阅读说明：本技术 一种生物大分子类药物混合设备 (Biological macromolecule medicine mixing equipment ) 是由 王晓芳 于 2021-07-16 设计创作，主要内容包括：本发明公开了一种生物大分子类药物混合设备,其结构包括电箱、扶翼、底座、导入口、混合筒,电箱与扶翼之间采用电性连接的方式相配合,扶翼连接在导入口上,底座和导入口之间安装有混合筒,混合筒包括串杆、缸体、碾压锤、侧助体、转臂,串杆通过碾压锤连接在转臂上,且安装有侧助体,转臂转动配合在缸体内,缸体连接在底座上,在侧助体上设置有拦截兜和绷立台,利用拦截兜和绷立台在顶破把上相配合,当药片的崩裂块朝四周弹射出去时,将会顺着引接盘过渡拦截至拦截兜上,使得拦截兜朝内包扩张,带动绷立台推动顶破把来回碾压崩裂块成粉末再排出,保证了研磨药片精细度。(The invention discloses a mixing device of biomolecular medicines, which structurally comprises an electric box, a supporting wing, a base, an introducing port and a mixing barrel, wherein the electric box is matched with the supporting wing in an electrical connection mode, the supporting wing is connected to the introducing port, the mixing barrel is arranged between the base and the introducing port, the mixing barrel comprises a string rod, a cylinder body, a rolling hammer, a side assistant body and a rotating arm, the string rod is connected to the rotating arm through the rolling hammer and provided with the side assistant body, the rotating arm is rotationally matched in the cylinder body, the cylinder body is connected to the base, the side auxiliary body is provided with an intercepting pocket and a standing platform which are matched on the bursting handle, when the disintegrating blocks of the tablets are ejected out towards the periphery, the tablets can be transitionally intercepted to the intercepting pocket along the leading disc, the interception bag is expanded towards the inner bag, the tightening platform is driven to push the bursting handle to roll back and forth, the bursting blocks are crushed into powder and then discharged, and the fineness of the grinding tablets is ensured.)

1. A mixing device for biomolecular medicines is characterized in that: the structure of the electric box comprises an electric box (1), a supporting wing (2), a base (3), an introducing port (4) and a mixing barrel (5), wherein the electric box (1) is matched with the supporting wing (2) in an electric connection mode, the supporting wing (2) is connected to the introducing port (4), the mixing barrel (5) is installed between the base (3) and the introducing port (4), the mixing barrel (5) comprises a string rod (51), a cylinder body (52), a rolling hammer (53), a side assisting body (54) and a rotating arm (55), the string rod (51) is connected to the rotating arm (55) through the rolling hammer (53) and is provided with the side assisting body (54), the rotating arm (55) is rotationally matched in the cylinder body (52), and the cylinder body (52) is connected to the base (3).

2. The biomolecular medicament mixing apparatus according to claim 1, wherein: the side helps body (54) including cover even ring (541), draw and connect dish (542), interception pocket (543), burst handle (544), support (545), stand (546) taut, cover even ring (541) is connected on boom (51), and has burst handle (544) through support (545) normal running fit, burst handle (544) transition fit in interception pocket (543), and the top has seted up and has drawn and connect dish (542), through standing stand (546) and interception pocket (543) indirect cooperation between support (545).

3. The biomolecular medicament mixing apparatus according to claim 2, wherein: the support (545) is connected to the guide disc (542) and is in transition fit with the stringing rod (51) through the bursting handle (544).

4. The biomolecular medicament mixing apparatus according to claim 2, wherein: intercept pocket (543) including piece (3a1), flat board (3a2), screens piece (3a3), flexible bag (3a4), carousel (3a5), piece (3a1) is connected on carousel (3a5), and connects in flat board (3a2), be connected with flexible bag (3a4) on flat board (3a2), be provided with screens piece (3a3) between flexible bag (3a 4).

5. The biomolecular drug mixing apparatus according to claim 4, wherein: the rotary disc (3a5) is in sliding fit on the interlink ring (541) through the splicing sheets (3a 1).

6. The biomolecular drug mixing apparatus according to claim 4, wherein: the clamping piece (3a3) comprises a connecting handle (a31), an elastic bag (a32), an anti-slip pad (a33) and a limiting channel (a34), wherein the connecting handle (a31) is movably clamped between the flat plates (3a2) through the elastic bag (a32), the limiting channel (a34) is connected between the connecting handle and the flat plates, and the anti-slip pad (a33) is connected on the limiting channel (a 34).

7. The biomolecular medicament mixing apparatus according to claim 2, wherein: the standing platform (546) comprises a rotating shaft (6b1), a rotating and lifting belt (6b2), a tray (6b3) and a sliding wing (6b4), wherein the rotating shaft (6b1) is connected to the tray (6b3) and is in sliding fit under a support (545) through the sliding wing (6b4), and the tray (6b3) is in transition fit with an anti-slip pad (a33) through the rotating and lifting belt (6b 2).

8. The biomolecular medicament mixing apparatus according to claim 7, wherein: the rotary lifting belt (6b2) comprises a velvet belt (b21), a guide handle (b22), an arching strip (b23), a buckle claw (b24) and a return frame (b25), wherein the velvet belt (b21) and the arching strip (b23) are connected to the buckle claw (b24), the guide handle (b22) is connected to the buckle claw (b24), and the velvet belt is in sliding fit with the tray (6b 3).

Technical Field

The invention relates to the technical field of research and development of biomacromolecule medicines, in particular to a biomacromolecule medicine mixing device.

Background

At present, most medicines are prepared by mixing a plurality of raw medicinal materials according to preset equipment, the medicines are various and large in demand, the requirements on the mixing of the raw medicinal materials in the medicine manufacturing process are high, the requirements are large, the medicine function is influenced due to uneven mixing, the medicine safety is more possibly influenced, in order to improve the efficiency and uniformity of medicine mixing, medicine mixing equipment is adopted for medicine mixing, the existing biomacromolecule medicine mixing equipment can grind and grind the tablets put at the bottom of a cylinder by virtue of a grinding hammer, when the grinding hammer descends to extrude and apply force to the tablets, due to the fragility of the tablets, the outer circumference of a stress clamping point of the mixing equipment can be cracked instantly and easily spread to the periphery and even be ejected, so that the grinding hammer is not easy to grind the extruded tablets, and the difficulty in controlling the thickness degree of the ground tablets is increased, the ground medicinal powder can not meet the use requirement, thereby affecting the treatment of patients.

Disclosure of Invention

Aiming at the problems, the invention provides a mixing device for biomolecular medicines, which structurally comprises an electric box, a supporting wing, a base, an introducing port and a mixing cylinder, wherein the electric box is matched with the supporting wing in an electric connection mode, the supporting wing is connected to the introducing port, the mixing cylinder is arranged between the base and the introducing port, the mixing cylinder comprises a string rod, a cylinder body, a rolling hammer, a side assistant body and a rotating arm, the string rod is connected to the rotating arm through the rolling hammer and provided with the side assistant body, the rotating arm is rotationally matched in the cylinder body, and the cylinder body is connected to the base.

As a further improvement of the invention, the lateral assistant body comprises a sleeve connecting ring, a leading disc, an intercepting pocket, a bursting handle, a support and a standing platform, wherein the sleeve connecting ring is connected to the string rod, the bursting handle is matched with the support in a rotating mode, the bursting handle is in transition fit in the intercepting pocket, the leading disc is arranged above the bursting handle, and the support is indirectly matched with the intercepting pocket through the standing platform.

As a further improvement of the invention, the support is connected to the guide connecting disc, and the bursting handle is in transition fit on the string rod through the bursting handle, so that the inclination angle of the bursting handle is further changed.

As a further improvement of the invention, the intercepting bag comprises splicing pieces, flat plates, clamping pieces, telescopic bags and a rotary plate, wherein the splicing pieces are connected to the rotary plate and connected in the flat plates, the telescopic bags are connected to the flat plates, and the clamping pieces are arranged between the telescopic bags.

As a further improvement of the invention, the turnplate is in sliding fit on the interlinking ring through the splicing sheets, and the interlinking ring is taken as a center to strengthen the connection relationship between the structures.

As a further improvement of the invention, the clamping piece comprises a connecting handle, an elastic bag, a non-slip mat and a limiting channel, wherein the connecting handle is movably clamped between the flat plates through the elastic bag, the limiting channel is connected between the connecting handle and the flat plates, and the non-slip mat is connected on the limiting channel.

As a further improvement of the invention, the standing platform comprises a rotating shaft, a rotating and lifting belt, a tray and a sliding wing, wherein the rotating shaft is connected to the tray and is in sliding fit under the support through the sliding wing, and the tray is in transition fit with the non-slip mat through the rotating and lifting belt.

As a further improvement of the invention, the rotary lifting belt comprises a velvet belt, a guide handle, an arching strip, a buckling claw and a return frame, wherein the velvet belt and the arching strip are connected to the buckling claw, and the guide handle is connected in the buckling claw and is in sliding fit with the tray.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the intercepting bag and the standing platform are arranged on the side supporting body, and are matched with each other on the bursting handle, when the burst blocks of the tablets are ejected out towards the periphery, the burst blocks are transitionally intercepted to the intercepting bag along the guide connecting disc, so that the intercepting bag is expanded towards the inner bag, the standing platform is driven to push the bursting handle to roll the burst blocks back and forth into powder, and then the powder is discharged, and the fineness of grinding the tablets is ensured.

2. The telescopic bag has a hollow structure and certain elasticity, and can rub against the rough layer on the bursting handle, so that the size of the hollow opening can be changed according to the sliding friction of the bursting handle, the bursting blocks on the leading disc can be conveniently crushed, and small molecular powder can be led out.

3. The tray is folded and closed, so that the tray can be limited from the limit way by means of the stop of the non-slip mat, the tray can be in a reaction force action in time, the tray cannot move excessively, and the tray plays a role in bearing between the supporting structure and the reinforcing structure.

Drawings

FIG. 1 is a schematic structural diagram of a mixing device for biomolecular pharmaceuticals according to the present invention.

Fig. 2 is a schematic plan view of the mixing drum of the present invention.

FIG. 3 is a schematic side view of the auxiliary body of the present invention.

FIG. 4 is a schematic plan view of an interception pocket of the present invention.

Fig. 5 is a schematic plan view of the stopper-3 a3 of the present invention.

Fig. 6 is a schematic plan structure view of the standing platform of the present invention.

Fig. 7 is a schematic cross-sectional view of the transfer belt of the present invention.

In the figure: an electric box-1, a support wing-2, a base-3, an introducing port-4, a mixing barrel-5, a string rod-51, a cylinder-52, a rolling hammer-53, a side assistant body-54, a rotating arm-55, a sleeve connecting ring-541, a guide disc-542, an intercepting pocket-543, a bursting handle-544, a support-545, a standing platform-546 and a piece-3 a1, the multifunctional elastic bag comprises a flat plate-3 a2, a clamping piece-3 a3, a telescopic bag-3 a4, a rotary disc-3 a5, a connecting handle-a 31, an elastic bag-a 32, an anti-slip pad-a 33, a limiting channel-a 34, a rotary shaft-6 b1, a turning and lifting belt-6 b2, a tray-6 b3, a sliding wing-6 b4, a velvet belt-b 21, a guide handle-b 22, an arch-pulling strip-b 23, a buckle-b 24 and a return frame-b 25.

Detailed Description

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-3, the present invention provides a bio-macromolecule medicine mixing apparatus, which comprises an electric box 1, wings 2, a base 3, an introducing port 4, and a mixing barrel 5, wherein the electric box 1 is matched with the wings 2 in an electrical connection manner, the wings 2 are fixedly connected to the introducing port 4, the mixing barrel 5 is installed between the base 3 and the introducing port 4, the mixing barrel 5 comprises a string rod 51, a cylinder body 52, a rolling hammer 53, a side assistant body 54, and a rotating arm 55, the string rod 51 is fixedly connected to the rotating arm 55 through the rolling hammer 53 and is provided with the side assistant body 54, the rotating arm 55 is rotatably matched in the cylinder body 52, the cylinder body 52 is welded to the base 3, the side assistant body 54 comprises a coupling ring 541, a guiding disc 542, an intercepting pocket 543, a pushing handle 544, a support 545, and a standing platform 546, the coupling ring 541 is coupled to the string rod 51 in a sleeved manner, the four bursting handles 544 with the same structure and size are matched with the support 545 in a rotating mode, the bursting handles 544 are matched with the intercepting bag 543 in a transition mode, the upper portion of the bursting handle 544 is provided with the leading connecting disc 542, the support 545 is indirectly matched with the intercepting bag 543 through the standing platform 546, the support 545 is connected to the outer circumference of the leading connecting disc 542 in a hinged mode, the bursting handles 544 are matched with the two ends of the string rod 51 in a transition mode through the bursting handles 544, the inclination angle of the bursting handles 544 is further changed, the intercepting bag 543 and the standing platform 546 are arranged on the side assisting body 54, the intercepting bag 543 and the standing platform 546 are matched with the bursting handle 544 in the transition mode, when the bursting blocks of the tablets are ejected out towards the periphery, the bursting blocks of the tablets are transited to the intercepting bag 543 along the leading connecting disc, the intercepting bag 543 expands inwards, the standing platform 546 drives the bursting blocks 544 to be rolled back and forth to be broken into powder and then discharged, and the fineness of the grinding tablets is guaranteed.

Example 2

As shown in fig. 4-7, based on the embodiment 1, the invention combines the mutual cooperation of the following structural components, the intercepting pocket 543 comprises a splicing sheet 3a1, a flat plate 3a2, a blocking piece 3a3, a telescopic bag 3a4 and a rotary plate 3a5, the splicing sheet 3a1 is connected to the rotary plate 3a5 in a welding and embedding manner and is connected to the flat plate 3a2 in an inserting and embedding manner, the telescopic bag 3a4 is connected to the flat plate 3a2 in a sleeving and connecting manner, the blocking piece 3a3 is arranged between the telescopic bags 3a4, the rotary plate 3a5 is slidably fitted to the sleeving and connecting ring 541 by the splicing sheet 3a1, the connecting relationship between the sleeving and connecting rings 541 is reinforced, the blocking piece 3a3 comprises a connecting handle a31, an elastic bag a 9, a 6862 and a34 of a non-slip-limiting channel, the connecting handle a31 is movably clamped between the flat plate 3a2 by the elastic bag a32 and is connected by welding and is connected with the anti-slip-limiting pad 87458 a34, the standing platform 546 comprises a rotating shaft 6b1, a lifting belt 6b2, a tray 6b3 and a sliding wing 6b4, the rotating shaft 6b1 is connected to the tray 6b3 in a welding manner and is in sliding fit under the support 545 through the sliding wing 6b4, the tray 6b3 is in transition fit with an anti-slip pad a33 through the lifting belt 6b2, the lifting belt 6b2 comprises a velvet belt b21, a guide handle b22, an arching strip b23, a buckle claw b24 and a return frame b25, the velvet belt b21 and the arching strip b 42 are fixedly connected to the buckle claw b 5928, the guide handle b22 is connected in the buckle claw b 9 in a welding manner and is in sliding fit in a groove structure of the tray 6b3, the telescopic bag 3a4 is in a hollowed-out structure, has certain elasticity and is in mutual friction with a rough layer on the top handle 544, the size of the friction handle can be changed according to the sliding friction of the top handle, the telescopic bag 3a small hollow-shaped bag 8653 is led out and crushed powder can be conveniently to be crushed by a small molecule crushed disc 3, the tray 6b3 can be counterforce in time by the stop limit of the non-slip mat a33 from the limit way a34, so that the tray does not move excessively, and the bursting handle 544 can be acted by the force received between the supporting and reinforcing structures.

The working principle of the mixing device for biomolecular medicaments in the above technical scheme is explained as follows:

in the process of using the invention, when the grinding hammer 53 descends to press and apply force on the tablets, in order to prevent the tablets from breaking and ejecting and spreading all around, and influence the thickness degree of the ground tablets, the side auxiliary bodies 54 are arranged at both sides of the grinding hammer 53, when the tablets breaking and ejecting block is received from the guide disc 542, the tip of the guide disc 542 is inserted in the telescopic bag 3a4 by the sleeving ring 541, so that the tablets breaking and ejecting block is guided from the guide disc 542 to the inside of the telescopic bag 3a4, the support 545 is ensured to incline in the same direction by further enlarging the telescopic bag 3a4 on the flat plate 3a2, and the guide impact force drives the top breaking handle at the bottom to start at the inner side of the telescopic bag 3a4, the top breaking handle 544 swings back and forth by the smooth surface of the split piece 3a1, the top breaking handle 544 presses the support 545, the pressing sliding wings 6b4 is matched with the rotating shaft 6b 28 to press the support 6b 28, so that the inner part of the supporting disc 23 b pushes the inner part of the guide arch 4934, the two sides of the buckle claw b24 can be pulled by the velvet ribbon b21 to slide upwards and fold oppositely in the tray 6b3, so that the sliding wings 6b4 on the two sides of the tray 6b3 can slide towards the sleeve connecting ring 541 direction along the bottom of the support 545 synchronously, the tray 6b3 can be driven to slide along the anti-slip pads a33 in the limiting channel a34 in a steering way, the inclined height of the swinging bursting handle 544 in the telescopic bag 3a4 is gradually raised, the bursting handle 544 can effectively grind the bursting blocks in the telescopic bag 3a4 into powder without sliding reversely, the final fixing position of the bottom of the bursting handle 544 can be given by the limitation of the anti-slip pads a33, the middle of the hollow opening of the telescopic bag 3a4 is enlarged, the powder medicine can be discharged, and the capacity of efficient medicine mixing of the device is ensured.

In the description of the present invention, it is to be understood that the terms "central," "lateral," "length," "width," "height," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "side," and the like, as used herein, are used in an orientation or positional relationship indicated in the drawings, which is for convenience and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and is not to be construed as limiting the invention.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.