CN218507236U - Material belt layered receiving mechanism - Google Patents

Abstract

The utility model provides a material area layering receiving agencies, the loach carrying platform comprises a supporting fram, it cuts the mechanism to be provided with the material area on the support frame, the material area is cut mechanism one side and is provided with and puts the flitch, it is provided with material area receiving agencies on the flitch to put, material area receiving agencies and material are taken and are provided with the feed chute between the cutting mechanism, material area cutting agencies and material area are provided with material area guiding mechanism between the receiving agencies, right receiving agencies's design has alleviateed when the material is received in the material area, and gravity is to the influence of material area receipt, promotes the material quality of receipt, in the aspect of the material quality of receipt, through adding material area layering mechanism prevents that the material from taking the material damage material of rubbing each other after receiving the material, has improved the processingquality in material area.

Description

Material belt layered receiving mechanism

Technical Field

The utility model relates to a receiving agencies especially relates to a material area layering receiving agencies.

Background

Among the metal processing field, in order to improve production efficiency, realize doing in quick succession, often need use the material area to process in the processing, need receive material work to the material area after material area processing is accomplished, use on next step in order to make things convenient for, but current material area receiving agencies is carrying out the material area and is receiving the material during operation, often can only be with the material tape reel lapping, the material area can be damaged with material area direct contact at times to the material area, it is inseparable enough to receive material in-process material area material coil stock simultaneously, seriously influence subsequent processing, consequently, the aforesaid problem is solved to an urgent need material area layering receiving agencies.

SUMMERY OF THE UTILITY MODEL

To prior art's not enough, the utility model provides a material area layering receiving agencies, the loach carrying platform comprises a supporting fram, it cuts the mechanism to be provided with the material area on the support frame, the material area is cut mechanism one side and is provided with and puts the flitch, it is provided with material area receiving agencies on the flitch to put, it takes to be provided with the feed chute between receiving agencies and the material area cutting agencies to take material area receiving agencies one side is provided with material area layering agencies, the material area is cut and is provided with material area guiding mechanism between mechanism and the material area receiving agencies.

Preferably, the material belt cutting mechanism comprises a pressing module arranged on the material belt supporting mechanism, the driving end of the pressing module is connected with an upper die, and a lower die is arranged below the upper die.

Preferably, the material receiving mechanism comprises a rotating motor arranged on the support frame, a rotating disc is connected to the transmission end of the rotating motor, the rotating disc is parallel to the material placing plate, and a material receiving groove is formed in the outer edge of the rotating disc.

Preferably, the material belt layering mechanism comprises a material receiving wheel which is rotatably connected to the material placing plate, a material placing groove is formed in the outer edge of the material receiving wheel, and a material belt pressing mechanism is arranged at one end, pointing to the rotating disc, of the material receiving wheel.

Preferably, the material belt pressing mechanism is arranged on a connecting plate on the material placing plate, a connecting rod pointing to the supporting frame is arranged on the connecting plate, two groups of supporting plates are symmetrically arranged on two sides of the bottom end of the connecting rod, spring rods pointing to the feeding grooves are arranged on the supporting plates, and a pressing roller is arranged at the top ends of the spring rods.

Preferably, the material belt guide mechanism comprises a guide block arranged on the feeding groove, a guide groove is arranged in the guide block, the guide groove is communicated with the feeding groove, and the guide groove is a spiral groove.

Compared with the prior art, the utility model has the following advantages;

this group's receiving agencies is through the adjustment the direction that the material was received to the carousel has alleviateed when the material area was received the material, and gravity is to the influence that the material was received to the material area, simultaneously through adding material area guiding mechanism prevents that the material area after the processing from taking place the fracture easily after twisting, in the aspect of receiving the material quality, through adding material area layering mechanism prevents that the material area from receiving the material back friction damage material that has improved the processingquality in material area.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

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

FIG. 2 is a schematic view of the material placing plate of the present invention;

fig. 3 is a schematic view of the material belt cutting mechanism of the present invention;

fig. 4 is a side view of the present invention;

fig. 5 is a schematic view of the material belt pressing mechanism of the present invention;

wherein, 1, a support frame; 101. placing a material plate; 102. a feed slot; 2. a material belt cutting mechanism; 201. pressing the module; 202. an upper die; 203. a lower die; 3. a material belt receiving mechanism; 301. a rotating electric machine; 302. rotating the disc; 303. a material receiving groove; 4. a material belt layering mechanism; 401. a material receiving wheel; 402. a material placing groove; 403. a material belt pressing mechanism; 404. a connecting plate; 405. a connecting rod; 406. a support plate; 407. a spring lever; 408. pressing the roller; 5. a material belt guide mechanism; 501. a guide block; 502. a guide groove;

Detailed Description

To prior art not enough, the utility model provides a material area layering receiving agencies, the layering is received the material and receive the material in the material area, adds the median of layering between the interval of rolling up in the material area to prevent that the material area from receiving the damage in receiving material and save the process, refer to fig. 1, fig. 2, including support frame 1, support frame 1 one side is provided with puts flitch 101, it is provided with feed chute 102 on the flitch 101 to put.

Referring to fig. 3, it cuts mechanism 2 to be provided with the material area on the support frame 1, the material area cuts mechanism 2 is including setting up the last module 201 that pushes down of material area supporting mechanism, it includes the motor and by the depression bar that motor drive reciprocated to push down module 201, it is connected with mould 202 to push down module 201 transmission end, it is provided with bed die 203 to go up mould 202 below, it cuts the arch to be provided with on the last mould 202, when pushing down cut the arch and cut the material area, the cooperation the punching press in material area and cut are accomplished to bed die 203, and the material area is through when passing through, it begins work to push down module 201, drives to go up the module and carry out the up-and-down back motion, the cooperation the module is down, accomplishes compound die, the die sinking work cuts the processing to the material area.

Referring to fig. 4, it is provided with material area receiving agencies 3 on flitch 101 to put, material area receiving agencies 3 is including setting up rotating electrical machines 301 on the support frame 1, the driving end of rotating electrical machines 301 is connected with rotating disc 302, rotating disc 302 is on a parallel with put flitch 101, rotating disc 302 is provided with on the outer fringe and receives material recess 303, and during processing, rotating electrical machines 301 begins to work, drives rotating disc 302 rotates, driving disc rotates simultaneously, drives its material area and rotates the income in receiving material recess 303, along with rotating disc 302 takes place to rotate, material area dish portion in receive in the material recess 303.

Referring to fig. 4, a material belt layering mechanism 4 is disposed on one side of the material belt receiving mechanism 3, the material belt layering mechanism 4 includes a receiving wheel 401 rotatably connected to the material placing plate 101, a material placing groove 402 is disposed on an outer edge of the receiving wheel 401, a material belt pressing mechanism 403 is disposed at an end of the receiving wheel 401, which points to the rotating disc 302, the material belt pressing mechanism 403 includes a connecting plate 404 disposed on the material placing plate 101, a connecting rod 405 is disposed on the connecting plate 404, which points to the supporting frame 1, two sets of supporting plates 406 are symmetrically disposed on two sides of a bottom end of the connecting rod 405, a spring rod 407 is disposed on the supporting plate 406, which points to the feeding groove 102, the spring rod 407 is an upper guide rod sleeved in a bottom pipe sleeve, a spring is disposed on top ends of the upper guide rod and a rod sleeve, a pressing roller 408 is disposed on a top end of the spring rod 407, the material belt starts to rotate along with the operation of the receiving mechanism 3 when the material belt is fed, the receiving wheel 401 is driven by a layering belt, the material belt passes through the material belt pressing mechanism 403 when the layering belt is overlapped, the spring rod 407, the spring rod is compressed by a force, and the pressing roller is pushed to complete the pressing and the layering operation of the material belt when the material belt is completed when the material belt 407 is restored.

Referring to fig. 5, be provided with material area guiding mechanism 5 between material area cutting mechanism 2 and the material area receiving agencies 3, material area guiding mechanism 5 is including setting up guide block 501 on the feed chute 102, be provided with guide way 502 in the guide block 501, guide way 502 communicate in feed chute 102, as an embodiment, guide way 502 is the spiral rectangular channel of ninety degrees of upset, and the material area passes through feed chute 102 direction gets into guide way 502 overturns along with the upset of guide way 502, prevents that the material area from receiving torsional fracture in the natural turnover process, cooperates subsequent material area layering mechanism 4 adjustment material area position simultaneously.

In specific implementation, firstly, a material belt to be processed enters the material belt cutting mechanism 2, after the material belt cutting mechanism 2 cuts the material belt, the material belt is moved to the material belt receiving mechanism 3 through the feeding groove 102, then the material belt is turned over through the guide mechanism, and then the material belt and the material belt provided by the layering mechanism enter the material belt pressing mechanism 403 together, and after the material belt is pressed, the material belt enters the rotating disc 302 to complete material belt receiving work.

Claims (6)

1. The material belt layered receiving mechanism is characterized by comprising a support frame (1), a material belt cutting mechanism (2) is arranged on the support frame (1), a material placing plate (101) is arranged on one side of the material belt cutting mechanism (2), a material belt receiving mechanism (3) is arranged on the material placing plate (101), a feeding groove (102) is formed between the material belt receiving mechanism (3) and the material belt cutting mechanism (2), a protective layer discharging mechanism (4) is arranged on one side of the material belt receiving mechanism (3), and a material belt guiding mechanism (5) is arranged between the material belt cutting mechanism (2) and the material belt receiving mechanism (3).

2. The material belt layered receiving mechanism of claim 1, wherein the material belt cutting mechanism (2) comprises a lower pressing module (201) disposed on the material belt supporting mechanism, an upper mold (202) is connected to a transmission end of the lower pressing module (201), and a lower mold (203) is disposed below the upper mold (202).

3. The material belt layered receiving mechanism according to claim 1, wherein the material belt receiving mechanism (3) comprises a rotating motor (301) disposed on the supporting frame (1), a transmission end of the rotating motor (301) is connected to a rotating disc (302), the rotating disc (302) is parallel to the material placing plate (101), and a receiving groove (303) is disposed on an outer edge of the rotating disc (302).

4. The material belt layered receiving mechanism of claim 1, wherein the protective layer discharging mechanism (4) comprises a receiving wheel (401) rotatably connected to the material placing plate (101), a material placing groove (402) is formed on an outer edge of the receiving wheel (401), and a material belt pressing mechanism (403) is arranged at an end of the receiving wheel (401) pointing to the material belt receiving mechanism (3).

5. The material belt layered receiving mechanism of claim 4, wherein the material belt pressing mechanism (403) is disposed on a connecting plate (404) on the material placing plate (101), a connecting rod (405) pointing to the supporting frame (1) is disposed on the connecting plate (404), two sets of supporting plates (406) are symmetrically disposed on two sides of a bottom end of the connecting rod (405), a spring rod (407) pointing to the feeding slot (102) is disposed on the supporting plate (406), and a pressing roller (408) is disposed at a top end of the spring rod (407).

6. The material belt layered receiving mechanism of claim 1, wherein the material belt guiding mechanism (5) comprises a guiding block (501) disposed on the feeding slot (102), a guiding slot (502) is disposed in the guiding block (501), the guiding slot (502) is communicated with the feeding slot (102), and the guiding slot (502) is a spiral slot.

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