CN217171146U - Automatic tray loading system for infusion bottles - Google Patents

Abstract

The utility model discloses an automatic tray-loading system for infusion bottles, wherein a placing tray conveying frame is arranged at the bottom of an infusion bottle conveying frame, the placing tray is conveyed from one side of the infusion bottle conveying frame to the other side of the infusion bottle conveying frame, conveying chains are respectively arranged on two sides of the top surface of the placing tray conveying frame in parallel, a vertical baffle plate is arranged above the placing tray conveying frame and positioned on one side of the infusion bottle conveying frame facing the discharge end of the placing tray conveying frame, and a row clamp for clamping a row of infusion bottles is arranged above the infusion bottle conveying frame; when the vertical baffle moves upwards to the maximum stroke position, the bottom of the vertical baffle is higher than the opening of the placing disc, and when the vertical baffle moves downwards to the maximum stroke position, the bottom of the vertical baffle extends into the placing disc and a gap is formed between the bottom of the vertical baffle and the bottom of the placing disc. According to the structure, the utility model discloses an automatic sabot system of infusion bottle at row presss from both sides at every turn and puts into one row of infusion bottle to placing after the dish in will place a set reverse migration, make and place the infusion bottle in the dish and push away tightly through founding the baffle to the infusion bottle that the dish was placed to the messenger is placed as far as possible and is placed many, has improved turnover efficiency.

Description

Automatic tray loading system for infusion bottles

Technical Field

The utility model relates to a technical field of infusion bottle turnover carousel, concretely relates to automatic sabot system of infusion bottle.

Background

Infusion (Infusion), or large volume injection, refers to a large volume of injection infused into the body by intravenous drip, administered at a dose of 100ml or more at a time. It is a branch of injection, usually packaged in glass or plastic infusion bottles or bags, and contains no bacteriostatic agent. When in use, the dropping speed is adjusted by the infusion apparatus, and the medicine is continuously and stably infused into the body.

With the popularization of infusion bags, upright infusion bags are becoming the main containers for infusion drugs due to their advantages of low cost, light weight, etc. In the production process, after the upright infusion bag is produced, the upright infusion bag is subjected to procedures of filling, disinfection, lamp inspection, labeling and the like, and then is packaged and the like. In actual production, the productivity of the front-end process is found to be faster than that of the back-end process, and research and analysis at first can be the reason for producing equipment by the back-end process, but after equipment and corresponding personnel are added to the back-end process, the productivity of the back-end process cannot follow the productivity of the front-end process after the production load of the front-end process is increased, and the back-end process does not reach full-load operation. Through research and analysis, the transmission efficiency of the transmission device is one of the root causes, and the transmission efficiency cannot keep up with the transmission efficiency, so that the transmission device cannot effectively and quickly transmit the front-end process to the subsequent process after the front-end process is completed. One reason for the relatively low conveying efficiency is that when the infusion bottles are circulated through the placing tray, the infusion bottles in the placing tray are placed loosely, resulting in a small number of infusion bottles in the placing tray for one circulation.

Disclosure of Invention

The utility model aims to provide a: the automatic tray loading system for the infusion bottles overcomes the defects of the prior art, and can reversely move the placing tray after a row of infusion bottles are placed into the placing tray by the row clamp under the action of the vertical baffle every time, so that the infusion bottles in the placing tray are pushed tightly by the vertical baffle, the infusion bottles in the placing tray are placed as many as possible, and the turnover efficiency is improved; through the structure of the vertical baffle, the vertical baffle is provided with the lead-in slope plate which is convenient for placing an infusion bottle, and the lead-in slope plate enables the vertical plate B at the bottom of the vertical baffle to have better elastic deformation capacity so as to bear larger acting force, thereby providing larger reverse acting force for the infusion bottle and being convenient for pushing the infusion bottle in the placing plate tightly; the infusion bottles which are convenient to be circularly conveyed by the row clamps are completely circularly conveyed into the placing plate under the action of the guide side plates.

The utility model adopts the technical proposal that:

an automatic tray loading system for infusion bottles comprises an infusion bottle conveying frame, wherein a conveying belt is movably connected to the infusion bottle conveying frame along the infusion bottle conveying frame, the bottom of the infusion bottle conveying frame is provided with a placing disc conveying frame which conveys a placing disc from one side of the infusion bottle conveying frame to the other side, two sides of the top surface of the placing tray conveying frame are respectively provided with a conveying chain in parallel, the extending direction of the conveying chain is vertical to the transfusion bottle conveying frame, the conveying chain rotates forwards and backwards through a driving motor fixed on the placing disc conveying frame, a vertical baffle plate which moves up and down is arranged above the placing disc conveying frame and at one side of the infusion bottle conveying frame facing to the discharging end of the placing disc conveying frame, a row clamp for clamping a row of infusion bottles is arranged above the infusion bottle conveying frame, and the row clamp moves back and forth between the infusion bottle conveying frame and the side where the vertical baffle is located in the horizontal direction and the vertical direction respectively; when the vertical baffle moves upwards to the maximum stroke position, the bottom of the vertical baffle is higher than the plate opening of the placing plate on the placing plate conveying frame, and when the vertical baffle moves downwards to the maximum stroke position, the bottom of the vertical baffle extends into the placing plate on the placing plate conveying frame and a gap is formed between the bottom of the vertical baffle and the plate bottom in the placing plate.

The utility model discloses the further improvement is, found the baffle towards infusion bottle conveying frame a side end face's top border and lift stand frame's ejector pin fixed connection, it passes the lift stand frame to place a set conveying frame, the lift stand frame passes through cylinder A activity from top to bottom.

The utility model discloses further improve the scheme and be, cylinder A's piston rod and lift grudging post fixed connection, cylinder A with place a set conveying frame fixed connection.

The utility model discloses a further improvement is, the vertical board A that includes the top of upright baffle and the vertical board B of bottom, the top border fixed connection of swash plate and vertical board B is passed through to vertical board A's bottom border, vertical board B is located one side of vertical board A infusion bottle conveying frame dorsad.

The utility model discloses further improve the scheme and be, the swash plate along from top to bottom direction, to vertical board B lopsidedness, form leading-in ramp plate.

The utility model discloses a further improvement is, place the both sides border of a set conveying frame, be located the stand baffle one side of infusion bottle conveying frame dorsad and be equipped with leading-in curb plate through supporting the stand symmetry respectively, leading-in curb plate along the direction from top to bottom, to placing a set conveying frame lopsidedness.

The utility model discloses a further improvement is, the height at the bottom border of leading-in curb plate highly matches with the dish mouth height of placing the dish on placing a set conveying frame to the bottom border of leading-in curb plate flushes with the corresponding side lateral wall of placing the dish on placing a set conveying frame.

The utility model discloses a further improvement is, the top of row's clamp is connected with the bottom along the horizontal turnover pole of infusion bottle conveying frame setting, the row presss from both sides through fixed connection in the cylinder B of horizontal turnover pole, horizontal turnover pole passes through swing joint about fixed connection in the cylinder C of horizontal slider, horizontal slider passes through fixed connection in the cylinder D of horizontal crossbearer at infusion bottle conveying frame and upright baffle horizontal reciprocating motion between infusion bottle conveying frame one side dorsad.

The utility model discloses a further improvement scheme is, the bottom border of the opposite side of arranging the clamp is equipped with flexible filler strip respectively.

The utility model discloses a further improvement scheme is, the length of arranging the clamp and placing the dish in along the size phase-match of infusion bottle transfer rack direction.

The beneficial effects of the utility model reside in that:

first, the utility model discloses an automatic sabot system of infusion bottle through the effect of founding the baffle, can press from both sides at row and all will place a set reverse migration at every turn after putting into one row of infusion bottle to placing the dish in to thereby make the infusion bottle of placing in the dish push away through founding the baffle tightly to the infusion bottle that makes to place in the dish is placed as far as possible, has improved turnover efficiency.

Second, the utility model discloses an automatic sabot system of infusion bottle through the structure of founding the baffle, not only can make the leading-in ramp that the infusion bottle of being convenient for was placed to found the baffle, and leading-in ramp makes the vertical board B of founding the baffle bottom have better elastic deformation ability moreover to can bear bigger effort, consequently also can provide bigger reverse acting force for the infusion bottle, be convenient for push up the infusion bottle of placing in the dish.

Third, the utility model discloses an automatic sabot system of infusion bottle through the effect of leading-in curb plate, the whole turnovers of infusion bottle to placing the dish that the row of being convenient for pressed from both sides had enough to meet the need.

Drawings

Fig. 1 is a schematic front sectional view of the present invention.

Detailed Description

As shown in figure 1, the automatic tray loading system for infusion bottles comprises an infusion bottle conveying frame 1, wherein a conveying belt 2 is movably connected to the infusion bottle conveying frame 1 along the infusion bottle conveying frame 1, a tray placing conveying frame 4 is arranged at the bottom of the infusion bottle conveying frame 1, a tray placing conveying frame 4 conveys the tray placing from one side of the infusion bottle conveying frame 1 to the other side, conveying chains 5 are respectively arranged on two sides of the top surface of the tray placing conveying frame 4 in parallel, the extending direction of the conveying chains 5 is perpendicular to the infusion bottle conveying frame 1, the conveying chains 5 positively rotate through a driving motor fixed on the tray placing conveying frame 4, a vertical baffle 7 which can move up and down is arranged on one side, facing the discharge end of the tray placing conveying frame 4, of the infusion bottle conveying frame 1, a row clamp 3 for clamping a row of infusion bottles is arranged above the infusion bottle conveying frame 1, the row clamps 3 respectively reciprocate in the horizontal direction and the vertical direction between the infusion bottle conveying frame 1 and the side where the vertical baffle 7 is positioned; when the vertical baffle 7 moves upwards to the maximum stroke position, the bottom of the vertical baffle 7 is higher than the plate opening of the placing plate 6 on the placing plate conveying frame 4, and when the vertical baffle 7 moves downwards to the maximum stroke position, the bottom of the vertical baffle 7 extends into the placing plate 6 on the placing plate conveying frame 4 and a gap is formed between the bottom of the vertical baffle 7 and the plate bottom in the placing plate 6; the top edge of the end face of one side of the vertical baffle 7 facing the infusion bottle conveying frame 1 is fixedly connected with a mandril of the lifting vertical frame 10, the placing disc conveying frame 4 penetrates through the lifting vertical frame 10, and the lifting vertical frame 10 moves up and down through an air cylinder A9; a piston rod of the air cylinder A9 is fixedly connected with the lifting upright frame 10, and the air cylinder A9 is fixedly connected with the placing disc conveying frame 4; the vertical baffle 7 comprises a top vertical plate A and a bottom vertical plate B, the bottom edge of the vertical plate A is fixedly connected with the top edge of the vertical plate B through an inclined plate, and the vertical plate B is positioned on one side of the vertical plate A, which is back to the infusion bottle conveying frame 1; the inclined plate is inclined towards one side of the vertical plate B along the direction from top to bottom to form a lead-in inclined plate; the two side edges of the placing disc conveying frame 4 and one side of the vertical baffle 7, which is back to the infusion bottle conveying frame 1, are symmetrically provided with a leading-in side plate 8 through a supporting vertical frame 11 respectively, and the leading-in side plate 8 inclines to one side of the placing disc conveying frame 4 along the direction from top to bottom; the height of the bottom edge of the lead-in side plate 8 is matched with the height of a tray opening of the placing tray 6 placed on the placing tray conveying frame 4, and the bottom edge of the lead-in side plate 8 is flush with the side wall of the corresponding side of the placing tray 6 placed on the placing tray conveying frame 4; the top of the clamp 3 is connected with the bottom of a horizontal turnover rod 12 arranged along the infusion bottle conveying frame 1, the clamp 3 is connected with a cylinder B15 of the horizontal turnover rod 12 through a fixed connection, the horizontal turnover rod 12 is movably connected with a cylinder C17 of a horizontal sliding block 16 up and down, and the horizontal sliding block 16 horizontally reciprocates between the infusion bottle conveying frame 1 and one side of the upright baffle 7 back to the infusion bottle conveying frame 1 through a cylinder D19 of a horizontal transverse frame 14; the bottom edges of the opposite sides of the row clamps 3 are respectively provided with a flexible pad strip 13; the length of the clamp 3 is matched with the size of the placing tray 6 along the direction of the infusion bottle conveying frame 1.

When the device is used, the air cylinder A9 drives the vertical baffle 7 to move upwards to the maximum stroke, and at the moment, the conveying chain 5 conveys the empty placing disc 6 from one side of the infusion bottle conveying frame 1, which is back to the vertical baffle 7, to the side of the vertical baffle 7; when the placing tray 6 is conveyed to the upright baffle 7 under the conveying of the conveying chain 5 and is positioned in the range corresponding to the placing tray 6, the air cylinder A9 drives the upright baffle 7 to move downwards to the maximum stroke position, when the placing tray 6 is conveyed to the position between the upright baffle 7 and the conveying chain 5 continuously, the conveying chain 5 stops conveying, when the number of infusion bottles positioned at the position corresponding to the infusion bottle conveying frame 1 and the length of the row clamp 3 correspond to that of the infusion bottles positioned at the position corresponding to the infusion bottle conveying frame 1 by the row clamp 3 after the infusion bottle conveying frame 1 corresponds to the infusion bottles at the position corresponding to the infusion bottle conveying frame 3, the infusion bottles at the position corresponding to the infusion bottle conveying frame 1 are clamped by the row clamp 3 and are circularly transferred to the side, positioned on the back of the upright baffle 7, of the infusion bottle conveying frame 1 in the placing tray 6; after the row clamp 3 places the infusion bottles in the placing tray 6, the row clamp 3 returns to the initial position, then the placing tray 6 reversely moves to the vertical baffle 7 under the reverse transmission of the transmission chain to push the infusion bottles in the placing tray 6 to be tightly attached to the side wall of the placing tray 6; then the conveying chain 5 positively moves the placing tray 6 to the state that the distance between the infusion bottle just placed in the placing tray 6 and the vertical baffle 7 is larger than or equal to the width of the infusion bottle, the conveying chain 5 stops conveying, and when the infusion bottle conveying frame 1 corresponds to the infusion bottle at the position of the clamp 3 and then the clamp 3 corresponds the number of the infusion bottles at the position corresponding to the infusion bottle conveying frame 1 to the length of the clamp 3, the clamp 3 circularly places the infusion bottles in the infusion bottle conveying frame 1 in the placing tray 6 again; repeating the above actions until a full infusion bottle is placed in the placing tray 6, wherein the air cylinder A9 drives the vertical baffle 7 to move upwards to the maximum stroke, and then the conveying chain 5 conveys the placing tray 6 with the full infusion bottle away and conveys the other empty placing tray 6 to the side of the vertical baffle 7; and repeating the steps to realize continuous automatic tray loading of the infusion bottle.

Claims (10)

1. Automatic sabot system of infusion bottle, its characterized in that: comprises an infusion bottle conveying frame (1), wherein a conveying belt (2) is movably connected to the infusion bottle conveying frame (1) along the infusion bottle conveying frame (1), a placing disc conveying frame (4) is arranged at the bottom of the infusion bottle conveying frame (1), a placing disc is conveyed to the other side from one side of the infusion bottle conveying frame (1) by the placing disc conveying frame (4), conveying chains (5) are respectively arranged on two sides of the top surface of the placing disc conveying frame (4) in parallel, the extending direction of the conveying chains (5) is perpendicular to the infusion bottle conveying frame (1), the conveying chains (5) positively and reversely rotate through a driving motor fixed on the placing disc conveying frame (4), a vertical baffle plate (7) which is vertically movable is arranged above the placing disc conveying frame (4) and positioned on one side, facing the discharging end of the placing disc conveying frame (4), of the infusion bottle conveying frame (1) is provided with a row clamp (3) for clamping a row of infusion bottles, the row clamps (3) respectively reciprocate in the horizontal direction and the vertical direction between the infusion bottle conveying frame (1) and the side where the vertical baffle (7) is located; when the vertical baffle (7) moves upwards to the maximum stroke position, the bottom of the vertical baffle (7) is higher than the plate opening of the placing plate (6) on the placing plate conveying frame (4), and when the vertical baffle (7) moves downwards to the maximum stroke position, the bottom of the vertical baffle (7) extends into the placing plate (6) on the placing plate conveying frame (4) and is provided with a gap with the plate bottom in the placing plate (6).

2. The automatic racking system of infusion bottles of claim 1, characterized in that: the top edge of the end face of one side of the vertical baffle (7) facing the infusion bottle conveying frame (1) is fixedly connected with an ejector rod of a lifting vertical frame (10), the placing disc conveying frame (4) penetrates through the lifting vertical frame (10), and the lifting vertical frame (10) moves up and down through an air cylinder A (9).

3. The automatic racking system of infusion bottles of claim 2, characterized in that: the piston rod of the cylinder A (9) is fixedly connected with the lifting vertical frame (10), and the cylinder A (9) is fixedly connected with the placing disc conveying frame (4).

4. The automatic racking system of infusion bottles of claim 1, characterized in that: the vertical baffle (7) comprises a top vertical plate A and a bottom vertical plate B, the bottom edge of the vertical plate A is fixedly connected with the top edge of the vertical plate B through an inclined plate, and the vertical plate B is positioned on one side of the vertical plate A, which is back to the infusion bottle conveying frame (1).

5. The automatic racking system of infusion bottles of claim 4, characterized in that: the inclined plate inclines towards one side of the vertical plate B along the direction from top to bottom to form a leading-in inclined plate.

6. The automatic racking system of infusion bottles of claim 1, characterized in that: the two side edges of the placing plate conveying frame (4) and one side, back to the infusion bottle conveying frame (1), of the vertical baffle (7) are symmetrically provided with a leading-in side plate (8) through a supporting vertical frame (11), and the leading-in side plate (8) inclines to one side of the placing plate conveying frame (4) along the direction from top to bottom.

7. The automatic racking system of infusion bottles of claim 6, characterized in that: the height of the bottom edge of the guide-in side plate (8) is matched with the height of a plate opening of a placing plate (6) placed on the placing plate conveying frame (4), and the bottom edge of the guide-in side plate (8) is flush with the side wall of the corresponding side of the placing plate (6) placed on the placing plate conveying frame (4).

8. The automatic racking system of infusion bottles of claim 1, characterized in that: the top of the clamp (3) is connected with the bottom of a horizontal turnover rod (12) arranged along the infusion bottle conveying frame (1), the clamp (3) is fixedly connected with a cylinder B (15) of the horizontal turnover rod (12), the horizontal turnover rod (12) is movably connected up and down through a cylinder C (17) fixedly connected with a horizontal sliding block (16), and the horizontal sliding block (16) horizontally reciprocates between the infusion bottle conveying frame (1) and one side of the vertical baffle plate (7) back to the infusion bottle conveying frame (1) through a cylinder D (19) fixedly connected with a horizontal cross frame (14).

9. The automatic racking system of infusion bottles of claim 1, characterized in that: the bottom edges of the opposite sides of the row clamps (3) are respectively provided with a flexible pad strip (13).

10. The automatic racking system of infusion bottles of claim 1, characterized in that: the length of the clamp (3) is matched with the size of the placing disc (6) along the direction of the infusion bottle conveying frame (1).

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