CN110604851A - A erection equipment and infusion system for placing infusion pump - Google Patents

Abstract

The invention discloses a mounting device for placing an infusion pump, comprising: the kit is provided with a cavity for inserting an infusion pump, and the front surface of the cavity is provided with an opening for inserting the infusion pump and displaying a screen of the infusion pump; the inner wall of the cavity is provided with an opposite-insertion socket for opposite insertion with the infusion pump; the control box is detachably connected with the plug-in box; a power socket is arranged on the control box or the plug-in box; the infusion pump alarm device is characterized in that an alarm lamp for performing visual alarm when an alarm event occurs to the infusion pump is arranged on the control box, and the alarm lamp is arranged on the front surface and at least one side surface of the control box. According to the installation equipment provided by the invention, when an alarm event occurs to the infusion pump, alarm operation can be realized by the alarm lamps positioned on the front surface and at least one side surface of the control box, so that multi-angle visual alarm can be realized, and a user can find the alarm in time.

Description

A erection equipment and infusion system for placing infusion pump

Technical Field

The invention relates to the technical field of medical equipment, in particular to mounting equipment for placing an infusion pump and an infusion system.

Background

In a medical system, due to space limitations and convenience of operation, it is often necessary to centrally mount infusion pumps on mounting devices that have a function of monitoring the status of the device in order to alarm when the device is in an undesirable state. However, the current alarm has an angle which is not convenient for operators to perceive, and the operation of timely alarm cannot be realized.

Disclosure of Invention

In view of the above, embodiments of the present invention provide a mounting device for placement of an infusion pump to facilitate multi-directional alarm operation. The invention also provides a transfusion system.

Embodiments of the invention provide

A mounting device for placement of an infusion pump, comprising:

the kit is provided with a cavity for inserting an infusion pump, and the front surface of the cavity is provided with an opening for inserting the infusion pump and displaying a screen of the infusion pump;

the inner wall of the cavity is provided with an opposite-insertion socket for opposite insertion with the infusion pump;

the control box is detachably connected with the plug-in box;

a power socket is arranged on the control box or the plug-in box;

the infusion pump alarm device is characterized in that an alarm lamp for performing visual alarm when an alarm event occurs to the infusion pump is arranged on the control box, and the alarm lamp is arranged on the front surface and at least one side surface of the control box.

Another embodiment of the present invention also provides a mounting device for placement of an infusion pump, comprising:

the infusion pump module comprises a plug-in box, a support beam and a plurality of infusion pumps, wherein the plug-in box is provided with a cavity for inserting the infusion pumps, the front surface of the cavity is provided with an opening for inserting the infusion pumps and displaying a screen of the infusion pumps, and the support beam is arranged in the cavity and divides the cavity into unit cavities for accommodating the single infusion pumps; the top surface of the support beam is a support surface contacted with the infusion pump, and the end of the support beam facing the front surface of the cavity is a round angle or a chamfer angle; the inner wall of the cavity is provided with an opposite-insertion socket for opposite insertion with the infusion pump;

the control box is detachably connected with the plug-in box; a power socket is arranged on the control box or the plug-in box; the control box is provided with an alarm lamp for visual alarm when the infusion pump generates an alarm event.

Embodiments of the present invention further provide a mounting device for placing an infusion pump, including:

the infusion pump module comprises a plug-in box, a support beam and a plurality of infusion pumps, wherein the plug-in box is provided with a cavity for inserting the infusion pumps, the front surface of the cavity is provided with an opening for inserting the infusion pumps and displaying a screen of the infusion pumps, and the support beam is arranged in the cavity and divides the cavity into unit cavities for accommodating the single infusion pumps;

the top surface of the support beam is a support surface contacted with the infusion pump, and the end of the support beam facing the front surface of the cavity is a round angle or a chamfer angle; the inner wall of the cavity is provided with an opposite-insertion socket for opposite insertion with the infusion pump;

the control box is detachably connected with the plug-in box;

a power socket is arranged on the control box or the plug-in box;

the infusion pump alarm device is characterized in that an alarm lamp for performing visual alarm when an alarm event occurs to the infusion pump is arranged on the control box, and the alarm lamp is arranged on the front surface and at least one side surface of the control box.

An infusion system is further provided in an embodiment of the present invention, comprising a mounting device according to any one of claims 1-23 and an infusion pump mounted on the mounting device.

According to the technical scheme, the mounting equipment provided by the embodiment of the invention has the advantages that the alarm lamps are arranged on at least the front surface and at least one side surface of the control box, when the infusion pump generates an alarm event, the alarm lamps on the front surface and at least one side surface of the control box can realize alarm operation, so that multi-angle visual alarm can be realized, and a user can find the alarm conveniently in time. In addition, through setting up a supporting beam and infusion pump bottom fixed connection for the shell of infusion pump can keep integrality, also can make things convenient for the user to insert the infusion pump, and is swift and smooth and easy.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a first schematic view of a mounting apparatus in an embodiment of the invention;

FIG. 2 is an exploded schematic view of a mounting apparatus in an embodiment of the invention;

FIG. 3 is a first schematic view of a control box in an embodiment of the invention;

FIG. 4 is a second schematic view of a control box in an embodiment of the invention;

FIG. 5 is a partial front view of a control box in an embodiment of the present invention;

FIG. 6 is a partial top view of a control box in an embodiment of the present invention;

FIG. 7 is a partial cross-sectional view of a control box in an embodiment of the present invention;

FIG. 8 is a schematic view of the interior of a control box in an embodiment of the invention;

FIG. 9 is a second schematic view of a mounting apparatus in an embodiment of the invention;

FIG. 10 is a diagram of a key assembly according to an embodiment of the present invention;

FIG. 11 is a first schematic side view of a control box in an embodiment of the invention;

FIG. 12 is a schematic top view of a control box in an embodiment of the invention;

FIG. 13 is a second side view of the control box in an embodiment of the present invention;

FIG. 14 is a first schematic view of an embodiment of a card cage of the present invention;

FIG. 15 is a second schematic view of an embodiment of a card cage of the present invention;

FIG. 16 is a third schematic view of an embodiment of a card cage of the present invention;

FIG. 17 is a fourth schematic view of an embodiment of a card cage of the present invention;

FIG. 18 is an enlarged partial schematic view of an embodiment of the card cage of the present invention;

FIG. 19 is an enlarged bottom view of an embodiment of the card cage of the present invention;

FIG. 20 is a schematic front view of a card cage in an embodiment of the invention;

FIG. 21 is an exploded view of an embodiment of the invention;

FIG. 22 is an enlarged side view of an embodiment of the card cage of the present invention;

FIG. 23 is a schematic view of the interior of the housing walls of the control box and the card cage in an embodiment of the invention;

FIG. 24 is a schematic perspective view of an unlocking mechanism in an embodiment of the invention;

FIG. 25 is a side schematic view of an unlocking mechanism in an embodiment of the invention;

FIG. 26 is an exploded view of an unlocking mechanism in an embodiment of the present invention;

FIG. 27 is a schematic view of a first type of slide of the delatch mechanism in an embodiment of the present invention;

FIG. 28 is a schematic view of a second slider assembly of the release mechanism in an embodiment of the present invention;

FIG. 29 is a schematic view of a mounting apparatus in an embodiment of the invention;

FIG. 30 is a first schematic view of an infusion system in an embodiment of the disclosures made herein;

FIG. 31 is a second schematic view of an infusion system in an embodiment of the disclosures made herein;

fig. 32 is a schematic diagram of an apparatus in an embodiment of the invention.

Detailed Description

A mounting device for placement of an infusion pump to facilitate multi-directional alarm operation is disclosed. The invention also provides a transfusion system.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-23, an embodiment of the present invention provides a mounting device for placement of an infusion pump. Wherein the infusion pump may comprise an infusion pump or a syringe pump. The installation equipment includes a card cage 10020 and a control cage 10010. The card housing 10020 has a cavity for inserting the infusion pump 200, and the front surface of the cavity is provided with an opening which facilitates the user to insert the infusion pump and faces the screen of the infusion pump 200. That is, after the infusion pump 200 is installed in the cavity, the screen of the infusion pump 200 and the opening of the cavity face the same direction, so that the user can observe the screen of the infusion pump 200 according to the opening of the cavity, and the inner wall of the cavity is provided with an insertion socket 1002 for inserting the infusion pump 200; that is, once the infusion pump 200 is installed in the cavity, the docking socket 1002 may be docked with the interface in the infusion pump 200. The control box 10010 is detachably connected to the card box 10020; a power socket 1009 is arranged on the control box 10010 or the plug-in box; the control box 10010 has a warning lamp 10013 for visually warning when a warning event occurs in the infusion pump 200, and the warning lamp 10013 is disposed on the front surface and at least one side surface of the control box 10010.

Wherein, the front of control box 10010 is the one side that it has screen assembly 10015, and the back of control box 10010 is the one side that corresponds with its front, and the side of control box 10010 is the face that is located the both sides of its front. After the card box 10020 is connected to the control box 10010 in a matching manner, the front of the card box 10020 is disposed in the same direction as the front of the control box 10010, the side of the card box 10020 is disposed in the same direction as the side of the control box 10010, and the back of the card box 10020 is disposed in the same direction as the back of the control box 10010. The visual alarm is preferably a light source alarm, such as an alarm lamp which is normally on, discolored or blinked.

The alarm events comprise an empty bottle alarm, an infusion pump equipment failure, a bubble alarm, a blockage alarm and the like, and the events needing to remind a user of paying attention are included in the range of the alarm events.

In the installation device provided in the embodiment of the present invention, the alarm lamp 10013 is disposed at least on the front surface and at least on the side surface of the control box 10010. When the infusion pump 200 has an alarm event, the alarm lamps 10013 on the front and both sides of the control box 10010 can change the light so as to realize the visual alarm at multiple angles, which is beneficial for the user to see at different positions in time.

In some of the embodiments, the warning lamps 10013 are arranged on the front and both sides of the control box 10010. Further, one of the alarm lamp 10013 and the control box housing is provided with a positioning hole 10016, and the other is provided with a positioning post matched with the positioning hole 10016, so as to fix the alarm lamp 10013 on the control box housing; wherein the control box housing is the housing of control box 10010. Other fasteners can also be used to fix the alarm lamp 10013 to the control box housing.

The alarm lamp 10013 includes an L-shaped light guide 100131, wherein one end of one side of the light guide 100131 is connected to one end of the other side to form an L-shape. One side of L-shaped light guide 100131 is located on the front of control box 10010, and the other side of L-shaped light guide 100131 is located on the side of control box 10010.

As shown in fig. 8, the alarm lamp 10013 includes two L-shaped light guides 100131 for the sake of convenient arrangement and multi-angle visual alarm; two L-shaped light guides 100131 are disposed at front corners of the control box housing, i.e., one side of each of the two L-shaped light guides 100131 is located on the front of the control box 10010, and the other side of each of the two L-shaped light guides 100131 is located on each of two sides of the control box 10010.

In the installation apparatus provided in the embodiment of the present invention, a cover plate 100132 is disposed on the casing of the control box, and is disposed corresponding to the position of the L-shaped light guide, specifically, the cover plate 100132 covers the front and side of the control box 10010; cover 100132 may also have a light guide opening disposed in correspondence with L-shaped light guide 100131, preferably a solid transparent region in cover 100132. The cover 100132 may also be transparent throughout. Through setting up apron 100132, avoid the dust to fall into in the control box casing for the outside planarization of control box 10010 is higher, convenient clean maintenance, but also can launch the light source of alarm lamp better. As shown in fig. 4 and 8, a screen assembly 10015 is disposed on a front surface of the control box 10010, and a screen cover plate is correspondingly disposed on a housing of the control box at a position of the screen assembly 10015; in some embodiments, the cover plate of the alarm lamp 10013 and the screen cover plate may be integrally formed, so that the surface of the installation device is more uniform, and the installation device is convenient to clean and sterilize, thereby preventing liquid or dust from entering; but may of course be fixedly connected together by gluing or the like.

The removable connection of the control box 10010 to the card cage 10020 includes mechanical and electrical connections. Wherein, control box 10010 and plug-in box 10020 pass through connection socket 10012 and accomplish the electricity and be connected, have made things convenient for control box 10010 and plug-in box 10020's connection operation, avoid external connection of electric lines.

As shown in fig. 14 and 3, in the present embodiment, the connection plug 1005 is disposed on the top surface of the card cage 10020, and the connection socket 10012 is disposed on the control cage 10010. During the process of installing the card box 10020 and the control box 10010, the connection plug 1005 and the connection socket 10012 are plugged and matched, so as to complete the electrical connection between the card box 10020 and the control box 10010.

Power receptacle 1009 is disposed on the back of control box 10010, and/or connection receptacle 10012 of control box 10010 and card box 10020 is disposed on the back of control box 10010.

The erection equipment is because loading the infusion pump body (infusion pump 200) in the clinical application process, different types of infusion bag often can be hung to the top of erection equipment, when infusion bag had the liquid medicine to drop at the infusion in-process, the liquid medicine very easily flows into the electric connection department of machine for the equipment short circuit increases equipment failure rate, also causes the risk of electrocution in clinic easily. A waterproof sleeve can be added at the position of the outer leakage socket, so that the short circuit failure rate of the installation equipment is reduced. Liquid can also be guided by the design of the water-proof portion 10017 or the inclined surface of the top surface, so that the liquid is prevented from flowing into the electrical connection.

In some embodiments, the top surface of the control box 10010 is an inclined surface, the high end of which is near the back surface of the control box 10010, and the low end of which is near the front surface of the control box 10010. Through the above arrangement, the waterproof portion 10017 is an oblique angle, and the high end of the oblique angle is located at the joint between the top surface of the control box 10010 and the back surface of the control box 10010. The waterproof effect is achieved, and meanwhile, the flatness of the appearance of the control box 10010 is ensured, so that the control box 10010 is convenient to clean and care.

As shown in fig. 11 and 12, in order to prevent liquid from entering the electrical connection (the power receptacle 1009 or the connection receptacle 10012), the top surface of the control box 10010 is provided with a waterproof portion 10017 for preventing liquid on the top of the control box 10010 from flowing to the back surface of the control box 10010.

In another embodiment, the waterproof portion 10017 is an outer convex edge, the outer convex edge is disposed at a connection portion between the top surface of the control box and the back surface of the control box, and the outer convex edge protrudes from the back surface of the control box.

Further, waterproof portions 10017 are disposed on the back edge and the two side edges of the top of the control box 10010; the back edge is the edge where the top of the control box 10010 is connected to the back of the control box 10010; the two side edges are the edges connecting the top of the control box 10010 and the two sides of the control box 10010.

As shown in fig. 3, 5 and 6, in order to facilitate the movement of the installation device, the top surface of the control box 10010 is provided with a handle 10011, wherein the edges of the control box 10010 are provided with rounded corners 100121, so as to improve the comfort of holding the handle 10011. Also, the height H1 of the handle 10011 from the top surface of the control box 10010 and the width H2 of the handle 10011 are adjusted according to the conventional human hand size. As shown in fig. 7, a handle sheet metal part 100122 may be added to the inner wall of the handle 10011, so as to improve the strength of the handle 10011 and reduce the damage rate of the device.

As shown in fig. 2, to accommodate manipulation of the rapid stacker, the removable connection of the card magazine 10020 to the control magazine 10010 includes a mechanical connection via a snap 1004 fit connection;

as shown in fig. 18, the buckle 1004 includes: a top notch 10041 disposed in a top surface of the card cage 10020; a stacker fastener 10042 telescopically disposed in the top notch 10041, the stacker fastener 10042 extending into a mating notch of the control box 10010 after the card box 10020 and the control box 10010 are slidably mated in place; a spring for extending stacker catch 10042 out of top slot 10041. A stacker release button 10043 capable of controlling the retraction of the stacker catch 10042 relative to the top slot 10041, the stacker release button 10043 being located within the cavity of the card magazine 10020. Wherein, the elastic element is preferably a return spring. It will be appreciated that the slide rails 1003 extend perpendicular to the direction of extension and retraction of the stacker snaps 10042 relative to the card shoe 10020 to more precisely position the stacker in operation. Wherein the mating notch is located at the bottom of the control box 10010.

In this embodiment, one of the card box 10020 and the control box 10010 is provided with a sliding rail 1003, and the other is provided with a sliding slot matched with the sliding rail 1003; the snap 1004 secures the card cage 10020 with the control box 10010 after the card cage 10020 is slip-fit into place with the control box 10010. Through the above arrangement, the matching accuracy of the card box 10020 and the control box 10010 is facilitated. In this embodiment, the number of the sliding rails 1003 is two and the sliding rails are symmetrically disposed on two side edges of the top of the card insertion box 10020.

As shown in fig. 14, the detachable connection between the card box 10020 and the control box 10010 further includes an electrical connection, which includes a connection plug 1005 and a connection socket 10012, one of the connection plug 1005 and the connection socket 10012 is disposed on the card box 10020, and the other of the connection plug 1005 and the connection socket 10012 is disposed on the control box 10010. After the card cage 10020 and the control box 10010 are slidably fitted in place, the connection plug 1005 is connected to the connection socket 10012.

In this embodiment, the connection plug 1005 is disposed on the top surface of the card box 10020, and the connection socket 10012 is disposed on the control box 10010.

As shown in fig. 19, in order to improve versatility and flexibility of configuration, the number of the card cassettes 10020 is plural; in two adjacent card magazines 10020, the top of one card magazine 10020 is connected to the bottom of the other card magazine 10020. Wherein the bottom of card pod 10020 has a bottom notch 10044 that matingly connects with stacker clip 10042. The mechanical connection of two adjacent card cases 10020 is accomplished by the mating connection of bottom notches 10044 with stacker snaps 10042. That is, the stacker catch 10042 at the top of the card box 10020 can be connected to both the control box 10010 and the bottom notch 10044 of another card box 10020, which is effectively simplified. Two adjacent card cases 10020 may be mechanically connected separately.

Moreover, the card box 10020 is provided with one of an electrical plug and an electrical socket 1008, and the bottom of the card box 10020 is provided with the other of the electrical plug and the electrical socket 1008; the electrical plug is plugged into an electrical socket 1008.

The electrical plug may be the connection plug 1005. That is, the connection plug 1005 can be electrically connected to the connection socket 10012 of the control box 10010 and also electrically connected to the electrical socket 1008 of the other card box 10020, which is effectively simplified. Two adjacent card housings 10020 may be separately provided for electrical connection.

The number of cavities on each card box 10020 is one, or multiple. The number of cavities on each card pod 10020 can be the same or different. The combination of multiple card boxes 10020 is adjusted to suit the actual needs so that there are the appropriate number of cavities for installing infusion pump 200.

Currently, different buttons 100140 may be provided with different backlights and for the sake of facilitating button identification. To avoid the backlight of different buttons 100140 from interfering with each other, control box 10010 has a keypad assembly 10014 thereon; the key assembly 10014 includes: a key sheet 100141, in which a plurality of buttons 100140 are provided on the key sheet 100141; a barrier 10044 positioned between two adjacent buttons 100140. The combination of two adjacent buttons 100140 through the barrier 10044 ensures that the light emitted by different function keys does not interfere during operation.

Further, the key assembly 10014 further includes a fixing pressure plate 100142 for fixing the key sheet 100141 and a key film 100143 disposed on an outer surface of the button 100140. Wherein the key film 100143 is a silicone film.

As shown in fig. 10, key film 100143 of key assembly 10014 has laser engraving 1001431 to facilitate light transmissive operation, allowing the button 100140 to be identified in low light environments. There may also be silk screening 1001432. Of course, others may also be included.

To facilitate user identification of infusion pumps 200 in different cavities, as shown in fig. 15 and 20, the card cage 10020 has a support beam 1001 disposed within the cavity, the support beam 1001 dividing the cavity into unit cavities for accommodating individual infusion pumps 200; the card cage 10020 further includes an identification area 10022 corresponding to the plurality of unit cavities. Wherein the marking area 10022 can be used for setting a highlight or a warning light. The specific setting of the method can be flexibly selected according to the actual project budget.

As shown in fig. 16, an upper rack assembly 1007 is provided on the rear surface of the card cage 10020 to facilitate the support fixing connection of the installation apparatus.

The mounting device serves as a medical device for managing the infusion pump, and medical staff in clinical application need to quickly store the infusion pump 200 during use. Due to the unreasonable space design, medical staff cannot rapidly store the infusion pump 200 and need to carefully place the infusion pump 200 in the corresponding slot, so that the use of a client is inconvenient; but also the integrity of the appearance of the infusion pump or syringe pump. Therefore, in the present embodiment, the opening edge of the cavity of the card cage 10020 is provided with a chamfer or fillet. Through the above arrangement, the infusion pump 200 is convenient to install relative to the installation equipment, so that the blind plugging operation is realized. As shown in fig. 17, within the cavity of the card cage 10020 is a support beam 1001, which support beam 1001 divides the cavity into unit cavities for housing individual infusion pumps 200. Thus, the opening of the cell cavity is enclosed by the two side beams 10021 and the support beam 1001 of the card cage 10020. Preferably, the side beams 10021 are rounded and the top bearing surface 100101 and the side surfaces 100102 of the support beam 1001 are chamfered. And, through the setting of supporting beam 1001, spacing to the trench, promote the convenience of depositing infusion pump 200. Furthermore, the support beam 1001 contacts the bottom of the infusion pump, which helps to protect the integrity of the infusion pump housing.

As shown in fig. 14, the side of the card cage 10020 is provided with an infusion tube clamp 1006. Through set up infusion pipe clamp 1006 in the side of plug-in components case 10020, made things convenient for the centre gripping operation to the transfer line, guaranteed that in use effectively centre gripping transfer line, prevented that the transfer line from the free and convenient swing, prevented to be dragged. Preferably, infusion tube clamps 1006 are disposed on both sides of the card pod 10020.

As shown in fig. 21 and 22, the infusion tube clamp 1006 includes: a transfusion tube clamp; an infusion tube clamp groove 10063 provided on a side surface of the card case 10020; an inverted rib position 10061 arranged in the plug-in box 10020 and corresponding to the infusion tube clamp groove 10063, and one end of the infusion tube clamp connected with the inverted rib position 10061; a limit rib 10062 disposed on the side of the card box 10020 and corresponding to the inverted rib 10061. Through setting up back-off muscle position 10061 and spacing muscles 10062, spacing muscles 10062 strengthen the position that needs the installation infusion pipe clamp, and back-off muscle position 10061 is installed with the one end cooperation of infusion pipe clamp, has guaranteed that the infusion pipe clamp is difficult for external force pull-out trench after the installation. The infusion tube clamping groove 10063 can effectively ensure the clamping stability of the infusion tube and avoid the damage of the infusion tube.

In order to ensure a changeable clinical application scenario such as unexpected stress, sheet metal parts can be added to weak points of the housing of the card insertion box 10020 and/or the control box 10010, so that the strength and reliability of the installation equipment are improved, and the installation equipment is convenient to adapt to the changeable clinical application scenario. As shown in fig. 23, in order to avoid the installation equipment from cracking when the installation equipment is not strong enough and is accidentally stressed, the housing walls of the card box 10020 and/or the control box 10010 are provided with reinforcing plates 10030. Wherein the reinforcement plate 10030 can be a sheet metal part, which is connected to the housing wall by a screw 10031. The number of the screws 10031 is plural, and preferably, the screws are uniformly distributed on the reinforcement plate 10030.

The opposite-plug socket 1002 can be a multifunctional opposite-plug socket, and in the opposite-plug process of the infusion pump 200 and the plug-in box 10020, the data of the infusion pump 200 can be transmitted to the control box 10010 of the installation equipment through the plug-in box 10020 more quickly and stably, so that the installation equipment can monitor the operation condition of the infusion pump 200 in all cavities in real time, and the safety and reliability of the whole machine are improved. Reasonable in design's interval on multi-functional to inserting the socket, according to minimum pinhole effective area of contact, reasonable in design guarantees through reliable to inserting the effective pair of inserting of size chain analysis calculation infusion pump 200 and erection equipment, guarantees signal transmission's unobstructed. Through reliable design, guarantee that infusion pump 200 is after the erection equipment is packed into, information can be accurately transmitted to the control box 10010 of erection equipment fast, improve the stability of information transfer between infusion pump 200 and the erection equipment for the erection equipment can each infusion pump 200 of real time monitoring, in time provides the real-time information of infusion pump to medical personnel. By selecting reliable plug sockets 1002 and reasonable spacing settings, stable transmission of signals after the infusion pump 200 and the installation equipment are plugged is ensured.

Referring to fig. 24, 25, 26, 27 and 30, in an embodiment of the present invention, an unlocking mechanism for locking or unlocking the infusion pump is further included on the cavity-mounted device.

The unlocking mechanism comprises an unlocking fixed seat 4, a rotating cam 6, a sliding block structure 5 and a locking structure. The unlocking fixed seat 4 is connected with the plug-in box 10020; the sliding block structure 5 is arranged on the unlocking fixed seat 4 in a sliding manner; the rotating cam 6 is in motion fit with the sliding block structure 5, and the rotating cam 6 drives the sliding block structure 5 to slide along the linear direction through rotation; the locking structure is in motion fit with the sliding block structure 5, one end of the locking structure is used for being in insertion fit with a shell card of the infusion pump 200, and the sliding block structure 5 is driven to perform locking and unlocking operations relative to the shell of the infusion pump 200 during linear motion.

In the unlocking process of the unlocking mechanism, the rotating cam 6 rotates to drive the sliding block structure 5 to slide along the linear direction of the unlocking fixed seat 4, and the locking structure unlocks and locks the infusion pump 200 arranged in the cavity of the plug-in box 10020; namely, smooth unlocking is realized by the rotation of the rotary cam 6; in addition, the linear motion operation of the slider structure 5 is realized through the rotation operation of the rotating cam 6, the unlocking path is in the rotation direction, the size of the operation part (the rotating cam 6) of the unlocking mechanism is reduced, and the size of the unlocking mechanism is effectively reduced.

In order to increase the degree of automation, the mounting device also comprises resetting means for resetting the rotating cam 6.

In the embodiment, the rotating cam 6 is rotatably arranged on the unlocking fixed seat 4 through a rotating shaft; resetting means is reset spring 3, and reset spring 3's one end and rotation axis connection, reset spring 3's the other end and unblock fixing base 4 are connected. With the above arrangement, the rotation reset operation of the rotary cam 6 is facilitated. That is, the operator only has to rotate the rotary cam 6 once at the time of unlocking to achieve the unlocking operation of the infusion pump 200.

Other structures may be adopted as the returning means of the rotating cam 6, such as connecting a tension spring between the outer wall of the rotating cam 6 and the mounting apparatus, and returning the rotating cam 6 by the elastic restoring force of the tension spring.

The unlocking mechanism provided by the embodiment of the invention further comprises a transmission shaft 1 and a fixed block 2 fixedly arranged on the transmission shaft 1; the two ends of the transmission shaft are respectively provided with an unlocking fixed seat, a rotating cam and a sliding block structure, and the shaft end part of the transmission shaft is a rotating shaft fixedly connected with the rotating cam; one end of the return spring 3 is fixed by the fixing block 2.

Namely, the two sets of the unlocking fixing seats 4, the rotating cam 6 and the slider structure 5 are symmetrically arranged in the combined structure, so that the infusion pump 200 is provided with two symmetrical locking and unlocking structures, and synchronous and symmetrical unlocking and locking operations are realized. Wherein, the one end of reset spring 3 is connected on transmission shaft 1 through fixed block 2 indirect. The fixing block 2 may not be provided so that one end of the return spring 3 is directly connected to the transmission shaft 1. Through the operation, the reset operation of the transmission shaft 1 can be realized only by arranging one reset spring 3, and then the automatic reset of the rotating cams 6 arranged at the two ends of the transmission shaft 1 is realized, so that the use convenience degree is further improved, and the structure is simplified.

Only one set of the unlocking fixing seat 4, the rotating cam 6 and the slider structure 5 can be arranged. And a plurality of groups of unlocking fixed seats 4, rotating cams 6 and sliding block structures 5 can also be arranged.

Preferably, the return spring 3 may function to drive the hook structure 10 to strike the card case 10020 or the slider structure 5, etc. upon return, thereby generating a bump-in sound that the infusion pump 200 is inserted in place and locked with respect to the card case 10020.

In this embodiment, the rotating cam 6 is fixedly connected to the transmission shaft 1 by a screw 8.

The locking structure comprises a hook structure 10 and a spring. Preferably, the spring, when reset, drives the hook structure 10 to hit the card cage 10020, unlocking the fixed seat 4 or the slider structure 5.

As shown in fig. 24 and 26, in the first embodiment, the spring is a torsion spring 11. The sliding structure 5 drives the hook structure 10 to rotate when moving linearly; one end of the torsion spring 11 is abutted to the hook structure 10, the other end of the torsion spring 11 is abutted to the unlocking fixing seat 4, and the hook structure 10 and the infusion pump 200 are in a locking state when the torsion spring 11 is in a reset state. The restoration of the hook structure 10 is achieved by the restoring force of the torsion spring 11.

Specifically, in this embodiment, the locking structure includes a hook structure 10, a rotating shaft 9 and a torsion spring 11, one end of the hook structure 10 is a hook for cooperating with the infusion pump 200 for locking, and the slider structure 5 has a sliding track surface 502 cooperating with the other end of the hook structure 10; the rotating shaft 9 is rotatably connected with the middle of the hook structure 10 and the unlocking fixed seat 4, the hook structure 10 can rotate along the rotating shaft 9 in the pushing process, and the pushing process is a process that the sliding block structure 5 slides along the linear direction of the unlocking fixed seat 4 and pushes the hook structure 10; one end of the torsion spring 11 is abutted to the hook structure 10, the other end of the torsion spring 11 is abutted to the unlocking fixing seat 4, and the hook structure 10 and the infusion pump 200 are in a locking state when the torsion spring 11 is in a reset state. That is, the latch structure 10 and infusion pump 200 are in an unlocked state when the torsion spring 11 is in a compressed state. Through the above arrangement, the torsion spring 11 has a reset function, so that the infusion pump 200 can be automatically locked after being mounted on the card cage 10020.

In the second embodiment, as shown in fig. 28, the spring is a linear spring, and the sliding structure 5 moves linearly to drive the hook structure 10' to move linearly; one end of the spring is connected with the hook structure 10 ', the other end of the spring is connected with the unlocking fixing seat 4, and the hook structure 10' is reset through the elastic restoring force of the linear spring. The restoration of the hook structure 10 is achieved by the restoring force of the linear spring.

Specifically, in the present embodiment, the locking structure includes a hook structure 10', a linear slide rail structure, and a linear spring. One end of the hook structure 10 'is a hook for matching and locking with the infusion pump 200, and the sliding block structure 5 is provided with a sliding track surface matched with the other end of the hook structure 10'; the linear slide rail structure is arranged on the unlocking fixed seat 4, the hook structure 10 'can slide along the linear slide rail structure in the pushing process, and the pushing process is a process that the sliding block structure 5 slides along the linear direction of the unlocking fixed seat 4 and pushes the hook 10'; one end of the linear spring is connected to the hook structure 10', and the other end of the linear spring is connected to the card cage 10020. Because unblock fixing base 4 is fixed to be set up on plug-in components case 10020, consequently, linear spring's the other end and unblock fixing base 4 relatively fixed. The other end of the linear spring can also be connected with the unlocking fixed seat 4. The hook structure 10' is reset by the linear spring after moving along the linear slide rail structure. Through the above arrangement, the linear spring has a reset function, so that the infusion pump 200 can be automatically locked after being mounted on the card cage 10020.

In order to realize the in-place indication, the spring (torsion spring 11 or linear spring) drives the hook structure 10 to strike the plug-in box 10020, the unlocking fixing seat 4 or the slider structure 5 when the spring is reset. The sound is emitted by the blow and may act as a bump-prompt sound for the infusion pump 200 being installed in place.

As shown in the first embodiment shown in fig. 24 and 26 and the second embodiment shown in fig. 28, the slider structure has a sliding track surface in matching contact with the other end of the hook structure, and the slider structure drives the other end of the locking structure to move along the sliding track surface when moving linearly.

As shown in fig. 24 and fig. 26, in this embodiment, the sliding track surface 502 is an arc-shaped driving track surface, which can first actuate the unlocking device to rotate and unlock, and after the unlocking device is completely unlocked, the pushing rod 503 continues to push forward, so as to push the infusion pump 200 out of the card case 10020.

One of the slider structure 5 and the hook structure 10 may be provided with a sliding track groove, and the other of the slider structure 5 and the hook structure 10 may be provided with a protrusion structure capable of sliding along the sliding track groove.

As shown in fig. 29, the mounting apparatus provided in the embodiment of the present invention further includes a support beam 1001 disposed in the cavity, and the support beam 1001 divides the cavity into unit cavities for accommodating individual infusion pumps; the support beam 1001 has a top surface for supporting the bottom of the infusion pump 200. That is, the card cage 10020 is provided with a plurality of support beams 1001 for dividing the cavity of the card cage 10020; a unit cavity for mounting a single infusion pump 200 is formed between two adjacent support beams 1001 and/or between a support beam 1001 near the top of the inner cavity of the card cage 10020 and the top of the inner cavity; the bottom support of infusion pump 200 is disposed on a support beam 1001. Through the arrangement, the supporting stability is improved.

In this embodiment, a push rod 503 for pushing the infusion pump 200 away from the cavity of the card housing 10020 is further included; when the push rod 503 extends into the cavity, the locking structure unlocks the infusion pump 200; when the push rod 503 is retracted out of the cavity, the locking structure locks the infusion pump 200. With the above arrangement, when the push rod 503 moves in a retracting manner relative to the cavity, the push rod 503 retracts out of the cavity, and at this time, the push rod 503 does not obstruct the infusion pump 200, so that the locking structure locks the device 200 disposed on the card housing 10020; when the push rod 503 is extended to move relative to the cavity, the push rod 503 is extended into the cavity, and at this time, the push rod 503 pushes the infusion pump 200 outwards from the cavity, so that the device 200 can be conveniently taken out relative to the inserter box 10020 by pushing the push rod 503.

The end of the slider structure 5 facing the cavity has a rod-like structure, which is a push rod 503. Namely, the slider structure 5 and the push rod 503 are an integral structure. Wherein, the sliding block structure 5 drives the push rod 503 to extend and contract when sliding along the linear direction; when the push rod 503 extends into the cavity, the locking structure unlocks the infusion pump 200 disposed within the cavity; the locking structure locks the infusion pump 200 within the cavity when the push rod 503 is retracted out of the cavity. As shown in fig. 24-27, one end of the slider structure 5 has a pushrod 503 for pushing the infusion pump 200 away from the card housing 10020; the direction of movement of the slider structure 5 is the mounting direction of the infusion pump 200 relative to the interior cavity of the card housing 10020.

Further, the card housing 10020 has a connection port structure 1002 thereon for mating with the infusion pump 200, and the insertion direction of the infusion pump 200 to the connection port structure 1002 is the same as the installation direction of the infusion pump 200 relative to the inner cavity of the card housing 10020.

In order to improve smooth unlocking operation and realize a differential structure of unlocking first and then pushing out, the length of the push rod 503 can be adjusted, so that the push rod 503 is contacted with the infusion pump 200 and pushes out the infusion pump 200 after the slide block structure 5 unlocks the driving hook structure 10; the specific structure of the sliding surface 502 can also be adjusted to achieve a differential structure that is unlocked first and then pushed out. It is not repeated here and all are within the scope of protection.

The combined structure material of the card box 10020 and the control box 10010 is a self-lubricating material. Self-lubricating materials include, but are not limited to, POM (polyoxymethylene) materials.

In this embodiment, one of the unlocking fixed seat 4 and the slider structure 5 has a guide rail 501; the other of the unlocking fixed seat 4 and the slider structure 5 is provided with a sliding fit structure matched with the guide rail 501. Through the arrangement, the sliding stability of the unlocking fixing seat 4 and the sliding block structure 5 is effectively improved.

One of the unlocking fixed seat 4 and the sliding block structure 5 can also be provided with a guide rail; the other of the unlocking fixed seat 4 and the sliding block structure 5 is provided with a pulley matched with the guide rail.

One of the unlocking fixed seat 4 and the sliding block structure 5 can be provided with a guide groove; and the other one of the unlocking fixed seat 4 and the sliding block structure 5 is provided with a pulley matched with the guide groove.

Other sliding concave-convex matching structures can be adopted, and the description is not repeated.

In this embodiment, one of the rotating cam 6 and the slider structure 5 is provided with a kidney-shaped hole, and the other of the rotating cam 6 and the slider structure 5 is provided with a convex part which is matched with the kidney-shaped hole to slide; the extending direction of the waist-shaped hole is vertical to the linear sliding direction of the sliding block structure. Through the resolution of force, the rotation motion of the rotating cam 6 can be resolved into the linear sliding direction of the slider structure and the direction perpendicular to the linear sliding direction of the slider structure, so that the extending direction of the kidney-shaped hole is perpendicular to the linear sliding direction of the slider structure, so that the cam protrusion of the rotating cam 6 slides in the structure hole, and the rotating cam 6 and the slider structure 5 are prevented from being locked with each other. It is also possible to provide a structural hole in the rotary cam 6, the slider structure 5 having a protruding structure which can be slidably arranged in the structural hole.

Among other things, infusion pump 200 may be an infusion pump or a syringe pump, and cartridge 10020 may be a cartridge. Other devices may also be used as the infusion pump 200, and only the infusion pump 200 needs to be unlocked and locked on the card housing 10020.

Further, the rotary cam mechanism further comprises a knob 7 fixed with the rotary cam 6 in the circumferential direction, a clamping groove is formed in the knob 7, and a protruding structure matched with the clamping groove is formed in the rotary cam 6. By arranging the knob 7, the use comfort is improved; the knob 7 can be detachably connected with the rotating cam 6, so that the knob 7 can be conveniently replaced according to use requirements.

An embodiment of the present invention further provides a mounting apparatus for mounting an infusion pump, including: a cartridge 10020, the cartridge 10020 having a cavity for mounting the infusion pump 200 thereon; an unlocking mechanism provided on the card housing 10020 for locking and unlocking the infusion pump 200; a support beam 1001 disposed within the cavity, the support beam 1001 dividing the cavity into unit cavities for receiving individual infusion pumps 200; the support beam has a top surface for supporting the bottom of the infusion pump 200.

The bottom of the infusion pump 200 is arranged on the top surface of the supporting beam 1001, so that the bottom of the infusion pump 200 is fixed, and the infusion pump 200 is convenient to install, so that the unlocking mechanism can be matched with the bottom of the infusion pump 200, the appearance surface of the infusion pump 200 is not damaged, the appearance integrity of the infusion pump 200 is ensured, the smoothness of the infusion pump 200 is improved, and the disinfection and maintenance operation are facilitated.

In this embodiment, the unlocking mechanism includes: an unlocking fixed seat 4 for connecting with the card box 10020; the sliding block structure 5 is arranged on the unlocking fixed seat 4 in a sliding mode; the rotating cam 6 is in motion fit with the sliding block structure 5, and the rotating cam 6 drives the sliding block structure 5 to slide in a linear direction through rotation; and the locking structure is in motion fit with the sliding block structure 5, one end of the locking structure is used for being inserted and matched with the shell card of the infusion pump 200, and the sliding block structure 5 is driven to perform locking and unlocking operations relative to the shell of the infusion pump 200 during linear motion.

Preferably, in this embodiment, the mounting apparatus includes both the unlocking mechanism and the support beam. Namely, a mounting device for mounting an infusion pump, comprising: a cartridge 10020, the cartridge 10020 having a cavity for mounting the infusion pump 200 thereon; an unlocking mechanism provided on the card housing 10020 for locking and unlocking the infusion pump 200; a support beam 1001 disposed within the cavity, the support beam 1001 dividing the cavity into unit cavities for receiving individual infusion pumps 200; the support beam 1001 has a top surface for supporting the bottom of the infusion pump 200. The unlocking mechanism includes: an unlocking fixed seat 4 for connecting with the card box 10020; the sliding block structure 5 is arranged on the unlocking fixed seat 4 in a sliding mode; the rotating cam 6 is in motion fit with the sliding block structure 5, and the rotating cam 6 drives the sliding block structure 5 to slide in a linear direction through rotation; and the locking structure is in motion fit with the sliding block structure 5, one end of the locking structure is used for being inserted and matched with the shell card of the infusion pump 200, and the sliding block structure 5 is driven to perform locking and unlocking operations relative to the shell of the infusion pump 200 during linear motion.

As shown in fig. 31 and 31, the present invention provides an infusion pump system comprising an infusion pump 200 and a mounting device for mounting the infusion pump, the mounting device being any one of the mounting devices described above. Since the above-described mounting device has the above-described technical effects, an infusion pump system having the above-described mounting device should also have the same technical effects, and a description thereof will not be repeated.

Further, the bottom of the infusion pump 200 is provided with a locking part 20001, and one end of the locking structure of the unlocking mechanism is inserted and matched with the locking part 20001. Through the arrangement, the bottom of the infusion pump 200 is fixed, and the infusion pump 200 is convenient to install, so that the unlocking mechanism can be matched with the bottom of the infusion pump 200, the appearance surface of the infusion pump 200 is not damaged, the appearance integrity of the infusion pump 200 is ensured, the smoothness of the infusion pump 200 is improved, and the sterilization and maintenance operation are convenient.

In the first embodiment, the bottom of the infusion pump 200 has a convex structure protruding from the bottom surface thereof, and the locking part 20001 is located on the side surface of the convex structure; one end of the locking structure is telescopically arranged on the inner wall of the cavity; after the infusion pump 200 is disposed in the cavity, the locking portion 20001 faces the inner wall of the cavity and is disposed corresponding to one end of the locking structure. The infusion pump 200 is fixed by inserting and matching one end of the locking structure with the locking part 20001.

In a second embodiment, as shown in fig. 29-31, the bottom of the infusion pump has a convex structure 2001 protruding from the bottom surface thereof, and the locking part 20001 is located on the side surface of the convex structure 2001; the mounting apparatus further comprises a support beam 1001 arranged within the cavity, the support beam 1001 dividing the cavity into unit cavities for accommodating individual infusion pumps; support beam 1001 has a top surface for supporting the bottom of infusion pump 200; one end of the locking structure (one end of the hook structure 10) is telescopically arranged on the side wall of the support beam 1001; the infusion pump 200 is supported by the support beam 1001, and the locking portion 20001 faces a side wall of the support beam 1001 and is provided corresponding to one end of the locking structure (one end of the hook structure 10). The infusion pump 200 is fixed by inserting and matching one end of the locking structure with the locking part 20001.

In a second embodiment, the latch portion 20001 is located on the bottom surface of the infusion pump; the mounting apparatus further comprises a support beam 1001 arranged within the cavity, the support beam 1001 dividing the cavity into unit cavities for accommodating individual infusion pumps; support beam 1001 has a top surface for supporting the bottom of infusion pump 200; one end of the locking structure is telescopically arranged on the top surface of the support beam 1001; the infusion pump 200 is supported on the support beam, and the locking portion 20001 faces the top surface of the support beam and is disposed corresponding to one end of the locking structure. The infusion pump 200 is fixed by inserting and matching one end of the locking structure with the locking part 20001.

As shown in fig. 32, the protrusion 2001 is an L-shaped structure, and the locking portion 20001 is disposed at one end of the L-shaped structure. With the above arrangement, the convex structure 2001 has an acting force opposite to the side surface of the support beam 1001, and the stability is further improved. Of course, only the locking portion 20001 may be provided in a linear structure, a circular structure, or the like.

As shown in fig. 9, further, the rotary cam 6 is disposed on the same side of the card case 10020 as the key assembly 10014 of the control case 10010. That is, the knob 7 and the key assembly 10014 are disposed on the same side of the card housing 10020, which is convenient for the operator to operate.

An embodiment of the present invention further provides a mounting apparatus, including: a card box 10020, the card box 10020 having a cavity for receiving the infusion pump 200 therein, a front face of the cavity having an opening for receiving the infusion pump and displaying a screen of the infusion pump 200, the card box 10020 having a support beam 1001 disposed within the cavity, the support beam 1001 dividing the cavity into unit cavities for receiving individual infusion pumps 200; the top surface of the support beam 1001 is a support surface in contact with the infusion pump 200, and the end of the support beam 1001 facing the front surface of the cavity is rounded or chamfered; the inner wall of the cavity is provided with an opposite-insertion socket 1002 for opposite insertion with the infusion pump 200; a control box 10010 detachably connected to the card box 10020; a power socket 1009 is arranged on the control box 10010 or the plug-in box 10020; the control box 10010 is provided with an alarm lamp 10013 for visually alarming when an alarm event occurs in the infusion pump.

The support beam 1001 is rounded or chamfered at the end facing the front of the chamber to facilitate blind mating.

As shown in fig. 30, the embodiment of the present invention further provides an infusion system, which includes a mounting device 100 and an infusion pump 200 mounted on the mounting device 100, wherein the mounting device 100 is any one of the mounting devices described above. Because the unlocking mechanism and the unlocking device have the technical effects, the infusion system with the unlocking mechanism and the unlocking device also has the same technical effects, and the technical effects are not repeated.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (24)

1. A mounting device for placement of an infusion pump, comprising:

the kit is provided with a cavity for inserting an infusion pump, and the front surface of the cavity is provided with an opening for inserting the infusion pump and displaying a screen of the infusion pump;

the inner wall of the cavity is provided with an opposite-insertion socket for opposite insertion with the infusion pump;

the control box is detachably connected with the plug-in box;

a power socket is arranged on the control box or the plug-in box;

the infusion pump alarm device is characterized in that an alarm lamp for performing visual alarm when an alarm event occurs to the infusion pump is arranged on the control box, and the alarm lamp is arranged on the front surface and at least one side surface of the control box.

2. The mounting device as claimed in claim 1, wherein one of the alarm lamp and the control box housing is provided with a positioning hole, and the other is provided with a positioning post engaged with the positioning hole; wherein the control box shell is a shell of the control box.

3. The mounting apparatus of claim 1, wherein the warning light comprises an L-shaped light guide, one side of the L-shaped light guide being located on a front face of the control box and another side of the L-shaped light guide being located on a side face of the control box.

4. The mounting apparatus of claim 3, further comprising a cover plate on the control box housing, the cover plate being positioned corresponding to the L-shaped light guide and being positioned on the front and side surfaces of the control box.

5. The installation apparatus as claimed in claim 1, wherein the power socket is provided on the back of the control box, and/or the connection socket of the control box and the plug-in box is provided on the back of the control box;

the top surface of the control box is an inclined surface, and the side edge of the top surface connected with the back surface of the control box is higher than the side edge of the top surface connected with the front surface of the control box; and/or the top surface of the control box is provided with a waterproof part, wherein the waterproof part is an outer convex edge which is arranged at the joint of the top surface of the control box and the back surface of the control box and protrudes out of the back surface.

6. The mounting apparatus of claim 1, wherein the removable connection of the card cage to the control cage comprises a snap-fit connection; the buckle includes:

a top notch arranged on the top surface of the plug-in box;

the stacking machine buckle is telescopically arranged in the top notch, and extends into the matching notch of the control box after the plug-in box is in sliding fit with the control box in place;

the elastic piece is used for enabling the stacker buckle to extend out of the top notch;

the folding machine unlocking buckle can control the folding machine buckle to contract relative to the top notch, and is located in the cavity of the plug-in box.

7. The mounting device according to claim 6, wherein one of the card cage and the control cage is provided with a slide rail, and the other is provided with a slide groove matched with the slide rail; the buckle fixes the plug-in box and the control box after the plug-in box and the control box are in sliding fit in place.

8. The mounting apparatus of claim 6, wherein the number of the card cage is plural; two adjacent card boxes, wherein the top of one card box is connected with the bottom of the other card box; the bottom of the plug-in box is provided with a bottom notch which is in matched connection with the buckle of the stacking machine; the top of the plug-in box is provided with one of an electric plug and an electric socket, and the bottom of the plug-in box is provided with the other of the electric plug and the electric socket; the electrical plug is plugged into the electrical socket.

9. The mounting apparatus of claim 1, wherein the control box has a key assembly thereon; the key assembly includes a key sheet and a button: the button plate is provided with a plurality of buttons, and a baffle is arranged between every two adjacent buttons of the button plate.

10. The mounting apparatus of claim 1 wherein the card cage has a support beam disposed within the cavity that divides the cavity into unit cavities for receiving individual infusion pumps, the unit cavities also having correspondingly disposed identification areas.

11. The mounting device of claim 1, wherein the side of the card cage is provided with an infusion tube clamp; the infusion tube clamp includes:

a transfusion tube clamp;

the infusion tube clamping groove is arranged on the side surface of the plug-in box;

the back-off rib position is arranged in the plug-in box and corresponds to the infusion tube clamp groove, and one end of the infusion tube clamp is connected with the back-off rib position;

and the limiting ribs are arranged on the side surface of the plug-in box and correspond to the reverse buckling ribs.

12. The mounting apparatus of claim 1, wherein the card cage has a support beam disposed within the cavity, the support beam dividing the cavity into unit cavities for housing individual infusion pumps; the top surface of the support beam is a support surface in contact with the infusion pump.

13. The mounting apparatus of claim 12, wherein the ends of the support beams facing the front face of the card cage are chamfered or radiused.

14. The mounting device of claim 1, further comprising an unlocking mechanism for locking or unlocking the infusion pump disposed within the cavity; the unlocking mechanism includes:

the unlocking fixing seat is used for being connected with the plug-in box;

the sliding block structure is arranged on the unlocking fixed seat in a sliding mode;

the rotating cam is in motion fit with the sliding block structure and drives the sliding block structure to slide along a linear direction through rotation;

and the locking structure is in motion fit with the sliding block structure, one end of the locking structure is used for being inserted and matched with the shell card of the infusion pump, and the sliding structure drives the locking structure to perform locking and unlocking operations relative to the shell of the infusion pump during linear motion.

15. The mounting apparatus of claim 14, wherein the locking structure comprises a hook structure and a spring;

the spring drives the hook structure to strike the plug-in box, the unlocking fixed seat or the sliding block structure when the spring is reset.

16. The mounting device of claim 14, wherein an end of the slider structure facing the cavity has a push rod for pushing the infusion pump away from the cavity;

the sliding block structure drives the push rod to stretch and contract when sliding along the linear direction;

when the push rod extends into the cavity, the locking structure unlocks the infusion pump arranged in the cavity; when the push rod retracts to the outside of the cavity, the locking structure locks the infusion pump arranged in the cavity.

17. A mounting device for placement of an infusion pump, comprising:

the infusion pump module comprises a plug-in box, a support beam and a plurality of infusion pumps, wherein the plug-in box is provided with a cavity for inserting the infusion pumps, the front surface of the cavity is provided with an opening for inserting the infusion pumps and displaying a screen of the infusion pumps, and the support beam is arranged in the cavity and divides the cavity into unit cavities for accommodating the single infusion pumps; the top surface of the support beam is a support surface contacted with the infusion pump, and the end of the support beam facing the front surface of the cavity is a round angle or a chamfer angle; the inner wall of the cavity is provided with an opposite-insertion socket for opposite insertion with the infusion pump;

the control box is detachably connected with the plug-in box; a power socket is arranged on the control box or the plug-in box; the control box is provided with an alarm lamp for visual alarm when the infusion pump generates an alarm event.

18. The mounting apparatus of claim 17, wherein the warning light comprises an L-shaped light guide, one side of the L-shaped light guide being located on a front face of the control box and another side of the L-shaped light guide being located on a side face of the control box.

19. The mounting device of claim 17, wherein the power socket is provided on a back side of the control box, and/or the connection socket of the control box and the card cage is provided on a back side of the control box;

the top surface of the control box is an inclined surface, and the side edge of the top surface connected with the back surface of the control box is higher than the side edge of the top surface connected with the front surface of the control box; and/or the top surface of the control box is provided with a waterproof part, wherein the waterproof part is an outer convex edge which is arranged at the joint of the top surface of the control box and the back surface of the control box and protrudes out of the back surface.

20. The mounting apparatus of claim 17, wherein the number of the card cage is plural; two adjacent card boxes, wherein the top of one card box is connected with the bottom of the other card box; the bottom of the plug-in box is provided with a bottom notch which is in matched connection with the buckle of the stacking machine; the top of the plug-in box is provided with one of an electric plug and an electric socket, and the bottom of the plug-in box is provided with the other of the electric plug and the electric socket; the electrical plug is plugged into the electrical socket.

21. The mounting device of claim 17, further comprising an unlocking mechanism for locking or unlocking the infusion pump disposed within the cavity; the unlocking mechanism includes:

the unlocking fixing seat is used for being connected with the plug-in box;

the sliding block structure is arranged on the unlocking fixed seat in a sliding mode;

the rotating cam is in motion fit with the sliding block structure and drives the sliding block structure to slide along a linear direction through rotation;

and the locking structure is in motion fit with the sliding block structure, one end of the locking structure is used for being inserted and matched with the shell card of the infusion pump, and the sliding structure drives the locking structure to perform locking and unlocking operations relative to the shell of the infusion pump during linear motion.

22. The mounting apparatus of claim 21, wherein an end of the slider structure facing the cavity has a push rod for pushing the infusion pump away from the cavity;

the sliding block structure drives the push rod to stretch and contract when sliding along the linear direction;

when the push rod extends into the cavity, the locking structure unlocks the infusion pump arranged in the cavity; when the push rod retracts to the outside of the cavity, the locking structure locks the infusion pump arranged in the cavity.

23. A mounting device for placement of an infusion pump, comprising:

the infusion pump module comprises a plug-in box, a support beam and a plurality of infusion pumps, wherein the plug-in box is provided with a cavity for inserting the infusion pumps, the front surface of the cavity is provided with an opening for inserting the infusion pumps and displaying a screen of the infusion pumps, and the support beam is arranged in the cavity and divides the cavity into unit cavities for accommodating the single infusion pumps;

the top surface of the support beam is a support surface contacted with the infusion pump, and the end of the support beam facing the front surface of the cavity is a round angle or a chamfer angle; the inner wall of the cavity is provided with an opposite-insertion socket for opposite insertion with the infusion pump;

the control box is detachably connected with the plug-in box;

a power socket is arranged on the control box or the plug-in box;

the infusion pump alarm device is characterized in that an alarm lamp for performing visual alarm when an alarm event occurs to the infusion pump is arranged on the control box, and the alarm lamp is arranged on the front surface and at least one side surface of the control box.

24. An infusion system comprising a mounting device according to any of claims 1-23 and an infusion pump mounted to the mounting device.