CN114889962A - Non-contact type sampling reagent bottle packaging box with conveying mechanism arranged inside - Google Patents

Abstract

The invention relates to the technical field of sampling reagent packaging and storage, in particular to a non-contact type sampling reagent bottle packaging box with a conveying mechanism arranged inside. The packaging box for the non-contact sampling reagent bottle with the conveying mechanism arranged inside adopts the single motor and the telescopic adjusting motor to respectively carry out the first translation conveying mechanism and the second translation conveying mechanism, so that the position of the inner end disc is adjusted, operators can conveniently operate the sampling reagent bottle at the front operation port, and the transmission efficiency is greatly improved; insert the spacing draw-in groove of arc through the inboard stopper of inside end disc and come to load and unload spacing to sampling reagent bottle, not only can make things convenient for operating personnel to operate the bottle lid, can also promote the installation firmness of body on inside end disc, promote the security of putting with the transportation.

Description

Non-contact type sampling reagent bottle packaging box with conveying mechanism arranged inside

Technical Field

The invention relates to the technical field of sampling reagent packaging and storage, in particular to a non-contact type sampling reagent bottle packaging box with a conveying mechanism arranged inside.

Background

The sampling reagent bottle is a glass bottle or a plastic bottle for containing reagents, and has various classification modes according to colors, shapes, purposes and the like. At present along with the epidemic situation is constantly abused globally, carry out the nucleic acid detection sampling to vast crowd in order to cooperate, need use a large amount of sampling reagent bottles, traditional sampling reagent bottle is mainly taken through the manual work and is installed in the end dish, then the sampling personnel loads and unloads the reagent bottle through manual again, need frequently the bottle lid to the reagent bottle in the operation process, the body is operated repeatedly, waste time and energy, and still increase cross contamination's possibility easily in the operation process, and easy because jolt and take place to rock in the transportation, serious even lead to damaged and leakage, the security is not high.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to solve the problem that exists among the above-mentioned background art, the utility model provides a modified inside sets up conveying mechanism's contactless sampling packing box for reagent bottle, it mainly installs in the end plate through artifical taking to solve traditional sampling reagent bottle, then the sampling personnel loads and unloads the reagent bottle through manual again, need frequently to the bottle lid of reagent bottle in the operation process, the body is operated repeatedly, waste time and energy, and still increase cross contamination's possibility easily in the operation process, and easy in the transportation because jolt and take place to rock, serious even lead to damage and leakage, the not high problem of security.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides an inside sets up conveying mechanism's contactless sampling reagent packing box for bottle, includes the main tank body, inside end disc, driving motor and the flexible adjusting motor that the sampling reagent bottle was put to inside, the main tank body inside through put the division board in separate into preceding, the rear end left side of intercommunication put and accomodate the cavity and put the cavity in the right side, the left side put and accomodate the cavity in bottom left and right side and put and accomodate the cavity in the left side left and right side and all be equipped with the first translation conveying mechanism by driving motor control, the left side put and accomodate cavity in the bottom front, rear end and put in the right side and accomodate the cavity in the bottom front, the rear end all be equipped with the second translation conveying mechanism by driving motor control, division board bottom assembly end fixedly connected with be used for installing driving motor and the flexible adjusting motor's bottom transmission box.

The main tank body front side wall on set up and accomodate the leading operation mouth that the cavity is linked together with the right side, main tank body rear side wall set up and accomodate the rearmounted operation mouth that the cavity is linked together with the left side, leading operation mouth and rearmounted operation mouthful inside all be equipped with external upset apron through both sides bottom pivot activity, external upset apron medial surface lower extreme bottom upset linkage support has.

The first translation conveying mechanism comprises a front transmission roller, a rear transmission roller, a first conveying belt and a first supporting platform, wherein the front transmission roller and the rear transmission roller are movably arranged on two sides of the middle partition plate through lateral rotating shafts, the first conveying belt is sleeved on the outer sides of the front transmission roller and the rear transmission roller, and the first supporting platform is positioned in the first conveying belt.

The second translation conveying mechanism comprises a left transmission roller, a right transmission roller and a second conveying belt, wherein the left transmission roller and the right transmission roller are movably arranged in the left storage chamber and the right storage chamber through lateral rotating shafts, and the second conveying belt is sleeved on the outer sides of the left transmission roller and the right transmission roller.

The driving motor is coaxially provided with lateral linkage combination gears controlled by a telescopic adjusting motor on rotating shafts on two sides of the driving motor, and the driving motor is switched with the transmission states of the first translation conveying mechanism and the second translation conveying mechanism through the telescopic adjusting motor.

The inside end disc upper end seted up a plurality of circular assembly blind holes, inside end disc inside set up the inside regulation cavity that is linked together with circular assembly blind hole, inside regulation cavity inside elasticity be equipped with inside locking plate, inside locking plate inside correspond circular assembly blind hole position and seted up inside adjusting through hole, the inboard arcwall face of inside adjusting through hole on have the inboard stopper of a body structure.

The left side put and accomodate the cavity and put on the right side and accomodate the cavity lateral wall and seted up and put the direction extrusion groove with inside end plate matched with side, leading operation mouth and rearmounted operation mouth in the bottom surface have an internal assembly board, external upset apron inserts internal assembly board inside and leading operation mouth, rearmounted operation mouth activity assembly through the side direction installation axle on the integrative structure bending plate in both sides.

The left side put and accomodate the chamber preceding lateral wall and put on the right side and accomodate the chamber rear side wall on equal fixedly connected with be used for controlling flexible adjustment motor's first press switch, leading operation mouth and rearmounted operation mouth in equal fixedly connected with be used for controlling flexible adjustment motor's second press switch on the lateral wall.

The sampling reagent bottle outside arcwall face on seted up with inboard stopper matched with arc spacing draw-in groove.

The invention has the beneficial effects that:

(1) the packaging box for the non-contact sampling reagent bottle with the conveying mechanism arranged inside adopts the single motor and the telescopic adjusting motor to respectively carry out the first translation conveying mechanism and the second translation conveying mechanism, so that the position of the inner end disc is adjusted, operators can conveniently operate the sampling reagent bottle at the front operation port, and the transmission efficiency is greatly improved;

(2) the sampling reagent bottle is loaded and unloaded and limited by inserting the inner side limiting block of the inner end plate into the arc-shaped limiting clamping groove, so that the operation of an operator on the bottle cap is facilitated, the installation firmness of the bottle body on the inner end plate can be improved, and the safety in the process of placement and transportation is improved;

(3) the driving motor and the telescopic adjusting motor are arranged in the bottom transmission box at the bottom of the middle isolation plate, so that the gravity center of the whole box body is reduced, and the stability of the box body is more excellent;

(4) through the first press switch and the second press switch which are fixedly connected with the inside of the main box body and used for controlling the telescopic adjusting motor, the telescopic adjusting motor and the driving motor can be automatically controlled, manual intervention operation is not needed, operation is simple and convenient, and convenience is greatly enhanced.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic side view of the present invention.

Fig. 2 is a schematic view of the internal structure of the present invention.

Fig. 3 is a partial cross-sectional view of the position of the transmission mechanism of the present invention.

Fig. 4 is a side sectional view of the assembled state of the inner end disc 3 in the present invention.

FIG. 5 is a partial cross-sectional view of the location of the front access port in the present invention.

Fig. 6 is a sectional view of the position of the arc-shaped limiting clamping groove on the outer side of the sampling reagent bottle.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic diagrams each illustrating the basic structure of the present invention only in a schematic manner, and thus show only the constitution related to the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The non-contact type sampling reagent bottle packing box with the conveying mechanism arranged inside shown in figures 1, 2 and 3 comprises a main box body 1, an inner end disc 3 for placing a sampling reagent bottle 2 inside, a driving motor 4 and a telescopic adjusting motor 5, wherein the main box body 1 is internally divided into a left placing chamber 7 and a right placing chamber 8 with the front end and the rear end communicated by a middle partition plate 6, the inner bottom surface of the left placing chamber 7 is left, the left side and the right side of the bottom surface in the storage chamber 8 are all equipped with a first translation conveying mechanism controlled by the driving motor 4, the left side is placed in the storage chamber 7 and is placed in the front of the bottom surface, the rear end and the right side are placed in the storage chamber 8 and is placed in the front of the bottom surface, the rear end is all equipped with a second translation conveying mechanism controlled by the driving motor 4, and the bottom assembly end fixedly connected with of the middle partition plate 6 is used for installing the bottom transmission box 9 of the driving motor 4 and the telescopic adjusting motor 5.

Further, in order to cooperate with the turnover and linkage control, a front operation opening 10 communicated with the right storage cavity 8 is formed in the front side wall of the main box body 1, a rear operation opening 11 communicated with the left storage cavity 7 is formed in the rear side wall of the main box body 1, an external turnover cover plate 12 is movably assembled inside the front operation opening 10 and the rear operation opening 11 through bottom rotating shafts on two sides, and a bottom turnover linkage support 13 is arranged at the lower end of the inner side surface of the external turnover cover plate 12.

After external upset apron 12 outwards overturns, bottom upset linkage support 13 overturns upwards, overturns inside end disc 3, and the spacing tooth on bottom upset linkage support 13 top simultaneously carries on spacingly to inside end disc 3 upper and lower extreme, like this when operating personnel operates sampling reagent bottle 2, inside end disc 3 just can not loosen and take off.

Further, in order to cooperate with the front and rear translation, the first translation conveying mechanism comprises a front transmission roller 14 and a rear transmission roller 15 which are movably arranged at two sides of the middle partition plate 6 through lateral rotating shafts, a first conveying belt 16 sleeved outside the front transmission roller 14 and the rear transmission roller 15, and a first supporting platform 17 positioned inside the first conveying belt 16.

Further, in order to match with the left translation and the right translation, the second translation conveying mechanism comprises a left transmission roller 18 and a right transmission roller 19 which are movably arranged in the left accommodating chamber 7 and the right accommodating chamber 8 through lateral rotating shafts, and a second conveying belt 20 which is sleeved outside the left transmission roller 18 and the right transmission roller 19.

As shown in fig. 3, in order to cooperate with the switching control, the lateral linkage combination gear 22 controlled by the telescopic adjusting motor 5 is coaxially assembled on the rotating shafts on both sides of the driving motor 4, and the driving motor 4 switches the transmission state with the first translation conveying mechanism and the second translation conveying mechanism through the telescopic adjusting motor 5.

The lateral linkage combination gear 22 comprises a driving wheel axially sleeved on the driving motor 4, a linkage frame sleeved on the outer side surface of the driving wheel, an integral structure internal thread adjusting cylinder fixed on the outer side wall of the linkage frame, a conical gear coaxially fixed on the side wall of one end of the driving wheel and a bias gear coaxially fixed on the edge of the other side of the driving wheel.

As shown in fig. 4, adjust sampling reagent bottle 2 on the inside end plate 3 for the cooperation, 6 circular assembly blind holes 23 have been seted up to inside end plate 3 upper end, inside regulation cavity 24 that is linked together with circular assembly blind hole 23 has been seted up to inside end plate 3 inside, the inside elasticity of inside regulation cavity 24 is equipped with inside locking plate 25, inside circular assembly blind hole 23 position of corresponding of inside locking plate 25 has been seted up inside adjusting through hole 26, the inboard stopper 27 of a body structure has on the inboard arcwall face of inside adjusting through hole 26.

As shown in fig. 5, for convenience of operation, the side walls of the left accommodating chambers 7 and 48 are provided with side guide extrusion grooves 28 matching with the inner end plate 3, the inner bottom surfaces of the front operation port 10 and the rear operation port 11 are provided with inner assembly plates 29, and the external flip cover plate 12 is inserted into the inner assembly plates 29 through side mounting shafts on the bending plates of the integral structure at both sides to be movably assembled with the front operation port 10 and the rear operation port 11.

One can operate the sampling reagent bottle 2 through the front operation port 10 or the rear operation port 11 as needed.

The side direction of the front operation port 10 can be provided with a fixed baffle plate, the side direction of the rear operation port 11 is not provided with a fixed baffle plate, and the fixed baffle plate is connected to the external turnover cover plate 12, so that after the external turnover cover plate 12 on the rear operation port 11 is opened, the internal end disc 3 on the surface can be directly discharged through the first translation conveying mechanism.

Further, in order to cooperate with automatic control, a first press switch 30 for controlling the telescopic adjusting motor 5 is fixedly connected to the front side wall of the left accommodating chamber 7 and the rear side wall of the right accommodating chamber 8, and a second press switch 31 for controlling the telescopic adjusting motor 5 is fixedly connected to the inner side walls of the front operation port 10 and the rear operation port 11.

When people press a control switch on the outer side of the main box body 1, at this time, the driving motor 4 controls the first translation conveying mechanism to drive the inner end disc 3 to translate forwards and backwards to the topmost end, the side wall of the inner end disc 3 extrudes the first press switch 30, the first press switch 30 controls the telescopic adjusting motor 5 to start, at this time, the telescopic adjusting motor 5 drives the lateral linkage combined gear 22 to be meshed with the left transmission roller 18 and the right transmission roller 19 on the second translation conveying mechanism, at this time, the first translation conveying mechanism loses power and stops, and at this time, the driving motor 4 can drive the second translation conveying mechanism to run; similarly, when the driving motor 4 controls the second translation conveying mechanism to drive the inner end disc 3 to translate left and right to the outermost side, the side wall of the inner end disc 3 extrudes the second press switch 31, the second press switch 31 controls the telescopic adjusting motor 5 to start, at this time, the telescopic adjusting motor 5 drives the lateral linkage combination gear 22 to be meshed with the front transmission roller 14 and the rear transmission roller 15 on the first translation conveying mechanism, at this time, the second translation conveying mechanism loses power and stops, and at this time, the driving motor 4 can drive the first translation conveying mechanism to operate.

As shown in fig. 6, in order to cooperate with the sampling reagent bottle 2 and the end plate 3 to be locked, an arc-shaped limit slot 32 matched with the inner limit block 27 is arranged on the arc-shaped surface of the outer side of the sampling reagent bottle 2.

People insert circular assembly blind hole 23 and inside adjusting hole 26 with sampling reagent bottle 2 under the normal condition, inboard stopper 27 just inserts inside the spacing draw-in groove of arc 32 at this time, spacing draw-in groove of arc 32 one side is spacing plane, the opposite side degree of depth diminishes gradually, last and 2 outside arcwalls of sampling reagent bottle communicate with each other, 2 outside symmetries at sampling reagent bottle set up two spacing draw-in grooves of arc, can guarantee when just so can making things convenient for sampling reagent bottle 2 to rotate to spacing when topmost, only when transferring between two spacing draw-in grooves of arc, inboard stopper 27 breaks away from in the spacing draw-in groove of arc 32, thereby alright with taking out from circular assembly blind hole 23 and inside adjusting hole 26 are inside.

The non-contact type sampling reagent bottle packaging box with the conveying mechanism arranged inside adopts the single motor and the telescopic adjusting motor 5 to respectively carry out the first translation conveying mechanism and the second translation conveying mechanism, so that the position of the inner end disc 3 is adjusted, operators can conveniently operate the sampling reagent bottle 2 at the front operation port 10, and the transmission efficiency is greatly improved; the sampling reagent bottle 2 is loaded, unloaded and limited by inserting the inner side limiting block 27 of the inner end plate 3 into the arc-shaped limiting clamping groove 32, so that the operation of an operator on the bottle cap is facilitated, the mounting firmness of the bottle body on the inner end plate 3 can be improved, and the safety in the placing and transporting process is improved; the driving motor 4 and the telescopic adjusting motor 5 are arranged in the bottom transmission box 9 positioned at the bottom of the middle isolation plate 6, so that the gravity center of the whole box body is reduced, and the stability of the box body is more excellent; through the first press switch 30 and the second press switch 31 that are used for controlling the flexible adjusting motor 5 at the inside fixedly connected with of main tank body 1, can control flexible adjusting motor 5 and driving motor 4 automatically, need not the manual intervention operation, easy operation is convenient, and the convenience strengthens greatly.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. The utility model provides an inside contactless sampling reagent packing box for bottle that sets up conveying mechanism, includes main tank body (1), inside end plate (3), driving motor (4) and flexible accommodate motor (5) of putting sampling reagent bottle (2), characterized by: the main box body (1) is internally divided into a left accommodating cavity (7) and a right accommodating cavity (8) which are communicated with each other at the front end and the rear end through a middle partition plate (6), the left and right sides of the inner bottom surface of the left accommodating cavity (7) and the left and right sides of the inner bottom surface of the right accommodating cavity (8) are respectively provided with a first translation conveying mechanism controlled by a driving motor (4), the front and rear ends of the inner bottom surface of the left accommodating cavity (7) and the front and rear ends of the inner bottom surface of the right accommodating cavity (8) are respectively provided with a second translation conveying mechanism controlled by the driving motor (4), and the bottom assembly end of the bottom of the partition plate (6) is fixedly connected with a bottom transmission box (9) used for installing the driving motor (4) and a telescopic adjusting motor (5).

2. The non-contact type sampling reagent bottle packing box with a conveying mechanism arranged inside according to claim 1, which is characterized in that: the main tank body (1) preceding lateral wall on offer with the right side put leading operation mouth (10) of accomodating cavity (8) and being linked together, main tank body (1) rear side wall offer with the left side put the rearmounted operation mouth (11) of accomodating cavity (7) and being linked together, leading operation mouth (10) and rearmounted operation mouth (11) inside all be equipped with external upset apron (12) through both sides bottom pivot activity, external upset apron (12) medial surface lower extreme bottom have bottom upset linkage support (13).

3. The non-contact type sampling reagent bottle packing box with a conveying mechanism arranged inside according to claim 2, which is characterized in that: the first translation conveying mechanism comprises a front transmission roller (14), a rear transmission roller (15), a first conveying belt (16) and a first supporting platform (17), wherein the front transmission roller (14) and the rear transmission roller (15) are movably arranged on two sides of the middle isolation plate (6) through lateral rotating shafts, the first conveying belt (16) is sleeved on the outer sides of the front transmission roller (14) and the rear transmission roller (15), and the first supporting platform (17) is located inside the first conveying belt (16).

4. The non-contact type sampling reagent bottle packing box with a conveying mechanism arranged inside according to claim 3, wherein the non-contact type sampling reagent bottle packing box is characterized in that: the second translation conveying mechanism comprises a left transmission roller (18) and a right transmission roller (19) which are movably arranged in the left accommodating chamber (7) and the right accommodating chamber (8) through lateral rotating shafts, and a second conveying belt (20) which is sleeved on the outer sides of the left transmission roller (18) and the right transmission roller (19).

5. The non-contact type sampling reagent bottle packaging box with the conveying mechanism arranged inside according to claim 4, wherein the non-contact type sampling reagent bottle packaging box is characterized in that: the lateral linkage combined gear (22) controlled by a telescopic adjusting motor (5) is coaxially assembled on rotating shafts on two sides of the driving motor (4), and the driving motor (4) is switched to a transmission state with the first translation conveying mechanism and the second translation conveying mechanism through the telescopic adjusting motor (5).

6. The non-contact type sampling reagent bottle packaging box with the conveying mechanism arranged inside according to claim 4, wherein the non-contact type sampling reagent bottle packaging box is characterized in that: inside end disc (3) upper end seted up a plurality of circular assembly blind holes (23), inside end disc (3) inside seted up inside regulation cavity (24) that are linked together with circular assembly blind hole (23), inside regulation cavity (24) inside elasticity be equipped with inside locking plate (25), inside locking plate (25) inside correspond circular assembly blind hole (23) position and seted up inside regulation through-hole (26), inside regulation through-hole (26) inboard arcwall face on have inboard stopper (27) of a body structure.

7. The non-contact type sampling reagent bottle packaging box with the conveying mechanism arranged inside according to claim 6, wherein the non-contact type sampling reagent bottle packaging box is characterized in that: the left side put and accomodate cavity (7) and the right side put and accomodate cavity (8) lateral wall on offer with inside end plate (3) matched with side and put direction extrusion groove (28), leading operation mouth (10) and rearmounted operation mouth (11) in the bottom surface on have inside assembly plate (29), outside upset apron (12) insert inside assembly plate (29) through the side direction installation axle on the integrative structure buckling plate in both sides inside with leading operation mouth (10), rearmounted operation mouth (11) movable assembly.

8. The non-contact type sampling reagent bottle packing box with a conveying mechanism arranged inside according to claim 2, which is characterized in that: the left side put and accomodate chamber (7) preceding lateral wall and the right side put and accomodate first press switch (30) that equal fixedly connected with was used for controlling flexible adjusting motor (5) on chamber (8) rear side wall, leading operation mouth (10) and rearmounted operation mouth (11) inside wall on equal fixedly connected with be used for controlling flexible adjusting motor (5) second press switch (31).

9. The non-contact type sampling reagent bottle packaging box with the conveying mechanism arranged inside according to claim 6, wherein the non-contact type sampling reagent bottle packaging box is characterized in that: the outer side arc-shaped surface of the sampling reagent bottle (2) is provided with an arc-shaped limiting clamping groove (31) matched with the inner side limiting block (27).

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