CN114454305B - Die cup press forming equipment for container processing - Google Patents

Abstract

The invention relates to a forming device, in particular to a die cup press forming device for processing a container. The invention aims to solve the technical problem of providing the die cup press forming equipment for processing the container, which does not need manual extrusion to form the mud blocks in the die, is convenient to operate, low in labor intensity, time-saving and labor-saving and high in working efficiency. In order to solve the technical problems, the invention provides a die cup press forming device for processing a container, which comprises: the top end of the supporting leg is connected with a guide rod; the material supporting plate is connected to the supporting leg; the first connecting blocks are arranged, and the two first connecting blocks are respectively connected to the two sides of the supporting leg; the two support rods are respectively connected to the first connecting blocks at two sides. According to the invention, the slide bar does not need to be manually moved downwards through the pressing mechanism, so that the labor intensity of people is reduced, and the working efficiency of 5DE5 of people is improved.

Description

Die cup press forming equipment for container processing

Technical Field

The invention relates to a forming device, in particular to a die cup press forming device for processing a container.

Background

The cup is a Chinese vocabulary, the Chinese pinyin is bi, and the radicals are wood. The cup is a term and functions to hold a liquid. The cup can be expressed as a vessel for containing wine, water, tea and the like, is in a cylindrical shape or a horn shape, and is made of wood, metal, glass or ceramic.

At present, most clay blocks are put into a forming die through manual work and then manually pressed by a pressing block, so that the labor intensity of people is high, the operation is complex, time and labor are wasted, and the working efficiency is low.

Therefore, the mold cup press forming equipment for processing the container, which does not need manual extrusion and forming of the clay blocks in the mold, is convenient to operate, low in labor intensity, time-saving and labor-saving and high in working efficiency, needs to be designed.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects of high labor intensity, complex operation, time and labor waste and low working efficiency of people, and the technical problem to be solved by the invention is to provide the cup press forming equipment for the mold for processing the container, which does not need manual extrusion to form the mud blocks in the mold, and has the advantages of convenient operation, low labor intensity, time and labor saving and high working efficiency.

(2) Technical proposal

In order to solve the technical problems, the invention provides a die cup press forming device for processing a container, which comprises: the top end of the supporting leg is connected with a guide rod; the material supporting plate is connected to the supporting leg; the first connecting blocks are arranged, and the two first connecting blocks are respectively connected to the two sides of the supporting leg; the two support rods are respectively connected to the first connecting blocks at the two sides; the two sliding rods are respectively connected to the supporting rods on the two sides in a sliding manner; the forming pressing block is connected to the bottoms of the sliding rods at two sides; the first spring is connected between the sliding rod and the first connecting block, and is sleeved on the supporting rod; a forming mechanism slidably connected to the guide rod; a rotating mechanism connected to the leg.

Preferably, the forming mechanism comprises: the two sliding blocks are respectively connected to the guide rods on the two sides in a sliding manner; the two second connecting blocks are respectively connected to the sliding blocks on the two sides; the first rotating shaft is rotationally connected to the second connecting block at one side; the second rotating shaft is connected to the second connecting block at one side; the forming die is connected to the first rotating shaft and the second rotating shaft; the two spiral springs are respectively sleeved on the first rotating shaft and the second rotating shaft; the first gear is connected to the tail end of the second rotating shaft; the pull rod is connected to the sliding blocks on two sides in a sliding manner; and two second springs are arranged and are respectively sleeved on the pull rod.

Preferably, the rotating mechanism comprises: the third connecting block is connected to one side of the supporting leg; a first rack connected to the third connection block; and the unidirectional gear is connected to the first rotating shaft and is matched with the first rack.

Preferably, the device also comprises a pressing mechanism, and the pressing mechanism comprises: the first support blocks are arranged, and the two first support blocks are respectively connected to the first connecting blocks at the two sides; the two third rotating shafts are respectively connected to the first supporting blocks at two sides in a rotating manner; the two second gears are respectively connected to the third rotating shafts on the two sides; the two second racks are respectively connected to the sliding rods on the two sides, and are meshed with the second gears; the two third racks are respectively connected to one ends of the pull rods at two sides and are matched with the second gear; and the fourth rack is connected to the top end of the first connecting block at one side and is matched with the first gear.

Preferably, the scraper mechanism comprises: the four connecting blocks are provided with two connecting blocks, and the two fourth connecting blocks are respectively connected to the third racks at the two sides; and the steel wire is connected between the fourth connecting blocks at two sides and is positioned at one side of the top end of the forming die.

Preferably, the feeding mechanism comprises: the two second supporting blocks are respectively connected to two sides of the supporting leg; the storage box is connected between the second supporting blocks at two sides; the discharging pipe is connected to the bottom of the storage box; the fifth connecting block is connected to the second supporting blocks at two sides; the three spiral rods are respectively connected to the top end of the fifth connecting block in a rotating manner, and the lower ends of the spiral rods are positioned in the discharging pipe; the worm wheels are provided with three, and the three worm wheels are respectively connected to the screw rod; the fourth rotating shaft is rotationally connected to the fifth connecting block; the three worms are respectively connected to the fourth rotating shaft and meshed with the worm wheel; a motor mounted on the second support block at one side; the two first belt pulleys are respectively connected to the output end of the motor and the tail end of the fourth rotating shaft; a first flat belt connected between the two first pulleys; and the fifth rack is connected to the second supporting block on the other side and meshed with the first gear.

Preferably, still include conveying mechanism, conveying mechanism includes: the two fifth rotating shafts are respectively connected to the two sides of the supporting leg in a rotating manner; the conveying belt is connected between the fifth rotating shafts at two sides; the two second belt pulleys are respectively connected with the front end of the fifth rotating shaft and the front end of the fourth rotating shaft at one side; a second flat belt connected between the two second pulleys.

Preferably, the material of the forming press block is iron white.

(3) Advantageous effects

1. According to the invention, the slide bar does not need to be manually moved downwards through the pressing mechanism, so that the labor intensity of people is reduced, and the working efficiency of people is improved.

2. According to the invention, the mud blocks on the forming die can be scraped through the scraping mechanism, so that the mud blocks on the forming die do not need to be scraped manually, and the operation is more convenient.

3. According to the invention, the mud blocks are not required to be manually placed into the forming die through the blanking mechanism, so that the labor intensity of people is further reduced, and the working efficiency of people is improved.

4. The invention can transport the formed container through the conveying mechanism, is more convenient for people to operate, and further improves the working efficiency of people.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of a first embodiment of the present invention.

Fig. 3 is a partial perspective view of a second embodiment of the present invention.

Fig. 4 is a perspective view of the blanking mechanism of the present invention.

Fig. 5 is a perspective view showing a third part of the structure of the present invention.

The marks in the drawings are: 1-supporting leg, 2-guide rod, 3-supporting plate, 4-first connecting block, 5-supporting rod, 6-sliding rod, 7-forming press block, 8-first spring, 9-forming mechanism, 91-sliding block, 92-second connecting block, 93-first rotating shaft, 94-second rotating shaft, 95-forming die, 96-scroll spring, 97-first gear, 98-pull rod, 99-second spring, 10-rotating mechanism, 101-third connecting block, 102-first rack, 103-one-way gear, 11-pressing mechanism, 111-first supporting block, 112-third rotating shaft, 113-second gear, 114-second racks, 115-third racks, 116-fourth racks, 12-scraping mechanism, 121-fourth connecting blocks, 122-steel wires, 13-blanking mechanism, 131-second supporting blocks, 132-storage box, 133-discharging pipe, 134-fifth connecting blocks, 135-screw rod, 136-worm wheel, 137-fourth rotating shaft, 138-worm, 139-motor, 1310-first belt pulley, 1311-first flat belt, 1312-fifth racks, 14-conveying mechanism, 141-fifth rotating shaft, 142-conveying belt, 143-second belt pulley, 144-second flat belt.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

The utility model provides a mould cup press forming equipment for container processing, as shown in fig. 1-3, including landing leg 1, guide arm 2, hold in the palm flitch 3, first linkage 4, bracing piece 5, slide bar 6, shaping briquetting 7, first spring 8, shaping mechanism 9 and rotary mechanism 10, both sides are connected with guide arm 2 around the top of landing leg 1, be equipped with the dog on the guide arm 2, the top middle part of landing leg 1 is connected with holds in the palm flitch 3, both sides are connected with first linkage 4 around the right side of landing leg 1, be connected with bracing piece 5 on the first linkage 4 in both sides, all be connected with slide bar 6 on the bracing piece 5 in both sides, the bottom of slide bar 6 is connected with shaping briquetting 7, first spring 8 between slide bar 6 and the first linkage 4, first spring 8 cover is established on bracing piece 5, be connected with shaping mechanism 9 on the guide arm 2 in a sliding manner, be connected with rotary mechanism 10 on landing leg 1.

The forming mechanism 9 comprises a sliding block 91, a second connecting block 92, a first rotating shaft 93, a second rotating shaft 94, a forming die 95, a scroll spring 96, a first gear 97, a pull rod 98 and a second spring 99, wherein the sliding blocks 91 are connected on the guide rods 2 on the front side and the rear side in a sliding mode, the second connecting block 92 is connected on the bottom of the sliding blocks 91 on the front side and the rear side in a sliding mode, the first rotating shaft 93 is connected on the second connecting block 92 on the front side in a rotating mode, the second rotating shaft 94 is connected on the bottom of the second connecting block 92 on the rear side in a rotating mode, the forming die 95 is connected on the first rotating shaft 93 and the second rotating shaft 94, the scroll spring 96 is sleeved on the first rotating shaft 93 and the second rotating shaft 94 in a sleeved mode, the first gear 97 is connected on the sliding blocks 91 on the front side and the rear side in a sliding mode, and the second spring 99 is sleeved on the pull rod 98.

The rotating mechanism 10 comprises a third connecting block 101, a first rack 102 and a one-way gear 103, the front side of the supporting leg 1 is connected with the third connecting block 101, the third connecting block 101 is connected with the first rack 102, the front end of the first rotating shaft 93 is connected with the one-way gear 103, and the one-way gear 103 is matched with the first rack 102.

Put the mud cake into shaping mould 95, the pull rod 98 is pulled rightwards by manpower, the second spring 99 compresses, the slide block 91 drives the first rotating shaft 93 and the second rotating shaft 94 rightwards along with it, the unidirectional gear 103 moves rightwards along with the first gear 97, the shaping mould 95 moves rightwards along with the spiral spring 96, the unidirectional gear 103 moves rightwards along with the first rack 102, the unidirectional gear 103 can not rotate, after the shaping mould 95 moves right below the shaping press block 7, the stop block on the guide rod 2 can not move rightwards continuously, so that the shaping mould 95 can be positioned, the slide bar 6 moves downwards along with the shaping press block 7, the first spring 8 compresses, so that the mud cake in the shaping mould 95 can be shaped, the slide bar 6 is loosened, the slide bar 6 moves upwards under the action of the first spring 8, the shaping press block 7 moves upwards along with it, the pull rod 98 is loosened, the slide block 91 moves leftwards along with the action of the second spring 99, the unidirectional gear 103 moves leftwards along with the first rack 102, the unidirectional gear 103 rotates to drive the first rotating shaft 93 to rotate, the spiral spring 96 compresses along with the spiral spring 96, the shaping press block 95 is well rotates along with the first rack 102, the shaping press block 95 is reset to the first rack 95 is not needed to rotate, so that the shaping mould 95 is needed to be meshed with the shaping mould 95, so that the shaping mould is more convenient to rotate.

Example 2

On the basis of embodiment 1, as shown in fig. 3, the pushing mechanism 11 is further included, the pushing mechanism 11 includes a first supporting block 111, a third rotating shaft 112, a second gear 113, a second gear 114, a third gear 115 and a fourth gear 116, the right sides of the top ends of the first connecting blocks 4 on the front side and the rear side are all connected with the first supporting block 111, the top ends of the first supporting blocks 111 on the front side and the rear side are all connected with the third rotating shaft 112 in a rotating manner, the third rotating shaft 112 is connected with the second gear 113, the slide bars 6 on the front side and the rear side are connected with the second gear 114, the second gear 114 is meshed with the second gear 113, the left end front side and the rear side of the pull rod 98 are all connected with the third gear 115, the third gear 115 is matched with the second gear 113, the front side of the top ends of the first connecting blocks 4 on the rear side is connected with the fourth gear 116, and the fourth gear 116 is matched with the first gear 97.

The third rack 115 moves rightwards to be meshed with the second gear 113, the first gear 97 is meshed with the fourth rack 116, the first gear 97 enables the forming die 95 not to rotate under the action of the fourth rack 116, so that the forming die 95 is prevented from being deviated, the forming press block 7 cannot be pressed into the forming die 95, the second gear 113 rotates along with the forming press block, the second rack 114 drives the sliding rod 6 to move downwards along with the second rack 113, the third rack 115 moves leftwards to be disengaged from the second gear 113, the first gear 97 is disengaged from the fourth rack 116, the second gear 113 rotates along with the second rack 114 moves upwards along with the second rack, manual downward movement of the sliding rod 6 is not needed, labor intensity of people is reduced, and work efficiency of people is improved.

Example 3

On the basis of embodiment 2, as shown in fig. 4-5, the device further comprises a scraping mechanism 12, the scraping mechanism 12 comprises a fourth connecting block 121 and a steel wire 122, the fourth connecting blocks 121 are connected to the third racks 115 on the front side and the rear side, the steel wire 122 is connected between the fourth connecting blocks 121 on the front side and the rear side, and the steel wire 122 is located on the left side of the top end of the forming die 95.

The third rack 115 moves rightwards to drive the fourth connecting block 121 to move rightwards, the steel wire 122 moves rightwards along with the third rack 115 moves leftwards to drive the fourth connecting block 121 to move leftwards along with the steel wire 122, so that the mud blocks on the forming die 95 can be scraped evenly, manual scraping of the mud blocks on the forming die 95 is not needed, and the operation is more convenient.

The blanking mechanism 13 comprises a second supporting block 131, a storage box 132, a discharging pipe 133, a fifth connecting block 134, a screw rod 135, a worm gear 136, a fourth rotating shaft 137, a worm 138, a motor 139, a first belt pulley 1310, a first flat belt 1311 and a fifth rack 1312, wherein the second supporting block 131 is connected to the front side and the rear side of the left part of the supporting leg 1, the storage box 132 is connected between the second supporting blocks 131 on the front side and the rear side, the discharging pipe 133 is connected to the bottom of the storage box 132, the fifth connecting block 134 is connected to the top end of the second supporting block 131 on the front side and the rear side, the screw rod 135 is rotatably connected to the rear end of the fifth connecting block 134, the lower end of the screw rod 135 is located in the discharging pipe 133, the top end of the screw rod 135 is connected with the worm gear 136, the top end left part of the fifth connecting block 134 is rotatably connected with the fourth rotating shaft 137, the worm 138 is meshed with the worm gear 136, the motor 1310 is mounted to the top end rear part of the second supporting block 131 on the rear side, the output end of the motor 139 is connected with the tail end of the fourth belt pulley 137, and the first belt pulley 1312 is meshed with the fifth rack 1312, and the fifth rack 1312 is meshed with the first side of the first rotating shaft 1312.

The first gear 97 makes the forming die 95 can not rotate under the effect of fifth rack 1312, starts motor 139, and motor 139 rotates and drives first belt pulley 1310 through the axostylus axostyle and rotate along with it, and first flat belt 1311 rotates along with it, and fourth pivot 137 drives worm 138 and rotates along with it, and worm wheel 136 drives hob 135 and rotates along with it, can carry out the unloading to forming die 95, and after the unloading is accomplished, closes motor 139, so does not need the manual work to put into forming die 95 with the clod, further reduced people's intensity of labour, improved people's work efficiency.

The conveying mechanism 14 comprises a fifth rotating shaft 141, a conveying belt 142, a second belt pulley 143 and a second flat belt 144, wherein the fifth rotating shaft 141 is connected to the left side and the right side of the supporting leg 1, the conveying belt 142 is connected between the fifth rotating shafts 141 on the left side and the right side, the second belt pulley 143 is connected to the front end of the fifth rotating shaft 141 on the left side and the front end of the fourth rotating shaft 137, and the second flat belt 144 is connected between the two second belt pulleys 143.

The fourth pivot 137 drives the rotation of second belt pulley 143, and second flat belt 144 rotates thereupon, and the rotation of fifth pivot 141 drives conveyer 142 and rotates thereupon, so can transport the container of shaping, more make things convenient for people to operate, still further improved people's work efficiency.

Claims (6)

1. The utility model provides a mould cup press forming equipment for container processing which characterized in that includes:

the support leg (1), the top end of the support leg (1) is connected with a guide rod (2);

the material supporting plate (3) is connected to the supporting leg (1);

the two first connecting blocks (4) are arranged, and the two first connecting blocks (4) are respectively connected to the two sides of the supporting leg (1);

the two support rods (5) are arranged, and the two support rods (5) are respectively connected to the first connecting blocks (4) at the two sides;

the two sliding rods (6) are arranged, and the two sliding rods (6) are respectively connected to the supporting rods (5) at the two sides in a sliding manner;

the molding pressing block (7) is connected to the bottoms of the sliding rods (6) at the two sides;

the first spring (8) is connected between the sliding rod (6) and the first connecting block (4), and the first spring (8) is sleeved on the supporting rod (5);

a forming mechanism (9) which is connected to the guide rod (2) in a sliding manner;

a rotation mechanism (10) connected to the leg (1);

the forming mechanism (9) comprises:

the two sliding blocks (91) are arranged, and the two sliding blocks (91) are respectively connected to the guide rods (2) on the two sides in a sliding manner;

two second connecting blocks (92), wherein the two second connecting blocks (92) are respectively connected to the sliding blocks (91) at the two sides;

a first rotating shaft (93) rotatably connected to the second connecting block (92) on one side;

a second rotating shaft (94) connected to a second connection block (92) on one side;

a molding die (95) connected to the first rotating shaft (93) and the second rotating shaft (94);

the two scroll springs (96) are arranged, and the two scroll springs (96) are respectively sleeved on the first rotating shaft (93) and the second rotating shaft (94);

a first gear (97) connected to the rear end of the second rotating shaft (94);

a pull rod (98) slidably connected to the sliders (91) on both sides;

the two second springs (99) are arranged, and the two second springs (99) are respectively sleeved on the pull rod (98);

the rotation mechanism (10) comprises:

a third connection block (101) connected to one side of the leg (1);

a first rack (102) connected to the third connection block (101);

and a unidirectional gear (103) connected to the first rotating shaft (93), wherein the unidirectional gear (103) is matched with the first rack (102).

2. The apparatus for cup press molding of a mold for processing a container according to claim 1, further comprising a pressing mechanism (11), wherein the pressing mechanism (11) comprises:

the first support blocks (111) are arranged, and the two first support blocks (111) are respectively connected to the first connecting blocks (4) at the two sides;

the two third rotating shafts (112) are arranged, and the two third rotating shafts (112) are respectively and rotatably connected to the first supporting blocks (111) at the two sides;

the second gears (113) are arranged, and the two second gears (113) are respectively connected to the third rotating shafts (112) at the two sides;

the two second racks (114) are arranged, the two second racks (114) are respectively connected to the sliding rods (6) at the two sides, and the second racks (114) are meshed with the second gears (113);

the third racks (115) are provided with two third racks (115) which are respectively connected with one end of the pull rods (98) at two sides, and the third racks (115) are matched with the second gear (113);

and a fourth rack (116) connected to the top end of the first connecting block (4) at one side, the fourth rack (116) being engaged with the first gear (97).

3. The die cup press forming device for processing containers according to claim 2, further comprising a scraping mechanism (12), wherein the scraping mechanism (12) comprises:

the four connecting blocks (121) are provided with two, and the two fourth connecting blocks (121) are respectively connected to the third racks (115) at the two sides;

and a steel wire (122) connected between the fourth connection blocks (121) on both sides, wherein the steel wire (122) is positioned on the top end side of the molding die (95).

4. A die cup press forming apparatus for processing containers according to claim 3, further comprising a blanking mechanism (13), wherein the blanking mechanism (13) comprises:

the two second supporting blocks (131) are arranged, and the two second supporting blocks (131) are respectively connected to the two sides of the supporting leg (1);

a storage box (132) connected between the second support blocks (131) on both sides;

the discharging pipe (133) is connected to the bottom of the storage box (132);

a fifth connection block (134) connected to the second support blocks (131) on both sides;

the three spiral rods (135) are arranged, the three spiral rods (135) are respectively connected to the top end of the fifth connecting block (134) in a rotating mode, and the lower end of each spiral rod (135) is located in the discharging pipe (133);

the worm gears (136) are provided with three worm gears (136), and the three worm gears (136) are respectively connected to the screw rods (135);

a fourth rotating shaft (137) rotatably connected to the fifth connecting block (134);

the three worms (138) are arranged, the three worms (138) are respectively connected to the fourth rotating shaft (137), and the worms (138) are meshed with the worm wheel (136);

a motor (139) mounted on the second support block (131) on one side;

the first belt pulleys (1310) are arranged, and the two first belt pulleys (1310) are respectively connected to the output end of the motor (139) and the tail end of the fourth rotating shaft (137);

a first flat belt (1311) connected between the two first pulleys (1310);

and a fifth rack (1312) connected to the second support block (131) on the other side, the fifth rack (1312) being engaged with the first gear (97).

5. The apparatus for forming a container by cup press molding with a die according to claim 4, further comprising a conveying mechanism (14), wherein the conveying mechanism (14) comprises:

the fifth rotating shafts (141) are provided with two, and the two fifth rotating shafts (141) are respectively connected with the two sides of the supporting leg (1) in a rotating way;

a conveyor belt (142) connected between the fifth rotating shafts (141) on both sides;

the second belt pulleys (143) are arranged, and the two second belt pulleys (143) are respectively connected with the front end of the fifth rotating shaft (141) at one side and the front end of the fourth rotating shaft (137);

a second flat belt (144) connected between the two second pulleys (143).

6. The die cup press molding apparatus for container processing according to claim 1, wherein the material of the molding press (7) is iron scale.