CN203246773U - Cartesian coordinate robot and medical consumable storage bin - Google Patents

Abstract

The utility model discloses a Cartesian coordinate robot and a medical consumable storage bin. The Cartesian coordinate robot comprises a parallel guide rail system and a vertical guide rail system. The parallel guide rail system comprises a sky rail, a ground rail, a sky rail guide shoe and a ground rail guide shoe, wherein the sky rail and the ground rail are parallelly arranged, the sky rail guide shoe can be driven to move along the sky rail, and the ground rail guide shoe can be driven to move along the ground rail. The vertical guide rail system comprises a first vertical rail, a first vertical rail guide shoe and a second vertical rail guide shoe, wherein the first vertical rail is connected between the sky rail guide shoe and the ground rail guide shoe, the first vertical rail guide shoe and the second vertical rail guide shoe can be driven to move along the first vertical rail, and the first vertical rail guide shoe and the second vertical rail guide shoe are mutually and oppositely fixed. According to the Cartesian coordinate robot, through the parallel guide rail system and the vertical guide rail system which are matched, the first vertical rail guide shoe and the second vertical rail guide shoe which can be mutually fixedly matched are arranged on the first vertical rail, and after a mechanical hand for storing medical consumables or drugs is connected with the first vertical rail guide shoe and the second vertical rail guide shoe on the vertical guide rail system, the consumables and dugs can be transported among different storage positions under the condition of small driving power.

Description

Rectangular robot and medical disposable material thesaurus

Technical field

The utility model belongs to manufacture technology field of medical appliance, the medical disposable material thesaurus that is specifically related to a kind of rectangular robot and has this rectangular robot.

Background technology

Automatic dispensary is in the world in hospital, and the proven technique in pharmacy operation field, now obtains comparatively general application in global developed country.This technology is by artificial intelligence and machine transmission media, can greatly improve the efficient of medicine and medical disposable material accumulating, reduce error rate, the area of business of saves valuable, then cause reproducing of operation flow, bring the transformation of management style and the upgrading of operation mode.

Little by little, the pharmacy degree of automation has become an important indicator weighing hospital's operation level, in the prior art, the discrepancy library storage apparatus of some consumptive materials is provided, and this class apparatus need to provide higher propulsive effort to guarantee the transportation of consumptive material between the differing heights storage location usually, and common way provides enough high-power actuating devices, to satisfy the demands, but obviously, cross high-power actuating device and can bring larger operating noise, affect the experience of product.

The utility model content

One of the purpose of this utility model is to provide a kind of rectangular robot, and the actuating device of its demand smaller power can be realized the transportation of consumptive material between the differing heights storage location.

The purpose of this utility model also is to provide a kind of medical disposable material thesaurus.

For realizing one of above-mentioned utility model purpose, the utility model provides a kind of rectangular robot, comprising:

Closed slide system, described closed slide system comprise that the sky rail that is set parallel to each other and ground rail, the sky rail that can be drivenly move along described day rail lead boots, can lead boots along the ground rail that described ground rail moves drivenly;

The upright guide rail system, described upright guide rail system comprises and is connected to that described day rail led boots and described ground rail is led the perpendicular rail of first between the boots, can move along the described first perpendicular rail the first perpendicular rail is led boots and the second perpendicular rail is led boots drivenly, and the described first perpendicular rail is led boots and described second and erected rail to lead boots fixed relative to one another.

As further improvement of the utility model, described upright guide rail system comprises that also being connected to described day rail led boots and described ground rail is led the perpendicular rail of second between the boots, can move along the described second perpendicular rail drivenly the 3rd perpendicular rail leads boots and the 4th and erect rail and lead boots, the described the 3rd perpendicular rail is led boots and the described the 4th perpendicular rail, and to lead boots fixed relative to one another, and it is parallel that the described first perpendicular rail and described second erects rail.

As further improvement of the utility model, the described first perpendicular rail is led boots, the second perpendicular rail and is led boots, the 3rd perpendicular rail and lead boots and the 4th perpendicular rail and lead boots and link each other.

As further improvement of the utility model, described day rail system also comprises and drives the first servomotor that described day rail led boots, described the first servomotor and described day rail are led and are connected with Timing Belt between boots, described ground rail system also comprises and drives the second servomotor that described ground rail is led boots, and described the second servomotor and described ground rail are led and be connected with Timing Belt between boots.

As further improvement of the utility model, described the first servomotor and described the second servomotor also are connected with respectively reductor, and described the first servomotor and described the second servomotor are respectively by the toothed belt transmission of reductor to correspondence.

For realizing above-mentioned another utility model purpose, the utility model provides a kind of medical disposable material thesaurus, comprises that be used to the rectangular robot that transports out the warehouse-in consumptive material, described rectangular robot comprises:

Closed slide system, described closed slide system comprise that the sky rail that is set parallel to each other and ground rail, the sky rail that can be drivenly move along described day rail lead boots, can lead boots along the ground rail that described ground rail moves drivenly;

The upright guide rail system, described upright guide rail system comprises and is connected to that described day rail led boots and described ground rail is led the perpendicular rail of first between the boots, can move along the described first perpendicular rail the first perpendicular rail is led boots and the second perpendicular rail is led boots drivenly, and the described first perpendicular rail is led boots and described second and erected rail to lead boots fixed relative to one another.

As further improvement of the utility model, described upright guide rail system comprises that also being connected to described day rail led boots and described ground rail is led the perpendicular rail of second between the boots, can move along the described second perpendicular rail drivenly the 3rd perpendicular rail leads boots and the 4th and erect rail and lead boots, the described the 3rd perpendicular rail is led boots and the described the 4th perpendicular rail, and to lead boots fixed relative to one another, and it is parallel that the described first perpendicular rail and described second erects rail.

As further improvement of the utility model, the described first perpendicular rail is led boots, the second perpendicular rail and is led boots, the 3rd perpendicular rail and lead boots and the 4th perpendicular rail and lead boots and link each other.

As further improvement of the utility model, described day rail system also comprises and drives the first servomotor that described day rail led boots, described the first servomotor and described day rail are led and are connected with Timing Belt between boots, described ground rail system also comprises and drives the second servomotor that described ground rail is led boots, and described the second servomotor and described ground rail are led and be connected with Timing Belt between boots.

As further improvement of the utility model, described the first servomotor and described the second servomotor also are connected with respectively reductor, and described the first servomotor and described the second servomotor are respectively by the toothed belt transmission of reductor to correspondence.

Compared with prior art, the rectangular robot that the utility model provides, by closed slide system and the upright guide rail system that is equipped with, and can cooperation the first perpendicular rail fixed to one another lead boots and the second perpendicular rail is led boots the first perpendicular rail setting, the first perpendicular rail in manipulator and the upright guide rail system deposited of medical disposable material or medicine is led boots and is connected perpendicular rail and leads after boots are connected, under the condition of the less driving power of demand, realize consumptive material, the transportation of medicine between the differing heights storage location.

Description of drawings

Fig. 1 is the structural scheme of mechanism of the utility model rectangular robot one embodiment;

Fig. 2 is the enlarged diagram of the interior part-structure of dotted line frame among Fig. 1;

Fig. 3 is the structural representation on the another visual angle of the utility model rectangular robot.

The specific embodiment

Below with reference to the specific embodiment shown in the drawings the utility model is described in detail.But these embodiments do not limit the utility model, and the conversion on the structure that those of ordinary skill in the art makes according to these embodiments, method or the function all is included in the protection domain of the present utility model.

It will be appreciated that, " first " mentioned in the embodiment below, " second " do not represent the absolute differentiation relation on any structure or the function, and only are clear easy for what describe.

Cooperation is introduced a specific embodiment of the utility model rectangular robot referring to figs. 1 through Fig. 3.In the present embodiment, this rectangular robot 100 comprises horizontal guide rail system (not indicating) and upright guide rail system (not indicating).

The closed slide system comprises the sky rail 11 that is set parallel to each other and ground rail 12, can be drivenly leads boots 111 and the ground rail that can move along ground rail 12 is led boots 121 along the sky rail that day rail 11 move drivenly.The upright guide rail system comprises that being connected to day rail is led boots 111 and the ground rail is led the perpendicular rail 21 of first between the boots 121, can move along the first perpendicular rail 21 drivenly the first perpendicular rail leads boots 211 and the second perpendicular rail and lead boots 212, the first perpendicular rails and lead boots 211 and the described second perpendicular rail to lead boots 212 fixed relative to one another.That is to say, boots 211 led by the first perpendicular rail that driver train 33 can drive cooperation simultaneously and the second perpendicular rail is led boots 212, and the larger bearing capacity of motion on the vertical direction is provided, and has in a disguised form reduced the power demand of driver train.

In the present embodiment, the upright guide rail system also comprises and is connected to that day rail is led boots 111 and the ground rail is led the perpendicular rail 22 of second between the boots 121, can move along the described second perpendicular rail 22 the 3rd perpendicular rail is led boots 221 and the 4th perpendicular rail is led boots 222 drivenly, the 3rd perpendicular rail is led boots 221 and the 4th perpendicular rail, and to lead boots 222 fixed relative to one another, and this second perpendicular rail 22 is parallel to the first perpendicular rail 21, the first perpendicular rails leads boots 211, the second perpendicular rail and leads boots 212, the 3rd perpendicular rail and lead boots 221 and the 4th perpendicular rail and lead boots 222 and link each other.Here, ordinatedly, a day rail is led boots 111 and ground rail and is led boots 121 and include respectively two installation sites, to cooperate installation with the first perpendicular rail 21 and the second perpendicular rail 22.

First of interlock the perpendicular rail is led boots 211, the second perpendicular rail and is led boots 212, the 3rd perpendicular rail and lead boots 221 and the 4th perpendicular rail and lead boots 222 and can for example be used for cooperating and carry robotic device each other, be applied in the medical disposable material thesaurus, realize the discrepancy library storage of medical disposable material, and provide lift-launch equipment thereon larger hoisting force, and compared to the rectangular robot 100 that a perpendicular rail only is set leads boots, have more pulsation-free application force, and accurate positioning.

As preferred embodiment, the leading on boots and the second perpendicular rail 22 of leading on the first perpendicular rail 21 is combined with transmission device 50 between the boots, like this, only need to be by driving wherein the arbitrarily a pair of boots of leading, transmission by transmission device 50, can realize that all lead the driven in synchronism of boots, avoid arranging too much driver train, simplify product structure.In the present embodiment, this transmission device 50 comprises transmission shaft.

In the present embodiment, the rail system also comprised and drove the first servomotor 31 that day rail is led boots 111 this day, this first servomotor 31 and a day rail are led 111 in boots and are connected with Timing Belt, this ground rail system also comprises and drives the second servomotor 32 that the ground rail is led boots 121, and this second servomotor 32 and ground rail are led 121 in boots and be connected with Timing Belt.The sky rail is led boots 111 and ground rail lead boots 121 and provide respectively servomotor can guarantee that to drive day rail is led the motion of boots 111 on sky rail 11 and the ground rail is led boots 121 in the conformability of ground rail 12 motions, guarantee to be arranged at that day rail is led boots 111 and the ground rail is led the reliable of the perpendicular rail 21 of first between the boots 121 and the second perpendicular rail 22 motions.Should be understood that, in the embodiment of some conversion, can by similarly the sky rail lead boots 111 and ground rail lead connection for transmission device between the boots 121, only to need to realize to the sky rail leads that boots 111 and ground rail lead boots 121 one of them that propulsive effort is provided, and then driving wherein another common mobile purpose, this kind embodiment can be regarded as the not spiritual category of unconventional technical solutions of the utility model.

In the present embodiment, be different from prior art, by adopt Timing Belt realize a day rail lead boots 111, rail lead boots 121, the first perpendicular rail and lead boots 211, the second perpendicular rail and lead that boots 212, the 3rd perpendicular rail are led boots 221, the 4th perpendicular rail is led the transmission of boots 222, compared to adopting the transmission devices 50 such as tooth bar, chain, have less operating noise, and precision is higher.

It is worth mentioning that, the first servomotor 31 and the second servomotor 32 also are connected with respectively reductor, and the first servomotor 31 and the second servomotor 32 are respectively by the toothed belt transmission of reductor to correspondence.In the production application of reality, rectangular robot 100 does not need to carry out too rapidly the operation that warehouse-in of medical disposable material, the steady reliability of the standard of primarily considering or operationies on incoming and outgoing inventory, and performance accuracy.Therefore by reductor is set, can in reduction of speed, improve output torque, and reduce the inertia of the medical disposable material of load.

And, preferably, lead also to be equipped with limit sensors 60 on the boots at any one perpendicular rail, be used for preventing that perpendicular rail from leading the overexercise of boots on corresponding perpendicular rail, avoid the damage of rectangular robot 100.

The medical disposable material thesaurus that the utility model provides, by adopting the rectangular robot 100 of introducing in the above-mentioned embodiment, can finish precisely, efficiently the discrepancy library storage of medical disposable material, improve the degree of automation in pharmacy, wherein the concrete structure about rectangular robot 100 elaborates in the above-described embodiment, again repeats no more.

The utility model is by above-mentioned embodiment, has following beneficial effect: the rectangular robot 100 that the utility model provides, by closed slide system and the upright guide rail system that is equipped with, and arrange at the first perpendicular rail 21 and can cooperation the first perpendicular rail fixed to one another to lead boots 211 and the second perpendicular rail is led boots 212, the first perpendicular rail in manipulator and the upright guide rail system deposited of medical disposable material or medicine is led boots 211 and is connected perpendicular rail and leads after boots 212 are connected, under the condition of the less driving power of demand, realize consumptive material, the transportation of medicine between the differing heights storage location.

Be to be understood that, although this specification sheets is described according to embodiment, but be not that each embodiment only comprises an independently technical scheme, this narrating mode of specification sheets only is for clarity sake, those skilled in the art should make specification sheets as a whole, technical scheme in each embodiment also can through appropriate combination, form other embodiments that it will be appreciated by those skilled in the art that.

Above listed a series of detailed description only is specifying for feasibility embodiment of the present utility model; they are not to limit protection domain of the present utility model, allly do not break away from equivalent embodiment or the change that the utility model skill spirit does and all should be included within the protection domain of the present utility model.

Claims (10)

1. a rectangular robot is characterized in that, comprising:

Closed slide system, described closed slide system comprise that the sky rail that is set parallel to each other and ground rail, the sky rail that can be drivenly move along described day rail lead boots, can lead boots along the ground rail that described ground rail moves drivenly;

The upright guide rail system, described upright guide rail system comprises and is connected to that described day rail led boots and described ground rail is led the perpendicular rail of first between the boots, can move along the described first perpendicular rail the first perpendicular rail is led boots and the second perpendicular rail is led boots drivenly, and the described first perpendicular rail is led boots and described second and erected rail to lead boots fixed relative to one another.

2. rectangular robot according to claim 1, it is characterized in that, described upright guide rail system comprises that also being connected to described day rail led boots and described ground rail is led the perpendicular rail of second between the boots, can move along the described second perpendicular rail drivenly the 3rd perpendicular rail leads boots and the 4th and erect rail and lead boots, the described the 3rd perpendicular rail is led boots and the described the 4th perpendicular rail, and to lead boots fixed relative to one another, and it is parallel that the described first perpendicular rail and described second erects rail.

3. rectangular robot according to claim 2 is characterized in that, the described first perpendicular rail is led boots, the second perpendicular rail and led boots, the 3rd perpendicular rail and lead boots and the 4th perpendicular rail and lead boots and link each other.

4. rectangular robot according to claim 1, it is characterized in that, described day rail system also comprises and drives the first servomotor that described day rail led boots, described the first servomotor and described day rail are led and are connected with Timing Belt between boots, described ground rail system also comprises and drives the second servomotor that described ground rail is led boots, and described the second servomotor and described ground rail are led and be connected with Timing Belt between boots.

5. rectangular robot according to claim 4, it is characterized in that, described the first servomotor and described the second servomotor also are connected with respectively reductor, and described the first servomotor and described the second servomotor are respectively by the toothed belt transmission of reductor to correspondence.

6. a medical disposable material thesaurus comprises be used to the rectangular robot that transports out the warehouse-in consumptive material, it is characterized in that, described rectangular robot comprises:

Closed slide system, described closed slide system comprise that the sky rail that is set parallel to each other and ground rail, the sky rail that can be drivenly move along described day rail lead boots, can lead boots along the ground rail that described ground rail moves drivenly;

The upright guide rail system, described upright guide rail system comprises and is connected to that described day rail led boots and described ground rail is led the perpendicular rail of first between the boots, can move along the described first perpendicular rail the first perpendicular rail is led boots and the second perpendicular rail is led boots drivenly, and the described first perpendicular rail is led boots and described second and erected rail to lead boots fixed relative to one another.

7. medical disposable material thesaurus according to claim 6, it is characterized in that, described upright guide rail system comprises that also being connected to described day rail led boots and described ground rail is led the perpendicular rail of second between the boots, can move along the described second perpendicular rail drivenly the 3rd perpendicular rail leads boots and the 4th and erect rail and lead boots, the described the 3rd perpendicular rail is led boots and the described the 4th perpendicular rail, and to lead boots fixed relative to one another, and it is parallel that the described first perpendicular rail and described second erects rail.

8. medical disposable material thesaurus according to claim 7 is characterized in that, the described first perpendicular rail is led boots, the second perpendicular rail and led boots, the 3rd perpendicular rail and lead boots and the 4th perpendicular rail and lead boots and link each other.

9. medical disposable material thesaurus according to claim 6, it is characterized in that, described day rail system also comprises and drives the first servomotor that described day rail led boots, described the first servomotor and described day rail are led and are connected with Timing Belt between boots, described ground rail system also comprises and drives the second servomotor that described ground rail is led boots, and described the second servomotor and described ground rail are led and be connected with Timing Belt between boots.

10. medical disposable material thesaurus according to claim 9, it is characterized in that, described the first servomotor and described the second servomotor also are connected with respectively reductor, and described the first servomotor and described the second servomotor are respectively by the toothed belt transmission of reductor to correspondence.

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