CN221231093U - Full-automatic filling labeling equipment is joined in marriage set volume detection device - Google Patents

Abstract

The utility model relates to a full-automatic filling labeling equipment matching package quantity detection device, which comprises: the body is provided with a detection area; the detection area is provided with a pressure sensor for detecting the split charging quantity; the canning tray is positioned on the upper surface of the body, and is provided with a canning channel, a labeling channel and a filling quantity error channel along the transportation direction, and the canning channel is communicated with the labeling channel and the filling quantity error channel through detection areas; the filling channel, the labeling channel and the filling quantity error channel are all connected with a conveyor belt; the switching component is arranged at one side of the canning tray and is used for switching one of the to-be-detected reagent bottles in the canning channel to be transported to the labeling channel and the wrong filling quantity channel; an alarm assembly; and the controller is positioned in the body and is electrically connected with the pressure sensor, the switching assembly, the alarm assembly and the conveying belt. The utility model greatly improves the detection precision and efficiency and can not leak detection.

Description

Full-automatic filling labeling equipment is joined in marriage set volume detection device

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a device for detecting the matching and sleeving amount of full-automatic filling and labeling equipment.

Background

In the process of in-vitro diagnosis reagent split charging, the precision of a split charging instrument is out of control sporadically (full-automatic filling labeling equipment), a small amount of reagent bottle quantity errors can be caused, the prior art often relies on manual follow-up monitoring, time and labor are wasted, and detection omission is also possible.

Disclosure of utility model

Therefore, the utility model aims to solve the technical problems that whether the filling amount is wrong or not is checked manually, time and labor are wasted, and the detection is possibly missed in the prior art.

In order to solve the technical problem, the utility model provides a full-automatic filling labeling equipment matching package quantity detection device, which comprises:

the body is provided with a detection area; the detection area is provided with a pressure sensor for detecting the split charging quantity;

The canning tray is positioned on the upper surface of the body, and is provided with a canning channel, a labeling channel and a filling quantity error channel along the transportation direction, and the canning channel is communicated with the labeling channel and the filling quantity error channel through detection areas; the filling channel, the labeling channel and the filling quantity error channel are all connected with a conveyor belt;

the switching component is arranged at one side of the canning tray and is used for switching one of the to-be-detected reagent bottles in the canning channel to be transported to the labeling channel and the wrong filling quantity channel;

An alarm assembly;

And the controller is positioned in the body and is electrically connected with the pressure sensor, the switching assembly, the alarm assembly and the conveying belt.

In one embodiment of the utility model, the utility model further comprises a control panel arranged on the upper surface of the body, wherein the control panel is provided with a power control button for controlling the starting or closing of the device.

In one embodiment of the utility model, the control panel further comprises an operation button for inputting a single dispensing amount and a display screen for displaying the dispensing amount data.

In one embodiment of the utility model, the wrong-filling channel is provided with an infrared sensor at a position close to the detection area for detecting whether a reagent bottle to be detected enters the wrong-filling channel, and the infrared sensor is electrically connected with the controller.

In one embodiment of the utility model, the alarm assembly includes an alarm lamp electrically connected to the controller.

In one embodiment of the utility model, the alarm assembly further comprises an audible alarm, the audible alarm being electrically connected to the controller.

In one embodiment of the utility model, the can tray includes a plurality of side panels that form a filling channel, a labeling channel, and a loading error channel with the can tray.

In one embodiment of the utility model, the wrong-filling channel comprises a first straight line section parallel to the labeling channel and a second straight line section close to the detection area, wherein the second straight line section forms a preset included angle with the first straight line section, and the second straight line section is in arc transition with the first straight line section.

In one embodiment of the utility model, the switching assembly comprises a power part electrically connected with the controller and a push rod connected with the output end of the power part; the end face of the push rod is opposite to the opening of the wrong loading channel close to the detection area.

In one embodiment of the utility model, the axis of the filling channel coincides with the axis of the labelling channel.

Compared with the prior art, the technical scheme of the utility model has the following advantages:

The full-automatic filling labeling equipment matching package quantity detection device can detect the sub-packaging quantity of the reagent bottles to be detected in real time, can alarm and warn through the alarm component, greatly improves the detection precision and efficiency, does not leak detection, and has a simple structure. In addition, the utility model can control the precision range through the controller, thereby being applicable to the detection of reagent bottles with different split charging amounts and having wide application range.

Drawings

In order that the utility model may be more readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof that are illustrated in the appended drawings, in which

FIG. 1 is a three-dimensional schematic diagram of a full-automatic filling labeling device matching package quantity detection device in a preferred embodiment of the utility model;

Fig. 2 is a schematic structural diagram of a body in the device for detecting the fitting and sleeving amount of the full-automatic filling and labeling device shown in fig. 1.

Description of the specification reference numerals: 100. a body; 110. a detection zone;

200. A canning tray; 210. filling the channel; 211. a first conveyor belt; 220. labeling a channel; 221. a second conveyor belt; 230. a loading error channel; 231. a third conveyor belt; 232. an infrared sensor; 240. a side plate;

300. A switching assembly; 310. a power section; 320. a push rod;

400. An alarm assembly;

500. A reagent bottle to be detected;

600. a control panel; 610. a power control button; 620. operating a button; 630. and a display screen.

Detailed Description

The utility model will be further described in connection with the accompanying drawings and specific examples which are set forth so that those skilled in the art will better understand the utility model and will be able to practice it, but the examples are not intended to be limiting of the utility model.

Referring to fig. 1 to 2, the utility model provides a device for detecting the matching and sleeving amount of full-automatic filling and labeling equipment, which comprises the following components:

A body 100 provided with a detection area 110; the detection area 110 is provided with a pressure sensor for detecting the split charging amount;

The canning tray 200 is located on the upper surface of the body 100, and the canning tray 200 is provided with a filling channel 210, a labeling channel 220 and a filling quantity error channel 230 along the transportation direction, wherein the filling channel 210 is communicated with the labeling channel 220 and the filling channel 210 is communicated with the filling quantity error channel 230 through the detection area 110; the filling channel 210, the labeling channel 220 and the filling error channel 230 are all connected with a conveyor belt; the conveyor belt connected with the filling channel 210 is a first conveyor belt 211, and the conveyor belt connected with the labeling channel 220 is a second conveyor belt 221; the conveyor connected to the loading error path 230 is a third conveyor 231;

A switching assembly 300 disposed at one side of the canning tray 200 for switching one of the labeling channel 220 and the loading error channel 230 from the transport of the reagent bottles 500 to be inspected in the canning channel 210;

An alarm assembly 400;

A controller located inside the body 100 and electrically connected with the pressure sensor, the switching assembly 300, the alarm assembly 400 and the conveyor belt. The controller can control weight accuracy and alarm.

The application is provided with the pressure sensor and the alarm device, can immediately alarm when the split charging quantity of a single reagent bottle 500 to be detected deviates (exceeds a set range), and simultaneously automatically split the bottle to the error channel 230 of the split charging quantity; if batch deviation continuously occurs, operators can immediately find problems through alarming, stop filling and check the precision faults of the instrument.

Specifically, the application can detect the split charging amount of the reagent bottle 500 to be detected in real time, and can carry out alarm warning through the alarm assembly 400, thereby greatly improving the detection precision and efficiency without missing detection, and having simple structure. In addition, the application can control the precision range through the controller, thereby being applicable to the detection of reagent bottles with different split charging amounts and having wide application range.

Further, the present application further includes a control panel 600 provided on the upper surface of the body 100, and the control panel 600 is provided with a power control button 610 for controlling the device to be turned on or off. For example, the control panel 600 is provided at a side of the upper surface of the body 100. The bottom of the body 100 is of a plastic structure, and the upper part of the body 100 is of a rectangular stainless steel plane for placing the canning tray 200.

Further, the control panel 600 further includes an operation button 620 for inputting a single dispensing amount and a display screen 630 for displaying dispensing amount data. For example, the operation buttons 620 include an upper limit key, a lower limit key, a selection add key, a selection subtract key, and an intermediate determination key. For example, the display screen 630 can display "zero", "precision range", "split level", etc., where "precision range" is used to control a single split level. The "split charge" display on display screen 630 will show the weight of each split charge, which is within the accuracy range, and will automatically return to zero after 1 second hold; when a single sub-packaging amount exceeding the precision range is met, the display does not disappear while the alarm lamp flashes.

Further, the wrong-filling channel 230 is provided with an infrared sensor 232 for detecting whether the reagent bottle 500 to be detected enters the wrong-filling channel 230 at a position close to the detection area 110, and the infrared sensor 232 is electrically connected with the controller. Thus, only after the reagent bottles 500 to be inspected, the split-charging amount of which exceeds the setting accuracy range, enter the wrong-charging-amount path 230, the conveyor belt (third conveyor belt 231) of the wrong-charging-amount path 230 is opened. The conveyor belt (third conveyor belt 231) of the error channel 230 is in a closed state for the rest of the time, saving the cost.

Further, the alarm assembly 400 includes an alarm lamp electrically connected to the controller. When the split charging quantity exceeds the range of the set precision, the controller controls the triggering of the alarm lamp, and the alarm lamp can emit flashing red light.

Further, the alarm assembly 400 further includes an audible alarm electrically connected to the controller. When the split charging quantity exceeds the setting precision range, the controller controls to trigger the sound alarm piece, and the sound alarm piece can give out alarm sound.

Further, the can tray 200 includes a plurality of side plates 240, and the side plates 240 and the can tray 200 form a filling channel 210, a labeling channel 220, and a loading error channel 230. Specifically, the arrangement of the side plates 240 allows the reagent bottles 500 to be dumped out of the filling channel 210, the labeling channel 220 and the error filling channel 230 during transportation, which affects the normal operation of the device.

Further, the mis-filling channel 230 includes a first straight line segment parallel to the labeling channel 220 and a second straight line segment adjacent to the detection region 110, wherein the second straight line segment forms a predetermined angle with the first straight line segment, for example, the second straight line segment is perpendicular to the first straight line segment. The second straight line segment is in arc transition with the first straight line segment. Specifically, the first line segment in the present embodiment is parallel to the labeling channel 220, so that the layout of the device is more reasonable. The second straight line segment and the first straight line segment are in arc transition, so that the reagent bottle 500 to be detected can pass through more smoothly.

Further, the switching assembly 300 includes a power part 310 electrically connected to the controller and a push rod 320 connected to an output end of the power part 310; the end face of the plunger 320 is directly opposite the opening of the mis-insertion channel 230 near the detection zone 110. For example, the side plate 240 is provided with a notch near the switching assembly 300, and the push rod 320 is driven by the power part 310 to extend from the notch to the detection area 110.

Further, the axis of filling channel 210 coincides with the axis of labeling channel 220. Specifically, the filling channel 210 and the labeling channel 220 are in a straight line, so that the reagent bottles 500 to be inspected can enter the labeling channel 220 quickly after detection.

The specific operation of the application in detection is as follows:

Pressing the power control button 610 activates the device; by selecting "zeroing" (flashing) by operating the button 620, pressing the ok key for weight zeroing; then, the "precision range" (the flashing range shows that the original data is the last adjustment data, such as "0.9 g-1.1") is selected by the operation button 620, the determination key is pressed for resetting (according to the current split charging requirement) (the flashing is changed from the "precision range" to the number of "0.9 g-1.1"), the data addition and subtraction is performed by the up-and-down movement of the operation button 620, the upper limit key and the lower limit key are moved for selecting the upper limit bit number and the lower limit bit number, and after the adjustment is completed, the determination key is pressed again, and the setting is completed. If reset, the above operation is repeated.

After the setting is completed, the device can be started, filled bottles (to-be-detected reagent bottles 500) are conveyed to the filling channel 210 one by one through the first conveying belt 211, and when each to-be-detected reagent bottle 500 passes through the detection area 110, if the split charging amount is within the setting precision range, the device has no sound, and is continuously conveyed to the labeling channel 220 and conveyed to the next process through the second conveying belt 221; if the split charging quantity exceeds the setting precision range, the alarm component 400 of the device immediately alarms to give an alarm sound, the alarm lamp flashes in red light, and simultaneously gives an instruction to suspend the conveyor belt, the push rod 320 stretches forward to split the to-be-detected reagent bottle 500 and enters the error charging channel 230, and when the to-be-detected reagent bottle 500 enters the error charging channel 230, the infrared sensor 232 gives out a signal to start the third conveyor belt 231 to send out the subsequent error charging reagent bottles.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations and modifications of the present utility model will be apparent to those of ordinary skill in the art in light of the foregoing description. It is not necessary here nor is it exhaustive of all embodiments. And obvious changes and modifications which are extended therefrom are still within the scope of the utility model.

Claims (10)

1. Full-automatic filling subsides mark equipment joins in marriage suit volume detection device, its characterized in that: comprising the following steps:

The body is provided with a detection area; the detection area is provided with a pressure sensor for detecting the split charging quantity;

The canning tray is positioned on the upper surface of the body, and is provided with a filling channel, a labeling channel and a filling quantity error channel along the transportation direction, and the filling channel is communicated with the labeling channel and the filling quantity error channel through the detection area; the filling channel, the labeling channel and the filling quantity error channel are all connected with a conveyor belt;

The switching component is arranged on one side of the canning tray and is used for switching to transport the to-be-detected reagent bottles in the canning channel to one of the labeling channel and the filling error channel;

An alarm assembly;

And the controller is positioned inside the body and is electrically connected with the pressure sensor, the switching assembly, the alarm assembly and the conveyor belt.

2. The full-automatic filling and labeling equipment matching package quantity detection device according to claim 1, wherein: the control panel is provided with a power control button for controlling the starting or closing of the device.

3. The full-automatic filling labeling equipment matching package quantity detection device according to claim 2, characterized in that: the control panel also comprises an operation button for inputting single split charging quantity and a display screen for displaying split charging quantity data.

4. The full-automatic filling and labeling equipment matching package quantity detection device according to claim 1, wherein: the position of the wrong passageway of dress volume is close to the detection zone is equipped with and is used for detecting whether to wait to examine the reagent bottle gets into the infrared sensor of wrong passageway of dress volume, infrared sensor with the controller electricity is connected.

5. The full-automatic filling and labeling equipment matching package quantity detection device according to claim 1, wherein: the alarm assembly comprises an alarm lamp, and the alarm lamp is electrically connected with the controller.

6. The full-automatic filling and labeling equipment matching package quantity detection device according to claim 1, wherein: the alarm assembly further comprises an audible alarm, and the audible alarm is electrically connected with the controller.

7. The full-automatic filling and labeling equipment matching package quantity detection device according to claim 1, wherein: the canning tray comprises a plurality of side plates, wherein the side plates and the canning tray form a filling channel, a labeling channel and a filling quantity error channel.

8. The full-automatic filling and labeling equipment matching package quantity detection device according to claim 1, wherein: the error filling channel comprises a first straight line section parallel to the labeling channel and a second straight line section close to the detection area, wherein the second straight line section and the first straight line section form a preset included angle, and the second straight line section and the first straight line section are in arc transition.

9. The full-automatic filling and labeling equipment matching package quantity detection device according to claim 1, wherein: the switching component comprises a power part electrically connected with the controller and a push rod connected with the output end of the power part; the end face of the push rod is opposite to the opening, close to the detection area, of the wrong-filling channel.

10. The full-automatic filling and labeling equipment matching package quantity detection device according to claim 1, wherein: the axis of the filling channel coincides with the axis of the labeling channel.