CN107650408A - Cuber - Google Patents

Abstract

The present invention relates to pharmaceutical production equipment.A kind of cuber, including mainframe, the mainframe are provided with lower mould, the feed table that slurry is transported in lower mould, top board and drive top board to overwhelm the lift cylinder in lower mould, and the feed table is provided with material inlet.The invention provides a kind of cuber, to improve convenience when making tablet.

Description

Cuber

Technical field

The present invention relates to pharmaceutical production equipment, more particularly to a kind of cuber for making tablet.

Background technology

In the production process of medicine, it is sometimes desirable to which slurry is pressed dry to form medicine block by cuber.Slurry is to pass through powder Formed in material plus people's solution.

The content of the invention

The invention provides a kind of cuber, to improve convenience when making tablet.

Above technical problem is that solved by following technical proposal：A kind of cuber, including mainframe, the mainframe The lifting in lower mould is overwhelmed provided with lower mould, the feed table that slurry is transported in lower mould, top board and driving top board Cylinder, the feed table are provided with material inlet.It is transported on feed table, send from logistics import in use, configuring good slurry Material in charging tray flows into lower mould again, is then depressed on the slurry in lower mould and will starch by lifting driving top board Moisture is extruded from the apopore in lower template, so as to forming tablet in material.

Present invention additionally comprises slurry collocation mechanism, the slurry collocation mechanism includes powder holding vessel, the powder storage The bottom wall of tank is provided with discharging opening and powder input port, and the powder holding vessel interior sealing slidably connects division board, it is described every The powder holding vessel is divided into the storage powder room below division board and the fluid reservoir above division board from plate, it is described Fluid reservoir is communicated with division board and stores up the water seepage hole of powder room.Powder is transported to storage powder room through powder input port during use Interior, solution is located in fluid reservoir.Solution infiltrates through in storage powder room and forms slurry.Which division board is this technology put and be pressed in powder all the time On so that solution enters powder for the mode of infiltration, realizes and inject solution to the floating of powder, will not produce airborne dust.Powder For input sealing space, it can overcome and pour into powder and caused dust raising phenomenon.

Present invention additionally comprises the stirring motor that the agitating shaft stretched into the powder holding vessel and driving agitating shaft rotate, institute The lower end for stating agitating shaft is provided with stirring vane, and the division board is slidably located on the agitating shaft, is set on the agitating shaft There is vertically extending chute, the division board is provided with the sliding block being slidably connected in the chute, the agitating shaft Division board described in slider-actuated is coordinated to rotate by the chute.The planarization on powder top can be improved, prevents local generation Drop is excessive to cause sepage effect to be deteriorated.The setting of stirring vane can improve uniformity during mixing.

Preferably, the lower surface of the division board is provided with along the circumferentially distributed convex tendon radially extended of powder holding vessel.Energy It is enough further to improve the reliability of powder top scraping blade when division board rotates.

Preferably, the powder that stirring vane is pointed in powder holding vessel when the agitating shaft rotates forward produces upward push away The powder that stirring vane is pointed in powder holding vessel when power, reversion produces downward thrust.Stirring vane can enter to powder Output with slurries produces power-assisted effect.

Preferably, the discharging opening mouth is provided with outlet valve and discharging pump.

Present invention additionally comprises slurry uniform shaking mechanism, the slurry uniform shaking mechanism includes support baseboard, is rotatably connected on support Rotating disc on bottom plate, the ring gear being fixedly connected on support baseboard, the motor and tube sheet for driving turn disc, institute State rotating disc and be provided with some drive holes circumferentially distributed along rotating disc, Storage Cup, the storage are rotatably connected in the drive hole Deposit cup and be provided with the external toothing circumferentially extended along Storage Cup, the external toothing and ring gear mesh together, the same institute of tube sheet Rotating disc synchronous axial system is stated, if entering passage and slurry output channel provided with dry finish in the tube sheet, the tube sheet is connected with Some slurry inlet/outlet pipes being inserted in correspondingly in the Storage Cup, the center of rotation position of the tube sheet enter provided with slurry Total hole, the slurry, which enters in total hole, is equipped with slurry efferent duct, and each described slurry inlet/outlet pipe respectively passes through a slurry Material links together into total hole with the slurry into passage, is respectively defeated with the slurry by a slurry output channel Outlet pipe links together, and the slurry enters passage and enters control valve provided with slurry, and it is defeated that the slurry output channel is provided with slurry Go out control valve, the slurry links together into total hole with the outlet section of the discharging pump, and the slurry efferent duct passes through suction Material pump links together with the material inlet.Enable to slurry mixing evenly, prevent the slurry quiescent time made Grow and produce Chen Ding phenomenons.Temporarily deposited in use, being stored in after the slurry output of slurry collocation mechanism output in Storage Cup Put, be then output in feed table and carry out tabletting.When having the slurry to store, turn disc is driven and disposable by motor Slurry in Storage Cup is shaken up.While Storage Cup produces revolution in company with rotating disc, also in external toothing and ring gear Rotation is produced under gearing, rotation and revolution carry out, shake up and anti-sedimentation effect is good simultaneously.

Preferably, it is additionally provided with the support baseboard some along the circumferentially distributed axially extending driving storage of rotating disc Deposit the vibration tooth of cup lifting.Storage Cup, with also producing elevating movement while revolution, is imitated in rotation so that shaking up anti-precipitation Fruit is more preferable.Completed due to switching to external toothing and ring gear certainly, slippage phenomenon, slippage phenomenon can also be produced by lifting in rotation process Impact shock phenomenon can be produced and improve and shake up effect.

Preferably, the Storage Cup is suspended in the drive hole by pendulum spring；The Storage Cup is the same as adjacent Two it is described vibration teeth middle parts alignment when, the Storage Cup and it is described vibration tooth it is separated.When vibration tooth loses pair During the supporting role of Storage Cup, Storage Cup can produce whereabouts phenomenon and impact spring produces vibration, and effect is shaken up so as to play raising The effect of fruit.

Preferably, the Storage Cup it is described vibration tooth in the presence of lift during the entire process of, the external toothing and Ring gear meshes together always.

Present invention tool has the advantage that：The making of tablet can be realized.

Brief description of the drawings

Fig. 1 is the structural representation of the embodiment of the present invention one.

Fig. 2 is the structural representation of the embodiment of the present invention two.

Fig. 3 is the enlarged diagram of slurry collocation mechanism.

Fig. 4 is the enlarged diagram of slurry uniform shaking mechanism.

In figure：Mainframe 1, lower mould 11, feed table 12, top board 13, lift cylinder 14, material inlet 15, slurry are matched somebody with somebody Put mechanism 2, powder holding vessel 6, powder input port 60, discharging opening 61, division board 62, convex tendon 621, sliding block 63, storage powder room 64, storage Liquid room 65, water seepage hole 66, feeding engine 67, discharging pump 68, outlet valve 69, stirring motor 7, agitating shaft 71, stirring vane 72, chute 73rd, slurry uniform shaking mechanism 9, charging absorption pump 90, support baseboard 91, vibration tooth 911, rotating disc 92, rotating shaft 921, drive hole 922, interior Gear ring 93, support bar 931, motor 94, Storage Cup 96, flanging 961, external toothing 97, pendulum spring 98, slurry enter total Hole 991, slurry efferent duct 992, slurry enter passage 993, slurry output channel 994, slurry inlet/outlet pipe 995, slurry and enter control Valve 996 processed, slurry output control valve 997.

Embodiment

The present invention is further illustrated with embodiment below in conjunction with the accompanying drawings.

Embodiment one, referring to Fig. 1, a kind of cuber, including mainframe 1.Mainframe 1 is provided with lower mould 11, slurry is defeated The feed table 12, top board 13 and the driving top board that are sent in lower mould overwhelm the lift cylinder 14 in lower mould.Feed table 12 Provided with material inlet 15.

It is transported in use, configuring good slurry from logistics import 15 in feed table 12, the material in feed table flows again Enter in lower mould 12, be then depressed into moisture in slurry by lifting the driving top boards 13 of driving 14 in lower mould from lower mould Extrusion in apopore in plate, so as to forming tablet.

Embodiment two, the difference with embodiment one are：

Referring to Fig. 2, in addition to slurry collocation mechanism 2 and slurry uniform shaking mechanism 9.

Slurry collocation mechanism 2 includes powder holding vessel 6.Powder holding vessel 6 is provided with powder input port 60 and discharging opening 61.Powder Material input port 60 is provided with feeding engine 67.Discharging opening 61 is provided with discharging pump 68 and outlet valve 69.The port of export of outlet valve 69 is the same as discharging The entrance point of pump 68 links together.

Slurry uniform shaking mechanism 9 enters total hole 991 and slurry efferent duct 992 provided with slurry.Slurry enters total hole 991 with discharging The port of export of pump 68 links together.Slurry efferent duct 992 is linked together by charging absorption pump 90 with material inlet 15.

Referring to Fig. 3, slurry collocation mechanism 2 also includes stirring motor 7.

Powder holding vessel 6 is circle.Inlet and outlet 61 and powder input port 60 are all disposed within the bottom wall of powder holding vessel 6. The interior sealing of powder holding vessel 6 slidably connects division board 62.Powder holding vessel 6 is divided into storage powder room 64 and liquid storage by division board 62 Room 65.Store up the lower section that powder room 64 is located at division board 62.Division board 62 can drop in the presence of deadweight.Fluid reservoir 65 be located at every From the top of plate 62.Division board 62 is provided with some water seepage holes 66.Water seepage hole 66 connects fluid reservoir and storage powder room.Under division board 62 Surface is provided with some convex tendons 621.Convex tendon 621 radially extends along powder holding vessel 6 is circumferentially distributed.

Stirring motor 7 is arranged on the outside of the bottom wall of powder holding vessel 6.It is connected with and stirs on the power output shaft of stirring motor 7 Mix axle 71.Agitating shaft 71 vertically extends.Agitating shaft 71 is stretched into powder holding vessel 6.The lower end of agitating shaft 71 is provided with Stirring vane 72.Stirring vane 72 when stirring vane 72 produces the air-flow blown upwards when agitating shaft 71 rotates forward, agitating shaft 71 inverts Produce the air-flow blown upwards.Division board 62 is slidably located on agitating shaft 71.Agitating shaft 71 is provided with vertically extending Chute 73.Division board 62 is provided with the sliding block 63 being slidably connected in chute.Agitating shaft 71 coordinates sliding block 63 to drive by chute 73 Dynamic division board 62 rotates.

Carry out configure slurry process be：Powder is transported to by storage powder room 64 through powder input port 60 by feeding engine 67 Interior, division board 62 is lifted in the accumulation rise of the powder in storage powder room 64.Solution is poured into fluid reservoir 65 to penetrate into through water seepage hole 66 Store up in the powder in powder room 64.Stirring motor 7 drives agitating shaft 71 to rotate forward, and agitating shaft driving stirring vane 72 and division board 62 are just Turn, stirring vane 72 drives powder to rise while producing stirring action to powder.Division board 62 rotate when convex tendon 621 play by The effect paved at the top of powder.Slurry is with outlet valve 69 and driving discharging pump 68 is opened after postponing, so that after slurry is transported to Continuous equipment.

Referring to Fig. 4, slurry uniform shaking mechanism 9 includes support baseboard 91, rotating disc 92, ring gear 93, motor 94 and pipe Plate 99.

Some vibration teeth 911 are additionally provided with support baseboard 91.It is circumferentially distributed along rotating disc to vibrate tooth 911.Vibrate the edge of tooth 911 It is axially extending.

Rotating disc 92 is rotatably connected on support baseboard 91 by rotating shaft 921.Rotating disc 92 is located at the upper of support baseboard 91 Side.Rotating disc 92 is provided with 4 drive holes 922.Drive hole 922 is circumferentially distributed along rotating disc.Storage is rotatably connected in drive hole Cup 96.The upper end of Storage Cup 96 is provided with flanging 961.The outer peripheral face of flanging 961 is provided with tooth and forms external toothing 97.Internal tooth Circle 93 is connected on support baseboard 91 by support bar 931.Ring gear 93 all meshes together with all external toothings 97.Driving The power output shaft of motor 94 links together with rotating shaft 921.Pendulum spring 98 is arranged with Storage Cup 96.On pendulum spring 98 End links together with flanging 961.The lower end of pendulum spring 98 is connected on rotating disc 92.Storage Cup 96 passes through pendulum spring 98 are suspended in drive hole 922.When Storage Cup 96 aligns with the middle part of two adjacent vibration teeth, Storage Cup and vibration tooth It is separated namely vibration tooth support less than Storage Cup.When the tooth top of vibration tooth 911 aligns with Storage Cup, vibration tooth 911 can Support Storage Cup.When Storage Cup is with vibrating tooth contact and not contacting, ring gear and external toothing all mesh together.

Tube sheet 99 is located at the top of rotating disc 92.Tube sheet 99 is fixed together with rotating shaft 921.4 slurries are provided with tube sheet 99 Material enters 993,4 slurry output channels 994 of passage and four slurry inlet/outlet pipes 995.4 slurry inlet/outlet pipes 995 correspond Ground is inserted in Storage Cup 96.Slurry enters the center of rotation position that total hole 991 is arranged on tube sheet 99.Slurry efferent duct 992 is worn Enter in slurry in total hole 991.Each slurry inlet/outlet pipe 995 respectively enters passage 993 by a slurry and entered always with slurry Hole 991 links together.Slurry enters control valve 996 into passage 993 provided with slurry.Each slurry inlet/outlet pipe 995 is each Linked together by a slurry output channel 994 with slurry efferent duct 992.Slurry enters passage 993 and exported provided with slurry Control valve 997.

Enter total hole 991 in use, the slurry that discharging opening 61 exports enters slurry, be then tapped off to 4 slurries to enter and lead to Road 993.The space-time of Storage Cup 96 then opens corresponding slurry and enters control valve 996 so that slurry inlet/outlet pipe 995 corresponding to slurry warp Input.By opening the slurry output control valve 997 for the Storage Cup for storing slurry, slurry is through slurry in the presence of charging absorption pump 90 Material output channel 994 and slurry efferent duct 992 export.

During above input and output material, motor 94 drives rotating disc 92 and synchronous turn of tube sheet 99 by rotating shaft 921 Dynamic, rotating disc 92 drives Storage Cup 96 to rotate the revolution realized to slurry together, in external toothing 97 and interior during the rotation of rotating disc 92 Under the mating reaction of gear ring 93, slurries also produce revolution, and vibration tooth 911 also drives Storage Cup 96 to lift, and Storage Cup 96 is completely de- From being also to produce free-falling and extrude pendulum spring 98 and produce vibration by the support of vibration tooth 911, anti-precipitation is shaken up so as to play Effect.

Claims (10)

1. a kind of cuber, it is characterised in that including mainframe, the mainframe is provided with lower mould, slurry is transported into lower mould Feed table, top board and driving top board in disk overwhelm the lift cylinder in lower mould, and the feed table is provided with material inlet.

2. cuber according to claim 1, it is characterised in that also including slurry collocation mechanism, the slurry configuration machine Structure includes powder holding vessel, and the bottom wall of the powder holding vessel is provided with discharging opening and powder input port, the powder holding vessel Interior sealing slidably connects division board, and the powder holding vessel is divided into the storage powder room below division board by the division board With the fluid reservoir above division board, fluid reservoir is communicated with the division board and stores up the water seepage hole of powder room.

3. cuber according to claim 2, it is characterised in that also include the agitating shaft stretched into the powder holding vessel The stirring motor rotated with driving agitating shaft, the lower end of the agitating shaft are provided with stirring vane, and the division board is slided and is arranged On the agitating shaft, the agitating shaft is provided with vertically extending chute, and the division board is provided with and is slidably connected Sliding block in the chute, the agitating shaft coordinate division board described in slider-actuated to rotate by the chute.

4. cuber according to claim 3, it is characterised in that the lower surface of the division board is provided with along powder holding vessel The circumferentially distributed convex tendon radially extended.

5. the cuber according to claim 3 or 4, it is characterised in that stirring vane is pointed to when the agitating shaft rotates forward The powder that stirring vane is pointed in powder holding vessel when powder in powder holding vessel produces upward thrust, reversion produces downward Thrust.

6. according to the cuber described in Claims 2 or 3 or 4, it is characterised in that the discharging opening mouth is provided with outlet valve and discharging Pump.

7. according to the cuber described in Claims 2 or 3 or 4, it is characterised in that also including slurry uniform shaking mechanism, the slurry Uniform shaking mechanism includes support baseboard, the rotating disc being rotatably connected on support baseboard, the internal tooth being fixedly connected on support baseboard The motor and tube sheet of circle, driving turn disc, the rotating disc are provided with some drive holes circumferentially distributed along rotating disc, Storage Cup is rotatably connected in the drive hole, the Storage Cup is provided with the external toothing circumferentially extended along Storage Cup, described outer Gear ring and ring gear mesh together, and the tube sheet is with the rotating disc synchronous axial system, if entering in the tube sheet provided with dry finish Enter passage and slurry output channel, the tube sheet is connected with some slurry disengaging being inserted in correspondingly in the Storage Cup Pipe, the center of rotation position of the tube sheet enter total hole provided with slurry, and the slurry, which enters in total hole, is equipped with slurry efferent duct, Each described slurry inlet/outlet pipe is respectively linked together into total hole with the slurry into passage by a slurry, is individual Linked together by a slurry output channel with the slurry efferent duct, the slurry enters into passage provided with slurry Enter control valve, the slurry output channel is provided with slurry output control valve, and the slurry enters total hole going out with the discharging pump Mouth section is linked together, and the slurry efferent duct is linked together by charging absorption pump with the material inlet.

8. cuber according to claim 7, it is characterised in that be additionally provided with the support baseboard some along rotating disc week To the vibration tooth for being distributed the axially extending driving Storage Cup lifting.

9. cuber according to claim 8, it is characterised in that the Storage Cup is suspended on the drive by pendulum spring In dynamic hole；When the Storage Cup aligns with the middle part of two adjacent vibration teeth, the Storage Cup and the vibration Tooth it is separated.

10. cuber according to claim 8 or claim 9, it is characterised in that the Storage Cup is in the presence of the vibration tooth During the entire process of lifting, the external toothing and ring gear mesh together always.