a plastic shell pushing cylinder (532) is fixedly mounted on one side of the upper surface of the base A (531), the driving end of the plastic shell pushing cylinder (532) is fixedly connected with one end of a plastic shell pushing plate (533), a carrier plate (534) is fixedly arranged on the other side of the upper surface of the base A (531), and a connecting plate (536) is fixedly connected to the upper surface of the carrier plate (534);

the magnetic steel leading-in component (55) comprises a base B (551), a magnetic steel pushing cylinder (552), a magnetic steel pushing plate (553) and a magnetic steel material guiding frame (554) are arranged above the base B (551) respectively, a magnetic steel push rod lifting cylinder (555) is fixedly mounted on one side wall of the magnetic steel material guiding frame (554), a magnetic steel leading-out frame (557) which is internally of a hollow structure is fixedly connected to one side wall of the magnetic steel material guiding frame (554) at the position below the magnetic steel push rod lifting cylinder (555), and a magnetic steel push rod (556) is fixedly connected to the driving end face of the magnetic steel push rod lifting cylinder (555).

2. The efficient plastic shell machine convenient to use of claim 1, wherein: mould shell conveying subassembly (51) include two bracket A (511) and bracket B (512) that are the symmetry and set up on switch board (1), a conveyer belt body (514) has been cup jointed jointly to the outside of bracket A (511) and bracket B (512), conveyer belt body (514) are driven by running through step motor (513) that set up on bracket A (511).

3. The efficient plastic shell machine convenient to use of claim 2, wherein: all realize rotatable connection through round pin axle (515) between conveyer belt body (514) and bracket B (512) and between bracket A (511) and the conveyer belt body (514), be located round pin axle (515) on bracket A (511), its driven end is connected with step motor (513)'s drive end, the position that contacts between bracket B (512) and round pin axle (515) all realizes connecting through the bearing.

4. The efficient plastic shell machine convenient to use of claim 1, wherein: mould shell centre gripping subassembly (52) including two centre gripping frame (522) that are the symmetry and set up, two centre gripping frame (522) splice each other, constitute a structure that is "U" font, the bottom inboard of two centre gripping frame (522) is connected with a support (521) jointly, after two centre gripping frame (522) top splices, form centre gripping hole (523) of a diamond structure.

5. The efficient plastic shell machine convenient to use of claim 1, wherein: the inner portion of the connecting plate (536) is fixedly provided with a flow guide groove (538) which is of a U-shaped structure, the inner portion of the carrier plate (534) is fixedly provided with a blanking hole (535) at a position corresponding to the arc end of the flow guide groove (538), the lower surface of the carrier plate (534) is fixedly provided with a plastic shell discharge hole (537), the position of the plastic shell discharge hole (537) corresponds to the position of the blanking hole (535), and the other end of the plastic shell push plate (533) extends to the inner portion of the plastic shell discharge hole (537).

6. The efficient plastic shell machine convenient to use of claim 1, wherein: mould shell point and glue subassembly (54) and include stand (541), a lateral wall fixed mounting of stand (541) has glue chuck lift cylinder (542), fixed mounting has glue chuck (543) on the drive end of glue chuck lift cylinder (542).

7. The efficient plastic shell machine convenient to use of claim 1, wherein: the magnetic steel pushing cylinder (552), the magnetic steel pushing plate (553) and the magnetic steel material guiding frame (554) are located on the same straight line, the driving end of the magnetic steel pushing cylinder (552) is connected with the driven end of the magnetic steel pushing plate (553), the loading end of the magnetic steel pushing plate (553) corresponds to the discharging opening of the magnetic steel material guiding frame (554), when the magnetic steel pushing cylinder (552) is in an extending state, the loading end of the magnetic steel pushing plate (553) extends to the inside of the magnetic steel exporting frame (557), through holes are formed in the upper surface and the lower surface of the magnetic steel exporting frame (557), and the positions of the through holes and the bottom end of the magnetic steel pushing rod (556) are located on the same vertical plane.

8. The efficient plastic shell machine convenient to use of claim 1, wherein: four corners of the bottom of the control cabinet (1) are fixedly provided with universal wheels (2) with the same structure and size.

Images