CN211282755U - Intelligent access device - Google Patents

Abstract

The utility model discloses an intelligence access arrangement, including transmission device, transmission device is including the reciprocal hoist mechanism of vertical setting, and the one end of reciprocal hoist mechanism is provided with into the case mouth, and the opposite side is provided with the access station, and the access station has a plurality of layers of depositing that are used for placing the goods, and reciprocal hoist mechanism is including the delivery track of vertical setting, the delivery platform of slip setting on the delivery track and be used for control the elevating system of delivery platform, a plurality of layers of depositing set gradually along delivery track transmission direction, deposit the layer including with the transmission track of delivery platform butt joint still is provided with out the case mouth on the reciprocal hoist mechanism. Goods of transmission in the logistics system enter into the intelligent access device through the box inlet, the intelligent access device stores different goods in the storage layer according to the state of the logistics system, normal operation of the logistics system of a hospital is influenced when problem goods or receiving places are difficult to receive the goods, and effectiveness of operation of the logistics system is improved.

Description

Intelligent access device

Technical Field

The utility model relates to a conveyor technical field, concretely relates to intelligence access arrangement.

Background

The logistics technology of domestic hospitals is in a starting stage, the original logistics transmission team is huge, most of transportation tools are faded out in a hand-shaped cart logistics conveying mode, and modern hospital logistics systems are gradually introduced. However, the currently introduced transportation technology is mostly foreign hospital logistics technology, i.e. rail trolleys or pneumatic transmission systems, China has the characteristics of large mobility of personnel in hospitalization and high material transportation demand, and the foreign hospital logistics technology is completely introduced and cannot meet the requirements of domestic hospitals.

Chinese patent document CN201420853633.2 discloses a medical box type logistics conveying structure suitable for hospital logistics, which comprises a vertical conveying sorting device, a horizontal conveying device and a conveying article carrier, wherein the vertical conveying sorting device is provided with landing doors on each floor, and the horizontal conveying device is vertically connected with the vertical conveying sorting device on each landing door.

Among the above-mentioned technical scheme, realize the goods at the inside three-dimensional transmission of hospital through carrying letter sorting equipment perpendicularly, realize the transportation of goods in the plane through horizontal conveying equipment, but have some goods in the logistics transportation because various factors need in time take out or goods receiving department is difficult to accept the goods, lead to hospital's logistics system to be taken by the problem goods, influence the transportation of other goods, prior art has the improvement part.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem, the utility model provides an intelligence access arrangement leaves the goods in the access station through reciprocal hoist mechanism, and the goods in the access station is carried appointed goods to going out the box mouth according to the demand, and when the goods is difficult to accept to the problem goods or acceptance department, the goods leaves the access station in, avoids influencing hospital logistics system's normal operation, improves the validity of commodity circulation transportation.

In order to achieve the above purpose, the technical scheme of the utility model is as follows: the utility model provides an intelligence access arrangement, including transmission device, transmission device is including the reciprocal hoist mechanism of vertical setting, the one end of reciprocal hoist mechanism is provided with into the case mouth, and the other end is provided with the access station, the access station has a plurality of layers of depositing that are used for placing the goods, reciprocal hoist mechanism is in including the delivery track, the slip setting of vertical setting delivery platform on the delivery track and being used for control delivery platform's elevating system, it is a plurality of deposit the layer and follow delivery track transmission direction sets gradually, deposit the layer including with the delivery track of delivery platform butt joint, still be provided with out the case mouth on the reciprocal hoist mechanism.

Through adopting above-mentioned technical scheme, in the goods of transmission got into intelligent access arrangement through the income case mouth in the logistics system, intelligent access arrangement deposited the in situ according to logistics system's state with the goods of difference, influence hospital logistics system's normal operation when avoiding problem goods or accepting the department and being difficult to accept the goods, improved logistics system moving validity.

The utility model discloses further set up to: and one side of the storage layer, which is far away from the carrying platform, is provided with a rejecting opening in a sealing way or a rejecting opening.

By adopting the technical scheme, the storage layer which is sealed and arranged is used for receiving goods which are difficult to receive, the storage layer which is provided with the rejection port is used for taking out problem goods by an operator, the problem goods are timely picked out, the problem goods are reduced to occupy a logistics system, and the transmission effectiveness of the logistics system is improved.

The utility model discloses further set up to: the box outlet and the storage layer are oppositely arranged on two sides of the carrying track.

Through adopting above-mentioned technical scheme, make the goods of keeping in depositing the in situ can be quick pass through out the case mouth from depositing the layer.

The utility model discloses further set up to: the carrying track is including two slide bodies along vertical direction parallel arrangement, be provided with along self length direction interval on the slide body and be used for keeping the parallel connecting piece of slide body, the connecting piece is including following the supporting part that carrying track width direction set up and the joint portion that the supporting part both ends set up, joint portion partly surrounds the slide body, two the sliding tray has been seted up on the opposite face of slide body, the cross-section of slide body is U style of calligraphy structure, the carrying platform with sliding tray sliding fit.

Through adopting above-mentioned technical scheme, the connecting piece passes through joint portion and partly surrounds the slide body fixedly, guarantees that the slide body can not take place to rotate in joint portion, prescribes a limit to the interval of two joint portion internal fixation slide bodies simultaneously through the supporting part, makes between the two slide bodies keep parallel, guarantees the stability of carrying platform at the lift in-process.

The utility model discloses further set up to: the carrying platform comprises a roller assembly arranged in the sliding groove in a rolling mode, the roller assembly comprises a first roller and a second roller, the two axial directions of the first roller and the second roller are perpendicular to each other, the first roller abuts against the bottom surface of the sliding groove, and the second roller abuts against the side surface of the sliding groove.

Through adopting above-mentioned technical scheme, the delivery platform passes through roller train and slide body cooperation, promotes the functioning speed of delivery platform on the delivery track, and the first gyro wheel that sets up along delivery track thickness direction can restrict the cooperation and can promote the delivery platform at operation in-process stationarity greatly along the second gyro wheel that the width direction of delivery track set up, avoids the goods on the delivery platform to take place to drop.

The utility model discloses further set up to: the carrying platform comprises a carrying seat matched with a carrying track, wherein the carrying seat is provided with a plurality of carrying rollers which are sequentially arranged and a first guide strip at two ends of each carrying roller, and the carrying rollers are all located in the length interval of the first guide strip.

Through adopting above-mentioned technical scheme, the carrying platform realizes the entering of goods, go out through the delivery roller on the delivery seat, the first guide strip of setting on the delivery seat can guarantee that the goods moves between two first guide strips, the range of motion of goods on the delivery seat has been restricted on the one hand, avoid the goods to take place to drop, on the other hand plays the guide effect, make the carrying platform can with advance the case mouth, deposit the layer and go out the case mouth butt joint, make the goods pass through into the case mouth fast, deposit the layer and go out the case mouth, improve goods moving speed and the degree of accuracy.

The utility model discloses further set up to: the carrying platform is provided with a first position sensor and a second position sensor which are positioned at two sides of the first guide strip in the length direction, and the middle part of the first guide strip is provided with a third position sensor; when the third position sensor and the first position sensor have signals, the carrying roller rotates towards one side of the second position sensor until the second position sensor generates signals, and when the third position sensor and the second position sensor have signals, the carrying roller rotates towards one side of the first position sensor until the first position sensor generates signals.

Through adopting above-mentioned technical scheme, the traffic direction of goods on the delivery platform can be discerned to first position sensor and second position sensor, and third position sensor can play the effect of feedback regulation, ensures that the goods is located the delivery platform or drives away from the delivery platform, through the intelligent state of goods on the detection delivery platform of first position sensor, second position sensor and the third position sensor that sets up on the delivery platform.

The utility model discloses further set up to: the conveying track comprises a conveying roller and a second guide strip, wherein the conveying roller is arranged corresponding to the carrying roller, and the second guide strip is in butt joint with the first guide strip.

Through adopting above-mentioned technical scheme, the second guide strip that sets up on the transmission track can guide the goods and deposit the intraformational motion, avoids goods movement track to take place crooked and leads to the goods card on the transmission track, and the second guide strip corresponds the setting with first guide strip, guarantees that the goods can deposit quick, accurate transmission between layer and the delivery platform.

The utility model discloses further set up to: the carrying track is provided with a plurality of positioning sensors which are arranged in one-to-one correspondence with the storage layers, and the carrying platform sends signals through the positioning sensors corresponding to the current storage layers when the storage layers pass.

Through adopting above-mentioned technical scheme, guarantee that the delivery platform can deposit the layer with the appointed and dock fast, realize the access of goods, avoid the goods because the striking that highly inconsistent takes place or drop in the access process, improve the stationarity of goods in the transportation greatly.

The utility model discloses further set up to: the positioning sensors are arranged in pairs and comprise an uplink sensor and a downlink sensor, and the carrying platform stops moving when passing through the uplink sensor corresponding to the target storage layer in the ascending process; and when the carrying platform passes through the descending sensor corresponding to the target storage layer in the descending process, the carrying platform stops moving.

By adopting the technical scheme, the load borne by the reciprocating lifting mechanism of the carrying platform in the ascending and descending processes is different, the load borne by the reciprocating lifting mechanism of the carrying platform in the descending process is smaller than the load borne by the carrying platform in the ascending process, so the moving speed of the carrying platform in the ascending and descending processes is also different, the positioning sensor has a certain delay from the signal received to the stop of the carrying platform, the carrying platform can be accurately butted with the storage layer in the ascending or descending process through the uplink sensor and the downlink sensor, and the goods can be smoothly transferred between the storage layer and the carrying platform.

To sum up, the utility model discloses following technological effect has:

1. goods can be stored in the access station through the turnover of the reciprocating lifting mechanism, the goods in the access station can convey the specified goods to the box outlet according to the requirements, and when the goods have problems or the goods are difficult to be accepted at the accepting position, the goods are stored in the access station, so that the normal operation of a hospital logistics system is prevented from being influenced, and the effectiveness of logistics transportation is improved;

2. the carrying platform can enable goods to rapidly and accurately pass through the box inlet, the storage layer and the box outlet, and the goods handling capacity of the intelligent storing and taking device is improved through rapid operation on the carrying track;

3. the positioning sensors arranged in pairs can obtain a high-precision positioning effect with low cost, so that the positioning accuracy in the lifting process of the carrying platform is improved, and the cost investment is reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the embodiments or the description of the prior art will be briefly described below.

FIG. 1 is a schematic diagram of an overall structure of an intelligent access device;

FIG. 2 is a schematic view of the internal structure of the reciprocal lifting mechanism and the access station;

FIG. 3 is a schematic structural view of a reciprocating lift mechanism;

FIG. 4 is a schematic view of a fixing structure of the connecting member and the chute body;

FIG. 5 is a schematic view of the engagement of the carrying platform with the slide body;

FIG. 6 is a schematic structural view of the carrying platform;

fig. 7 is a schematic position diagram of the position sensor.

In the figure: 1. a reciprocating lift mechanism; 11. a carrying track; 111. a slideway body; 1111. a sliding groove; 112. a connecting member; 1121. a support portion; 1122. a clamping part; 12. a lifting mechanism; 13. a carrying platform; 131. a carrier base; 132. a carrying roller; 133. a first guide bar; 134. a roller assembly; 1341. a first roller; 1342. a second roller; 2. an access station; 21. a box body; 22. a storage layer; 23. a transfer track; 231. a transfer roller; 232. a second guide bar; 24. a rejection port; 3. a box inlet; 4. a box outlet; 5. a first position sensor, 6, a second position sensor; 7. a third position sensor; 8. a positioning sensor; 81. an uplink sensor; 82. and a downlink sensor.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, an intelligent storing and taking device, including a transmission device, the transmission device includes a reciprocating lifting mechanism 1 of vertical setting, one end of the reciprocating lifting mechanism 1 is provided with a box inlet 3, the other side is provided with a storing and taking station 2, the storing and taking station 2 is provided with a plurality of storage layers 22 for placing goods, the reciprocating lifting mechanism 1 includes a carrying track 11 of vertical setting, a carrying platform 13 of sliding setting on the carrying track 11 and a lifting mechanism 12 for controlling the carrying platform 13, the plurality of storage layers 22 are arranged in sequence along the transmission direction of the carrying track 11, the storage layers 22 include a transmission track 23 butted with the carrying platform 13, one side of the storage layers 22 far away from the carrying platform 13 is sealed and provided with a rejection port 24, and the reciprocating lifting mechanism 1 is further provided with a box outlet 4. The box exit 4 is provided on both sides of the carrying rail 11 opposite to the storage level 22.

Referring to fig. 3, 4 and 5, the carrying rail 11 includes two slide rail bodies arranged in parallel along the vertical direction, the slide rail body is provided with a connecting member 112 arranged in parallel along the length direction thereof, the connecting member 112 includes a supporting portion 1121 arranged along the width direction of the carrying rail 11 and a clamping portion 1122 arranged at two ends of the supporting portion 1121, the clamping portion 1122 surrounds the slide rail body, a sliding groove 1111 is formed on the opposite surface of the two slide rail bodies 111, and the carrying platform 13 is in sliding fit with the sliding groove 1111. The carrying platform 13 includes a roller assembly 134 rolling in the sliding groove 1111, the roller assembly 134 includes a first roller 1341 and a second roller 1342, two axes of which are perpendicular to each other, the opposite surfaces of the two sliding grooves 1111 are referred to as the bottom surface of the sliding groove 1111, both sides of the bottom surface of the sliding groove 1111 are referred to as the side surfaces of the sliding groove 1111, the first roller 1341 abuts against the bottom surface of the sliding groove 1111, and the second roller 1342 abuts against the side surfaces of the sliding groove 1111.

As shown in fig. 6, the carrying platform 13 includes a carrying seat 131 engaged with the carrying rail 11, the carrying seat 131 is provided with a plurality of carrying rollers 132 arranged in sequence and first guide bars 133 disposed at two ends of the carrying rollers 132, and the plurality of carrying rollers 132 are located in a length interval of the first guide bars 133. The carrying platform 13 is provided with a first position sensor 5 and a second position sensor 6 which are positioned at two sides of the first guide strip 133 in the length direction, and the middle part of the first guide strip 133 is provided with a third position sensor 7; when the third position sensor 7 and the first position sensor 5 have signals, the carrying roller 132 rotates toward the second position sensor 6 until the second position sensor 6 generates a signal, and when the third position sensor 7 and the second position sensor 6 have signals, the carrying roller 132 rotates toward the first position sensor 5 until the first position sensor 5 generates a signal.

The access station 2 comprises a box body 21, and the transmission track 23 comprises a transmission roller 231 arranged corresponding to the carrying roller 132 and a second guide strip 232 arranged in butt joint with the first guide strip 133; in order to facilitate the movement of the goods on the transmission track 23 and the carrying platform 13 in the scheme, the carrying roller 132 and the transmission roller 231 are electric drums and can also be composed of the electric drums and driven drums, and 3-4 driven drums are arranged between the two electric drums.

As shown in fig. 7, the carrying track 11 is provided with positioning sensors 8 corresponding to the plurality of storage levels 22, and the positioning sensors 8 corresponding to the current storage level 22 send signals when the carrying platform 13 passes through the storage level 22.

The positioning sensors 8 are arranged in pairs and comprise an uplink sensor 81 and a downlink sensor 82, and the carrying platform 13 stops moving when the carrying platform 13 passes through the uplink sensor 81 corresponding to the target storage layer 22 in the ascending process; the movement of the carrying platform 13 is stopped when the carrying platform 13 passes the descending sensor 82 corresponding to the target storage level 22 during the descending process.

The specific implementation process comprises the following steps:

goods transmitted in the logistics system enter the intelligent access device through the box inlet 3, and the intelligent access device marks different goods according to the state of the logistics system.

For the goods with the marks capable of being directly transmitted, the carrying platform 13 directly transmits the goods from one side of the box inlet 3 to one side of the box outlet 4, so that the goods are directly transmitted continuously through the logistics system;

for the goods marked to be temporarily stored, the carrying platform 13 transfers the goods from one side of the box inlet 3 to the corresponding storage layer 22, the goods enter the storage layer 22 from the carrying platform 13 for temporary storage, and the goods are taken out from the access station 2 and flow out through the box outlet 4 until the downstream of the access station 2 can receive the goods;

when marked goods need to be removed, the carrying platform 13 transports the goods to the storage layer 22 with the removing opening 24, and operators can take the goods out through the removing opening 24, so that the occupation of the logistics system by the problem goods is reduced;

influence hospital logistics system's normal operation when can avoiding problem goods or accepting the department and be difficult to accept the goods through set up intelligent access device in logistics system, improve logistics system moving validity.

It should be noted that, for those skilled in the art, without departing from the inventive concept, several variations and modifications can be made, which are within the scope of the present invention.

Claims (10)

1. An intelligent access device comprises a transmission device, and is characterized in that the transmission device comprises a reciprocating lifting mechanism (1) which is vertically arranged, one end of the reciprocating lifting mechanism (1) is provided with a box inlet (3), the other end is provided with a storage and taking station (2), the access station (2) is provided with a plurality of storage layers (22) for placing cargos, the reciprocating lifting mechanism (1) comprises a vertically arranged carrying track (11), a carrying platform (13) which is arranged on the carrying track (11) in a sliding way and a lifting mechanism (12) for controlling the carrying platform (13), the plurality of storage layers (22) are sequentially arranged along the transmission direction of the carrying track (11), the storage layer (22) comprises a transmission track (23) which is in butt joint with the carrying platform (13), and the reciprocating lifting mechanism (1) is further provided with a box outlet (4).

2. The intelligent access device according to claim 1, wherein a side of the storage layer (22) away from the carrying platform (13) is provided with a closed or opened rejection opening (24).

3. The intelligent access device according to claim 1, wherein the box outlet (4) is arranged on both sides of the carrying track (11) opposite to the storage level (22).

4. The intelligent access device according to claim 1, wherein the carrying rail (11) comprises two sliding rail bodies (111) arranged in parallel along a vertical direction, the sliding rail bodies (111) are provided with connecting pieces (112) arranged along a length direction of the sliding rail bodies (111) at intervals for keeping the sliding rail bodies (111) parallel, each connecting piece (112) comprises a supporting portion (1121) arranged along a width direction of the carrying rail (11) and clamping portions (1122) arranged at two ends of the supporting portion (1121), each clamping portion (1122) semi-surrounds the corresponding sliding rail body (111), sliding grooves (1111) are formed in opposite surfaces of the two sliding rail bodies (111), the cross section of each sliding rail body (111) is of a U-shaped structure, and the carrying platform (13) is in sliding fit with the corresponding sliding grooves (1111).

5. The smart storage device as claimed in claim 4, wherein the carrying platform (13) comprises a roller assembly (134) rolling and disposed in the sliding slot (1111), the roller assembly (134) comprises a first roller (1341) and a second roller (1342) having two axes perpendicular to each other, the first roller (1341) abuts against the bottom surface of the sliding slot (1111), and the second roller (1342) abuts against the side surface of the sliding slot (1111).

6. An intelligent accessing device according to claim 1, 4 or 5, wherein the carrying platform (13) comprises a carrying seat (131) matched with the carrying track (11), the carrying seat (131) is provided with a plurality of carrying rollers (132) arranged in sequence and first guide strips (133) arranged at two ends of the carrying rollers (132), and the plurality of carrying rollers (132) are all located in a length section of the first guide strips (133).

7. The intelligent access device according to claim 6, wherein the carrying platform (13) is provided with a first position sensor (5) and a second position sensor (6) which are positioned at both sides of the first guide strip (133) in the length direction, and a third position sensor (7) is arranged in the middle of the first guide strip (133); when the third position sensor (7) and the first position sensor (5) have signals, the carrying roller (132) rotates towards one side of the second position sensor (6) until the second position sensor (6) generates signals, and when the third position sensor (7) and the second position sensor (6) have signals, the carrying roller (132) rotates towards one side of the first position sensor (5) until the first position sensor (5) generates signals.

8. The intelligent access device according to claim 6, wherein the access station (2) comprises a box (21), and the conveying track (23) comprises a conveying roller (231) corresponding to the carrying roller (132) and a second guide bar (232) abutting against the first guide bar (133).

9. The intelligent access device according to claim 1, wherein the carrying track (11) is provided with positioning sensors (8) which are arranged in one-to-one correspondence with the plurality of storage layers (22), and the positioning sensors (8) corresponding to the current storage layer (22) send signals when the carrying platform (13) passes through the storage layer (22).

10. The intelligent access device according to claim 9, wherein the positioning sensors (8) are arranged in pairs comprising an up sensor (81) and a down sensor (82), and the carrying platform (13) stops moving when the carrying platform (13) passes the up sensor (81) corresponding to the target storage level (22) during ascending; the carrying platform (13) stops moving when the carrying platform (13) passes through a descending sensor (82) corresponding to the target storage layer (22) in the descending process.

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