CN216686250U - Rotary high-precision packaging device for multiple materials - Google Patents

Abstract

The utility model relates to the field of raw material subpackaging devices, in particular to a rotary high-precision subpackaging device for various materials, which comprises an installation supporting part, a driving motor part, a connecting belt, a main driving component, a jacking component, an installation supporting frame, a rotary indexing component, a storage disc component, a guide chute and a material collecting weighing platform, the installation support part is internally provided with an installation space, the driving motor part is installed on the inner side wall of the installation space in the installation support part and is fixed with the installation support part, the upper part of the mounting support part is provided with the main driving component, so that when in specific use, the mechanical production operation can be realized when the multi-component matched medicine is produced, by using the utility model, the operator only needs to perform auxiliary operation during specific production operation, thereby greatly reducing the production labor intensity of the operator.

Description

Rotary high-precision packaging device for multiple materials

Technical Field

The utility model relates to the field of raw material subpackaging devices, in particular to a rotary high-precision subpackaging device for various materials.

Background

The medicine proportioning is a very strict operation process, when each production enterprise is used for proportioning the combined medicines, strict operation rules are set, and operators are strictly required to carry out the medicine proportioning operation according to requirements.

Disclosure of Invention

The utility model aims to provide a rotary high-precision packaging device for various materials, which can realize mechanical selection of medicine materials to be selected in a specific using process, reduce the labor intensity of operators, ensure the precision of the materials and prevent the materials from being polluted, and meet the production and use requirements of the operators.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a rotary high-precision subpackaging device for various materials comprises an installation supporting part, a driving motor part, a connecting belt, a main driving component, a jacking component, an installation supporting frame, a rotary indexing component, a material storage disc component, a material guide chute and a material collecting and weighing table, wherein an installation space is arranged in the installation supporting part, the driving motor part is arranged on the inner side wall of the installation space in the installation supporting part and is fixed with the installation supporting part, the main driving component is arranged on the upper part of the installation supporting part and is connected with the driving motor part through the connecting belt, the bottom of the installation supporting frame is arranged at the top part of the installation supporting part and is fixedly connected with the installation supporting part, the rotary indexing component is arranged on the installation supporting frame and is connected with the installation supporting frame, the material storage disc component is arranged on the upper part of the rotary indexing component and is fixed with the rotary indexing component, the material collection and weighing platform is arranged on one side of the mounting and supporting part, the bottom of the guide chute is mounted on the material collection and weighing platform and connected with the material collection and weighing platform, and the jacking assembly is mounted on the main driving assembly and connected with the main driving assembly.

The driving motor part comprises a motor body, a motor mounting frame, a motor shaft and a motor driving wheel, wherein the motor mounting frame is fixedly mounted on the mounting supporting part, the motor body is mounted on the motor mounting frame and fixedly connected with the motor mounting frame, the motor shaft is mounted on the motor body, and the motor driving wheel is mounted on the outer side of the motor shaft and fixedly connected with the motor shaft.

The main driving assembly comprises a bearing installation shell, an installation bearing, a main driving shaft, a main driving wheel and a transition connecting seat, wherein the bearing installation shell is installed on the installation supporting part and is fixedly connected with the installation supporting part, the installation bearing is arranged in the bearing installation shell, the main driving shaft is installed at the bearing inner ring position of the installation bearing and is connected with the bearing inner ring interference fit of the installation bearing, the main driving wheel is installed at the lower side position of the main driving shaft and is fixedly connected with the main driving shaft, and the transition connecting seat is arranged at the top position of the main driving shaft and is fixedly connected with the main driving shaft.

The jacking assembly comprises a cylinder mounting disc, a jacking cylinder, a cylinder rod and a jacking block, wherein the lower side of the cylinder mounting disc is mounted on the upper portion of the transition connecting seat and connected with the transition connecting seat through a connecting bolt, the jacking cylinder is mounted on the cylinder mounting disc and fixedly connected with the cylinder mounting disc, the cylinder rod is not mounted on the jacking cylinder, and the jacking block is mounted on the top of the cylinder rod and fixedly connected with the cylinder rod.

The rotary indexing member comprises a butt joint disc, a locking nut, a rotating main shaft, a tension spring, an installation guide shaft sleeve, an installation support disc, a positioning pin and a limiting indexing disc, wherein the limiting indexing disc is fixedly arranged on an installation support frame, the central part of the limiting dividing plate is provided with an installation guide shaft sleeve, a guide through hole with a smooth inner wall is processed in the installation guide shaft sleeve, the rotating main shaft penetrates through the guide through hole and is in smooth contact with the inner wall of the guide through hole, the butt joint disc is arranged at the lower side part of the rotating main shaft and is locked on the rotating main shaft through a locking nut, the tension spring is inserted and sleeved at the lower side of the rotating main shaft, wherein the bottom of the tension spring is contacted with the butt joint disc, the top of the tension spring is contacted with the bottom of the installation guide shaft sleeve, the top of the rotating main shaft is provided with an installation supporting plate, and the positioning pin is arranged on the installation supporting plate and fixedly connected with the installation supporting plate.

The storage disc component comprises a disc body, spaced discharging chambers and a pneumatic switch, the bottom of the disc body is arranged on an installation supporting disc and fixedly connected with the installation supporting disc, the spaced discharging chambers are arranged on the disc body and fastened with the disc body, and the pneumatic switch is arranged on the lower side of the spaced discharging chambers and used for controlling discharging of the spaced discharging chambers.

The turntable body is provided with N groups of spaced discharge cabins which are uniformly distributed on the turntable body.

The utility model has the beneficial effects that: the utility model has scientific integral structure design, simple and convenient installation operation and use during specific use, and particularly, the utility model mainly cooperates the common operation of the components of the installation supporting part, the driving motor part, the main driving component, the jacking component, the rotary indexing component, the material storage disc component, the material collecting and weighing platform and the like, when in specific use, the mechanical production operation can be realized when the multi-component combined medicine is produced, by using the utility model, the operator only needs to perform auxiliary operation during specific production operation, thereby greatly reducing the production labor intensity of the operator, meanwhile, the utility model reduces the participation of the operators as much as possible during the production operation, further reducing the percentage of pollution factors of the matched medicinal materials in the production process, thereby ensuring the product quality of the matched medicinal materials in the later period and meeting the production and use requirements of enterprises.

Drawings

FIG. 1 is a schematic overall front view of the present invention;

fig. 2 is a schematic structural view of a driving motor part of the present invention;

FIG. 3 is a schematic structural view of the primary drive assembly of the present invention;

FIG. 4 is a schematic structural view of a jacking assembly of the present invention;

FIG. 5 is a schematic view of the construction of the rotary indexing member of the present invention;

FIG. 6 is a schematic view of the construction of the accumulator member of the present invention;

the reference numbers in the figures are: 1-installation supporting part, 2-driving motor part, 3-connecting belt, 4-main driving component, 5-jacking component, 6-installation supporting frame, 7-rotary indexing component, 8-material storage tray component, 9-guide chute, 10-material collection weighing platform, 201-motor body, 202-motor installation rack, 203-motor shaft, 204-motor driving wheel, 401-bearing installation shell, 402-installation bearing, 403-main driving shaft, 404-main driving wheel, 405-transition connection seat, 501-cylinder installation tray, 502-jacking cylinder, 503-cylinder rod, 504-jacking block, 701-butt joint tray, 702-locking nut, 703-rotating main shaft, 704-tension spring, 705-installation guide shaft sleeve, 706-mounting support disc, 707-positioning pin, 708-limit dividing disc, 801-turntable body, 802-interval material-discharging cabin and 803-pneumatic switch.

Detailed Description

Specific example 1: the core of the present invention is to provide a rotary high-precision packaging device for multiple materials, which can realize mechanized production operation during the production of multi-component combined medicines in specific use, and through the use of the present invention, an operator only plays a role of auxiliary operation during the specific production operation, so as to greatly reduce the production labor intensity of the operator. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The terms "left" and "right" used herein to denote orientation are used with reference to a particular structure shown in the drawings and are not to be construed as limiting the structure.

As shown in the attached figure 1, the rotary high-precision subpackaging device for a plurality of materials comprises an installation supporting part 1, a driving motor part 2, a connecting belt 3, a main driving component 4, a jacking component 5, an installation supporting frame 6, a rotary indexing component 7, a storage tray component 8, a material guiding groove 9 and a material collecting and weighing table 10, wherein an installation space is arranged in the installation supporting part 1, the driving motor part 2 for driving the main driving component 4 to rotate is fixedly arranged on the inner side wall of the installation space in the installation supporting part 1, the main driving component 4 for installing and supporting the jacking component 5 is arranged at the upper part of the installation supporting part 1, the main driving component 4 is connected with the driving motor part 2 through the connecting belt 3 and is driven by the driving motor part 2, the bottom of the installation supporting frame 6 for installing and supporting the rotary indexing component 7 is fixedly arranged at the top part of the installation supporting part 1, a rotatory indexing means 7 fixed mounting for carrying out erection bracing to storage tray component 8 is on installation support frame 6, a storage tray component 8 for holding the medicinal material sets up on rotatory indexing means 7 upper portion and together fixed with rotatory indexing means 7, it collects weighing table 10 to be provided with the material that is used for weighing and collects the material that is used for gathering the material in one side of installation supporting part 1, a bottom that is used for carrying out the baffle box 9 of water conservancy diversion to the medicinal material is installed and is gathered weighing table 10 on and collect weighing table 10 with the material and be connected, a bottom fixed mounting that is used for carrying out jacking subassembly 5 of jacking operation to rotatory indexing means 7 is on main drive subassembly 4.

As shown in the attached fig. 2, the driving motor part 2 for driving the main driving component 4 to rotate includes a motor body 201, a motor mounting bracket 202, a motor shaft 203 and a motor driving wheel 204, wherein one side of the motor mounting bracket 202 for mounting and supporting the motor body 201 is fixedly mounted on the mounting and supporting part 1, the motor body 201 is fixedly mounted on the motor mounting bracket 202, the motor shaft 203 for outputting power is mounted on the motor body 201, and the motor driving wheel 204 for outputting power is mounted on the outer side of the motor shaft 203 and is fixedly connected with the motor shaft 203.

As shown in fig. 3, the main driving assembly 4 for driving the rotary indexing member 7 to perform indexing rotation includes a bearing mounting housing 401, a mounting bearing 402, a main driving shaft 403, a main driving wheel 404 and a transition connecting seat 405, wherein a bearing mounting housing 401 for mounting a mounting bearing 402 is fixedly mounted on the mounting support 1, two sets of mounting bearings 402 for mounting and supporting the main driving shaft 403 are installed in the bearing mounting case 401, a main driving shaft 403 for installing the transition connecting seat 405 is installed at the position of the bearing inner ring of the installation bearing 402 and is connected with the bearing inner ring of the installation bearing 402 in an interference fit manner, a main driving wheel 404 for power transmission in cooperation with the motor driving wheel 204 is fixedly installed at a lower portion of the main driving shaft 403, a transitional connecting seat 405 for mounting and supporting the jacking assembly 5 is arranged at the top part of the main driving shaft 403 and fixed together with the main driving shaft 403.

As shown in fig. 4 of the specification, the jacking assembly 5 for jacking the rotating main shaft 703 in the rotating indexing member 7 includes a cylinder mounting plate 501, a jacking cylinder 502, a cylinder rod 503 and a jacking block 504, wherein the lower side of the cylinder mounting plate 501 for mounting the jacking cylinder 502 is fixedly mounted on the upper portion of the transition connecting seat 405 and connected with the transition connecting seat 405 through a connecting bolt, the jacking cylinder 502 for mounting the cylinder rod 503 is mounted on the cylinder mounting plate 501 and fixedly connected with the cylinder mounting plate 501, the cylinder rod 503 for mounting the jacking block 504 is not mounted on the jacking cylinder 502, and the jacking block 504 for directly jacking the rotating main shaft 703 is mounted on the top of the cylinder rod 503 and fixedly connected with the cylinder rod 503.

As shown in fig. 5 of the specification, the rotary indexing member 7 for mounting and supporting the material storage disk member 8 includes a docking plate 701, a lock nut 702, a rotary spindle 703, a tension spring 704, a mounting guide sleeve 705, a mounting support disk 706, a positioning pin 707 and a limiting indexing disk 708, wherein the limiting indexing disk 708 for mounting and supporting the mounting guide sleeve 705 is fixedly mounted on the mounting support frame 6, a mounting guide sleeve 705 for guiding the rotary spindle 703 is mounted at a central portion of the limiting indexing disk 708, a guide through hole with a smooth inner wall is formed in the mounting guide sleeve 705, an aperture of the guide through hole is slightly larger than an outer diameter of the rotary spindle 703, the rotary spindle 703 is a cylindrical structure with a smooth outer circle, wherein the rotary spindle 703 penetrates through the guide through hole and is in smooth contact with the inner wall of the guide through hole, and is mounted at a lower portion of the rotary spindle 703 in cooperation with the docking plate 701 jacked up by the jacking assembly 5 and is locked by the lock nut 702 On the rotating main shaft 703, a tension spring 704 for pushing the docking tray 701 to move downwards is inserted and sleeved on the lower side of the rotating main shaft 703, wherein the bottom of the tension spring 704 is in contact with the docking tray 701, the top of the tension spring is in contact with the bottom of the installation guide sleeve 705, an installation support tray 706 is fixedly installed on the top of the rotating main shaft 703, and a positioning pin 707 for positioning the installation support tray 706 is installed on the installation support tray 706 and is fixedly connected with the installation support tray 706.

As shown in fig. 6 of the specification, the storage tray member 8 for containing components of a pharmaceutical material includes a turntable body 801, spaced material discharging compartments 802, and a pneumatic switch 803, wherein the storage tray member is used for mounting and supporting the spaced material discharging compartments 802, the bottom of the turntable body 801 is mounted on a mounting and supporting plate 706 and is fixedly connected to the mounting and supporting plate 706, the turntable body 801 is mounted and provided with the spaced material discharging compartments 802 for directly containing the pharmaceutical material, the spaced material discharging compartments 802 are fastened to the turntable body 801, the pneumatic switch 803 for controlling the outflow of the material in the spaced material discharging compartments 802 is mounted on the lower side of the spaced material discharging compartments 802 for controlling the discharging of the spaced material discharging compartments 802, it should be noted that an operator can set a corresponding number of spaced material discharging compartments 802 on the turntable body 801 according to the use requirement, and the spaced material discharging compartments 802 are uniformly distributed on the turntable body 801.

The application process of the utility model during specific operation and use is as follows: before operation and use, an operator can place medicinal materials of each component in the spaced discharge cabin 802 in the storage tray member 8, when the medicinal materials are needed to be used, the operator can control the pneumatic switch 803 on the spaced discharge cabin 802 in the storage tray member 8 to be opened through the peripheral controller, at the moment, the medicinal materials enter the material collecting and weighing platform 10 from the spaced discharge cabin 802 through the guide chute 9 to be weighed and collected, when the component materials of the next group are needed to be collected, the operator can control the motor body 201 in the driving motor part 2 to work through the peripheral controller, at the moment, the motor body 201 drives the motor driving wheel 204 to rotate through the motor shaft 203, the motor driving wheel 204 drives the main driving shaft 403 in the main driving component 4 to rotate through the connecting belt 3 (synchronous belt), meanwhile, the jacking component 5 works, the jacking cylinder 502 in the jacking component 5 drives the jacking cylinder block 504 to move upwards through the rod 503, the top surface of the lift-up block 504 contacts the docking tray 701 and pushes the docking tray 701 to move upward, the docking tray 701 moves upward while compressing the tension spring 704 and pushing the rotating spindle 703 to move upward in the mounting guide sleeve 705, and at this time, the main shaft 703 is rotated to drive the installation supporting disc 706 and the positioning pin 707 thereon to move upwards, the positioning pin 707 releases the limit of the installation supporting disc 706, it should be noted that the tension spring 704 pushes the abutting disc 701 back to be in close contact with the jacking block 504 when compressed, under the action of friction force, the main driving component 4 can drive the butt joint disc 701 to rotate through the jacking component 5, the butt joint disc 701 drives the rotating main shaft 703 and the installation supporting disc 706 to rotate, finally, the installation supporting disc 706 drives the material storage disc member 8 installed at the upper part thereof to rotate, so as to realize the adjustment of angle graduation, so that the discharge ports of the lower group of spaced discharge chambers 802 on the material storage tray member 8 are aligned with the material guide chute 9 for discharging operation. The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed.

Claims (7)

1. A rotary high-precision bag distribution device for multiple materials is characterized by comprising an installation supporting part (1), a driving motor part (2), a connecting belt (3), a main driving component (4), a jacking component (5), an installation supporting frame (6), a rotary indexing component (7), a storage tray component (8), a guide chute (9) and a material collection weighing platform (10), wherein an installation space is arranged in the installation supporting part (1), the driving motor part (2) is installed on the inner side wall of the installation space in the installation supporting part (1) and fixed with the installation supporting part (1), the main driving component (4) is installed on the upper part of the installation supporting part (1), the main driving component (4) is connected with the driving motor part (2) through the connecting belt (3), the bottom of the installation supporting frame (6) is installed at the top part of the installation supporting part (1) and fixedly connected with the installation supporting part (1), the rotary indexing member (7) is installed on the installation supporting frame (6) and connected with the installation supporting frame (6), the material storage disc member (8) is arranged on the upper portion of the rotary indexing member (7) and fixed with the rotary indexing member (7), a material collection weighing table (10) is arranged on one side of the installation supporting portion (1), the bottom of the guide chute (9) is installed on the material collection weighing table (10) and connected with the material collection weighing table (10), and the jacking assembly (5) is installed on the main driving assembly (4) and connected with the main driving assembly (4).

2. The rotary type high-precision packaging device for multiple materials according to claim 1, wherein the driving motor part (2) comprises a motor body (201), a motor mounting frame (202), a motor shaft (203) and a motor driving wheel (204), the motor mounting frame (202) is fixedly mounted on the mounting and supporting part (1), the motor body (201) is mounted on the motor mounting frame (202) and fixedly connected with the motor mounting frame (202), the motor shaft (203) is mounted on the motor body (201), and the motor driving wheel (204) is mounted on the outer side of the motor shaft (203) and fixedly connected with the motor shaft (203).

3. A rotary high precision bag separating device for multiple materials according to claim 1, it is characterized in that the main driving component (4) comprises a bearing mounting shell (401), a mounting bearing (402), a main driving shaft (403), a main driving wheel (404) and a transition connecting seat (405), the bearing mounting shell (401) is mounted on the mounting support part (1) and is fixedly connected with the mounting support part (1), the bearing mounting shell (401) is internally provided with a mounting bearing (402), the main driving shaft (403) is mounted at the position of a bearing inner ring of the mounting bearing (402) and is connected with the bearing inner ring of the mounting bearing (402) in an interference fit manner, the main driving wheel (404) is arranged at the lower part of the main driving shaft (403) and is fixedly connected with the main driving shaft (403), the transition connecting seat (405) is arranged at the top part of the main driving shaft (403) and is fixedly connected with the main driving shaft (403).

4. The rotary high-precision bag dividing device for multiple materials according to claim 3, wherein the jacking assembly (5) comprises a cylinder mounting plate (501), a jacking cylinder (502), a cylinder rod (503) and a jacking block (504), the lower side of the cylinder mounting plate (501) is mounted at the upper part of the transition connecting seat (405) and connected with the transition connecting seat (405) through a connecting bolt, the jacking cylinder (502) is mounted on the cylinder mounting plate (501) and fixedly connected with the cylinder mounting plate (501), the cylinder rod (503) is not mounted on the jacking cylinder (502), and the jacking block (504) is mounted at the top of the cylinder rod (503) and fixedly connected with the cylinder rod (503).

5. The rotary high-precision packet dividing device for multiple materials according to claim 1, wherein the rotary indexing member (7) comprises a butt-joint disc (701), a locking nut (702), a rotary main shaft (703), a tension spring (704), an installation guide shaft sleeve (705), an installation support disc (706), a positioning pin (707) and a limit indexing disc (708), the limit indexing disc (708) is fixedly installed on the installation support frame (6), the installation guide shaft sleeve (705) is installed at the central part of the limit indexing disc (708), a guide through hole with a smooth inner wall is processed in the installation guide shaft sleeve (705), the rotary main shaft (703) penetrates through the guide through hole and is in smooth contact with the inner wall of the guide through hole, the butt-joint disc (701) is installed at the lower side part of the rotary main shaft (703) and is locked on the rotary main shaft (703) through the locking nut (702), the tension spring (704) is inserted and sleeved on the lower side of the rotating main shaft (703), wherein the bottom of the tension spring (704) is in contact with the butt joint disc (701), the top of the tension spring is in contact with the bottom of the installation guide shaft sleeve (705), the top of the rotating main shaft (703) is provided with an installation supporting disc (706), and the positioning pin (707) is installed on the installation supporting disc (706) and is fixedly connected with the installation supporting disc (706).

6. The rotary high-precision bag dividing device for multiple materials according to claim 5, wherein the storage tray member (8) comprises a rotary tray body (801), spaced discharge chambers (802) and a pneumatic switch (803), the bottom of the rotary tray body (801) is mounted on the mounting support disc (706) and is fixedly connected with the mounting support disc (706), the spaced discharge chambers (802) are mounted on the rotary tray body (801), the spaced discharge chambers (802) are fastened with the rotary tray body (801), and the pneumatic switch (803) is mounted on the lower side of the spaced discharge chambers (802) and is used for controlling discharge of the spaced discharge chambers (802).

7. The rotary high-precision bag dividing device for multiple materials according to claim 6, wherein N groups of spaced feeding cabins (802) are arranged on the rotary table body (801), and the spaced feeding cabins (802) are uniformly distributed on the rotary table body (801).

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