CN202752490U - Production system of tank body - Google Patents

Abstract

The utility model discloses a production system of a tank body. The production system of the tank body comprises a conveying belt, a first sheet-punching machine, a word-punching machine, a cylinder forming machine, a second sheet-punching machine, a turnover device and a tank body bottom cover assembling machine. The conveying belt comprises a panel conveying belt and a bottom cover conveying belt. The first sheet-punching machine, the word-punching machine and the cylinder forming machine are sequentially arranged on the panel conveying belt, the turnover device is arranged at the tail end of the panel conveying belt and above the tank body bottom cover assembling machine, the turnover device enables a horizontal state of a cylinder to turn to a vertical state, and then the cylinder is conveyed to the tank body bottom cover assembling machine. The second sheet-punching machine is arranged at the front end of the bottom cover conveying belt and punches out of a bottom cover, the bottom cover conveying belt and the panel conveying belt are arranged in parallel, and the tail end of the bottom cover conveying belt is connected with the tank body bottom cover assembling machine. The tank body bottom cover assembling machine punches the bottom cover and the cylinder to form the tank body. The production system of the tank body has the advantages of simplifying a forming procedure, being high in automation degree, and improving working efficiency.

Description

The tank body production system

Technical field

The utility model relates to a kind of tank body production equipment, relates in particular to a kind of simplification forming step, and automaticity is high, the tank body production system of enhancing productivity.

Background technology

Along with growth in the living standard, people also improve constantly the quality requirements of consumer goods.Preserve demanding food for some, for convenient the preservation needs to use metal can to encapsulate, because metal can has advantages of anti-collision, sealing property is strong, outward appearance is graceful, firmly get the consumer and like, therefore, on the market metal can product miscellaneous appears just now.

Metal can mainly is comprised of cylindrical shell, bottom and top cover, and bottom is placed in the bottom of cylindrical shell and is fixedly connected to form tank body with cylindrical shell, and top cover is the top that can be connected in tank body with opening or closing, thereby forms the inner space for food storage.In the prior art, for making the metal cylinder of definite shape, conventional way is sheet metal to be cut into a certain shape bend or cans again, then with the two edges of sheet metal by being welded, again bottom is welded in the bottom of metal cylinder at last and forms tank body; Yet the process steps that traditional method is made tank body with sheet metal is more, and technique is comparatively complicated, and manual intervention is large, and production efficiency is lower, can not satisfy the demand in production and market.

Based on above-mentioned deficiency, therefore, need a kind of simplification forming step, automaticity is high, the tank body production system of enhancing productivity.

The utility model content

The purpose of this utility model is to provide a kind of simplification forming step, and automaticity is high, the tank body production system of enhancing productivity.

To achieve these goals, the tank body production system that the utility model provides is applicable to the sheet metal (not shown) is processed to form cylindrical shell, and make described cylindrical shell and bottom be combined into tank body, comprise conveyer belt, the first sheet-punching machine, rush word machine, cylinder shaper, the second sheet-punching machine, turning device and tank body bottom assembly machine; Described conveyer belt comprises sheet material conveyer belt and bottom conveyer belt, described the first sheet-punching machine, rushing word machine and cylinder shaper is set in turn on the described sheet material conveyer belt, described turning device is arranged at the end of described sheet material conveyer belt, and be in the top of described tank body bottom assembly machine, described turning device outputs to described cylindrical shell on the described tank body bottom assembly machine after level is turned into vertical state, described the second sheet-punching machine is arranged at the front end of described bottom conveyer belt and stamps out bottom, described bottom conveyer belt is set up in parallel with described sheet material conveyer belt and end is connected with described tank body bottom assembly machine, and described tank body bottom assembly machine forms described tank body with described bottom and cylindrical shell punching press.

Preferably, described the first sheet-punching machine comprises punching frame, pay-off, blanking units and drawing mechanism, described pay-off be installed on the described punching frame and output in the below of described blanking units, the output of described drawing mechanism is connected with the input of described sheet material conveyer belt, described pay-off is pushed to described sheet metal under the described blanking units, described blanking units is die-cut into the sheet material monomer to described sheet metal, and described drawing mechanism is pushed to described sheet material monomer on the described sheet material conveyer belt.

Particularly, described pay-off comprises the first workbench, the first storage device, the first device for suction material, the first material-pulling device and the second material-pulling device, described the first material-pulling device is arranged at a side of described the first workbench, described the first storage device is between described the first workbench and described the first material-pulling device, described the first device for suction material is positioned at described the first storage device below, described the second material-pulling device is positioned on described the first workbench, described the first device for suction material is drawn described sheet metal and move down from described the first storage device, described the first material-pulling device pushes laterally into described sheet metal on described the first workbench, and described the second material-pulling device vertically is pushed to described sheet metal the below of described blanking units.

Preferably, the described word machine that rushes comprises and rushes word machine frame, stamping die device, the second storage device, the second device for suction material and the 3rd material-pulling device, described the second storage device is arranged at the starting end of described the 3rd material-pulling device, described the second device for suction material is arranged at the below of described the 3rd material-pulling device starting end, described device for suction material is drawn to described sheet material monomer downwards on described the 3rd material-pulling device, and described the 3rd material-pulling device is pushed to described sheet material monomer steppingly and rushes word on the described stamping die device and push out last sheet material monomer simultaneously.

Particularly, described the 3rd material-pulling device comprises the second workbench, drives cylinder and cradle, described driving cylinder is fixed in and rushes on the word machine frame, the output of described driving cylinder is connected with described cradle, described cradle is arranged on described the second workbench slidably, and which is provided with a plurality of up and down unidirectional top-pushing mechanisms of elastic telescopic that have.Because described cradle is arranged on described the second workbench slidably, and be provided with described unidirectional top-pushing mechanism at described cradle, elastic telescopic effect on the described unidirectional top-pushing mechanism promote the place ahead to described sheet material monomer, then shrink back downwards when running into the sheet material monomer at rear, thereby when the driving cylinder is flexible back and forth, realize the step-by-step movement of described sheet material monomer is moved.

Preferably; described cylinder shaper comprises frame; the 3rd storage device; conveying mechanism; curling mechanism; blank body; shaping mechanism and mould emptier; described the 3rd storage device is arranged at the starting end of described conveying mechanism; described conveying mechanism promotes steppingly described sheet material monomer and moves; described curling mechanism is installed on a side of described conveying mechanism; side to described sheet material monomer carries out downward bending forming; described blank body is installed on the opposite side of described conveying mechanism; another side to described sheet material monomer carries out punch forming; described shaping mechanism vertically is arranged at the end of described conveying mechanism; and carry out punch forming to transferring out described sheet material monomer; form cylindrical shell; described mould emptier is connected in the end of described conveying mechanism, promotes simultaneously the mould that cylindrical shell breaks away from described shaping mechanism when described conveying mechanism action.By described curling mechanism is set; blank body and shaping mechanism; and in the process that described conveying mechanism is carried described sheet material monomer steppingly; sheet material monomer to continuous conveying carries out crimping simultaneously; flanging and moulding; owing to carrying out crimping before the moulding; flanging; only need directly extruding simultaneously the side edge of two sheet material monomers to be got final product during moulding; weld on the both sides that need not to carry out joining; effectively simplified forming step; and utilize described conveying mechanism to move around and drive simultaneously described mould emptier; make described mould emptier carry out the demoulding to the described cylindrical shell of moulding; whole cylinder shaper structure is very compact; and each above-mentioned mechanism drives simultaneously by described driving mechanism; each step all carries out synchronously, so automaticity is very high, has greatly improved production efficiency.

Particularly, described shaping mechanism comprises the punch identical with the cross section of described cylindrical shell, a pair of die, a pair of pushing mechanism, top die assembly and dip mold assembly, described punch is fixed on the described frame, described die is distributed in the both sides of described punch and articulates with described frame, described pushing mechanism is connected with described die respectively, described top die assembly be in described punch the top and can be with the pressure holding of described sheet material monomer on described punch, two described pushing mechanisms promote two described dies simultaneously, make two described dies coat described punch, thereby push described sheet material monomer and form described cylindrical shell, described dip mold assembly is in the below of described punch and the both sides that described sheet material monomer is connected of can rising compress.By utilizing described pushing mechanism, drive described pushing mechanism, make described die coat described punch, thereby make described sheet material monomer form described cylindrical shell, only need a step to realize, greatly simplified forming step.

Preferably, sheet material conveyer belt between described cylinder shaper and the described tank body bottom assembly machine is provided with the cylindrical shell steering assembly, described cylindrical shell steering assembly comprises baffle plate and block, described baffle plate is arranged near on the sheet material conveyor belt surface of described cylinder shaper output, form narrow cylindrical shell vertical passage with a side of described sheet material conveyer belt, described block is fixed in a side of described sheet material conveyer belt, described block is pointed in the outlet of described vertical passage, and described cylindrical shell is vertically by rotating into transverse state behind the described vertical passage with after the described block conflict.By described baffle plate is set, one side of described baffle plate and described sheet material conveyer belt forms vertical passage, described cylindrical shell can be exported along described vertical passage after the demoulding, and in the vertical passage outlet described block is set, described block can stop that a side of described cylindrical shell moves on, and under the drive of described sheet material conveyer belt, the opposite side of described cylindrical shell moves on, therefore, forcing whole cylindrical shell by vertical transformation transverse state, is that the upset of cylindrical shell is prepared.

Preferably, described turning device comprises mounting bracket, linear actuator, impeller, flip piece and push-down machine structure, described linear actuator is fixed on the described mounting bracket, and output is connected with described impeller, described impeller and described flip piece are slidingly connected, described flip piece is articulated on the described mounting bracket, described mounting bracket have with described push-down machine structure over against host cavity.Utilize described linear actuator, promote described impeller, and by described impeller and described flip piece are slidingly connected, overturn thereby drive described flip piece, realize described cylindrical shell is become vertical laying state by the horizontal positioned state-transition.

Preferably, described tank body bottom assembly machine comprises turntable, some clamp mechanism, mounted mechanism and punching mechanism on the bottom, described turntable is rotating setting, described clamp mechanism is arranged on the described turntable in the circumferential direction of the circle, and described cylindrical shell clamped, mounted mechanism is positioned at the top of described clamp mechanism on the described bottom, and described turntable rotate steppingly order about on each described clamp mechanism and the described bottom mounted mechanism over against, mounted mechanism can be installed in bottom on the cylindrical shell at described clamp mechanism place on the described bottom, described punching mechanism is positioned at the top of described clamp mechanism over against described clamp mechanism, and described punching mechanism can stamp out described bottom and cylindrical shell the tank body of integrative-structure in the lump.

Compared with prior art, because the utility model is at the first sheet-punching machine, rush word machine, between cylinder shaper and the tank body bottom assembly machine described sheet material conveyer belt is set, between described the second sheet-punching machine and described tank body bottom assembly machine, described bottom conveyer belt is set, utilize described sheet material conveyer belt, with described the first sheet-punching machine, rushing described sheet material monomer that word machine stamps out is transported to described cylinder shaper and carries out moulding, the described bottom that utilizes described bottom conveyer belt that described the second sheet-punching machine is stamped out is transported on the tank body bottom assembly machine, by to described sheet metal punching, rushing the punching moulding of word and cylindrical shell moulding and described bottom carries out simultaneously, and input simultaneously on the described tank body bottom assembly machine and process tank body, thereby make whole tank body production system simplify forming step, enhance productivity; And, by utilizing described turning device, described cylindrical shell after being turned into vertical state, level is outputed on the described tank body bottom assembly machine, thereby realize being connected described cylinder shaper and described tank body bottom assembly machine, whole production system fully automatic operation, need not manual intervention, automaticity is high.

Description of drawings

Fig. 1 is the structural representation of the utility model tank body production system.

Fig. 2 is the structural representation of the first sheet-punching machine in the utility model tank body production system.

Fig. 3 is the structural representation of the pay-off of the first sheet-punching machine in the utility model tank body production system.

Fig. 4 is the structural representation that rushes word machine in the utility model tank body production system.

Fig. 5 is the structural representation that rushes the 3rd material-pulling device of word machine in the utility model tank body production system.

Fig. 6 is the structural representation that rushes the cradle of word machine in the utility model tank body production system.

Fig. 7 is the structural representation of the utility model tank body production system middle cylinder body forming machine.

Fig. 8 is the structural representation of the shaping mechanism of the utility model tank body production system middle cylinder body forming machine.

Fig. 9 is the schematic diagram of A part among Fig. 1.

Figure 10 is the structural representation of turning device in the utility model tank body production system.

Figure 11 is the structural representation of tank body bottom assembly machine in the utility model tank body production system.

The specific embodiment

As shown in Figure 1 and Figure 2, the utility model tank body production system 100 is applicable to the sheet metal (not shown) is processed to form cylindrical shell 200, and make described cylindrical shell 200 and bottom be combined into tank body, comprise conveyer belt 1, the first sheet-punching machine 2, rush word machine 3, cylinder shaper 4, the second sheet-punching machine 5, turning device 6 and tank body bottom assembly machine 7; Described conveyer belt 1 comprises sheet material conveyer belt 11 and bottom conveyer belt (not shown), described the first sheet-punching machine 2, rushing word machine 3 and cylinder shaper 4 is set in turn on the described sheet material conveyer belt 11, described turning device 6 is arranged at the end of described sheet material conveyer belt 11, and be in the top of described tank body bottom assembly machine 7, described turning device 6 outputs to described cylindrical shell on the described tank body bottom assembly machine 7 after level is turned into vertical state, described the second sheet-punching machine 5 is arranged at the front end of described bottom conveyer belt and stamps out bottom, described bottom conveyer belt is set up in parallel with described sheet material conveyer belt 11 and end is connected with described tank body bottom assembly machine 7, and described tank body bottom assembly machine 7 forms described tank body with described bottom and cylindrical shell 200 punching presses.

As shown in Figures 2 and 3, described the first sheet-punching machine 2 comprises punching frame 21, pay-off 22, blanking units 23 and drawing mechanism 24, described pay-off 22 be installed on the described punching frame 21 and output in the below of described blanking units 23, the output of described drawing mechanism 24 is connected with the input of described sheet material conveyer belt 11, described pay-off 22 is pushed to described blanking units 23 times with described sheet metal, 23 pairs of described sheet metals of described blanking units are die-cut into the sheet material monomer, and described drawing mechanism 24 is pushed to described sheet material monomer on the described sheet material conveyer belt 11.Described pay-off 22 comprises the first workbench 221, the first storage device 222, the first device for suction material (not shown), the first material-pulling device 224 and the second material-pulling device 225, described the first material-pulling device 224 is arranged at a side of described the first workbench 221, described the first storage device 222 is between described the first workbench 221 and described the first material-pulling device 224, described the first device for suction material is positioned at described the first storage device 222 belows, described the second material-pulling device 224 is positioned on described the first workbench 221, described the first device for suction material is drawn described sheet metal from described the first storage device 222, described the first material-pulling device 224 pushes laterally into described sheet metal on described the first workbench 221, and described the second material-pulling device 225 vertically is pushed to described sheet metal the below of described blanking units 23.

Such as Fig. 4, Fig. 5 and shown in Figure 6, the described word machine 3 that rushes comprises and rushes word machine frame 31, stamping die device 32, the second storage device 33, the second device for suction material 34 and the 3rd material-pulling device 35, described the second storage device 33 is arranged at the starting end of described the 3rd material-pulling device 35, described the second device for suction material 33 is arranged at the below of described the 3rd material-pulling device 35 starting ends, described the second device for suction material 34 is drawn to described sheet material monomer downwards on described the 3rd material-pulling device 35, and described the 3rd material-pulling device 35 is pushed to described sheet material monomer steppingly and rushes word on the described stamping die device 32 and push out last sheet material monomer simultaneously.Described the 3rd material-pulling device 35 comprises the second workbench 351, drives cylinder 352 and cradle 353, described driving cylinder 352 is fixed in and rushes on the word machine frame 31, the output of described driving cylinder 352 is connected with described cradle 353, described cradle 353 is arranged on described the second workbench 351 slidably, and which is provided with a plurality of up and down unidirectional top-pushing mechanisms 354 of elastic telescopic that have.Because described cradle 353 is arranged on described the second workbench 351 slidably, and be provided with described unidirectional top-pushing mechanism 354 at described cradle 353, elastic telescopic effect on the described unidirectional top-pushing mechanism 354 promotes the described sheet material monomer in the place ahead, then shrink back downwards when running into the sheet material monomer at rear, thereby when driving cylinder 352 is flexible back and forth, realize the step-by-step movement of described sheet material monomer is moved.

See also Fig. 7; described cylinder shaper 4 comprises frame 41; the 3rd storage device 42; conveying mechanism 43; curling mechanism 44; blank body 45; shaping mechanism 46 and mould emptier 47; described the 3rd storage device 42 is arranged at the starting end of described conveying mechanism 43; described conveying mechanism 43 promotes steppingly described sheet material monomer and moves; described curling mechanism 44 is installed on a side of described conveying mechanism 43; side to described sheet material monomer carries out downward bending forming; described blank body 45 is installed on the opposite side of described conveying mechanism 43; another side to described sheet material monomer carries out punch forming; described shaping mechanism 46 vertically is arranged at the end of described conveying mechanism 43; and carry out punch forming to transferring out described sheet material monomer; form cylindrical shell 200; described mould emptier 47 is connected in the end of described conveying mechanism 43, promotes simultaneously the mould that cylindrical shell breaks away from described shaping mechanism 46 when described conveying mechanism 43 action.By described curling mechanism 44 is set; blank body 45 and shaping mechanism 46; and in the process that described conveying mechanism 43 is carried described sheet material monomer steppingly; sheet material monomer to continuous conveying carries out crimping simultaneously; flanging and moulding; owing to carrying out crimping before the moulding; flanging; only need directly extruding simultaneously the side edge of two sheet material monomers to be got final product during moulding; weld on the both sides that need not to carry out joining; effectively simplified forming step; and utilize described conveying mechanism 43 to move around and drive simultaneously described mould emptier 47; make the described cylindrical shell of 47 pairs of moulding of described mould emptier carry out the demoulding; whole cylinder shaper 4 structures are very compact; and each above-mentioned mechanism all drives simultaneously; each step all carries out synchronously, so automaticity is very high, has greatly improved production efficiency.

Please consult again Fig. 8, particularly, described shaping mechanism 46 comprises the punch 461 identical with the cross section of described cylindrical shell 200, a pair of die 462, a pair of pushing mechanism 463, top die assembly 464 and dip mold assembly 465, described punch 461 is fixed on the described frame 41, described die 462 is distributed in the both sides of described punch 461 and articulates with described frame 41, described pushing mechanism 463 is connected with described die 462 respectively, described top die assembly 464 be in described punch 461 the top and can be with the pressure holding of described sheet material monomer on described punch 461, two described pushing mechanisms 463 promote two described dies 462 simultaneously, make two described dies 462 coat described punch 461, thereby push described sheet material monomer and form described cylindrical shell 200, described dip mold assembly 465 is in the below of described punch 461 and the both sides that described sheet material monomer is connected of can rising compress.By utilizing described pushing mechanism 463, drive described pushing mechanism 463, make described die 462 coat described punch 461, thereby make described sheet material monomer form described cylindrical shell 200, only need a step to realize, greatly simplified forming step.

As shown in Figure 9, sheet material conveyer belt 11 between described cylinder shaper 4 and the described tank body bottom assembly machine 7 is provided with cylindrical shell steering assembly 8, described cylindrical shell steering assembly 8 comprises baffle plate 81 and block 82, described baffle plate 81 is arranged near on sheet material conveyer belt 11 surfaces of described cylinder shaper 4 outputs, form narrow cylindrical shell vertical passage 8a with a side of described sheet material conveyer belt 11, described block 82 is fixed in a side of described sheet material conveyer belt 11, described block 82 is pointed in the outlet of described vertical passage 8a, and described cylindrical shell 200 is vertically by rotating into horizontal placement behind the described vertical passage 8a with after described block 82 conflicts.By described baffle plate 81 is set, described baffle plate 81 forms vertical passage 8a with a side of described sheet material conveyer belt 11, described cylindrical shell 200 can be exported along described vertical passage 8a after the demoulding, and in vertical passage 8a outlet described block 82 is set, described block 82 can stop that a side of described cylindrical shell moves on, and under the drive of described sheet material conveyer belt 11, the opposite side of described cylindrical shell 200 moves on, therefore, forcing whole cylindrical shell 200 by vertical transformation transverse state, is that the upset of cylindrical shell 200 is prepared.

As shown in figure 10, described turning device 6 comprises mounting bracket 61, linear actuator 62, impeller 63, flip piece 64 and push-down machine structure 65, described linear actuator 62 is fixed on the described mounting bracket 61, and output is connected with described impeller 63, described impeller 63 is slidingly connected with described flip piece 64, described flip piece 64 is articulated on the described mounting bracket 61, described mounting bracket 61 have with described push-down machine structure 65 over against host cavity 66.Utilize described linear actuator 62, promote described impeller 63, and by described impeller 63 is slidingly connected with described flip piece 64, overturn thereby drive described flip piece 64, realize described cylindrical shell 200 is become vertical laying state by the horizontal positioned state-transition.

See also Figure 11, described tank body bottom assembly machine 7 comprises turntable 71, some clamp mechanism 72, mounted mechanism 73 and punching mechanism 74 on the bottom, described turntable 71 is rotating setting, described clamp mechanism 72 is arranged on the described turntable 71 in the circumferential direction of the circle, and described cylindrical shell clamped, mounted mechanism 73 is positioned at the top of described clamp mechanism 72 on the described bottom, and described turntable 71 rotate steppingly order about on each described clamp mechanism 72 and the described bottom carrier aircraft 73 structures over against, mounted mechanism 73 can be installed in bottom on the cylindrical shell 200 at described clamp mechanism 72 places on the described bottom, described punching mechanism 74 is positioned at the top of described clamp mechanism 72 over against described clamp mechanism 72, and described punching mechanism 74 can stamp out described bottom and cylindrical shell 200 tank body of integrative-structure in the lump.

Comprehensive above-mentioned and by reference to the accompanying drawings, the below is described in detail the working principle of the utility model tank body production system 100, and is as follows:

During work, described sheet metal is positioned on described the first storage device 222, described the first device for suction material is drawn to described sheet metal on described the first material-pulling device 224 from described the first storage device 222 downwards, described the first material-pulling device 224 laterally promotes described sheet metal, described sheet metal is moved laterally on described the first workbench 221, described the second material-pulling device 224 clamps described sheet metal on described the first workbench 221, then promotes described sheet metal vertically mobile steppingly; Simultaneously, 23 pairs of described sheet metals of described blanking units carry out die-cut, described sheet metal is punched out a plurality of described sheet material monomers, described drawing mechanism 24 is pushed to described sheet material monomer on the described sheet material conveyer belt 11, and described sheet material conveyer belt 11 is transported to described sheet material monomer on described the second storage device 33 that rushes word machine 3.Described the second device for suction material 34 is drawn the sheet material monomer on described the second storage device 33 downwards and is placed on described the 3rd material-pulling device 35, described the 3rd material-pulling device 35 is pushed to described sheet material monomer on the described stamping die device 32, the punching press of 32 pairs of described sheet material monomers of described stamping die device, thus go out letter in described sheet material monomer upper punch; Described the 3rd material-pulling device 35 constantly is pushed to described sheet material monomer described stamping die device 32 upper punch words and will finishes simultaneously the sheet material monomer that rushes word and be pushed on the described sheet material conveyer belt 11, described sheet material conveyer belt 11 is transported to described sheet material monomer in the 3rd storage device 42 of described cylinder shaper 4, described conveying mechanism 43 is pushed to described curling mechanism 44 sides with the sheet material monomer on described the 3rd storage device 42 with advancing formula, and 44 pairs of institutes of described curling mechanism sheet material monomer carries out crimping; Described conveying mechanism 43 continues the sheet material monomer behind the crimping is transported to flanging on the described blank body 45, simultaneously another sheet material monomer is delivered to crimping on the described curling mechanism 45; After flanging is finished; described conveying mechanism 43 carries out propelling movement action next time again; sheet material monomer after flanging finished is pushed on the described shaping mechanism 46; at this moment; described sheet material monomer is in the top of described punch 461; the described sheet material monomer of described top die assembly 464 pressure holdings; simultaneously; described pushing mechanism 463 promotes a pair of die 462; make described die 462 coat described punch 461; afterwards, described dip mold assembly 465 moves up, and pushes the two edges that described sheet material monomer joins; thereby make described sheet material monomer be squeezed into cylindrical shell 200; when described conveying mechanism 43 is done to push action again, promote described mould emptier 47 actions, make described cylindrical shell 200 break away from described punch 461.Described cylindrical shell falls within for 200 times on the described vertical passage 8a, and move forward with described sheet material conveyer belt 11, after passing through described vertical passage 8a, described block 82 stops a side of described cylindrical shell 200, running along with described sheet material conveyer belt 11, the opposite side of described cylindrical shell 200 continues to reach, thereby makes described cylindrical shell 200 become transverse shifting from vertical transfer.After described sheet material conveyer belt 11 is transported to described cylindrical shell described Po and turns on the part 64, described linear actuator 62 actions, promote described impeller 63, described impeller 63 promotes the upwards upset of described flip piece 64, make described cylindrical shell 200 change into vertical state by level, at this moment, described lower pushing mechanism 65 promotes described cylindrical shell 200 on the described clamp mechanism 72 of described tank body bottom assembly machine 7 downwards.In the process of described cylindrical shell 200 moulding, described the second sheet-punching machine 5 carries out punching to another sheet metal simultaneously, and then form described bottom, described bottom conveyer belt is transported to described bottom cylindrical shell 200 upper ends that are held on the described clamp mechanism 72, at this moment, described turntable 71 rotates, make next cylindrical shell of clamp mechanism 72 clampings, after the clamping some, 74 pairs of described cylindrical shell 200 and described bottoms in the bottom of described punching mechanism carry out punching press, and then make it strike out one, form tank body.At last, described tank body is sent the production of namely finishing a tank body, by the circulation running, thereby come the disconnected described tank body that processes.

Compared with prior art, because the utility model is at the first sheet-punching machine 2, rush word machine 3, between cylinder shaper 4 and the tank body bottom assembly machine 7 described sheet material conveyer belt 11 is set, between described the second sheet-punching machine 5 and described tank body bottom assembly machine 7, described bottom conveyer belt is set, utilize described sheet material conveyer belt 11, with described the first sheet-punching machine 2, rushing described sheet material monomer that word machine 3 stamps out is transported to described cylinder shaper 4 and carries out moulding, the described bottom that utilizes described bottom conveyer belt that described the second sheet-punching machine 5 is stamped out is transported on the tank body bottom assembly machine 7, by to described sheet metal punching, rushing the punching moulding of word and cylindrical shell moulding and described bottom carries out simultaneously, and input simultaneously on the described tank body bottom assembly machine 7 and process tank body, thereby make whole tank body production system 100 simplify forming step, enhance productivity; And, by utilizing described turning device 6, described cylindrical shell 200 after being turned into vertical state, level is outputed on the described tank body bottom assembly machine 7, thereby realize being connected described cylinder shaper 4 and described tank body bottom assembly machine 7, whole production system fully automatic operation, need not manual intervention, automaticity is high.

Above disclosed only is preferred embodiments of the present utility model, certainly can not limit with this interest field of the utility model, and the equivalent variations of therefore doing according to the utility model claim still belongs to the scope that the utility model is contained.

Claims (10)

1. tank body production system, be applicable to sheet metal is processed to form cylindrical shell, and make described cylindrical shell and bottom be combined into tank body, and it is characterized in that, comprising: conveyer belt, the first sheet-punching machine, rush word machine, cylinder shaper, the second sheet-punching machine, turning device and tank body bottom assembly machine; Described conveyer belt comprises sheet material conveyer belt and bottom conveyer belt, described the first sheet-punching machine, rushing word machine and cylinder shaper is set in turn on the described sheet material conveyer belt, described turning device is arranged at the end of described sheet material conveyer belt, and be in the top of described tank body bottom assembly machine, described turning device outputs to described cylindrical shell on the described tank body bottom assembly machine after level is turned into vertical state, described the second sheet-punching machine is arranged at the front end of described bottom conveyer belt and stamps out bottom, described bottom conveyer belt is set up in parallel with described sheet material conveyer belt and end is connected with described tank body bottom assembly machine, and described tank body bottom assembly machine forms described tank body with described bottom and cylindrical shell punching press.

2. tank body production system as claimed in claim 1, it is characterized in that: described the first sheet-punching machine comprises the punching frame, pay-off, blanking units and drawing mechanism, described pay-off be installed on the described punching frame and output in the below of described blanking units, the output of described drawing mechanism is connected with the input of described sheet material conveyer belt, described pay-off is pushed to described sheet metal under the described blanking units, described blanking units is die-cut into the sheet material monomer to described sheet metal, and described drawing mechanism is pushed to described sheet material monomer on the described sheet material conveyer belt.

3. tank body production system as claimed in claim 2, it is characterized in that: described pay-off comprises the first workbench, the first storage device, the first device for suction material, the first material-pulling device and the second material-pulling device, described the first material-pulling device is arranged at a side of described the first workbench, described the first storage device is between described the first workbench and described the first material-pulling device, described the first device for suction material is positioned at described the first storage device below, described the second material-pulling device is positioned on described the first workbench, described the first device for suction material is drawn described sheet metal and move down from described the first storage device, described the first material-pulling device pushes laterally into described sheet metal on described the first workbench, and described the second material-pulling device vertically is pushed to described sheet metal the below of described blanking units.

4. tank body production system as claimed in claim 1, it is characterized in that: the described word machine that rushes comprises and rushes the word machine frame, stamping die device, the second storage device, the second device for suction material and the 3rd material-pulling device, described the second storage device is arranged at the starting end of described the 3rd material-pulling device, described the second device for suction material is arranged at the below of described the 3rd material-pulling device starting end, described device for suction material is drawn to described sheet material monomer downwards on described the 3rd material-pulling device, and described the 3rd material-pulling device is pushed to described sheet material monomer steppingly and rushes word on the described stamping die device and push out last sheet material monomer simultaneously.

5. tank body production system as claimed in claim 4, it is characterized in that: described the 3rd material-pulling device comprises the second workbench, drives cylinder and cradle, described driving cylinder is fixed in and rushes on the word machine frame, the output of described driving cylinder is connected with described cradle, described cradle is arranged on described the second workbench slidably, and which is provided with a plurality of up and down unidirectional top-pushing mechanisms of elastic telescopic that have.

6. tank body production system as claimed in claim 1; it is characterized in that: described cylinder shaper comprises frame; the 3rd storage device; conveying mechanism; curling mechanism; blank body; shaping mechanism and mould emptier; described the 3rd storage device is arranged at the starting end of described conveying mechanism; described conveying mechanism promotes steppingly described sheet material monomer and moves; described curling mechanism is installed on a side of described conveying mechanism; side to described sheet material monomer carries out downward bending forming; described blank body is installed on the opposite side of described conveying mechanism; another side to described sheet material monomer carries out punch forming; described shaping mechanism vertically is arranged at the end of described conveying mechanism; and carry out punch forming to transferring out described sheet material monomer; form cylindrical shell; described mould emptier is connected in the end of described conveying mechanism, promotes simultaneously the mould that cylindrical shell breaks away from described shaping mechanism when described conveying mechanism action.

7. tank body production system as claimed in claim 6, it is characterized in that: described shaping mechanism comprises the punch identical with the cross section of described cylindrical shell, a pair of die, a pair of pushing mechanism, top die assembly and dip mold assembly, described punch is fixed on the described frame, described die is distributed in the both sides of described punch and articulates with described frame, described pushing mechanism is connected with described die respectively, described top die assembly be in described punch the top and can be with the pressure holding of described sheet material monomer on described punch, two described pushing mechanisms promote two described dies simultaneously, make two described dies coat described punch, thereby push described sheet material monomer and form described cylindrical shell, described dip mold assembly is in the below of described punch and the both sides that described sheet material monomer is connected of can rising compress.

8. tank body production system as claimed in claim 1, it is characterized in that: the sheet material conveyer belt between described cylinder shaper and the described tank body bottom assembly machine is provided with the cylindrical shell steering assembly, described cylindrical shell steering assembly comprises baffle plate and block, described baffle plate is arranged near on the sheet material conveyor belt surface of described cylinder shaper output, form the cylindrical shell vertical passage with a side of described sheet material conveyer belt, described block is fixed in a side of described sheet material conveyer belt, described block is pointed in the outlet of described vertical passage, and described cylindrical shell is vertically by rotating into transverse state behind the described vertical passage with after the described block conflict.

9. tank body production system as claimed in claim 1, it is characterized in that: described turning device comprises mounting bracket, linear actuator, impeller, flip piece and push-down machine structure, described linear actuator is fixed on the described mounting bracket, and output is connected with described impeller, described impeller and described flip piece are slidingly connected, described flip piece is articulated on the described mounting bracket, described mounting bracket have with described push-down machine structure over against host cavity.

10. tank body production system as claimed in claim 1, it is characterized in that: described tank body bottom assembly machine comprises turntable, some clamp mechanism, mounted mechanism and punching mechanism on the bottom, described turntable is rotating setting, described clamp mechanism is arranged on the described turntable in the circumferential direction of the circle, and described cylindrical shell clamped, mounted mechanism is positioned at the top of described clamp mechanism on the described bottom, and described turntable rotate steppingly order about on each described clamp mechanism and the described bottom mounted mechanism over against, mounted mechanism can be installed in bottom on the cylindrical shell at described clamp mechanism place on the described bottom, described punching mechanism is positioned at the top of described clamp mechanism over against described clamp mechanism, and described punching mechanism can stamp out described bottom and cylindrical shell the tank body of integrative-structure in the lump.

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