CN216272002U - Material distributing mechanism of taper cup - Google Patents

Abstract

The utility model provides a material distribution mechanism of a taper cup, which comprises a material conveying groove, a material clamping mechanism and a material discharging mechanism, wherein the material clamping mechanism comprises a support frame, a first material clamping component and a second material clamping component, the first material clamping component and the second material clamping component respectively comprise a slide seat, a material clamping cylinder and a material clamping head, the material discharging mechanism comprises a material discharging cylinder, a U-shaped slide block, a material clamping cylinder and a connecting plate, sliding grooves are respectively formed in two side walls of the material conveying groove, and a material pushing end part is arranged at one end of the connecting plate. Put the whole input at the defeated silo of overlapping taper cup, the removal state of whole pile of taper cup is controlled through control card stub bar work and then to second card material subassembly, first card material subassembly is through control card stub bar work and then control the removal state of second taper cup, press from both sides the removal of material cylinder control connecting plate in order to press from both sides first taper cup tightly, ejection of compact cylinder control connecting plate removes and separates out from second taper cup with first taper cup, thereby realize the continuous branch material of taper cup, reduce the human input, and the production efficiency is improved.

Description

Material distributing mechanism of taper cup

Technical Field

The utility model relates to the field of screen printing machines, in particular to a material distribution mechanism of a taper cup.

Background

And in the silk-screen printing, ink is transferred to a printing stock through meshes of an image-text part by extrusion of a scraper, so that the image-text is formed like an original manuscript. The silk screen printing machine is an important tool for carrying out silk screen printing on an article, and can complete the operation process of silk screen printing on the article. The taper cup is a cup with a certain taper, silk-screen pictures and texts are required on the taper cup according to the requirements of customers, the silk-screen printing processing of the taper cup needs to be carried out by using a silk-screen printing machine, the taper cup is in a state of being overlapped one by one when being fed, the taper cup needs to be separated one by one for feeding, the current distribution of the taper cup is basically separated manually by workers and then arranged on a feeding belt for transmission, the operation process is complicated, a large amount of manpower is wasted, the distribution efficiency is low, and the production efficiency is influenced.

Disclosure of Invention

The utility model aims to solve the problem of providing a material distribution mechanism of a taper cup, which realizes automatic material distribution, reduces the labor input and improves the production efficiency.

The material distribution mechanism comprises a material conveying groove, a material clamping mechanism and a material discharging mechanism, wherein the material clamping mechanism comprises a support frame fixedly connected to one side of an input end of the material conveying groove, and a first material clamping component and a second material clamping component which are arranged on one side of the support frame in parallel along the length direction of the material conveying groove, the first material clamping component and the second material clamping component respectively comprise a slide seat connected to the support frame in a sliding manner, a material clamping cylinder fixedly connected to the slide seat, and a material clamping head fixedly connected to an output shaft of the material clamping cylinder, an arc-shaped clamping groove facing the inner side of the material conveying groove is arranged on the material clamping head, the material discharging mechanism comprises a material discharging cylinder fixedly connected to the bottom of the material conveying groove, a U-shaped slide block connected to the bottom of the material conveying groove in a sliding manner, material clamping cylinders fixedly connected to two ends of the U-shaped slide block, and a connecting plate fixedly connected to the output shaft of the material clamping cylinders, two side walls of the material conveying groove are respectively provided with a sliding groove matched with the connecting plate, the connecting plate is movably arranged on the chute, one end of the connecting plate extends towards the inner side of the material conveying groove and is provided with a material pushing end part, and the chute is arranged along the length direction of the material conveying groove.

Preferably, the support frame contains two parallel bracing pieces that set up on a defeated silo lateral wall, set up the backing plate between two bracing pieces, set up the roof on the backing plate, the bracing piece passes through bolt fixed connection on defeated silo, it is provided with vertical bar hole to run through on the bracing piece, the backing plate both ends all are provided with the first screw with vertical bar hole matching, pass through bolted connection between vertical bar hole and the first screw, be provided with two horizontal bar holes on the roof side by side, the backing plate top is provided with the second screw with horizontal bar hole matching, pass through bolted connection between horizontal bar hole and the second screw, roof one side runs through and is provided with movable breach, be provided with two first guide arms side by side between the wall of movable breach both sides, first guide arm runs through and sets up on the slide.

Preferably, the discharging mechanism further comprises a cushion block fixedly connected to the bottom of the material conveying tank, and second guide rods arranged on one side face of the cushion block in parallel, two sleeves matched with the second guide rods are arranged on the U-shaped sliding blocks in parallel in a penetrating mode, and the second guide rods are connected to the sleeves.

Preferably, the bottom of the material conveying groove is provided with a first support leg assembly and a second support leg assembly, the first support leg assembly comprises a first rotating rod fixedly connected to the bottom of the material conveying groove and first support legs arranged at two ends of the first rotating rod, the second support leg assembly comprises a second rotating rod fixedly connected to the bottom of the material conveying groove and second support legs arranged at two ends of the second rotating rod, the lengths of the first support leg and the second support leg are respectively a and b, and a is less than b.

Preferably, the first supporting leg and the second supporting leg are respectively provided with a shaft hole matched with the end part of the first rotating rod and the end part of the second rotating rod in a penetrating manner, the end parts of the first rotating rod and the second rotating rod are arranged on the shaft holes, the first supporting leg and the second supporting leg are respectively provided with a connecting screw hole communicated with the shaft holes, and the connecting screw hole is connected with a positioning bolt in a threaded manner and abutted against the first rotating rod and the second rotating rod.

Preferably, one side of the pushing end is provided with a guide inclined plane.

The utility model has the beneficial effects that: the utility model provides a material distribution mechanism of a taper cup, which is provided with a unique assembly structure, wherein a whole stack of taper cups is placed at the input end of a material conveying groove, a material clamping cylinder on a second material clamping component can control the moving state of the whole stack of taper cups by controlling the work of a stub bar, a material clamping cylinder on a first material clamping component can control the moving state of a second taper cup by controlling the work of the stub bar, a material clamping cylinder on a material discharge mechanism moves through a control connecting plate to clamp a first taper cup, and a material discharge cylinder on the material discharge mechanism moves through the control connecting plate to separate the first taper cup from the second taper cup, so that the continuous material distribution of the taper cups is realized. The automatic material distribution device is simple in structure and easy and convenient to operate, can realize automatic material distribution of the taper cups, reduces manpower input, reduces production cost and improves production efficiency.

Drawings

Fig. 1 illustrates a schematic structural view of the external form of the present invention.

Fig. 2 illustrates a schematic structural view of the discharging mechanism of the present invention.

Fig. 3 illustrates an exploded view of the material clamping mechanism of the present invention.

Fig. 4 illustrates a top view of the present invention.

Fig. 5 illustrates a partial enlarged structural view of a portion a of fig. 1 according to the present invention.

Fig. 6 illustrates a partial enlarged structural view of a portion B of fig. 1 according to the present invention.

The reference numbers illustrate: the material conveying device comprises a material conveying groove 1, a sliding groove 100, a support frame 2, a support rod 20, a longitudinal strip-shaped hole 200, a base plate 21, a top plate 22, a transverse strip-shaped hole 220, a movable notch 23, a first guide rod 24, a first material clamping component 3, a sliding seat 30, a material clamping cylinder 31, a material clamping head 32, an arc-shaped clamping groove 320, a second material clamping component 4, a discharging mechanism 5, a discharging cylinder 50, a U-shaped sliding block 51, a connecting plate 52, a material pushing end part 520, a guide inclined plane 521, a cushion block 53, a second guide rod 54, a sleeve 55, a material clamping cylinder 56, a first rotating rod 6, a first supporting foot 60, a shaft hole 600, a connecting screw hole 601, a positioning bolt 61, a second rotating rod 7 and a second supporting foot 70.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings of the embodiments of the present disclosure. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments.

All other embodiments of the person skilled in the art, which are obtained without inventive work on the basis of the described embodiments of the present disclosure, are within the scope of protection of the present disclosure.

Refer to fig. 1-6.

The utility model provides a material distribution mechanism of a taper cup, which comprises a material conveying groove 1, a material clamping mechanism and a material discharging mechanism 5, wherein the material clamping mechanism comprises a support frame 2 fixedly connected to one side of an input end of the material conveying groove 1, a first material clamping component 3 and a second material clamping component 4 which are arranged on one side of the support frame 2 in parallel along the length direction of the material conveying groove 1, the first material clamping component 3 and the second material clamping component 4 respectively comprise a slide seat 30 connected to the support frame 2 in a sliding manner, a material clamping cylinder 31 fixedly connected to the slide seat 30, and a material clamping head 32 fixedly connected to an output shaft of the material clamping cylinder 31, an arc-shaped clamping groove 320 facing the inner side of the material conveying groove 1 is arranged on the material clamping head 32, the material discharging mechanism 5 comprises a material discharging cylinder 50 fixedly connected to the bottom of the material conveying groove 1, a U-shaped slide block 51 connected to the bottom of the material conveying groove 1 in a sliding manner, material clamping cylinders 56 fixedly connected to two ends of the U-shaped slide block 51, and a connecting plate 52 fixedly connected to an output shaft of the material clamping cylinder 56, the two side walls of the material conveying chute 1 are provided with sliding chutes 100 matched with the connecting plate 52 in a penetrating manner, the connecting plate 52 is movably arranged on the sliding chutes 100, one end of the connecting plate 52 extends towards the inner side of the material conveying chute 1 to be provided with a material pushing end part 520, and the sliding chutes 100 are arranged along the length direction of the material conveying chute 1.

The specific use principle is as follows: placing a stack of tapering cups at defeated silo 1 input end department and cup mouth towards defeated silo 1 output end side, will wholly fold tapering cups and define as according to from last order down in proper order: the taper cup assembly comprises a first taper cup, a second taper cup, a third taper cup … … and an nth taper cup, initially, a material clamping cylinder 31 of a first material clamping assembly 3 drives an arc-shaped clamping groove 320 to abut against the second taper cup, the arc-shaped clamping groove 320 of a material clamping head 32 of a second material clamping assembly 4 is located on the upper side of the first taper cup and is in a separated state with the first taper cup, and material pushing end portions 520 of connecting plates 52 on two sides are located on two sides of the first taper cup. During material distribution, the material clamping cylinders 56 on two sides drive the connecting plate 52 to move towards the inner side of the material conveying chute 1 so as to enable the two material pushing end parts 520 to clamp a first taper cup tightly, then the discharging cylinder 50 drives the U-shaped slide block 51 to move towards the output end side of the material conveying chute 1, the first taper cup is pushed to move towards the output end side of the material conveying chute 1 and is separated from a second taper cup, at this time, the first taper cup is conveyed to the output end of the material conveying chute 1 and enables the material discharging mechanism 5 to reset, the first material clamping component 3 releases the second taper cup and then pushes the stack of taper cups to move forwards, when the second taper cup moves to the lower part of the arc-shaped clamping groove 320 of the second material clamping component 4, the material clamping cylinder 31 of the second material clamping component 4 drives the material clamping head 32 to clamp the second taper cup and stop moving, and then the material clamping head 32 of the first material clamping component 3 clamps the third taper cup and the material clamping head 32 of the second material clamping component 4 releases the second taper cup, the continuous material distribution of the taper cup can be realized by the circular operation. The automatic material distribution device is simple in structure and easy and convenient to operate, can realize automatic material distribution of the taper cups, reduces manpower input, reduces production cost and improves production efficiency.

Based on above-mentioned embodiment, support frame 2 contains two bracing pieces 20 that set up side by side on 1 lateral wall of defeated silo, set up backing plate 21 between two bracing pieces 20, set up roof 22 on backing plate 21, bracing piece 20 passes through bolt fixed connection on defeated silo 1, it is provided with vertical bar hole 200 to run through on the bracing piece 20, backing plate 21 both ends all are provided with the first screw that matches with vertical bar hole 200, pass through bolted connection between vertical bar hole 200 and the first screw, it is provided with two horizontal bar holes 220 to run side by side on roof 22, backing plate 21 top is provided with the second screw that matches with horizontal bar hole 220, pass through bolted connection between horizontal bar hole 220 and the second screw, roof 22 one side runs through and is provided with activity breach 23, be provided with two first guide arms 24 between the both sides wall of activity breach 23 side by side, first guide arm 24 runs through and sets up on slide 30. The transverse and longitudinal positions of the first clamping component 3 and the second clamping component 4 can be adjusted according to the size of the taper cup, the height position of the backing plate 21 between the two support rods 20 can be adjusted after the bolt on the first screw hole is loosened, the backing plate 21 is fixed by connecting the backing plate between the longitudinal strip-shaped hole 200 and the first screw hole through the bolt after the adjustment, the position of the top plate 22 on the backing plate 21 can be adjusted along the arrangement direction of the transverse strip-shaped hole 220 after the bolt on the transverse strip-shaped hole 220 is loosened, and the top plate 22 is fixed by connecting the backing plate between the transverse strip-shaped hole 220 and the second screw hole through the bolt after the adjustment, so that the X-axial and Z-axial positions of the first clamping component 3 and the second clamping component 4 are adjusted; the distance between the sliding seat 30 of the first clamping component 3 and the sliding seat 30 of the second clamping component 4 can be correspondingly adjusted according to the distance between two adjacent overlapped taper cups, and the Y-axis position of the first clamping component 3 and the second clamping component 4 can be adjusted by pushing the sliding seat 30 to move along the first guide rod 24.

Based on the above embodiment, the discharging mechanism 5 further includes a pad 53 fixedly connected to the bottom of the material conveying chute 1, and a second guide rod 54 arranged in parallel on one side of the pad 53, two sleeves 55 matched with the second guide rod 54 are arranged in parallel on the U-shaped slider 51 in a penetrating manner, and the second guide rod 54 is connected to the sleeves 55. When the discharging cylinder 50 drives the U-shaped sliding block 51 to move along the bottom of the material conveying chute 1, the U-shaped sliding block 51 moves along the second guide rod 54, and the moving stability of the U-shaped sliding block 51 is improved.

Based on the above embodiment, the bottom of the material conveying groove 1 is provided with the first support leg assembly and the second support leg assembly, the first support leg assembly comprises the first rotating rod 6 fixedly connected to the bottom of the material conveying groove 1 and the first support legs 60 arranged at two ends of the first rotating rod 6, the second support leg assembly comprises the second rotating rod 7 fixedly connected to the bottom of the material conveying groove 1 and the second support legs 70 arranged at two ends of the second rotating rod 7, the lengths of the first support legs 60 and the second support legs 70 are a and b respectively, and a is less than b. The first supporting leg 60 and the second supporting leg 70 can support the material conveying groove 1, the input end side of the material conveying groove 1 is low, and the output end side of the material conveying groove 1 is high, so that the transverse space occupation of the material conveying groove 1 is shortened, and the size of the screen printing machine can be reduced.

Based on the above embodiment, the first supporting leg 60 and the second supporting leg 70 are respectively provided with the shaft hole 600 matching with the end portions of the first rotating rod 6 and the second rotating rod 7 in a penetrating manner, the end portions of the first rotating rod 6 and the second rotating rod 7 are both arranged on the shaft hole 600, the first supporting leg 60 and the second supporting leg 70 are both provided with the connecting screw hole 601 communicated with the shaft hole 600, and the connecting screw hole 601 is connected with the positioning bolt 61 abutted to the first rotating rod 6 and the second rotating rod 7 in a threaded manner. After the positioning bolt 61 is loosened, the first supporting leg 60 and the second supporting leg 70 can be rotated around the first rotating rod 6 and the second rotating rod 7 respectively, so as to adjust the inclination angles of the first supporting leg 60 and the second supporting leg 70, thereby achieving the purpose of adjusting the erection height and the inclination angle of the material conveying chute 1.

Based on the above embodiment, the guiding inclined plane 521 is disposed on one side of the pushing end 520, so that when the pushing end 520 clamps the taper cup, friction and contact to the taper cup can be reduced, and abrasion to a product is reduced.

The above embodiments are merely illustrative of the preferred embodiments of the present invention, and not restrictive, and various changes and modifications to the technical solutions of the present invention may be made by those skilled in the art without departing from the spirit of the present invention, and the technical solutions of the present invention are intended to fall within the scope of the present invention defined by the appended claims.

Claims (6)

1. The material distribution mechanism of the taper cup is characterized by comprising a material conveying groove, a material clamping mechanism and a material discharging mechanism, wherein the material clamping mechanism comprises a support frame fixedly connected to one side of an input end of the material conveying groove, a first material clamping component and a second material clamping component which are arranged on one side of the support frame in parallel in the length direction of the material conveying groove, the first material clamping component and the second material clamping component comprise a slide seat, a material clamping cylinder and a material clamping head, the slide seat is in sliding connection with the slide seat, the material clamping cylinder is in sliding connection with the slide seat, the material clamping head is fixedly connected to an output shaft of the material clamping cylinder, the material clamping head faces towards the inner side of the material conveying groove, the material discharging mechanism comprises a material discharging cylinder, a U-shaped sliding block and a material clamping cylinder, the material discharging cylinder is fixedly connected to the bottom of the material conveying groove, the material clamping cylinder is fixedly connected to two ends of the U-shaped sliding block, and the material discharging mechanism comprises a material clamping cylinder and a material clamping cylinder, a material clamping cylinder is fixedly connected to the two ends of the U-shaped sliding block, The material clamping cylinder is fixedly connected with the connecting plate on the output shaft of the material clamping cylinder, sliding chutes matched with the connecting plate are formed in the two side walls of the material conveying groove in a penetrating mode, the connecting plate is movably arranged on the sliding chutes, one end of the connecting plate extends towards the inner side of the material conveying groove to be provided with material pushing end portions, and the sliding chutes are arranged along the length direction of the material conveying groove.

2. The material distributing mechanism for taper cups according to claim 1, wherein said supporting frame comprises two supporting rods disposed in parallel on one side wall of said material conveying chute, a backing plate disposed between said two supporting rods, and a top plate disposed on said backing plate, said supporting rods are fixedly connected to said material conveying chute by bolts, said supporting rods are provided with longitudinal bar holes through them, said backing plate is provided at both ends thereof with first screw holes matching said longitudinal bar holes, said longitudinal bar holes are connected with said first screw holes by bolts, said top plate is provided with two transverse bar holes in parallel, said backing plate is provided at the top thereof with second screw holes matching said transverse bar holes, said transverse bar holes are connected with said second screw holes by bolts, one side of said top plate is provided with a movable gap through them, two first guide rods are disposed in parallel between two side walls of said movable gap, the first guide rod is arranged on the sliding seat in a penetrating mode.

3. The distributing mechanism for taper cups according to claim 2, wherein the discharging mechanism further comprises a pad block fixedly connected to the bottom of the material conveying trough, and a second guide rod arranged on one side of the pad block in parallel, two sleeves matched with the second guide rod are arranged on the U-shaped sliding block in parallel in a penetrating manner, and the second guide rod is connected to the sleeves.

4. The material distributing mechanism for taper cups according to claim 3, wherein a first supporting leg assembly and a second supporting leg assembly are disposed at the bottom of the material conveying trough, the first supporting leg assembly comprises a first rotating rod fixedly connected to the bottom of the material conveying trough and first supporting legs disposed at two ends of the first rotating rod, the second supporting leg assembly comprises a second rotating rod fixedly connected to the bottom of the material conveying trough and second supporting legs disposed at two ends of the second rotating rod, the first supporting leg and the second supporting leg have lengths a and b, and a < b.

5. The material distribution mechanism for the taper cups according to claim 4, wherein shaft holes matched with the end portions of the first rotating rod and the second rotating rod are respectively arranged on the first supporting leg and the second supporting leg in a penetrating manner, the end portions of the first rotating rod and the second rotating rod are respectively arranged on the shaft holes, connecting screw holes communicated with the shaft holes are respectively arranged on the first supporting leg and the second supporting leg, and positioning bolts abutted against the first rotating rod and the second rotating rod are in threaded connection with the connecting screw holes.

6. The separating mechanism for tapered cups as claimed in claim 5, wherein a guiding bevel is provided on one side of the pushing end.

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