CN219538711U - Non-magnetic transfer trolley - Google Patents

Abstract

The utility model relates to the technical field of medical transfer vehicles, in particular to a non-magnetic transfer vehicle; including sweep, the frame, the head supporting pad, the mattress, the sliding plate, electric putter, instrument placement table and fixed establishment, fixed establishment includes two rotation rings, two screw thread posts, two fixed plates, two slipmats, two installed parts and two driving pieces, after no magnetism transfer car (buggy) removes the assigned position, manual rotation driving piece, drive the rotation ring through drive bevel gear and rotate on the bottom plate, because the inside threaded connection of rotation ring has the screw thread post, when the rotation ring is rotating, the screw thread post is under the spacing effect of spacing post, drive the fixed plate and remove to the direction on ground, make slipmat and ground laminate mutually, thereby strengthen the frictional force of whole transfer car (buggy) and ground through the slipmat, make no magnetism transfer car (buggy) remove to the assigned area after, more firm fixing in assigned area department.

Description

Non-magnetic transfer trolley

Technical Field

The utility model relates to the technical field of medical transfer vehicles, in particular to a non-magnetic transfer vehicle.

Background

Most of the transfer beds used clinically at present lack devices for stably placing various instruments or emergency instruments or medicines when the conditions of the patients change in the transfer process, or cannot enter a nuclear magnetic resonance room.

To solve the above problems, the prior published patent (CN 216496091U) discloses an automated multifunctional nonmagnetic transfer vehicle, comprising: a vehicle plate and a vehicle frame made of non-magnetic materials; one end of the sweep plate is provided with a head fixing structure, and two sides of the sweep plate along the width direction are provided with handrail structures; the frame is arranged below the sweep, the gyro wheel is arranged below the frame, the liftable instrument fixing frame is arranged on the frame, and the transfer trolley is made of a non-magnetic material, so that the transfer trolley can enter a nuclear magnetic resonance room and can be used for placing an automatic multifunctional non-magnetic transfer trolley of instrument equipment.

But current multi-functional no magnetism transfer car (buggy) of automation is in the in-service use in-process, after the promotion transfer car (buggy) arrives the appointed region, only fixes whole transfer car (buggy) through the brake block of taking on the gyro wheel, and fixed knot constructs inadequately firmly.

Disclosure of Invention

The utility model aims to provide a non-magnetic transfer trolley, and aims to solve the technical problem that the whole transfer trolley is fixed only through a brake pad on a roller after the transfer trolley is pushed to a designated area in the actual use process of the existing automatic multifunctional non-magnetic transfer trolley, and the fixing structure is not firm enough.

In order to achieve the above purpose, the utility model provides a non-magnetic transfer trolley, which comprises a trolley board, a trolley frame, a head support pad, a mattress, a sliding board, an electric push rod, an instrument placement table and a fixing mechanism, wherein the trolley frame is arranged at the bottom of the trolley board, rollers are arranged at four bottom corners of the trolley frame, the mattress is arranged on the upper surface of the trolley board, armrests are arranged on two sides of the upper surface of the trolley board, the head support pad is arranged at one end of the upper surface of the mattress, the sliding board is also arranged on the trolley board in a sliding manner, the electric push rod is arranged on the upper surface of the sliding board, the instrument placement table is arranged at the output end of the electric push rod, a handle is arranged on the sliding board, and a reflective sticking strip is arranged on the trolley frame;

the utility model provides a bevel gear drive mechanism, including fixed establishment, bevel gear drive mechanism, fixed establishment, bevel gear drive mechanism and bevel gear drive mechanism, fixed establishment includes two rotation rings, two screw thread posts, two fixed plates, two slipmats, two installed parts and two driving pieces, the frame includes bottom plate and four installed posts, four base angle departments of sweep all are provided with the installed post, four the installed post is kept away from the fixed bottom plate that is provided with of one end of sweep, the upper surface slip of bottom plate is provided with the sliding plate, the both ends of the upper surface of bottom plate all still are provided with the rotation rings, the inside threaded connection of rotation rings has the screw thread post, the one end that the screw thread post is close to ground is in through bearing swivelling joint on the fixed plate, the one end that the fixed plate is close to ground is provided with the slipmat, the one end that the fixed plate was kept away from the ground is provided with spacing post, the one end of fixed plate runs through the bottom plate, the both ends of the upper surface of bottom plate all are provided with the installed part, swing joint has on the installed part the outside of every rotation ring all is provided with the transmission end of transmission bevel gear drive mechanism.

Each driving piece comprises a rotating shaft, a hand wheel and a driving bevel gear, the rotating shafts are movably connected with the mounting pieces, one end of each rotating shaft is provided with the hand wheel, the other end of each rotating shaft is provided with the driving bevel gear, and the driving bevel gears are meshed with the driving bevel gears.

Each mounting piece comprises a mounting block, a supporting block and a supporting ring, one end of each supporting block is fixedly connected with the corresponding mounting block, the other end of each supporting block is provided with the corresponding supporting ring, the corresponding mounting block is detachably connected with the bottom plate, and the supporting ring is sleeved outside the corresponding rotating shaft.

The two ends of the bottom plate are provided with mounting holes, a rotating bearing is embedded in the mounting holes, and the rotating ring is embedded in the rotating bearing.

The non-magnetic transfer trolley further comprises an infusion support and a fixing bolt, one end of the infusion support is movably connected with the side face of the trolley board through a rotating shaft, a holding clamping plate is arranged on the side face of the trolley board, the infusion support is far away from one end of the rotating shaft and is clamped on the holding clamping plate, a first positioning hole is further formed in the bottom of the infusion support, a second positioning hole is further formed in the side face of the trolley board, the second positioning hole is located below the rotating shaft, and the first positioning hole and the second positioning hole are matched with the fixing bolt.

The fixed bolt comprises an insertion rod and a pull ring, wherein the first positioning hole and the second positioning hole are matched with the insertion rod, and one end, far away from the sweep, of the insertion rod is provided with the pull ring.

According to the non-magnetic transfer trolley, after the non-magnetic transfer trolley moves to the designated position through the rollers, a user can manually rotate the driving piece, the output end of the driving piece is mechanically driven by the transmission bevel gear, the rotating ring is driven to rotate on the bottom plate through the transmission bevel gear, and the rotating ring is rotated due to the fact that the thread column is connected with the internal threads of the rotating ring, the fixing plate is driven to move towards the ground under the limiting effect of the limiting column when the rotating ring rotates, so that the anti-slip pad is attached to the ground, friction force between the whole transfer trolley and the ground is enhanced through the anti-slip pad, and the non-magnetic transfer trolley is more firmly fixed at the designated area after moving to the designated area.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a non-magnetic transfer vehicle according to a first embodiment of the present utility model.

Fig. 2 is an enlarged view of a partial structure at a of fig. 1 provided by the present utility model.

Fig. 3 is a schematic view of a part of the structure of a non-magnetic transfer vehicle in the first embodiment of the present utility model.

Fig. 4 is a schematic structural view of a non-magnetic transfer vehicle according to a second embodiment of the present utility model.

Fig. 5 is an enlarged view of a partial structure at B of fig. 4 provided by the present utility model.

101-car deck, 102-car frame, 103-head supporting pad, 104-mattress, 105-sliding plate, 106-electric push rod, 107-instrument placement table, 108-rotating ring, 109-threaded column, 110-fixed plate, 111-anti-slip pad, 112-mounting piece, 113-driving piece, 114-bottom plate, 115-mounting column, 116-rotating shaft, 117-hand wheel, 118-driving bevel gear, 119-mounting block, 120-supporting block, 121-supporting ring, 122-roller, 123-armrest, 124-handle, 125-reflective tape, 126-driving bevel gear, 127-mounting hole, 128-rotating bearing, 201-infusion support, 202-fixed latch, 203-inserting rod, 204-pull ring, 205-rotating shaft, 206-placement clamp plate, 207-first positioning hole, 208-second positioning hole.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

Referring to fig. 1 to 3, fig. 1 is a schematic structural diagram of a non-magnetic transfer vehicle according to a first embodiment, fig. 2 is an enlarged partial structural diagram at a in fig. 1, and fig. 3 is a schematic partial structural diagram of the non-magnetic transfer vehicle according to the first embodiment.

The utility model provides a non-magnetic transfer trolley, which comprises the following components: including sweep 101, frame 102, head supporting pad 103, mattress 104, sliding plate 105, electric putter 106, instrument placement table 107 and fixed establishment, fixed establishment includes two swivel 108, two screw thread posts 109, two fixed plates 110, two slipmats 111, two installed part 112 and two driving piece 113, frame 102 includes bottom plate 114 and four installed posts 115, every driving piece 113 all includes axis of rotation 116, hand wheel 117 and drive bevel gear 118, every installed part 112 all includes installation piece 119, supporting piece 120 and supporting ring 121. The problem that the fixed structure is not firm enough for the whole transfer trolley only through the brake pad on the roller 122 after the transfer trolley is pushed to a designated area in the actual use process of the conventional automatic multifunctional non-magnetic transfer trolley is solved through the scheme, and the scheme can be used on the non-magnetic transfer trolley for a nuclear magnetic resonance room.

Aiming at the concrete implementation mode, the bottom of the vehicle plate 101 is provided with the vehicle frame 102, four bottom corners of the vehicle frame 102 are provided with the idler wheels 122, the upper surface of the vehicle plate 101 is provided with the mattress 104, two sides of the upper surface of the vehicle plate 101 are provided with the handrails 123, one end of the upper surface of the mattress 104 is provided with the head supporting pad 103, the vehicle plate 101 is further provided with the sliding plate 105 in a sliding manner, the upper surface of the sliding plate 105 is provided with the electric push rod 106, the output end of the electric push rod 106 is provided with the instrument placing table 107, the sliding plate 105 is provided with the handles 124, the vehicle frame 102 is provided with the reflective adhesive strips 125, the vehicle is made of a non-magnetic material, so that the vehicle can be used in a nuclear magnetic resonance room, when medical instruments are needed to be used, the handles 124 can be pulled, the sliding plate 105 is transversely pulled out from the vehicle frame 102, the electric push rod 106 is started, the placing table 107 is lifted, the vehicle frame 107 is convenient to place, or the vehicle frame 125 is not easy to be scratched, and the medical instruments are easy to be placed on the vehicle frame 125.

Wherein the four bottom corners of the sweep plate 101 are respectively provided with the mounting posts 115, one end of the four mounting posts 115 far away from the sweep plate 101 is fixedly provided with the bottom plate 114, the upper surface of the bottom plate 114 is slidably provided with the sliding plate 105, both ends of the upper surface of the bottom plate 114 are respectively provided with the rotating ring 108, the inner threads of the rotating ring 108 are connected with the threaded posts 109, one end of the threaded posts 109 near the ground is rotationally connected with the fixed plate 110 through bearings, one end of the fixed plate 110 near the ground is provided with the anti-slip pad 111, one end of the fixed plate 110 far away from the ground is provided with a limiting post, one end of the limiting post far away from the fixed plate 110 penetrates through the bottom plate 114, both ends of the upper surface of the bottom plate 114 are respectively provided with the mounting piece 112, the driving piece 113 is movably connected with the mounting piece 112, the driving bevel gears 126 are disposed at the outside of each rotating ring 108, the output end of the driving member 113 is mechanically driven by the driving bevel gears 126, when the non-magnetic transfer car is moved to a designated position by the rollers 122, a user can manually rotate the driving member 113, the driving member 113 is mechanically driven by the driving member 113, the rotating ring 108 is driven to rotate on the bottom plate 114 by the driving bevel gears 126, the rotating ring 108 is rotated by the internal screw thread of the rotating ring 108, the screw thread posts 109 are connected with the screw thread posts 109, under the limit action of the limit posts, the fixing plate 110 is driven to move towards the ground, the anti-slip pad 111 is attached to the ground, so that the friction force between the whole transfer car and the ground is enhanced by the anti-slip pad 111, after the non-magnetic transfer trolley moves to the appointed area, the non-magnetic transfer trolley is firmly fixed at the appointed area.

Secondly, the rotation shaft 116 is movably connected with the mounting member 112, one end of the rotation shaft 116 is provided with the hand wheel 117, the other end of the rotation shaft 116 is provided with the driving bevel gear 118, the driving bevel gear 118 is meshed with the driving bevel gear 126, the hand wheel 117 is rotated, the driving bevel gear 118 is driven to rotate by the rotation shaft 116, and the driving bevel gear 118 is meshed with the driving bevel gear 126, so that the rotation ring 108 is driven to rotate on the base.

Meanwhile, one end of the supporting block 120 is fixedly connected with the mounting block 119, the other end of the supporting block 120 is provided with the supporting ring 121, the mounting block 119 is detachably connected with the bottom plate 114, the supporting ring 121 is sleeved outside the rotating shaft 116, and after the supporting ring 121 is sleeved outside the rotating shaft 116, the mounting block 119 is fixed on the bottom plate 114 by using screws, so that the mounting of the mounting piece 112 is completed.

In addition, the both ends of bottom plate 114 all are provided with mounting hole 127, the inside of mounting hole 127 is inlayed and is equipped with rolling bearing 128, the swivel becket 108 is inlayed and is established rolling bearing 128's inside, owing to be provided with on the bottom plate 114 rolling bearing 128, swivel becket 108 is inlayed and is established rolling bearing 128's inside for swivel becket 108 is when rotating, more smooth and easy.

When the nonmagnetic transporter is used, the transporter is made of nonmagnetic materials, so that the transporter can be used in a nuclear magnetic resonance room, when medical instruments are needed to be used, the sliding plate 105 is transversely pulled out of the frame 102 by pulling the handle 124, the electric push rod 106 is started, so that the instrument placement table 107 is lifted, medical instruments or medicines on the instrument placement table 107 are conveniently taken and placed, and due to the fact that the reflective adhesive strips 125 are arranged on the frame 102, the nonmagnetic transporter is more striking, so that the transporter cannot easily scratch in the transportation process, and after the nonmagnetic transporter moves to a designated position through the roller 122, the user can manually rotate the driving piece 113, because the output end of the driving piece 113 and the transmission bevel gear 126 are mechanically driven, the transmission bevel gear 126 drives the rotating ring 108 to rotate on the bottom plate 114, and because the internal thread of the rotating ring 108 is connected with the thread column 109, when the rotating ring 108 rotates, the thread column 109 drives the fixed plate 110 to move towards the ground under the limiting action of the limiting column, so that the anti-slip pad 111 is attached to the ground, and the friction force between the whole transfer car and the ground is enhanced through the anti-slip pad 111, so that the non-magnetic transfer car is more firmly fixed at the designated area after moving to the designated area.

Second embodiment:

referring to fig. 4 and 5, fig. 4 is a schematic structural diagram of a non-magnetic transfer vehicle according to a second embodiment, and fig. 5 is a partial enlarged structural view at B of fig. 4.

The utility model provides a non-magnetic transfer trolley, which also comprises an infusion support 201 and a fixing bolt 202, wherein the fixing bolt 202 comprises an insertion rod 203 and a pull ring 204.

For this embodiment, one end of infusion support 201 through pivot 205 with the side swing joint of sweep 101, the side of sweep 101 is provided with places cardboard 206, infusion support 201 keeps away from the one end joint of pivot 205 is in place cardboard 206 is last, the bottom of infusion support 201 still is provided with first locating hole 207, the side of sweep 101 still is provided with second locating hole 208, second locating hole 208 is located the below of pivot 205, first locating hole 207 with second locating hole 208 all with fixed bolt 202 looks adaptation, one side of frame 102 is passed through pivot 205 rotation is connected with infusion support 201, when needs use infusion support 201, rotate infusion support 201 for after infusion support 201 is mutually perpendicular with the sweep, first locating hole 207 with second locating hole 208 is corresponding, will fixed 202 inserts to first locating hole 207 with second locating hole 208, thereby second locating hole 208 is located the below of pivot 205, thereby first locating hole 207 with second locating hole 208 all with the pivot 205 rotation is connected with infusion support 201, thereby, when the infusion support 201 is kept away from to use in the vertical support 201 the one side when the infusion support 201 is kept away from to make the infusion support 201 the infusion support is kept away from.

Wherein, the first positioning hole 207 and the second positioning hole 208 are both adapted to the insertion rod 203, and one end of the insertion rod 203 away from the sweep plate 101 is provided with the pull ring 204, and the insertion rod 203 is provided with the pull ring 204, so that the insertion of the fixing latch 202 is more convenient.

When the non-magnetic transport vehicle of this embodiment is used, since the infusion support 201 is rotatably connected to one side of the frame 102 through the rotating shaft 205, when the infusion support 201 is required to be used, the infusion support 201 is rotated, after the infusion support 201 is perpendicular to the vehicle plate 101, the first positioning hole 207 corresponds to the second positioning hole 208, the fixing plug 202 is inserted into the first positioning hole 207 and the second positioning hole 208, so that the infusion support 201 is fixed to one side of the frame 102 in a vertical state, and the non-magnetic transport vehicle is convenient to use, when the infusion support 201 is not used, after the fixing plug 202 is removed, the infusion support 201 is rotated, so that one end of the infusion support 201 far away from the rotating shaft 205 is clamped on the placing clamping plate 206, and therefore the infusion support 201 is stored, and because the pull ring 204 is arranged on the insertion rod 203, the fixing plug 202 is more convenient to be pulled out.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present utility model.

Claims (6)

1. The utility model provides a no magnetism transfer car (buggy), includes sweep, frame, head supporting pad, mattress, sliding plate, electric putter and instrument place the platform, the bottom of sweep is provided with the frame, four base angles departments of frame all are provided with the gyro wheel, the upper surface of sweep is provided with the mattress, the both sides of the upper surface of sweep all are provided with the handrail, the one end of the upper surface of mattress is provided with head supporting pad, still slide on the sweep and be provided with the sliding plate, the upper surface of sliding plate is provided with electric putter, electric putter's output is provided with the instrument place the platform, be provided with the handle on the sliding plate, be provided with reflection of light subsides strip on the frame, its characterized in that,

the device also comprises a fixing mechanism;

the utility model provides a bevel gear drive mechanism, including fixed establishment, bevel gear drive mechanism, fixed establishment, bevel gear drive mechanism and bevel gear drive mechanism, fixed establishment includes two rotation rings, two screw thread posts, two fixed plates, two slipmats, two installed parts and two driving pieces, the frame includes bottom plate and four installed posts, four base angle departments of sweep all are provided with the installed post, four the installed post is kept away from the fixed bottom plate that is provided with of one end of sweep, the upper surface slip of bottom plate is provided with the sliding plate, the both ends of the upper surface of bottom plate all still are provided with the rotation rings, the inside threaded connection of rotation rings has the screw thread post, the one end that the screw thread post is close to ground is in through bearing swivelling joint on the fixed plate, the one end that the fixed plate is close to ground is provided with the slipmat, the one end that the fixed plate was kept away from the ground is provided with spacing post, the one end of fixed plate runs through the bottom plate, the both ends of the upper surface of bottom plate all are provided with the installed part, swing joint has on the installed part the outside of every rotation ring all is provided with the transmission end of transmission bevel gear drive mechanism.

2. The nonmagnetic transporter of claim 1, wherein,

every driving piece all includes axis of rotation, hand wheel and drive bevel gear, the axis of rotation with mounting swing joint, the one end of axis of rotation is provided with the hand wheel, the other end of axis of rotation is provided with drive bevel gear, drive bevel gear with drive bevel gear meshes mutually.

3. The nonmagnetic transporter of claim 2, wherein,

every the mounting all includes installation piece, supporting shoe and holding ring, the one end of supporting shoe with installation piece fixed connection, the other end of supporting shoe is provided with the holding ring, the installation piece with the bottom plate is dismantled and is connected, the holding ring cover is established the outside of axis of rotation.

4. The nonmagnetic transporter of claim 3, wherein,

the two ends of the bottom plate are provided with mounting holes, a rotating bearing is embedded in the mounting holes, and the rotating ring is embedded in the rotating bearing.

5. The nonmagnetic transporter of claim 1, wherein,

the non-magnetic transfer trolley further comprises an infusion support and a fixing bolt, one end of the infusion support is movably connected with the side face of the trolley board through a rotating shaft, a placement clamping plate is arranged on the side face of the trolley board, the infusion support is far away from one end of the rotating shaft and is clamped on the placement clamping plate, a first positioning hole is further formed in the bottom of the infusion support, a second positioning hole is further formed in the side face of the trolley board, the second positioning hole is located below the rotating shaft, and the first positioning hole and the second positioning hole are matched with the fixing bolt.

6. The nonmagnetic transporter of claim 5, wherein,

the fixed bolt comprises an insertion rod and a pull ring, wherein the first positioning hole and the second positioning hole are matched with the insertion rod, and one end, far away from the sweep, of the insertion rod is provided with the pull ring.