CN204751273U - Die carrier jacking sprocket conveyer - Google Patents

Abstract

The utility model discloses a die carrier jacking sprocket conveyer sets up in the hollow capsule of preparation destatics the reacting chamber, destatic the reacting chamber including destaticing cylinder brush, die carrier and supporting beam, die carrier jacking sprocket conveyer install in destatic on the supporting beam of the die carrier below of reacting chamber. The utility model has the advantages of: the utility model provides a die carrier jacking sprocket conveyer, die carrier bottom installed can with die carrier synchronous transmission's jacking supporting member, has solved to execute because of the template and heavily lead to the die carrier to sink to cause the inhomogeneous problem that destatics, die carrier jacking sprocket conveyer with die carrier synchronous transmission in -process, born the pressure of template, make the template on die carrier and the die carrier keep the level through destaticing the cylinder brush, reach the purpose that evenly destatics, effectual operating efficiency and the product quality who has improved the device.

Description

A kind of mould bases jacking sprocket wheel conveyer

Technical field

The utility model relates to a kind of bio-pharmaceuticals equipment technical field, is specifically related to a kind of mould bases jacking sprocket wheel conveyer.

Background technology

Existing hollow capsule production line device generally comprises glue dipping machine, circulating template is transported track, dry cooling room, destaticed the apparatuss such as catalyst chamber, stripper apparatus and little molding bar, described circulating template transport track according to template dip in glue → drying cool → destatic → technological process of the demoulding by glue dipping machine, dry cooling room, destatic catalyst chamber and stripper apparatus is connected successively, form automatic circulating system, wherein, the operation destaticing catalyst chamber be by cool drying after large molding plate be placed on mould bases, with the transmission of mould bases successively by destaticing rotary broom above track, to remove the electrostatic on Capsules surface on die head, but destatic in process at Capsules, because the weight of template own is larger, after template is pressed on mould bases, weight of being exerted pressure mould bases causes middle sinking, cause in the middle of the template on mould bases low, both sides are high, after long-play, the high position on template both sides is when by destaticing rotary broom, damage can be brought to the bristle on rotary broom, bristle is opened to both sides, gap is produced in the middle of bristle, time is longer, gap is larger, template is when the gap place by rotary broom, just be equal to nothing and destatic, thus cause Capsules top bubble to produce, form waste material,

Utility model content

The utility model is for the above-mentioned technical matters existed in existing installation, propose a kind of mould bases jacking sprocket wheel conveyer, this device not only overcomes the problems referred to above, and structure is simple, reliable and stable, effectively raise the operating efficiency of device, save manpower and materials cost.

The utility model solves the problems of the technologies described above by the following technical solutions: a kind of mould bases jacking sprocket wheel conveyer, be arranged at prepare Capsules destatic in catalyst chamber, the described catalyst chamber that destatics comprises and destatics rotary broom, mould bases and supporting traverse, described destaticing in catalyst chamber is provided with mould bases jacking sprocket wheel conveyer, on the supporting traverse below the mould bases destaticing catalyst chamber described in described mould bases jacking sprocket wheel conveyer is installed on;

Described mould bases jacking sprocket wheel conveyer comprises shell, some sprocket wheels, chain, described shell is spliced by before and after two pieces of identical trapezoidal metal sheets, the center of described shell offers through fixed orifice, described supporting traverse passes the through fixed orifice of described housing center and is fixedly connected with described shell, and described shell two ends and top offer some through mounting holes along median vertical line symmetry, described sprocket wheel comprises transmission gear, ball bearing of main shaft and transmission shaft, described ball bearing of main shaft is fixedly mounted on the center of described transmission gear, the middle part of described transmission shaft is fixedly mounted in described ball bearing of main shaft, the two ends of described transmission shaft are each passed through the through mounting hole of described shell edge, be fixed on described shell front and rear panel, described some sprocket wheels are made to be separately fixed at the edge of described shell, described chain occlusion is arranged on the transmission gear of described some sprocket wheels, along the formation loop, edge of described shell, the chain of described shell upper end contacts with bottom described mould bases, and form load-bearing.

Optimize, described transmission shaft two ends are outside thread port, and described transmission shaft two ends are fixed on described shell front and rear panel by nut.

Optimize, the quantity that described sprocket wheel is installed is 4-6, and wherein, the sprocket wheel being installed on shell upper end is at least 2.

Optimize, bottom described sprocket wheel and described mould bases, spacing on track between adjacent mould bases can be greater than by contact width.

The utility model has the advantage of:

The mould bases jacking sprocket wheel conveyer that the utility model proposes, install bottom mould bases can with the jacking load-carrying element of mould bases synchrodrive, solve because of template execute heavily cause mould bases sink, thus cause and destatic uneven problem, described mould bases jacking sprocket wheel conveyer is with mould bases synchrodrive process, assume responsibility for the pressure of template, the template on mould bases and mould bases being kept horizontally through destaticing rotary broom, reaching the object evenly destaticed;

It is simple, reliable and stable that this Capsules destatics reaction chamber structure, effectively raises operating efficiency and the product design of device.

Accompanying drawing explanation

Fig. 1 is the integral structure schematic diagram of the utility model embodiment hollow core capsule preparation facilities;

Fig. 2 is the utility model embodiment medium and small molding bar and large molding board combining structure schematic diagram;

Fig. 3 is the little molding tool blend stop apparatus structure schematic diagram in the utility model embodiment;

Fig. 4 is the anti-lost strip device lateral plan of template in the utility model embodiment;

Fig. 5 is the anti-lost strip device front elevation of template in the utility model embodiment;

Fig. 6 is the structural representation of secured adjusted device in the anti-lost strip device of template in the utility model embodiment;

Fig. 7 is inner structure schematic diagram of the present utility model;

Fig. 8 is the chain wheel mounting structure schematic diagram in the utility model;

Fig. 9 is the chain sprocket structure schematic diagram in the utility model;

Figure 10 is the mould bar guiding anti-collision machine device front elevation in the utility model embodiment;

Figure 11 is the mould bar guiding anti-collision machine device section-drawing in the utility model embodiment;

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in detail.

As shown in Figure 1-2, a kind of Capsules preparation facilities, comprise glue dipping machine 1, circulating template is transported track 2, dry cooling room 3, destaticed catalyst chamber 4, stripper apparatus 5, little molding bar 6, described circulating template transport track 2 by described glue dipping machine 1, dry cooling room 3, destatic catalyst chamber 4 and stripper apparatus 5 is connected successively, form circulating system, the die head 62 that described little molding bar 6 comprises base 61 and is vertically fixed on base, described some little molding bars 6 are assembled into large molding plate 7 by the splicing between base 61.Described glue dipping machine 1 comprises each 2 blocks of large molding plates 7 in every side, little molding tool blend stop device 8, the anti-lost strip device 9 of template, described little molding tool blend stop device arranges 8 on glue dipping machine 1 fuselage of described large molding plate 7 rear and front end, and the anti-lost strip device of described template 9 is arranged on bottom described large molding plate 7; Described destaticing in catalyst chamber 4 is provided with mould bases jacking sprocket wheel conveyer 10, on the supporting traverse 42 below the mould bases 41 destaticing catalyst chamber 4 described in described mould bases jacking sprocket wheel conveyer 10 is installed on; The circulating template of described stripper apparatus 5 is transported track entrance and is provided with mould bar guiding anti-collision machine device 11.

As shown in Figure 3, described little molding tool blend stop device 8 comprises elasticity blend stop 81 and elasticity assists pressing plate 82, the center of described elasticity blend stop 81 is fixed on glue dipping machine 1 fuselage at described large molding plate 7 two ends, its the right and left covers on the two ends of described large molding plate 7, and it is parallel with described large molding plate 7 upper surface, described elasticity assists pressing plate 82 to comprise mounting blocks 821 and the spring bearer plate 822 of two groups of cuboids, described mounting blocks 821 is fixed on the fuselage of the glue dipping machine 1 directly over described elasticity blend stop 81 along the central horizontal symmetry of described elasticity blend stop 81, described spring bearer plate 822 is bending-type component, its horizontal segment is fixed on bottom described mounting blocks 821, its bending section props up the upper surface of described elasticity blend stop 81 downwards, the end of described elasticity blend stop 81 is made to be close to the upper surface of described large molding plate 7.

Be spliced in the process of a large molding tool 7 at some little molding tools 6, above-mentioned little molding tool blend stop device 8, clamping restriction is carried out by the two ends of elasticity blend stop 81 to little molding bar 6, prevent little molding bar 6 from occurring taking bar and the phenomenon of falling bar in splicing, in addition, elasticity assists the setting of pressing plate 82, elasticity blend stop 81 is made to remain clamping action to little molding bar 6, solve the yielding problem of blend stop fatiguability, the clamping limiting force of little molding bar is improved greatly, has stopped little molding bar 6 and take bar and the phenomenon of falling bar in splicing;

As Figure 4-Figure 6, the anti-lost strip device 9 of described template comprises two groups of cross bars 91, pulley bracket 92, secured adjusted device 93 and stainless steel wire 94, described cross bar 91, pulley bracket 92, secured adjusted device 93 are symmetrically distributed in the both sides of described glue dipping machine 1, described cross bar 91 is set in parallel in the front lower place of described large molding plate 7, and its two ends are fixed on the fuselage of described glue dipping machine 1, described pulley bracket 92 comprises base 921 and is arranged on the pulley 922 of hub surface band groove on base top, described base 921 bottom is fixed on described cross bar 91, described pulley 922 is just right with described large molding plate 7, and pulley center is positioned at the below of described large molding plate 7, described secured adjusted device 93 comprises fixed block 931, slide block 932 and T-shaped bolt 933, described fixed block 931 is fixed on the fuselage of the glue dipping machine 1 above described pulley bracket 92, described fixed block 931 surface offers through spill chute downwards, described fixed block 931 top is provided with through internal thread hole downwards, described slide block 932 is installed in the spill chute of described fixed block 931, the top of described slide block 932 offers internal thread hole, described slide block 932 surface is provided with clamp nut, described bolt 933 is connected with described fixed block 931 and slide block 932 by the internal thread hole on fixed block 931 top and the internal thread hole on described slide block 932 top successively, by turn bolt 933, can adjusting slider 932 relative to the position of fixed block 931, and then regulate the tightness of stainless steel wire 94, described stainless steel wire 94 one end is fixed on described slide block 932 by the clamp nut on described slide block 932 surface, again successively through the pulley 922 of the pulley 922 on the pulley bracket 92 of homonymy, the greatly bottom of molding plate 7 and the pulley bracket 92 of opposite side, then its other end is fixed on the slide block 932 of opposite side in the same fashion, described two groups of stainless steel wires 94 and accordingly pulley bracket 92, secured adjusted device 93 arrange along the Central Symmetry of described cross bar 91.

Dip in glue process at large molding plate 7, after sticking machine breaks down shutdown, mould bar easily drops in glue groove, not only pollute, and later stage glue groove cleans and glue debugging expends comparatively large, cost is very high, the setting of the anti-lost strip device 9 of template, the anti-lost bar net be made up of stainless steel wire 94 is added bottom large molding plate 7, when mould bar dip in accidentally drop in glue process time, by directly falling on stainless steel wire 94, glue groove can not be fallen into, solve the problems referred to above;

As Figure 7-9, described mould bases jacking sprocket wheel conveyer 10 comprises shell 101,4 sprocket wheels 102, chains 103, described shell 101 is spliced by before and after two pieces of identical trapezoidal metal sheets, the center of described shell 101 offers through fixed orifice, described supporting traverse 42 passes the through fixed orifice at described shell 101 center and is fixedly connected with described shell 101, and described shell 101 two ends and knuckle place, top offer 4 through mounting holes along median vertical line symmetry, described sprocket wheel 102 comprises transmission gear 104, ball bearing of main shaft 105 and transmission shaft 106, described ball bearing of main shaft 105 is fixedly mounted on the center of described transmission gear 104, the middle part of described transmission shaft 104 is fixedly mounted in described ball bearing of main shaft 105, described transmission shaft 104 two ends are outside thread port, the two ends at described transmission shaft two ends 104 are each passed through the through mounting hole on described shell 101, be fixed between described shell front and rear panel by nut 107, in this way described 4 sprocket wheels are separately fixed at the edge of described shell 101, described chain 103 occlusion is arranged on the transmission gear 104 of described 4 sprocket wheels 102, along the formation loop, edge of described shell 101, the chain 103 of described shell 101 upper end contacts with bottom described mould bases 41, and form load-bearing, spacing on track between adjacent mould bases can be greater than by contact width bottom described sprocket wheel 102 and described mould bases 41.

Destatic in process at Capsules, described some large molding plates 7 are placed on mould bases 41, with the transmission of mould bases 41 successively by destaticing rotary broom 43 above track, because the weight of large molding plate 7 own is larger, after large molding plate 7 is pressed on mould bases 41, weight of being exerted pressure mould bases 41 causes middle sinking, cause in the middle of the large molding plate 7 on mould bases 41 low, both sides are high, after long-play, the high position on large molding plate 7 both sides is when by destaticing rotary broom 43, damage can be brought to the bristle on rotary broom 43, bristle is opened to both sides, gap is produced in the middle of bristle, time is longer, gap is larger, large molding plate 7 is when the gap place by rotary broom 43, just be equal to nothing and destatic, thus cause Capsules top bubble to produce,

The mould bases jacking sprocket wheel conveyer 10 designed for above-mentioned technical matters, to install in the bottom of mould bases 41 can with the jacking load-carrying element of mould bases 41 synchrodrive, described mould bases jacking sprocket wheel conveyer 10 is with mould bases 41 synchrodrive process, assume responsibility for the pressure of large molding plate 7, the large molding plate 7 on mould bases 41 and mould bases 41 is made to keep, horizontally through destaticing rotary broom 43, reaching the object evenly destaticed;

As shown in figs. 10-11, described mould bar guiding anti-collision machine device 11 comprises orienting lug 111 and lower orienting lug 112, described upper orienting lug 111 is concave shape component, the circulating template being fixedly mounted on described stripper apparatus 5 is transported directly over track entry 51, its concave surface is downward, and concave surface bottom surface is concordant with entrance 51 upper end, described lower orienting lug 112 is convex shape component, the circulating template being fixedly mounted on described stripper apparatus 5 is transported in track entry 51, and transport track 2 with described circulating template and dock, described lower orienting lug 112 convex surface upwards, and convex surface bottom surface is concordant with entrance 51 lower end, the guide groove 113 that cross-sectional plane is undercut shape is formed between described upper orienting lug 111 and lower orienting lug 112, the width of described guide groove 113 both sides is 1.2 times of base 61 thickness of described little molding bar 6, the length that described upper orienting lug 111 both sides exceed entrance 51 upper end is 1/3 of the width of described little molding bar 6 base 61.

Little molding bar 6 is after the transmission that circulating template transports track 2, as the direction of arrow in figure, little molding bar 6 enters the entrance 51 of described stripper apparatus 5 under promotion pawling, and continue inwardly to advance, after little molding bar 6 tail end enters entrance 51, pawl and get back to original position, promote the little molding bar 6 of next root again and enter entrance 51, and the front end of next root little molding bar props up the tail end of last little molding bar, promote the inside that last little molding bar enters stripper apparatus 5, run successively, original stripper apparatus entrance is not provided with guide piece, when after little molding bar enter the orientation slightly deviation of guide rail, front and back mould bar will be caused to collide, make track stuck, have a strong impact on Occupation coefficient and the service life of equipment and mould bar.

Mould bar guiding anti-collision machine device in the utility model, the upper orienting lug 111 of concave shape structure and the lower orienting lug 112 of convex shape structure have been installed in stripper apparatus entrance, the guide groove 113 that both are formed, locator qualification has been carried out to the propelling of little molding bar, after last little molding bar enters stripper apparatus 5 by guide groove 113, its tail end rests in guide groove, after a rear mould bar front end enters guide groove 113, directly dock with the tail end of last mould bar in limited space, and under the effect of pawling, this last mould bar is pushed stripper apparatus inside forward, thus hitting partially or stuck phenomenon of effectively prevent that rear mold bar causes because of bending or angle problem.

In sum, Capsules preparation facilities of the present utility model, by the improvement to existing installation, not only overcome above-mentioned technical matters, and structure is simple, reliable and stable, effectively raises the operating efficiency of device, saved manpower and materials cost.

The foregoing is only the preferred embodiment that the utility model is created; do not create in order to limit the utility model; the any amendment done within all spirit of creating at the utility model and principle, equivalent to replace and improvement etc., all should be included within protection domain that the utility model creates.

Claims (4)

1. a mould bases jacking sprocket wheel conveyer, be arranged at prepare Capsules destatic in catalyst chamber, the described catalyst chamber that destatics comprises and destatics rotary broom, mould bases and supporting traverse, it is characterized in that, on the supporting traverse below the mould bases destaticing catalyst chamber described in described mould bases jacking sprocket wheel conveyer is installed on;

Described mould bases jacking sprocket wheel conveyer comprises shell, some sprocket wheels, chain, described shell is spliced by before and after two pieces of identical trapezoidal metal sheets, the center of described shell offers through fixed orifice, described supporting traverse passes the through fixed orifice of described housing center and is fixedly connected with described shell, and described shell two ends and top offer some through mounting holes along median vertical line symmetry, described sprocket wheel comprises transmission gear, ball bearing of main shaft and transmission shaft, described ball bearing of main shaft is fixedly mounted on the center of described transmission gear, the middle part of described transmission shaft is fixedly mounted in described ball bearing of main shaft, the two ends of described transmission shaft are each passed through the through mounting hole of described shell edge, be fixed on described shell front and rear panel, described some sprocket wheels are made to be separately fixed at the edge of described shell, described chain occlusion is arranged on the transmission gear of described some sprocket wheels, along the formation loop, edge of described shell, the chain of described shell upper end contacts with bottom described mould bases, and form jacking load-bearing.

2. a kind of mould bases jacking sprocket wheel conveyer according to claim 1, it is characterized in that, described transmission shaft two ends are outside thread port, and described transmission shaft two ends are fixed on described shell front and rear panel by nut.

3. a kind of mould bases jacking sprocket wheel conveyer according to claim 1, is characterized in that, the quantity that described sprocket wheel is installed is 4-6, and wherein, the sprocket wheel being installed on shell upper is at least 2.

4. a kind of mould bases jacking sprocket wheel conveyer according to claim 1, is characterized in that, can be greater than spacing on track between adjacent mould bases by contact width bottom the chain of described shell upper end and described mould bases.