CN213568326U - Iron core needle feeding mechanism - Google Patents

Abstract

The utility model relates to an iron core needle feed design field, concretely relates to iron core needle feed mechanism. The iron core needle feeding mechanism comprises a mounting plate, a feeding plate, a pushing plate, a driving assembly and a material guide plate; wherein, one side of the mounting plate is provided with a first open slot; the feeding plate is obliquely arranged above the mounting plate, and one end, which is obliquely downward, of the feeding plate faces the first open slot; the material pushing plate is arranged below the mounting plate in a sliding mode, and a first connecting groove is formed in one side, close to the first open groove, of the material pushing plate and faces the first open groove; the material guide plate is arranged on one side of the mounting plate, which is provided with a first open slot, and is connected with the mounting plate; through the arrangement of the mounting plate, the feeding plate, the material pushing plate, the driving assembly and the material guide plate, the iron core needles can be orderly fed, manual contact is avoided, and feeding efficiency is improved.

Description

Iron core needle feeding mechanism

Technical Field

The utility model relates to an iron core needle feed design field, concretely relates to iron core needle feed mechanism.

Background

The industrial feeding to the iron core needle generally adopts artifical pay-off, because the iron core needle is less difficult to put, and makes the iron core needle rust easily through the direct touch iron core needle of hand, has seriously influenced the quality of iron core needle.

Therefore, it is necessary to provide a technical means to solve the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model is realized in such a way that the iron core needle feeding mechanism comprises a mounting plate, a feeding plate, a pushing plate, a driving assembly and a stock guide plate;

wherein, one side of the mounting plate is provided with a first open slot; the feeding plate is obliquely arranged above the mounting plate, and one end, which is obliquely downward, of the feeding plate faces the first open slot; the material pushing plate is arranged below the mounting plate in a sliding mode, and a first connecting groove is formed in one side, close to the first open groove, of the material pushing plate and faces the first open groove; the material guide plate is arranged on one side of the mounting plate, which is provided with a first open slot, and is connected with the mounting plate; a step is arranged on one side of the material guide plate close to the mounting plate; one end of the material pushing plate, provided with the first connecting groove, is arranged on the step; a second communicating groove is formed in the material guide plate and is arranged right opposite to the step; the driving assembly is arranged on one side, far away from the material guide plate, of the mounting plate and is connected with the material pushing plate. When the feeding plate is in work, the iron core needles are conveyed by the external conveying mechanism to enter the upper part of the feeding plate, and due to the inclined arrangement of the feeding plate, the iron core needles slide down along the feeding plate under the action of gravity and finally fall into the first connecting groove of the pushing plate through the open groove of the mounting plate; through the arrangement of the mounting plate, the feeding plate, the material pushing plate, the driving assembly and the material guide plate, the iron core needles can be orderly fed, manual contact is avoided, and feeding efficiency is improved.

More specifically, the iron core needle feeding mechanism further comprises a limiting plate; the two limiting plates are respectively arranged above the feeding plate; a feeding bin port is formed between the two limiting plates, and the iron core needles are conveyed into the feeding bin port through an external conveying mechanism;

more specifically, the iron core needle feeding assembly comprises a vibration assembly; the material vibrating component comprises a butt joint block and a butt joint plate; the abutting block is arranged below the upper material plate, and one end of the abutting block, which is close to the driving assembly, is connected with the driving assembly; the abutting plate is arranged above the abutting block, and the upper part of the abutting plate penetrates through the upper material plate and extends to the upper part of the upper material plate; furthermore, a through groove for the butt plate to pass through is formed in the upper material plate, a rotating shaft is arranged in the through groove, and the upper part of the butt plate passes through the through groove and is connected with the upper material plate through the rotating shaft; further, the butt plate is equipped with two, and two butt plates all locate between two limiting plates, go up in the feed bin promptly. Wherein, butt joint piece and the butt joint one side that the looks proximal to is equipped with butt joint portion and the serration portion of mutual butt joint respectively. During operation, the drive assembly drives the butt block to move towards the direction close to the material guide plate, and due to the fact that the butt portion in the butt plate is abutted to the sawtooth portion in the butt block, the butt block is driven to vibrate up and down in the moving process of the butt block, the upper portion of the butt block penetrates through the material feeding plate, and then the iron core needle which is conveyed can be driven to vibrate in the feeding process, so that the open slot of the mounting plate can be fallen into the first connecting slot of the material pushing plate.

More specifically, a second opening groove and a third opening groove are respectively formed in the mounting plate and one side of the material pushing plate, which is close to the driving assembly, and are inwards recessed; the depth of the inward recess of the second opening groove is greater than that of the third opening groove; the butt joint block is arranged in the second opening groove and the third opening groove. The driving assembly comprises an air cylinder; and the power output end of the air cylinder is connected with the abutting block. Because the sunken degree of depth of second open slot is greater than third open slot, at the in-process that the cylinder drove the butt piece antedisplacement, the butt piece is at first inconsistent with the diapire in the third open slot in the scraping wings, and then drives the scraping wings along with the antedisplacement of butt piece, and then makes the iron core needle that is arranged in first intercommunication groove pass through the second intercommunication groove.

More specifically, a material guide groove is formed in one side, away from the mounting plate, of the material guide plate; the guide chute is arranged below the second communicating groove. The guide chute comprises a first chute edge, a second chute edge and a discharge hole; the lower parts of the first groove edge and the second groove edge are intersected, and the upper parts of the first groove edge and the second groove edge are arranged in a diverging mode outwards; the discharge hole is formed in the intersection of the first groove edge and the second groove edge. During operation, the iron core needle passes through the second intercommunication groove at first intercommunication groove after, drops to the baffle box thereupon for the setting on first groove limit and second groove limit for the iron core needle can be orderly worn out from the discharge opening, and then carries to one next process in.

More specifically, a striker plate is covered outside the guide chute. Through the setting of striker plate, can guarantee smooth dropping to the baffle box of iron core needle.

More specifically, in order to improve the structural stability, the iron core needle feeding mechanism further comprises a fixing assembly; the fixing assembly is arranged between the mounting plate and the driving assembly and connected with the mounting plate and the driving assembly; the fixing component comprises a fixing plate, a bottom plate and a stabilizing plate; the fixing plate is arranged between the mounting plate and the driving assembly and connected with the mounting plate and the driving assembly; the bottom plate is arranged below the fixed plate and connected with the fixed plate; the stabilizing plate is arranged on one side of the lower part of the fixing plate, and the lower part and the side part of the stabilizing plate are respectively connected with the bottom plate and the fixing plate.

The utility model relates to a pair of iron core needle feed subassembly through mounting panel, last flitch, scraping wings, drive assembly and stock guide's setting for the iron core needle can be orderly carries out the material loading, avoids the manual contact simultaneously, has improved material loading efficiency.

Drawings

Fig. 1 to 4 are overall schematic views of one angle of an iron core needle feeding mechanism according to the present invention;

fig. 5 is a schematic cross-sectional structural view of an iron core needle feeding mechanism according to the present invention;

fig. 6 is a schematic connection diagram of an upper material plate, a mounting plate and a material pushing plate in the iron core needle feeding mechanism according to the present invention;

FIG. 7 is a schematic diagram of the exploded structure of FIG. 6;

FIG. 8 is a schematic view of the connection of the driving assembly, the abutting block and the abutting plate;

fig. 9 is a schematic view of a guide plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

A preferred embodiment of the present invention is realized as described above, and referring to fig. 1 to 9, an iron core needle feeding mechanism includes a mounting plate 1, a feeding plate 2, a pushing plate 3, a driving assembly 4, and a material guiding plate 5;

wherein, one side of the mounting plate 1 is provided with a first open slot; the feeding plate 2 is obliquely arranged above the mounting plate 1, and one end, which is obliquely downward, of the feeding plate 2 faces the first open slot; the material pushing plate 3 is slidably arranged below the mounting plate 1, and a first connecting groove 31 is formed in one side, close to the first open groove, of the material pushing plate 3, and faces the first open groove; the material guide plate 5 is arranged on one side of the mounting plate 1, which is provided with a first open slot, and is connected with the mounting plate 1; a step 51 is arranged on one side of the material guide plate 5 close to the mounting plate 1; the end of the material pushing plate 3 provided with the first communicating groove 31 is arranged on the step 51; a second communicating groove 52 is formed in the material guide plate 5, and the second communicating groove 52 is arranged right opposite to the step 51; the driving assembly 4 is arranged on one side of the mounting plate 1 far away from the material guide plate 5 and is connected with the material pushing plate 3. When the feeding device works, the core needles a enter the feeding plate 2 through the conveying of the external conveying mechanism, and because the feeding plate 2 is obliquely arranged, the core needles a slide down along the feeding plate 2 under the action of gravity, and then pass through the open slot of the mounting plate 1 and finally fall into the first connecting grooves 31 of the pushing plate 3, because the first connecting grooves 31 are positioned on the steps 51, the core needles a cannot fall off the first connecting grooves 31, at the moment, the driving assembly 4 drives the pushing plate 3 to move forwards, so that the first connecting grooves 31 in the pushing plate 3 pass through the second connecting grooves 52 of the guide plate 5, and further the core needles a in the first connecting grooves 31 pass through the second connecting grooves 52, so that the core needles a fall off the side, away from the mounting plate 1, of the guide plate 5 to the next process; through the setting of mounting panel 1, go up flitch 2, scraping wings 3, drive assembly 4 and stock guide 5 for iron core needle a can be orderly carries out the material loading, avoids the manual contact simultaneously, has improved material loading efficiency.

More specifically, the iron core needle feeding mechanism further comprises a limiting plate 6; the number of the limiting plates 6 is two, and the two limiting plates 6 are respectively arranged above the feeding plate 2; a feeding bin port 61 is formed between the two limiting plates 6, and the iron core needle a is conveyed into the feeding bin port 61 through an external conveying mechanism;

more specifically, the core needle a feeding assembly comprises a material vibrating assembly 7; the material vibrating component 7 comprises a butting block 71 and a butting plate 72; the abutting block 71 is arranged below the upper material plate 2, and one end of the abutting block, which is close to the driving assembly 4, is connected with the driving assembly 4; the abutting plate 72 is arranged above the abutting block 71, and the upper part of the abutting plate 72 penetrates through the upper material plate 2 and extends to the upper part of the upper material plate 2; further, a through groove for the abutting plate 72 to pass through is formed in the upper material plate 2, a rotating shaft is arranged in the through groove, and the upper portion of the abutting plate 72 passes through the through groove 21 and is connected with the upper material plate 2 through the rotating shaft; further, the butt plate 72 is equipped with two, and two butt plates 72 all locate between two limiting plates 6, in the feed bin promptly. The abutting block 71 and the abutting plate 72 are provided with an abutting portion 721 and a serration portion 711, which abut against each other, on the adjacent sides thereof, respectively. During operation, the driving assembly 4 drives the abutting block 71 to move towards the direction close to the material guide plate 5, and since the abutting portion 721 in the abutting block 72 abuts against the sawtooth portion 711 in the abutting block 71, in the moving process of the abutting block 71, the abutting block 72 is driven to vibrate up and down, and since the upper portion of the abutting block 71 penetrates through the feeding plate 2, the iron core needle a conveyed in the feeding process can be driven to vibrate, so that the iron core needle a can fall into the first connecting groove 31 of the material pushing plate 3 along the open groove of the mounting plate 1.

More specifically, a second opening groove 12 and a third opening groove 32 are formed in the mounting plate 1 and one side of the ejector plate 3 close to the driving assembly 4, which are recessed inwards; the depth of the inward recess of the second opening groove 12 is greater than that of the third opening groove 32; the abutting block 71 is disposed in the second opening groove 12 and the third opening groove 32. The driving assembly 4 comprises a cylinder 41; the power output end of the air cylinder 41 is connected with the abutting block 71. Since the depth of the recess of the second open slot 12 is greater than that of the third open slot 32, in the process that the cylinder 41 drives the abutting block 71 to move forward, the abutting block 71 firstly abuts against the bottom wall of the third open slot 32 in the ejector plate 3, and then the ejector plate 3 is driven to move forward along with the abutting block 71, so that the core pin a in the first through slot 31 passes through the second through slot 52.

More specifically, a material guide chute 53 is arranged on one side of the material guide plate 5 away from the mounting plate 1; the material guide chute 53 is provided below the second communicating chute 52. The material guide chute 53 comprises a first chute edge 531, a second chute edge 532 and a discharge hole 533; the lower parts of the first groove edge 531 and the second groove edge 532 are intersected, and the upper parts of the first groove edge and the second groove edge are arranged in a way of diverging outwards; the discharging hole 533 is disposed at the intersection of the first groove edge 531 and the second groove edge 532. In operation, after the core needle a penetrates out of the second communicating groove 52 in the first communicating groove 31, the core needle a falls into the material guiding groove 53, and due to the arrangement of the first groove edge 531 and the second groove edge 532, the core needle a can sequentially penetrate out of the material discharging hole 533 and then be conveyed to the next procedure.

More specifically, the guide chute 53 is covered with a baffle plate 8. Through the setting of striker plate 8, can guarantee smooth the dropping to the baffle box 53 of iron core needle a.

More specifically, in order to improve the structural stability, the iron core needle feeding mechanism further comprises a fixing component 9; the fixing assembly 9 is arranged between the mounting plate 1 and the driving assembly 4 and connected with the mounting plate 1 and the driving assembly 4; the fixing component 9 comprises a fixing plate 91, a bottom plate 92 and a stabilizing plate 93; the fixing plate 91 is arranged between the mounting plate 1 and the driving assembly 4 and connected with the mounting plate 1 and the driving assembly 4; the bottom plate 92 is arranged below the fixing plate 91 and connected with the fixing plate 91; the stabilizing plate 93 is disposed at one side of the lower portion of the fixing plate 91, and the lower portion and the side portion thereof are connected to the base plate 92 and the fixing plate 91, respectively.

The utility model relates to a pair of iron core needle a feed subassembly through mounting panel 1, go up flitch 2, scraping wings 3, drive assembly 4 and stock guide 5's setting for iron core needle a can be orderly carries out the material loading, avoids the manual contact simultaneously, has improved material loading efficiency.

The above description is only for the preferred embodiment of the present invention, and the structure is not limited to the above-mentioned shape, and any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an iron core needle feed mechanism which characterized in that: the iron core needle feeding mechanism comprises a mounting plate, a feeding plate, a pushing plate, a driving assembly and a material guide plate;

wherein, one side of the mounting plate is provided with a first open slot; the feeding plate is obliquely arranged above the mounting plate, and one end, which is obliquely downward, of the feeding plate faces the first open slot; the material pushing plate is arranged below the mounting plate in a sliding mode, and a first connecting groove is formed in one side, close to the first open groove, of the material pushing plate and faces the first open groove; the material guide plate is arranged on one side of the mounting plate, which is provided with a first open slot, and is connected with the mounting plate; a step is arranged on one side of the material guide plate close to the mounting plate; one end of the material pushing plate, provided with the first connecting groove, is arranged on the step; a second communicating groove is formed in the material guide plate and is arranged right opposite to the step; the driving assembly is arranged on one side, far away from the material guide plate, of the mounting plate and is connected with the material pushing plate.

2. The iron core needle feeding mechanism according to claim 1, characterized in that: the iron core needle feeding mechanism also comprises a limiting plate; the limiting plates are two and are respectively arranged above the feeding plate.

3. The iron core needle feeding mechanism according to claim 1, characterized in that: the iron core needle feeding mechanism comprises a vibration component; the material vibrating component comprises a butt joint block and a butt joint plate; the abutting block is arranged below the upper material plate, and one end of the abutting block, which is close to the driving assembly, is connected with the driving assembly; the abutting plate is arranged above the abutting block, and the upper part of the abutting plate penetrates through the upper material plate and extends to the upper part of the upper material plate;

wherein, butt joint piece and the butt joint one side that the looks proximal to is equipped with butt joint portion and the serration portion of mutual butt joint respectively.

4. The iron core needle feeding mechanism according to claim 3, characterized in that: one sides of the mounting plate and the material pushing plate close to the driving assembly are inwards sunken to form a first open slot and a second open slot respectively; the depth of the inward recess of the first open slot is greater than that of the second open slot; the abutting block is arranged in the first opening groove and the second opening groove.

5. The iron core needle feeding mechanism according to claim 4, characterized in that: the driving assembly comprises an air cylinder; and the power output end of the air cylinder is connected with the abutting block.

6. The iron core needle feeding mechanism according to any one of claims 1 to 5, characterized in that: a material guide groove is formed in one side, away from the mounting plate, of the material guide plate; the guide chute is arranged below the second communicating groove.

7. The iron core needle feeding mechanism according to claim 6, characterized in that: the guide chute comprises a first chute edge, a second chute edge and a discharge hole; the lower parts of the first groove edge and the second groove edge are intersected, and the upper parts of the first groove edge and the second groove edge are arranged in a diverging mode outwards; the discharge hole is formed in the intersection of the first groove edge and the second groove edge.

8. The iron core needle feeding mechanism according to claim 6, characterized in that: and a material baffle plate is covered outside the material guide groove.

9. The iron core needle feeding mechanism according to any one of claims 1 to 5, characterized in that: the iron core needle feeding mechanism also comprises a fixing component; the fixing component is arranged between the mounting plate and the driving component and connected with the mounting plate and the driving component.

10. The iron core needle feeding mechanism according to claim 9, characterized in that: the fixing component comprises a fixing plate, a bottom plate and a stabilizing plate; the fixing plate is arranged between the mounting plate and the driving assembly and connected with the mounting plate and the driving assembly; the bottom plate is arranged below the fixed plate and connected with the fixed plate; the stabilizing plate is arranged on one side of the lower part of the fixing plate, and the lower part and the side part of the stabilizing plate are respectively connected with the bottom plate and the fixing plate.

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