CN204980343U - A type embryo conveyor for blowing embedment all -in -one - Google Patents

Abstract

The utility model discloses a type embryo conveyor for blowing embedment all -in -one, a serial communication port, including the guide rail, be equipped with on one side of guide rail can be on the guide rail gliding get an embryo mechanism station subassembly and with get the station subassembly out -phase motion of embryo mechanism get two station subassemblies in the embryo mechanism. The utility model discloses a kind of drive is simple, and the structure is light, and the transportation of two segmentations can get into the environmental facies region lower to the grade after the type embryo cools off totally, the risk of pollution abatement and also can being shortened to each station coupling part's response time. Refrigerated type embryo also can have better shaping degree when the excision clout completely, and to off -the -shelf appearance, off -the -shelf quantity all has good improvement effect.

Description

A kind of type embryo feedway for blowing encapsulation all-in-one machine

Technical field

The utility model relates to a kind of type embryo feedway for blowing encapsulation all-in-one machine, belongs to field of pharmaceutical machinery.

Background technology

Existing a kind of type embryo feedway blowing encapsulation all-in-one machine, employing be before mould is opened, type embryo is captured, then transport directly to excision clout station by cylinder or other transport section and carry out except material.There is following shortcoming in this type embryo mode of movement: first due to excision clout station and main frame mold station distant, two stations are in different environment zoning, directly enter D level district from B level district, and type embryo does not cool the risk that may have pollution completely.

Summary of the invention

The technical problems to be solved in the utility model is: provide that a kind of type of drive is simple, the type embryo feedway for blowing encapsulation all-in-one machine of portable construction, decreasing pollution risk, solve how in different environment zonings, by the process of conveying, pollution risk is wherein reduced to minimum problem.

In order to solve the problems of the technologies described above, the technical solution of the utility model there is provided a kind of type embryo feedway for blowing encapsulation all-in-one machine, it is characterized in that, comprise guide rail, the side of guide rail is provided with can at the blank taking mechanism one station assembly of slide on rails and the blank taking mechanism two station assembly with blank taking mechanism one station assembly out-of-phase motion.

Preferably, described blank taking mechanism one station assembly comprises blank taking mechanism one station driven unit, the side of blank taking mechanism one station driven unit is connected with the blank taking mechanism one station grip block of clamp-type embryo, and the opposite side of blank taking mechanism one station driven unit is connected with guide rail.

Preferably, described blank taking mechanism two station assembly comprises blank taking mechanism two station driven unit, the side of blank taking mechanism two station driven unit is connected with the blank taking mechanism two station grip block of clamp-type embryo, and the opposite side of blank taking mechanism two station driven unit is connected with guide rail.

Preferably, the blank taking mechanism one station grip block that described blank taking mechanism one station assembly is provided with and the blank taking mechanism two station grip block that blank taking mechanism two station assembly is provided with match.

Compared with the structure of existing direct transport, the utility model has the advantage of: type of drive is simple, portable construction, the transport of two sectional type can entered environment relative degrees is lower after type embryo cools completely region, the risk of decreasing pollution and also can being shortened for the response time of each station connecting bridge.The type embryo cooled completely also can have better forming degree when excising clout, and for the profile of finished product, the quantity of finished product has good improved action.

Accompanying drawing explanation

Fig. 1 is a kind of integral structure figure of the type embryo feedway for blowing encapsulation all-in-one machine;

Fig. 2 is a kind of integral structure figure of blank taking mechanism one station of the type embryo feedway for blowing encapsulation all-in-one machine;

Fig. 3 is a kind of integral structure figure of blank taking mechanism two station of the type embryo feedway for blowing encapsulation all-in-one machine;

Fig. 4 blank taking mechanism one station assembly adds the retrotracheal structural representation of cooling.

Wherein: 1 is blank taking mechanism one station assembly, 2 is type embryo, 3 is blank taking mechanism two station assembly, and 4 is guide rail, and 5 is blank taking mechanism one station driven unit, 6 is blank taking mechanism one station grip block, 7 is blank taking mechanism two station driven unit, and 8 is flow regulating valve, and 9 is blank taking mechanism two station grip block, 10 is the cylinder of driver train, and 11 is cooling tracheae.

Detailed description of the invention

For making the utility model become apparent, hereby with preferred embodiment, and accompanying drawing is coordinated to be described in detail below.

The utility model is a kind of type embryo feedway for blowing encapsulation all-in-one machine, as shown in Figure 1, Figure 2, Figure 3 shows, it comprises the excision clout station of long guideway (i.e. guide rail 4) 2 are played the station assembly (i.e. blank taking mechanism one station assembly 1 and blank taking mechanism two station assembly 3) of clamping action and connecting mold and to(for) type embryo.

The side of guide rail 4 there are the blank taking mechanism one station assembly 1 that can slide on guide rail 4 and the blank taking mechanism two station assembly 3 with blank taking mechanism one station assembly 1 out-of-phase motion.Blank taking mechanism one station assembly 1 comprises blank taking mechanism one station driven unit 5, and the side of blank taking mechanism one station driven unit 5 is connected with the blank taking mechanism one station grip block 6 of clamp-type embryo 2, and the opposite side of blank taking mechanism one station driven unit 5 is connected with guide rail 4.Blank taking mechanism two station assembly 3 comprises blank taking mechanism two station driven unit 7, and the side of blank taking mechanism two station driven unit 7 is connected with the blank taking mechanism two station grip block 9 of clamp-type embryo 2, and the opposite side of blank taking mechanism two station driven unit 7 is connected with guide rail 4.Blank taking mechanism one station grip block 6 on blank taking mechanism one station assembly 1 matches with the blank taking mechanism two station grip block 9 on blank taking mechanism two station assembly 3.

The path of motion that blank taking mechanism one station assembly 1 and blank taking mechanism two station assembly 3 provide along guide rail 4 to be got off the transport completing and type embryo is transported to excision clout station in the work of its respective driven unit (i.e. blank taking mechanism one station driven unit 5 and blank taking mechanism two station driven unit 7).

In the utility model, the driven unit of blank taking mechanism is mainly realized by the motion of cylinder line.

The dynamics of adjusting cylinders clamping is carried out by the cylinder 10 of the driver train of two transverse directions and the flow regulating valve 8 that controls this cylinder, do not have when ensureing grip block (i.e. blank taking mechanism one station grip block 6 and blank taking mechanism two station grip block 9) clamp-type embryo 2 and be out of shape because the reason of dynamics makes shaping block 2, the situation that fracture etc. affects final finished quality quantity occurs.

After blank taking mechanism successfully clamps type embryo 2, by the effect of longitudinal cylinder of blank taking mechanism one station assembly 1, it is made to move along guide rail 4, when blank taking mechanism one station assembly 1 and blank taking mechanism two station assembly 3 overlap, the function of blank taking mechanism one station assembly 1 taken over by blank taking mechanism two station assembly 3, type embryo 2 is clamped, blank taking mechanism one station assembly 1 release type embryo 2 gets back to initial station, blank taking mechanism two station assembly 3 moves along guide rail 4, completes the running of latter half.Finally get embryo station and by type embryo 2 direct motion to excision clout station, last clout excision work can be carried out.After being transported to relative stations, grip block unclamps under cylinder action, then is back to original station, completes a complete cycle of operations.

Because when type embryo 2 takes out from mould, temperature is higher, produce distortion to prevent the type embryo 2 of high temperature in course of conveying and polluted due to environment reason, cooling tracheae 11 can be added getting embryo station, as shown in Figure 4, can the rate of cooling of the embryo of quickening type in transit, can the possibility of decreasing pollution, and better can excise clout.

Claims (4)

1. one kind for blowing the type embryo feedway of encapsulation all-in-one machine, it is characterized in that, comprise guide rail (4), the side of guide rail (4) is provided with can at upper blank taking mechanism one station assembly (1) of slip of guide rail (4) and blank taking mechanism two station assembly (3) with blank taking mechanism one station assembly (1) out-of-phase motion.

2. a kind of type embryo feedway for blowing encapsulation all-in-one machine as claimed in claim 1, it is characterized in that, described blank taking mechanism one station assembly (1) comprises blank taking mechanism one station driven unit (5), the side of blank taking mechanism one station driven unit (5) is connected with blank taking mechanism one station grip block (6) of clamp-type embryo (2), and the opposite side of blank taking mechanism one station driven unit (5) is connected with guide rail (4).

3. a kind of type embryo feedway for blowing encapsulation all-in-one machine as claimed in claim 1, it is characterized in that, described blank taking mechanism two station assembly (3) comprises blank taking mechanism two station driven unit (7), the side of blank taking mechanism two station driven unit (7) is connected with blank taking mechanism two station grip block (9) of clamp-type embryo (2), and the opposite side of blank taking mechanism two station driven unit (7) is connected with guide rail (4).

4. a kind of type embryo feedway for blowing encapsulation all-in-one machine as claimed in claim 1, it is characterized in that, blank taking mechanism two station grip block (9) that blank taking mechanism one station grip block (6) that described blank taking mechanism one station assembly (1) is provided with and blank taking mechanism two station assembly (3) are provided with matches.