CN104044904A - Capsule production line equipment - Google Patents

Abstract

The invention discloses capsule production line equipment, which comprises a slab overturning mechanism, a circulating capsule drying device and a slab lifting mechanism, wherein the lifting mechanism drives the slab to overturn stably, the service lives of a gear and a rack are long, no compact or noise is generated during an overturning process, the lifting mechanism does not need to stop to wait for a slab to be pushed into a clamping groove, the slab enters the clamping groove automatically, the slab conveying time is saved, the continuity of a production line is better, and the processing efficiency of the capsule production line is improved; the defect that the slab can only be pushed in when a slab lifting device descends to the lowest position is overcome by the slab lifting mechanism, at least two slabs can be lifted at a time, and the work efficiency of the capsule production line is greatly improved; the occupied space of the circulating capsule drying device is smaller, the utilization rate is high, lead screws at each layer move synchronously, and slab pushing mechanisms at multiple layers can be driven by one motor, so that resources are saved, and the synchronism of each slab pushing mechanism is ensured.

Description

A kind of capsule manufacture pipelining equipment

Technical field

The present invention relates to capsule manufacture field, relate in particular to a kind of line processing equipment of processing capsule.

Background technology

Capsule production line is produced capsule and is comprised following operation: and oil-capsule of the capsule plug plug on offset plate dips in glue-the dip in offset plate upset-capsule after glue and is dried-and capsule plug on offset plate cleaning-offset plate after capsule comes unstuck-comes unstuck oils, circulation and so forth, its each link can have influence on the effect and quality of producing capsule.In prior art, produce the equipment of capsule, the device of the stations such as the offset plate cleaning after the capsule plug on its offset plate oils, capsule plug dips in glue, dip in the upset of offset plate after glue, capsule comes unstuck, comes unstuck has been tending towards maturing.The part but above-mentioned capsule production line also comes with some shortcomings, specific as follows:

(1) in above-mentioned production procedure, through the offset plate of drying process, be usually located at the bottom of capsule production line, pull out glue station and be positioned at the top of capsule production line, the effect of its offset plate switching mechanism is the rubber plate conveying on the transport tape of capsule production line bottom to capsule production line top;

Existing offset plate switching mechanism as application number be the Chinese utility model patent of " 201320596653.1 ", it discloses a kind of offset plate turning device, comprise at least two stay bearing plates and the offset plate overturning drive device of fixing offset plate, described each stay bearing plate be arranged in parallel, described stay bearing plate connects by turning cylinder, described offset plate overturning drive device is made up of gear and tooth bar, described gear is arranged on one end of described turning cylinder, described tooth bar vertically arranges, and the length of described tooth bar makes gear rotate 180 degree relative to tooth bar engagement.In said structure, offset plate turns over the length of action control of turnback by rack and pinion, and up the moving to while engagement with tooth bar of gear begins turning, and the length of tooth bar just in time can make gear walking 180 degree, and offset plate turns over turnback; In the descending process of gear, to wheel and rack separation, gear, not in upset, circulates and so forth.Its defect is, wheel and rack starts the moment of engagement, and the impact of gear mesh tooth bar is larger, not only can send larger noise, and all can cause damage to the tooth engaging on wheel and rack, makes the service life of wheel and rack relatively short; In the descending moment separating with tooth bar of gear, each stay bearing plate of gear and fixing sole can produce larger vibrations, and the stability of equipment is impacted;

(2) structural representation of above-mentioned offset plate switching mechanism as shown in Figure 2, comprises support 1, is arranged at the column 12, lifting mechanism 13 of support one 11 both sides and for driving overturn tooth bar 15, the gear 16 of 180 ° of lifting mechanism 13.The two ends of its lifting mechanism 13 respectively with column 12 sliding block joints, lifting mechanism 13 can move up and down along column 12.Lifting mechanism 13 is provided with the clamping mechanism for clamping offset plate 10.And application number is in the Chinese utility model patent of " 201320596653.1 ", its clamping mechanism comprises the clamping plate 131 of pair of opposing, and as shown in Figure 2, the inner side of its clamping plate 131 is provided with the chute 132 matching with offset plate 10, its chute 132 1 end openings, one end sealing.Its principle of work is as follows: lifting mechanism 13 comes downwards to the position of chute 132 when concordant with offset plate 10 on load-transfer device, offset plate 10 is pushed by the open end of chute 132, after offset plate 10 pushes chute 132 completely, lifting mechanism 13 is up and overturn 180 °, and offset plate 110 is transported to relevant position.The defect of said structure is, is pushed in the process of chute 32 at offset plate 10, and lifting mechanism 3 pauses, and this certainly will have influence on the rhythm that produces line on capsule, has increased the time of carrying offset plate, has reduced the work efficiency of capsule production line;

(3), in order to be delivered in capsule drying equipment through the offset plate 10 of upset dipping in after glue, because the entrance of capsule drying equipment is higher than dipping in glue offset plate station turning, therefore need a kind of offset plate lift system to carry offset plate 10.In prior art, the offset plate bont of offset plate lift system as shown in figure 11, comprises the crawl plate 231 being oppositely arranged, and it captures the relative inside bottom of plate 231 and is fixedly installed baffle plate 230.Its in the course of the work, first offset plate bont moves to lowest part, and the offset plate on turning device 10 is slid into and captured on the baffle plate 230 of plate 231, in the time that offset plate 10 is positioned on baffle plate 230 completely, offset plate bont is up.The weak point of this structure is inefficiency, in the time that offset plate bont does not come downwards to lowest part, offset plate 10 can only be waited for offset plate bont on offset plate turning device, so reduce the speed of capsule production line, once can only promote an offset plate 10, make the production efficiency of capsule production line low simultaneously;

(4) offset plate dipping in after glue is realized preliminary cooling and shaping through upset, is delivered in capsule drying equipment by capsule Man Sheng mechanism.Because the capsule-core rod that dips in glue need to pass through the cooling of long period, could finally form capsule shells.The time of its offset plate in drying equipment just needs corresponding longer, causes the drying equipment floor area of capsule production line in prior art larger, and degree of utilization is lower.

Summary of the invention

The technical problem to be solved in the present invention is to solve the defect that in prior art, offset plate switching mechanism impacts with noise is large, offset plate lift system efficiency is lower and drying equipment floor area is larger.

In order to solve the problems of the technologies described above, technical scheme provided by the invention is as follows: a kind of capsule manufacture pipelining equipment, comprise for dried offset plate being promoted to manufacturing line top by manufacturing line bottom and realizing the offset plate switching mechanism of 180 ° of offset plate upsets, circulating capsule drying equipment and for dipping in the offset plate lift system that is promoted to circulating capsule drying equipment after glue through the offset plate of upset, described offset plate switching mechanism comprises support one, be fixedly installed on the column one of support one both sides, with the lifting mechanism of described column one sliding block joint and for driving the wheel and rack of described lifting mechanism upset, described lifting mechanism is provided with at least 1 group offset plate clamping mechanism, described offset plate clamping mechanism comprises the clamping plate of pair of opposing, described tooth bar is vertically arranged on support one, described gear engages with described tooth bar all the time, the axis conllinear of the axis of the rotating shaft of described lifting mechanism and gear wheel shaft, and described rotating shaft and described gear wheel shaft can rotate around axis independently of each other, on described gear, be provided with projection, near be provided with on the clamping plate of described gear one side pole, with the push rod that described pole is pegged graft, between described push rod and described pole, be provided with spring, described projection and described push rod have magnetic, can mutually adsorb, described rotating shaft is provided with connecting rod away from one end of described gear, and the free end of described connecting rod is provided with roller, and described support one is provided with the montant slipping with described roller, and when described roller and described montant slip, described connecting rod is parallel with described montant.

Further, the inner side of described clamping plate is provided with the holding tank of clamping offset plate, described holding tank comprises upper supporting plate, lower carrier plate and block, described upper supporting plate and described clamping plate are fixedly installed, described lower carrier plate is flexibly connected with described clamping plate, described lower carrier plate can be moved laterally by the inner side of clamping plate, and described block is for sealing one end of described holding tank.

Further, described lower carrier plate comprises 2 back-up blocks that are arranged side by side, and described back-up block is provided with the upper surface and the inclined lower surface that form holding tank with the lower surface of described upper supporting plate, and described back-up block is flexibly connected by rotating shaft with the top of described clamping plate; Between described back-up block and described clamping plate, be provided with elastic construction; The lower end of described clamping plate is provided with the gap being moved laterally by inner side for holding described back-up block.

Further, described offset plate lift system, comprise support two, column two, offset plate bont, supporting construction and turning device, a pair of described column two is fixedly installed on support two, the two ends of described offset plate bont are slidably connected on described column two, can axially moving up and down along column two; Described offset plate bont is provided with at least one group of crawl plate being oppositely arranged, and between described one group of crawl plate, is provided with the crawl structure that can at least capture 2 blocks of offset plates; Described supporting construction is fixedly installed on the support two of described offset plate bont below; Described turning device and described supporting construction are arranged side by side, for overturn offset plate and by upset after offset plate be delivered to supporting construction.

Further, described crawl structure comprises the stay bearing plate hinged with described crawl plate, described crawl plate is provided with and connects the cavity that captures plate, described stay bearing plate is through described cavity, corresponding length is stretched out to the medial surface that captures plate in one end of its stay bearing plate, the other end is hinged by bearing pin and described crawl plate at the back side that captures plate, and the height of described cavity is enough to hold the stay bearing plate after bearing pin rotates up.

Further, described stay bearing plate is provided with inclined-plane towards the bottom of described crawl plate relative inner one end, between the bottom of described stay bearing plate and described crawl plate, is also provided with Compress Spring, has at least been arranged side by side 2 groups of stay bearing plates on described crawl plate.

Further, described circulating capsule drying equipment comprises the multilayer offset plate roller-way with described offset plate lift system adjacency, the two ends of described roller-way are provided with offset plate transshipment acitivity, described offset plate transshipment acitivity comprises the first transshipment acitivity of being located at described roller-way front end and the second transshipment acitivity of being located at described roller-way tail end, described the first transshipment acitivity is for being transported to the offset plate on odd-level roller-way the roller-way of lower one deck, and described the second transshipment acitivity is for being transported to the offset plate on even level roller-way the roller-way of lower one deck; Described roller-way comprises the channel-section steel being oppositely arranged, the relative inner of described channel-section steel is provided with the roller for supporting offset plate, the center of described roller is provided with the mandrel being fixedly connected with described channel-section steel, is also provided with the dividing plate for described offset plate and described channel-section steel are separated on described roller.

Further, described the first transshipment acitivity and the second transshipment acitivity are provided with multiple offset plate load carriers, described offset plate load carrier comprises that at least one pair of arranges loading plate in pairs, the described loading plate being oppositely arranged is provided with the raised line of inside turnover, and the two ends of described offset plate load carrier are slidably connected on column three; The below of described offset plate load carrier is also provided with corresponding rushing board mechanism, and described rushing board mechanism is provided with multiple push rods, and described rushing board mechanism can move relative to roller-way.

Further, be fixedly installed feed screw nut seat on described rushing board mechanism, the below of described rushing board mechanism is also provided with the leading screw matching with described feed screw nut seat; The both sides of described leading screw are also provided with guide pillar, and described rushing board mechanism is provided with the orienting sleeve matching with described guide pillar; Described leading screw is provided with belt pulley, and the leading screw of adjacent two rushing board mechanisms is connected by the belt matching with described belt pulley, and the leading screw of the described bottom is connected with drive motor.

Further, between described circulating capsule drying equipment and described offset plate switching mechanism, be also provided with chain and the sprocket wheel for the offset plate on described ring type capsule drying equipment being transferred to described lifting mechanism below.

A kind of capsule manufacture pipelining equipment of the present invention, the improvements of its relative prior art are:

(1) wheel and rack of its offset plate switching mechanism remains engagement, it overturns 180 ° by push rod, projection and roller control, overcome prior art middle gear and tooth bar circulation engagement completely and impacted, shake defect large and that noise is larger with separating, in the present embodiment, its lifting mechanism drives offset plate steadily to overturn, the service life of wheel and rack is longer, and in its switching process, nothing is impacted and noise;

(2) lower carrier plate of the holding tank of its offset plate switching mechanism can be moved laterally by the inner side of clamping plate, its lifting mechanism come downwards to holding tank concordant with offset plate before, offset plate transport sector offset plate can be transferred to offset plate clamping mechanism under, offset plate clamping mechanism is descending contact with offset plate after, because the position of offset plate is fixed, lower carrier plate moves to the outside of clamping plate under the opposition of offset plate, until after lower carrier plate comes downwards to offset plate bottom, return to original state, now, offset plate enters holding tank completely.The benefit of this structure is, lifting mechanism does not need to be deadlocked and waits for that offset plate is pushed in holding tank, but in descending process, offset plate enters holding tank automatically, save the time of carrying offset plate, make the continuity of capsule production line better, thereby improved the work efficiency of capsule production line;

(3) in its offset plate lift system, stay bearing plate is hinged with crawl plate, and stay bearing plate can upwards overturn by bearing pin.The benefit of this structure is, offset plate turning device can be before offset plate bont comes downwards to lowest part, just offset plate is delivered in the supporting construction under offset plate bont, now, in the descending process of offset plate bont, its stay bearing plate after contacting with offset plate on upset, until stay bearing plate comes downwards to the below of offset plate, under the rebound action power of Compress Spring, recover horizontality, thereby hold offset plate.Hold after first block of offset plate at stay bearing plate, offset plate turning device also can push second block of offset plate on offset plate bont.So, offset plate lift system of the present invention has solved offset plate turning device must wait for that offset plate bont comes downwards to lowest part and just can push the defect of offset plate, also can once promote at least 2 blocks of offset plates simultaneously, has greatly promoted the work efficiency of capsule production line;

(4) its circulating capsule drying equipment has multilayer offset plate roller-way, by the offset plate transshipment acitivity at roller-way two ends, the roller-way by the superiors is successively moved to undermost roller-way by its offset plate, in limited space, the capsule drying equipment that utilizes circulating multilayer roller-way structure, has reached dry requirement.Its equipment takes up room less, and degree of utilization is higher, simultaneously, its each layer of leading screw links together by belt and belt pulley, can drive the rushing board mechanism of multilayer to move by a motor, not only save the energy, and ensure the synchronism of knowing clearly between each rushing board mechanism.

Brief description of the drawings

Fig. 1 is the structural representation of a kind of capsule manufacture pipelining equipment of the present embodiment;

Fig. 2 is the structural representation of the present embodiment offset plate switching mechanism;

Fig. 3 is the structural representation of prior art offset plate switching mechanism middle clamp plate;

Fig. 4 is the structural representation of the lifting mechanism of this enforcement offset plate switching mechanism and gear, tooth bar junction;

Fig. 5 be in offset plate switching mechanism lifting mechanism near the structural representation of gear side;

Fig. 6 be in offset plate switching mechanism lifting mechanism away from the structural representation of gear side;

Fig. 7 is the structural representation of offset plate clamping mechanism in offset plate switching mechanism;

Fig. 8 is the front elevation of offset plate clamping mechanism in offset plate switching mechanism;

Fig. 9 is the structural representation of the present embodiment offset plate switching mechanism middle clamp plate;

Figure 10 is the structural representation that offset plate switching mechanism middle clamp plate back-up block moves laterally;

Figure 11 is the structural representation of offset plate bont in prior art offset plate lift system;

Figure 12 is the structural representation of the present embodiment offset plate lift system;

Figure 13 is the structural representation of offset plate bont in this enforcement offset plate lift system;

Figure 14 is the structural representation that in this enforcement offset plate lift system, offset plate bont captures structure;

Figure 15 is the structure schematic diagram that captures plate in offset plate lift system;

Figure 16 is the medial surface structural representation that captures plate in offset plate lift system;

Figure 17 is the structural representation of the circulating capsule drying equipment of the present embodiment;

Figure 18 is the structural representation of offset plate transshipment acitivity in the circulating capsule drying equipment of the present embodiment;

Figure 19 be in the circulating capsule drying equipment of the present embodiment in the structural representation of offset plate load carrier and rushing board mechanism;

Figure 20 is the structural representation of roller-way in the circulating capsule drying equipment of the present embodiment;

Figure 21 is the structural representation of roller shown in Figure 20;

Description of reference numerals: 1-offset plate switching mechanism, 10-offset plate, 11-support one, 111-montant, 12-column one, 13-lifting mechanism, 130-holding tank, 131-clamping plate, 132-chute, 133-rotating shaft, 134-lower carrier plate, 1341-inclined lower surface, 1342-upper surface, 1343-gap, 135-upper supporting plate, 136-block, 14-elastic construction, 15-tooth bar, 16-gear, 161-projection, 17-rotating shaft, 170-gear wheel shaft, 171-connecting rod, 172-roller, 18-pole, 181-push rod, 182-spring, 2-offset plate lift system, 21-support two, 22-column two, 23-offset plate bont, 231-captures plate, 232-stay bearing plate, 2321-inclined-plane, 233-bearing pin, 234-cavity, 235-Compress Spring, 24-supporting construction, 25-turning device, the circulating capsule drying equipment of 3-, 31-roller-way, 311-channel-section steel, 312-roller, 313-mandrel, 314-dividing plate, 33-the first transshipment acitivity, 331-the second transshipment acitivity, 34-offset plate load carrier, 341-loading plate, 3410-raised line, 35-column three, 36-rushing board mechanism, 361-push rod, 362-guide pillar, 363-orienting sleeve, 37-leading screw, 371-feed screw nut seat, 373-belt pulley.

Detailed description of the invention

Below in conjunction with accompanying drawing and detailed description of the invention, a kind of capsule manufacture pipelining equipment of the present embodiment is described in further detail.

A kind of capsule manufacture pipelining equipment of the present embodiment, as shown in Figure 1, comprise for dried offset plate being promoted to manufacturing line top by manufacturing line bottom and realizing the offset plate switching mechanism of 180 ° of offset plate upsets, circulating capsule drying equipment and for dipping in the offset plate lift system that is promoted to circulating capsule drying equipment after glue through the offset plate of upset.

Above-mentioned offset plate switching mechanism, as shown in Figure 2, comprise support 1, be fixedly installed on the column 1 of support 11 both sides, with the lifting mechanism 13 of column one 12 sliding block joints and gear 16 and tooth bar 15 for driving lifting mechanism 13 to overturn.Its lifting mechanism 13 is provided with two groups of offset plate clamping mechanisms, and its offset plate clamping mechanism comprises the clamping plate 131 of pair of opposing.The inner side of above-mentioned clamping plate 131 is provided with the holding tank 130 of clamping offset plate 10, its holding tank 130 as shown in Figure 9, Figure 10, comprise upper supporting plate 135, lower carrier plate 134 and block 136, its upper supporting plate 135 is fixedly installed with clamping plate 131, lower carrier plate 134 is flexibly connected with clamping plate 131, its lower carrier plate 134 can be moved laterally by the inner side of clamping plate 131, and block 156 is for sealing one end of holding tank 130.

As shown in Figure 9, Figure 10, above-mentioned lower carrier plate 134 comprises 2 back-up blocks that are arranged side by side, its back-up block is provided with the upper surface 1342 and the inclined lower surface 1341 that form holding tank 130 with the lower surface of upper supporting plate 135, and back-up block is flexibly connected by rotating shaft 133 with the top of clamping plate 131.Between its back-up block and described clamping plate 131, be provided with elastic construction 14, be preferably Compress Spring.The lower end of clamping plate 131 is provided with the gap 1343 being moved laterally by inner side for holding described back-up block.

After its lifting mechanism 13 comes downwards to and contacts with offset plate 10, due to the setting of inclined lower surface 1341, make it stressed more even.Under the opposition of offset plate 10, back-up block is to the outer sideway swivel of clamping plate 131, is positioned at behind offset plate 10 belows to back-up block upper surface 1342, and back-up block restores to the original state under the screen resilience effect of Compress Spring, thereby as shown in Figure 7, Figure 8, offset plate 10 is clamped in holding tank 130.The lifting mechanism of this structure does not need to be deadlocked and waits for that offset plate is pushed in holding tank, but in descending process, offset plate enters holding tank automatically, save the time of carrying offset plate, make the continuity of capsule production line better, thereby improved the work efficiency of capsule production line.

Above-mentioned lifting mechanism 13 is in up process, and demand motive offset plate 10 overturns 180 °.In the present embodiment, for driving the structure of gear 16, tooth bar 15 of its rotation as shown in Fig. 2, Fig. 4, Fig. 5, its gear 16, in the up and descending process of lifting mechanism 13, engages with tooth bar 15 all the time.And the axis of the rotating shaft 17 of its lifting mechanism 13 and the axis conllinear of gear wheel shaft 171, and rotating shaft 17 can be rotated around axis independently of each other with gear wheel shaft 171.

In the present embodiment, in said gear 16, be provided with projection 161, corresponding near on the clamping plate 131 of gear 16 1 sides, be provided with pole 18, with the push rod 181 that pole 18 is pegged graft, between its push rod 181 and pole 18, be provided with spring 182.Its projection 161 has magnetic with push rod 181, can mutually adsorb.

In the present embodiment, as shown in Figure 6, its rotating shaft 17 is provided with connecting rod 171 away from one end of described gear 16, the free end of its connecting rod 171 is provided with roller 172, on support 1, be also provided with the montant 111 slipping with roller 172, in the time that roller 172 and montant 111 slip, its connecting rod 171 is parallel with montant 111.

The process that said structure is realized upset is as follows: lifting mechanism 13 is in up process, its roller 172 slips with montant 111 below rotating shaft 17, after lifting mechanism 13 goes upward to push rod 181 and contacts with projection 161, projection 161 plays barrier effect, make the relative gear wheel shaft 171 of rotating shaft 17 static, be that lifting mechanism 13 is along with gear 16 begins turning with engaging of tooth bar 15, while moving to highest point to gear 16, lifting mechanism 13 just in time upwards overturns 180 °, now roller 172 is along with lifting mechanism 13 turn to the top of rotating shaft 17, and slips with montant 111.

When lifting mechanism 13 starts when descending, due to the adsorption between push rod 181 and projection 161, lifting mechanism 13 is along with gear 16 overturns downwards, and to overturning after 180 °, its roller 172 just in time turn to the below of rotating shaft 17 and slips with montant 111, now, lifting mechanism cannot continue upset, and push rod 181 departs from mutually with projection 161, and lifting mechanism 13 continues descending, until the rear continuation of clamping offset plate 10 is up, circulation and so forth.

The improvements of said structure and prior art are, gear 16 remains and engages with tooth bar 15,180 ° of its upsets are controlled by push rod 181, projection 161 and roller 172, have overcome prior art middle gear 16 and tooth bar 15 circulation engagements completely and have impacted, shake defect large and that noise is larger with separating.Lifting mechanism 13 in the present embodiment drives offset plate 10 steadily to overturn, and gear 16 is longer with the service life of tooth bar 15, and in its switching process, nothing is impacted and noise.

A kind of offset plate lift system of the present embodiment, as shown in figure 12, comprises support 2 21, column 2 22, offset plate bont 23, supporting construction 24 and turning device 25.Wherein a column 2 22 is fixedly installed on support 2 21, and the two ends of offset plate bont 23 are slidably connected on column 2 22, and can be along axially the moving up and down of column 2 22, for promoting offset plate 10.Its supporting construction 24 is fixedly installed on the support 2 21 of offset plate bont 23 belows, and offset plate switching mechanism 25 is arranged side by side with supporting construction 24, for overturning offset plate 10 offset plate 10 after upset is delivered to supporting construction 24.

As shown in figure 13, it is provided with two groups of crawl plates 231 that are oppositely arranged to the offset plate bont 23 of the present embodiment, and it captures the relative side of plate 231 is medial surface, and opposing one side is the back side.Wherein between every group of crawl plate 231, be provided with the crawl structure that can capture 2 blocks of offset plates 10.

Above-mentioned crawl structure, as shown in Figure 14, Figure 15, comprises the stay bearing plate 232 hinged with capturing plate 231, and it captures plate 231 and is provided with the cavity 234 that connects crawl plate 231.Its stay bearing plate 232 is through described cavity 234, and corresponding length is stretched out to the medial surface that captures plate 231 in one end of its stay bearing plate 232, and the other end is hinged by bearing pin 233 and described crawl plate 231 at the back side that captures plate 231.The height of its cavity 234 is enough to hold the stay bearing plate 232 after bearing pin 233 rotates up.

The process of the crawl offset plate of the present embodiment crawl structure as shown in figure 14, offset plate bont 23 is by descending directly over offset plate 10 in supporting construction 24, after contacting with offset plate 10 to stay bearing plate 232, stay bearing plate 232 is under the application force of offset plate 10, rotate up around bearing pin 233, until stay bearing plate 232 below in offset plate 10 completely, stay bearing plate 232 is under the effect of Compress Spring 235, homing, thus hold offset plate 10.The benefit of this mode is that turning device 25 does not need empty the descending of offset plate bont 23 that wait, and first offset plate 10 is pushed to supporting construction 24, directly holds offset plate 10 when descending by offset plate bont 23.Thereby greatly save the time, improved the work efficiency of capsule production line.

For stay bearing plate 232 is descending contact with offset plate 10 after, stressed more even, its stay bearing plate 232 is provided with inclined-plane 2321 towards capturing the bottom of plate 231 relative inner one end.In the bottom of stay bearing plate 232 and capture between plate 231 and be also provided with Compress Spring 235, while relatively coming downwards under offset plate 10 for stay bearing plate 232, recoil to initial condition.

In the present embodiment, capture on plate 231 and be arranged side by side 2 groups of stay bearing plates 232, stay bearing plate is held after first block of offset plate, and offset plate turning device also can push second block of offset plate on offset plate bont.Be that offset plate bont 23 once can promote 2 blocks of offset plates 10 to capsule drying equipment, greatly promoted production efficiency.

The circulating capsule drying equipment of the present embodiment as shown in figure 17, comprises and the multilayer offset plate roller-way 31 of described offset plate lift system 2 adjacency, and its offset plate lift system 2 will be for moving to through the offset plate of upset the roller-way 31 of drying equipment.

As shown in figure 20, it comprises the channel-section steel 311 being oppositely arranged to the structure of above-mentioned roller-way 31, is provided with the roller 312 for supporting offset plate 10 in the relative inner of its channel-section steel 311.As shown in figure 21, its roller 312 center is provided with the mandrel 313 being fixedly connected with above-mentioned channel-section steel 311, and it is also provided with the dividing plate 314 for offset plate 10 and channel-section steel 311 are separated.It should be noted that, its roller 312 is nylon or plastics with the material of dividing plate 314.The dividing plate 314 of its nylon or plastic material changes the rigidity friction between offset plate 10 and channel-section steel 311 into flexible friction, and offset plate 10 moves on the roller 312 of its nylon or plastic material, not only the friction drag of offset plate 10 on roller-way 31 is less, and noise is also smaller.

The two ends of above-mentioned roller-way 31 are provided with offset plate transshipment acitivity, for the offset plate on last layer roller-way 31 being transported to lower one deck roller-way 31.Above-mentioned offset plate transshipment acitivity comprises the first transshipment acitivity 33 and the second transshipment acitivity 331 of being located at roller-way 31 tail ends of being located at roller-way 31 front ends.The number of plies of its roller-way 31 is from top to bottom counted, wherein the first transshipment acitivity 33 is for being transported to the offset plate on odd-level roller-way 31 roller-way 31 of lower one deck, and its second transshipment acitivity 331 is for being transported to the offset plate on even level roller-way 31 roller-way 31 of lower one deck.This circulating capsule drying equipment with multilayer offset plate roller-way, by the offset plate transshipment acitivity at roller-way two ends, the roller-way by the superiors is successively moved to undermost roller-way by its offset plate, in limited space, the capsule drying equipment that utilizes circulating multilayer roller-way structure, has reached dry requirement.

As shown in figure 18, its first transshipment acitivity 33 and the second transshipment acitivity 331 are provided with multiple offset plate load carriers 34, and its offset plate load carrier 34 as shown in figure 11, comprises that at least one pair of arranges loading plate in pairs, be provided with the raised line of inside turnover on the loading plate base being oppositely arranged, for carrying offset plate.

As shown in figure 19, the two ends of above-mentioned offset plate load carrier 34 are slidably connected on column 3 35.And below offset plate load carrier 34, be also provided with corresponding rushing board mechanism 36, and its rushing board mechanism 36 is provided with multiple push rods 361, and its rushing board mechanism 36 can move relative to roller-way 31.In the present embodiment, the lead screw transmission that moves through of its rushing board mechanism 36 relative roller-ways 31 realizes.On its rushing board mechanism 36, be fixedly installed feed screw nut seat 371, below is also provided with the leading screw 37 matching with feed screw nut seat 371.Increase a propulsive effort to leading screw 37, along with the rotation of leading screw 37, can realize rushing board mechanism 36 relative to the moving of roller-way 31, and the offset plate on offset plate load carrier 34 is pushed on roller-way 31.

In order to make the movement of rushing board mechanism 36 on leading screw 37 more steady, be also provided with guide pillar 362 in the both sides of its leading screw 37, its rushing board mechanism 36 is provided with the orienting sleeve 363 matching with guide pillar 362.

In the present embodiment, be provided with belt pulley 373 on leading screw 37, the leading screw 37 of neighbouring two rushing board mechanisms 36 is connected by the belt matching with belt pulley 373, and the leading screw 37 of the described bottom is connected with drive motor.So, can drive multiple rushing board mechanisms 36 to move by a drive motor, when economizing on resources, also ensure the synchronism of each rushing board mechanism 36.

In the present embodiment, between its circulating capsule drying equipment 3 and offset plate switching mechanism 1, be also provided with for the offset plate 10 on ring type capsule drying equipment 3 being transferred to the chain 4 and sprocket wheel 5 below lifting mechanism 13.Its chain 4 hands over the speed of transmission of roller-way 31 fast with the speed of transmission of sprocket wheel 5, although only 1 block of offset plate is transferred to lifting mechanism 13 belows each, it is suitable that its transmission efficiency and offset plate lift system 2 transfer to 2 blocks of offset plates 10 efficiency of successively transmitting on ring type capsule drying equipment 3 and by roller-way 31 simultaneously.

In a word, the foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments of doing within the spirit and principles in the present invention, be equal to and replace and improvement etc., within all should being included in protection scope of the present invention.

Claims (10)

1. a capsule manufacture pipelining equipment, comprise for dried offset plate being promoted to manufacturing line top by manufacturing line bottom and realizing the offset plate switching mechanism of 180 ° of offset plate upsets, circulating capsule drying equipment and for dipping in the offset plate lift system that is promoted to circulating capsule drying equipment after glue through the offset plate of upset, it is characterized in that: described offset plate switching mechanism comprises support one, be fixedly installed on the column one of support one both sides, with the lifting mechanism of described column one sliding block joint and for driving the wheel and rack of described lifting mechanism upset, described lifting mechanism is provided with at least 1 group offset plate clamping mechanism, described offset plate clamping mechanism comprises the clamping plate of pair of opposing, described tooth bar is vertically arranged on support one, described gear engages with described tooth bar all the time,

The axis conllinear of the axis of the rotating shaft of described lifting mechanism and gear wheel shaft, and described rotating shaft and described gear wheel shaft can rotate around axis independently of each other;

On described gear, be provided with projection;

Near be provided with on the clamping plate of described gear one side pole, with the push rod that described pole is pegged graft, between described push rod and described pole, be provided with spring;

Described projection and described push rod have magnetic, can mutually adsorb;

Described rotating shaft is provided with connecting rod away from one end of described gear, and the free end of described connecting rod is provided with roller, and described support one is provided with the montant slipping with described roller, and when described roller and described montant slip, described connecting rod is parallel with described montant.

2. according to capsule manufacture pipelining equipment claimed in claim 1, it is characterized in that: the inner side of described clamping plate is provided with the holding tank of clamping offset plate, described holding tank comprises upper supporting plate, lower carrier plate and block, described upper supporting plate and described clamping plate are fixedly installed, described lower carrier plate is flexibly connected with described clamping plate, described lower carrier plate can be moved laterally by the inner side of clamping plate, and described block is for sealing one end of described holding tank.

3. according to capsule manufacture pipelining equipment claimed in claim 2, it is characterized in that: described lower carrier plate comprises 2 back-up blocks that are arranged side by side, described back-up block is provided with the upper surface and the inclined lower surface that form holding tank with the lower surface of described upper supporting plate, and described back-up block is flexibly connected by rotating shaft with the top of described clamping plate;

Between described back-up block and described clamping plate, be provided with elastic construction;

The lower end of described clamping plate is provided with the gap being moved laterally by inner side for holding described back-up block.

4. according to the capsule manufacture pipelining equipment described in claim 1-3 any one, it is characterized in that: described offset plate lift system, comprise support two, column two, offset plate bont, supporting construction and turning device, a pair of described column two is fixedly installed on support two, the two ends of described offset plate bont are slidably connected on described column two, can axially moving up and down along column two;

Described offset plate bont is provided with at least one group of crawl plate being oppositely arranged, and between described one group of crawl plate, is provided with the crawl structure that can at least capture 2 blocks of offset plates;

Described supporting construction is fixedly installed on the support two of described offset plate bont below; Described turning device and described supporting construction are arranged side by side, for overturn offset plate and by upset after offset plate be delivered to supporting construction.

5. according to capsule manufacture pipelining equipment claimed in claim 4, it is characterized in that: described crawl structure comprises the stay bearing plate hinged with described crawl plate, described crawl plate is provided with and connects the cavity that captures plate, described stay bearing plate is through described cavity, corresponding length is stretched out to the medial surface that captures plate in one end of its stay bearing plate, the other end is hinged by bearing pin and described crawl plate at the back side that captures plate, and the height of described cavity is enough to hold the stay bearing plate after bearing pin rotates up.

6. according to capsule manufacture pipelining equipment claimed in claim 5, it is characterized in that: described stay bearing plate is provided with inclined-plane towards the bottom of described crawl plate relative inner one end, between the bottom of described stay bearing plate and described crawl plate, be also provided with Compress Spring, on described crawl plate, be at least arranged side by side 2 groups of stay bearing plates.

7. according to the capsule manufacture pipelining equipment described in claim 1 or 2 or 3 or 5 or 6, it is characterized in that: described circulating capsule drying equipment comprises the multilayer offset plate roller-way with described offset plate lift system adjacency, the two ends of described roller-way are provided with offset plate transshipment acitivity, described offset plate transshipment acitivity comprises the first transshipment acitivity of being located at described roller-way front end and the second transshipment acitivity of being located at described roller-way tail end, described the first transshipment acitivity is for being transported to the offset plate on odd-level roller-way the roller-way of lower one deck, described the second transshipment acitivity is for being transported to the offset plate on even level roller-way the roller-way of lower one deck, described roller-way comprises the channel-section steel being oppositely arranged, the relative inner of described channel-section steel is provided with the roller for supporting offset plate, the center of described roller is provided with the mandrel being fixedly connected with described channel-section steel, is also provided with the dividing plate for described offset plate and described channel-section steel are separated on described roller.

8. according to capsule manufacture pipelining equipment claimed in claim 7, it is characterized in that: described the first transshipment acitivity and the second transshipment acitivity are provided with multiple offset plate load carriers, described offset plate load carrier comprises that at least one pair of arranges loading plate in pairs, the described loading plate being oppositely arranged is provided with the raised line of inside turnover, and the two ends of described offset plate load carrier are slidably connected on column three;

The below of described offset plate load carrier is also provided with corresponding rushing board mechanism, and described rushing board mechanism is provided with multiple push rods, and described rushing board mechanism can move relative to roller-way.

9. according to capsule manufacture pipelining equipment claimed in claim 8, it is characterized in that: on described rushing board mechanism, be fixedly installed feed screw nut seat, the below of described rushing board mechanism is also provided with the leading screw matching with described feed screw nut seat;

The both sides of described leading screw are also provided with guide pillar, and described rushing board mechanism is provided with the orienting sleeve matching with described guide pillar;

Described leading screw is provided with belt pulley, and the leading screw of adjacent two rushing board mechanisms is connected by the belt matching with described belt pulley, and the leading screw of the described bottom is connected with drive motor.

10. according to the capsule manufacture pipelining equipment described in claim 5 or 6 or 8 or 9, it is characterized in that: between described circulating capsule drying equipment and described offset plate switching mechanism, be also provided with chain and sprocket wheel for the offset plate on described ring type capsule drying equipment being transferred to described lifting mechanism below.