CN114569463A - Shell turning device and shell buckling machine for medicinal spherical shell - Google Patents

Abstract

The present disclosure relates to a shell turning device for a medicinal spherical shell, which comprises: the overturning channel is used for conveying the medicinal spherical shell and comprises a horizontal section, and a protruding part for stopping the medicinal spherical shell is arranged at the upper bottom of the horizontal section; and the hooking shell component is arranged at the downstream of the bulge part and is constructed to hook the upper edge of the medicinal spherical shell stopped at the bulge part and pull down so as to turn the medicinal spherical shell. Through the technical scheme, owing to set up the bellying in the upset passageway and set up in the low reaches of bellying and collude the shell subassembly, so, be used for backstop medicinal spherical shell through the bellying, make the medicinal spherical shell stop at the settlement position, collude the shell subassembly simultaneously and collude the upper limb of catching up the medicinal spherical shell that is located the bellying and drop-down and use the bellying to overturn as the fulcrum with medicinal spherical shell, thereby replaced original medicinal spherical shell and turned over the mode of shell through spiral channel, improved shell efficiency of turning over.

Description

Shell turning device and shell buckling machine for medicinal spherical shell

Technical Field

The utility model relates to a pharmaceutical equipment field specifically relates to a shell device and knot shell machine turn over of medicinal spherical shell.

Background

In order to prevent moisture absorption, deterioration, oxidation and volatilization of effective components of the big honeyed pills, the big honeyed pills are usually preserved by buckling two plastic shells and sealing wax. When the shell was detained to big honeyed bolus, first semi-medicinal spherical shell and lower semi-medicinal spherical shell were placed up for the opening usually, consequently need earlier first semi-medicinal spherical shell through turning over shell device upset 180, snatch first semi-medicinal spherical shell through upper shell grabbing device again, make it with lower semi-medicinal spherical shell adjust well and transfer the back rethread knot shell mechanism and accomplish and detain the shell.

The existing upper half-medicinal spherical shell turning mechanism usually adopts a semicircular spiral channel to turn the shell, and the upper half-medicinal spherical shell freely and spirally slides in the spiral channel.

Disclosure of Invention

The utility model aims to provide a shell turning device and a shell buckling machine for a medicinal spherical shell, which aim to solve the problems of low shell turning speed and low efficiency of an upper hemispherical shell.

In order to achieve the above object, in one aspect, the present disclosure provides a shell turning device for a medicinal spherical shell, including a turning channel for conveying the medicinal spherical shell, where the turning channel includes a horizontal section, and a protrusion for stopping the medicinal spherical shell is arranged at the upper bottom of the horizontal section; and the hooking shell assembly is arranged at the downstream of the bulge part and is constructed to hook the upper edge of the medicinal spherical shell blocked at the bulge part and pull down so as to turn the medicinal spherical shell.

Optionally, the hooking shell assembly comprises an expansion piece, the expansion piece can extend into the turning channel from the bottom and withdraw from the turning channel from the bottom, and a draw hook is arranged at the upper end of the expansion piece and faces the upstream direction of the turning channel.

Optionally, the telescopic part comprises an air cylinder, a through hole is formed at the bottom of the turning channel, a piston rod of the air cylinder extends and retracts through the through hole, and a cylinder barrel of the air cylinder is fixed on the mounting plate below the turning channel.

Optionally, the bore has a shaft section and a hook section arranged in the vertical direction, the aperture of the hook section being larger than the aperture of the shaft section for accommodating the retractor.

Optionally, the medical spherical shell overturning device further comprises a shell pushing assembly for applying a pushing force to the spherical shell to accelerate overturning of the medical spherical shell when the medical spherical shell overturns to the set position along with the shell hooking assembly.

Optionally, the push shell assembly comprises an air blowing unit arranged above the horizontal section and disposed towards the hooking shell assembly.

Optionally, the unit of blowing includes the hole of blowing and divides the gas piece, the hole of blowing is established lateral wall on the passageway, just the hole of blowing orientation collude the shell subassembly slope and set up, divide gas piece detachably to establish it has air inlet and gas outlet in the lateral wall of upset passageway, the air inlet is used for connecting the air supply, the gas outlet with the hole intercommunication of blowing.

Optionally, the device further comprises a detection device, the detection device is used for detecting a position signal indicating whether the medicinal spherical shell is turned to the set position, and the shell pushing assembly is controlled to work or not according to the position signal.

Optionally, the protrusion has an arc-shaped surface protruding upwards from the horizontal section, and the turning channel further includes an inclined section obliquely arranged downwards and away from the horizontal section, and the inclined section is arranged downstream of the hooking shell assembly to receive the turned medicinal spherical shell.

Through above-mentioned technical scheme, owing to set up the bellying in the upset passageway and set up in the low reaches of bellying and collude the shell subassembly, so, be used for backstop medicinal spherical shell through the bellying, make medicinal spherical shell stop at the settlement position, collude the shell subassembly simultaneously and collude the upper limb that is located the medicinal spherical shell of bellying and drop-down and use medicinal spherical shell to overturn as the fulcrum with the bellying to replaced original medicinal spherical shell and turned over the mode of shell through spiral channel, improved shell efficiency of turning over.

On the other hand, the shell buckling machine for the medicinal spherical shell comprises the shell turning device, wherein the shell turning device is provided with a plurality of shell turning devices which are arranged in parallel.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

FIG. 1 is a schematic structural diagram of a clamshell device provided in an exemplary embodiment of the present disclosure;

FIG. 2 is a schematic view of the internal structure of FIG. 1;

FIG. 3 is a schematic view of the perforation configuration of FIG. 2;

fig. 4 is a schematic structural diagram of a shell fastening machine according to an exemplary embodiment of the present disclosure.

Description of the reference numerals

10-turning over the channel; 101-horizontal segment; 102-a boss; 103-perforation; 1031-a pole segment; 1032-a hook section; 104-an inclined section; 20-hook shell component; 201-a telescoping member; 202-pulling a hook; 30-mounting a plate; 40-a push shell assembly; 401-air blowing holes; 402-gas distribution block; 403-gas inlet; 404-air outlet.

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

In the present disclosure, unless otherwise stated, the use of the directional terms such as "upper, lower, left and right" generally refers to the definition according to the use condition of the flip device, and specifically refers to the drawing direction shown in fig. 2, and "inner and outer" refer to the self-profile of the corresponding component. The following description refers to the accompanying drawings in which the same numbers in different drawings represent the same or similar elements unless otherwise indicated.

As shown in fig. 1 and 2, the present disclosure provides a case-flipping device, including: the turning channel 10 is used for conveying the medicinal spherical shell, the turning channel 10 comprises a horizontal section 101, and a boss 102 for stopping the medicinal spherical shell is arranged at the upper bottom of the horizontal section 101; and a hook housing assembly 20 disposed downstream of the boss 102 and configured to hook an upper edge of the medicinal spherical shell stopped at the boss 102 and pull down to turn the medicinal spherical shell upside down.

Through the technical scheme, because boss 102 has been set up in upset passageway 10 and colluded shell subassembly 20 in the low reaches of boss 102 has been set up, so, be used for backstop medicinal spherical shell through boss 102, make the medicinal spherical shell stop at the settlement position, collude shell subassembly 20 simultaneously and collude the upper limb that lies in the medicinal spherical shell of boss 102 and drop-down and use boss 102 to overturn as the fulcrum with medicinal spherical shell, thereby replaced original medicinal spherical shell and carried out the mode of turning over the shell through helical channel, improved shell efficiency of turning over.

Wherein the protrusion 102 may be an arc-shaped surface rising upward from the horizontal section 101. Thus, the medicinal spherical shell can be conveniently stopped at the arc-shaped surface of the projection part 102, and the outer surface of the medicinal spherical shell is prevented from being scratched by the excessively sharp projection part 102.

It should be noted that the medicinal spherical shell is placed with its opening facing upward, and the medicinal spherical shell is dispensed as part of the upper shell to the horizontal section 101 in the turning channel 10 by the electromagnetic oscillator, and stops at the horizontal section 101 by sliding down to the convex part 102.

Specifically, in the exemplary embodiment illustrated in the present disclosure, the hooking housing assembly 20 includes a telescopic member 201, the telescopic member 201 can extend into the turning channel 10 from the bottom and exit from the turning channel 10 from the bottom, and an upper end portion of the telescopic member 201 is provided with a pulling hook 202, and the pulling hook 202 is disposed toward the upstream direction of the turning channel 10. So, when stretching into upset passageway 10 from the bottom through extensible member 201, drive drag hook 202 upward movement, wherein the crotch portion of drag hook 202 exceeds the highest point at medicinal spherical shell edge, then when withdrawing from upset passageway 10 from the bottom through extensible member 201, drive drag hook 202 downstream to the crotch portion of drag hook 202 catches on the edge of medicinal spherical shell, makes medicinal spherical shell use bellying 102 as the fulcrum upset along with extensible member 201 downstream, accomplishes the upset action of medicinal spherical shell.

Optionally, the telescopic member 201 includes a cylinder, the bottom of the turning channel 10 is formed with a through hole 103, a piston rod of the cylinder is telescopic through the through hole 103, and a cylinder barrel of the cylinder is fixed on the mounting plate 30 below the turning channel 10. Thus, the draw hook 202 installed on the piston rod of the cylinder is driven to lift through the expansion of the cylinder, so that the medicinal spherical shell turns over by taking the bulge part 102 as a fulcrum.

It can be understood that the telescopic member 201 is an air cylinder, and in other embodiments, the telescopic member 201 may have other structures, for example, the telescopic member 201 may also be an electric cylinder, and the electric cylinder drives the draw hook 202 to lift, so as to turn over the spherical shell.

In addition, it should be noted that the mounting plate 30 is used for fixing the cylinder and also for fixing the external device. For example, the flip device may be mounted to the buckle housing machine via mounting plate 30.

Referring to fig. 3, in the illustrated exemplary embodiment of the present disclosure, in order to facilitate the accommodation of the draw hook 202, the through hole 103 is provided with a pole section 1031 and a hook section 1032 arranged in the up-down direction, and the aperture of the hook section 1032 is larger than that of the pole section 1031 for accommodating the draw hook 202. Certainly, the clearance of hook section 1032 can also make the cylinder piston rod overturn the medicinal spherical shell in shorter stroke, has improved and has turned over shell efficiency.

Of course, the structure of the hook section 1032 and the pole section 1031 in the through hole 103 is illustrative, and in other embodiments, other structures may be adopted, such as only the hook section 1032 in the through hole 103, as long as it can accommodate the hook 202.

In addition, in order to accelerate the turning speed of the medicinal spherical shell, the shell turning device also comprises a shell pushing assembly 40, namely, when the medicinal spherical shell is turned to the set position along with the shell hooking assembly 20, the shell pushing assembly 40 applies pushing force to the spherical shell to accelerate the turning of the medicinal spherical shell.

Specifically, in the illustrated exemplary embodiment of the present disclosure, the push housing assembly 40 includes an air blowing unit disposed above the horizontal section 101 and disposed toward the hook housing assembly 20. So, at medicinal spherical shell upset in-process and when medicinal spherical shell upset to settlement position, open the unit of blowing and blow towards colluding 20 directions of shell subassembly, blow towards the upset direction of medicinal spherical shell promptly, exert thrust to medicinal spherical shell for the upset of medicinal spherical shell.

Optionally, in the illustrated exemplary embodiment of the present disclosure, the air blowing unit includes an air blowing hole 401 and an air distribution block 402, the air blowing hole 401 is disposed on an upper side wall of the turning channel 10, the air blowing hole 401 is disposed obliquely toward the hook housing assembly 20, the air distribution block 402 is detachably disposed on an outer side wall of the turning channel 10 and has an air inlet 403 and an air outlet 404, the air inlet 403 is used for connecting an air source, and the air outlet 404 is communicated with the air blowing hole 401. So, blow through gas hole 401 orientation collude the shell subassembly 20 orientation through dividing the gas block 402 with the gas of air supply and blow, exert thrust to the medicinal spherical shell in the upset promptly for will use the upset of spherical shell, improve turnover efficiency.

Specifically, in order to facilitate installation and replacement of the gas distribution block 402, the gas distribution block 402 may be detachably connected to the outer sidewall of the tumble channel 10 by screws.

Of course, the above-mentioned communication between the air distribution block 402 and the air blowing hole 401 is exemplary, and other structures may be used in other embodiments, for example, the output end of the air source may be directly communicated with the air blowing hole 401 through an air pipe.

It should be noted that the air source may be an air compressor, the output end of the air compressor is provided with a shunt valve, the whole air path of the output end is divided into two branches by the shunt valve, one branch is communicated with the air inlet 403 of the air shunt block 402 through an air pipe, then the air is discharged through the air outlet 404 of the air shunt block 402, the other branch is communicated with the air inlet of the air cylinder through an air pipe, a reversing valve is further provided at the air outlet of the air cylinder, the air input of the air cylinder is communicated with the air compressor through an air pipe, a solenoid valve is further provided at the communication position of the air outlet 404 and the air blowing hole 401, and the on-off of the air outlet 404 and the air blowing hole 401 is controlled by the solenoid valve. So, provide compressed gas through the air compressor machine, the flexible of some compressed gas control cylinder accomplishes the drag hook 202 and draws the upset that makes it to colluding of medicinal spherical shell, and another part compressed gas is through the blowout of the medicinal spherical shell that gas hole 401 orientation has overturn, makes its upset with higher speed to the shell efficiency of turning over of shell device has been improved.

It is understood that the above-mentioned push shell assembly 40 is schematically illustrated by using an air blowing unit, and in other embodiments, it may have other structures, for example, the push shell assembly 40 may also be an air cylinder, and the pushing force applied to the medicinal spherical shell is performed by extending and contracting a piston rod of the air cylinder, so as to accelerate the medicinal spherical shell to turn over.

In order to apply thrust to the medicinal spherical shell during overturning at a reasonable time, the shell overturning device in the implementation further comprises a detection device, the detection device is used for detecting whether the medicinal spherical shell overturns to a position signal of a set position, and the shell pushing assembly 40 is controlled to work or not according to the position signal.

For example, the detecting device may be a photoelectric switch, which is disposed at a designated position on the inner sidewall of the turning channel 10, and when the medication ball shell is turned over and turned to the position of the photoelectric switch, the push shell assembly 40 is activated.

Of course, the detecting device can also be a travel switch, which in turn starts the push shell assembly 40 by detecting the downward movement travel of the telescopic member 201 during the pull-down process.

In addition, the detecting means may be a timer switch directly installed in the push housing assembly 40 to intermittently turn on the push housing assembly 40 by setting an interval time.

Of course, in addition to the above-mentioned detection device, the shell turning device provided in the present disclosure further includes a counter disposed at the inlet of the horizontal section 101, and if there is a medicinal spherical shell passing through the counter, the medicinal spherical shell is counted, and at the same time, the cylinder is started to extend the piston rod of the cylinder upwards to the maximum stroke, so as to prepare for turning the medicinal spherical shell. In addition, an inductive switch is arranged at the joint of the convex part 102 and the horizontal section 101, and when the medicine ball shell touches the inductive switch, the cylinder is started to enable the piston rod of the cylinder to contract downwards.

In order to facilitate receiving the turned medicinal spherical shell, the turning channel 10 further includes an inclined section 104 obliquely arranged downward away from the horizontal section 101, and the inclined section 104 is disposed downstream of the hook housing assembly 20 to receive the turned medicinal spherical shell.

In the working process of the shell turning device of the medical spherical shell exemplified by the present disclosure, firstly, when the medical spherical shell passes through the counter of the horizontal section 101, the air cylinder is started to extend the piston rod of the air cylinder upwards to the maximum stroke; when medicinal spherical shell touches the inductive switch who establishes in bellying 102 and horizontal segment 101 department, start the cylinder and make the piston rod of cylinder drive the couple shrink downwards to drive medicinal spherical shell and use bellying 102 to overturn to slope section 104 by horizontal segment 101 as the fulcrum, when medicinal spherical shell overturns photoelectric switch department, the solenoid valve of starting installation in gas outlet 404 department is opened, gaseous pass through gas outlet 404 along the blowout of medicinal spherical shell of gas blow hole 401 orientation, accelerate the upset of medicinal spherical shell.

It should be noted that the shell turning device can be used alone or a plurality of shell turning devices can be arranged in parallel, and the number of the shell turning devices can be increased according to different working condition requirements.

Referring to fig. 4, in the exemplary embodiment illustrated in the present disclosure, a plurality of shell turning devices are mounted on a rack of a shell fastening machine in a parallel manner, wherein the plurality of shell turning devices may share one main air distribution block 402, the main air distribution block 402 includes one air inlet 403 and a plurality of air outlets 404, the air inlet 403 is communicated with an air compressor, each air outlet 404 is communicated with an overturning channel 10 in the corresponding shell turning device, an electromagnetic valve is further disposed at each air outlet 404, the electromagnetic valve is used for controlling the on-off of the air outlet 404, each overturning channel 10 is configured with an air cylinder, the medicinal spherical shell is overturned by pulling down the air cylinder through contraction of the air cylinder, an air inlet end of each air cylinder is communicated with an output pipe of the air compressor through a connecting pipe, and a connecting pipe of each air cylinder is provided with a valve, and an air outlet end of each air cylinder is communicated with an input pipe of the air compressor through a connecting pipe. Therefore, the synchronous use of a plurality of shell turning devices can be realized, and the shell turning efficiency of the medicinal spherical shell is improved.

The embodiment of the disclosure also provides a shell buckling machine for the medicinal spherical shell, which comprises the shell turning device, wherein the shell turning device is provided with a plurality of shell turning devices which are arranged in parallel.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. The shell turning device for the medicinal spherical shell is characterized by comprising:

the turning channel (10) is used for conveying the medicinal spherical shell, the turning channel (10) comprises a horizontal section (101), and a bulge part (102) for stopping the medicinal spherical shell is arranged at the upper bottom of the horizontal section (101); and

a hook housing assembly (20) disposed downstream of the boss (102) and configured to be capable of hooking an upper edge of the medicinal spherical shell stopped at the boss (102) and pulling down to turn the medicinal spherical shell.

2. The device for turning over shells according to claim 1, characterized in that the hooking housing assembly (20) comprises a telescopic member which can be inserted into the turning channel (10) from the bottom and withdrawn from the turning channel (10) from the bottom, and the upper end of the telescopic member is provided with a draw hook (201), and the draw hook (202) is arranged towards the upstream direction of the turning channel (10).

3. The shell overturning device according to claim 2, wherein the telescopic member (201) comprises a cylinder, a through hole (103) is formed at the bottom of the overturning channel (10), a piston rod of the cylinder extends and retracts through the through hole (103), and a cylinder barrel of the cylinder is fixed on a mounting plate (30) below the overturning channel (10).

4. The turn-over device according to claim 3, characterized in that the through hole (103) has a bar section (1031) and a hook section (1032) arranged in the up-down direction, the aperture of the hook section (1032) being larger than the aperture of the bar section (1031) for accommodating the draw hook (202).

5. The device for turning over the shells according to claim 1, further comprising a shell pushing assembly (40) for applying a pushing force to the spherical shell to accelerate the turning over of the spherical shell when the spherical shell is turned over to a set position along with the shell hooking assembly (20).

6. The device according to claim 5, characterized in that said pushing shell assembly (40) comprises an air blowing unit arranged above said horizontal section (101) and set towards said hooking shell assembly (20).

7. The shell turning device according to claim 6, wherein the blowing unit comprises a blowing hole (401) and a gas distribution block (402), the blowing hole (401) is formed in the upper side wall of the channel (10), the blowing hole (401) is obliquely arranged towards the shell hooking component (20), the gas distribution block (402) is detachably arranged on the outer side wall of the turning channel (10) and provided with a gas inlet (403) and a gas outlet (404), the gas inlet (403) is used for being connected with a gas source, and the gas outlet (404) is communicated with the blowing hole (401).

8. The device for turning shell according to any one of claims 5 to 7, further comprising a detecting device for detecting a position signal of whether the medicinal spherical shell is turned to the set position, wherein the shell pushing assembly (40) is controlled to operate according to the position signal.

9. The roll-over device according to claim 1, characterized in that the boss (102) has an arc-shaped face rising upward from the horizontal section (101),

the overturning channel (10) further comprises an inclined section (104) which is far away from the horizontal section (101) and obliquely and downwards arranged, and the inclined section (104) is arranged at the downstream of the hooking shell assembly (20) to receive the overturned medicinal spherical shell.

10. A shell buckling machine for medicinal spherical shells, which is characterized by comprising the shell turning device of any one of the claims 1 to 9, wherein the shell turning device is provided with a plurality of shell turning devices, and the plurality of shell turning devices are arranged in parallel.

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