CN104874073A - Anesthesia component for mobile operation vehicle and mobile operation vehicle with anesthesia component - Google Patents

Abstract

The invention discloses an anesthesia component for a mobile operation vehicle and the mobile operation vehicle with the anesthesia component. The mobile operation vehicle is provided with a ceiling and a floor. The anesthesia component comprises an anesthesia machine, a tower crane and a support part, wherein the bottom of the anesthesia machine is suitable for being fixedly connected to the floor; the tower crane is suitable for being connected to the ceiling and provided with a suspension arm extending downwardly, and the suspension arm is connected with the anesthesia machine so as to press the same downwardly; the support part penetrates the bottom of the anesthesia machine, and the support part is suitable for pushing against the upper surface of the floor so as to press the anesthesia machine upwardly. The anesthesia component for the mobile operation vehicle has the advantages that the anesthesia machine locked to the floor is connected between the tower crane and the support part, the anesthesia machine upwardly presses the ceiling through the tower crane and downwardly presses the floor through the support part, and the anesthesia machine can be stably and firmly fixed in the mobile operation vehicle to satisfy operation requirements.

Description

For locomotive of performing the operation anesthetic machine assembly and there is its operation locomotive

Technical field

The present invention relates to field of medical device, especially relate to a kind of anesthetic machine assembly for locomotive of performing the operation and there is its operation locomotive.

Background technology

Point out in correlation technique, fixing unstable, the less stable of the anesthetic machine in operation locomotive, when performing the operation locomotive when driving, anesthetic machine is difficult to normal work.

Summary of the invention

The present invention is intended at least to solve one of technical problem existed in prior art.For this reason, one object of the present invention is to propose a kind of anesthetic machine assembly for locomotive of performing the operation, and described anesthetic machine assembly is firm at operation locomotive internal fixtion, good stability.

Another object of the present invention is to propose a kind of operation locomotive with above-mentioned anesthetic machine assembly.

The anesthetic machine assembly for locomotive of performing the operation according to a first aspect of the present invention, have ceiling and floor in described operation locomotive, described anesthetic machine assembly comprises: anesthetic machine, and described anesthetic machine is removably connected on described floor; Tower crane, described tower crane is suitable for being connected on described ceiling, and described tower crane has the arm extended straight down, and described arm is connected to compress described anesthetic machine downwards with described anesthetic machine; And support member, described support member is located in the bottom of described anesthetic machine, and described support member is configured to be suitable for only supporting upwards to compress described anesthetic machine with the upper surface on described floor.

According to the anesthetic machine assembly for locomotive of performing the operation of the present invention, by the anesthetic machine be locked on floor is connected between tower crane and support member, thus anesthetic machine upwards can be compressed ceiling, be compressed floor downwards by support member by tower crane, and then anesthetic machine can be stablized and be fixed in operation locomotive securely, to ensure that surgical medical car anesthetic machine under dynamic and static state two kinds of forms all can normally use, meet operation demand.

Particularly, described anesthetic machine assembly comprises further: bracket, and described bracket is suitable for being connected on described floor, and described anesthetic machine is located on described bracket, and the bottom of described bracket is provided with the multiple rollers be spaced apart from each other.Thus, solve anesthetic machine assembly in a pre-installation with dismounting after anesthetic machine move problem.

Further, described support member is support bar, and described support bar can be located on described bracket up or down, and the lower surface of described support bar is suitable for only supporting with the upper surface on described floor.Thus, can by regulating the relative position of support member and bracket upwards to hold up anesthetic machine.In addition, because support member can be applied to tower crane power upwards indirectly, thus alleviate ceiling and to need to sling the power of tower crane, and then solve the load-bearing problem of ceiling, extend the service life of operation locomotive.

Alternatively, described bracket is formed with the screwed hole run through along the vertical direction, the periphery wall of described support bar is provided with external thread part, and described external thread part coordinates with described screwed hole, and the length of described external thread part is greater than the length of described screwed hole.Thus, convenient installation, and be convenient to regulate.

Further, described floor is formed with embedded hole, described anesthetic machine assembly comprises further: fixed bar, the lower end of described fixed bar is stretched into described embedded hole through described bracket and is fixed in described embedded hole, described bracket is stretched out in the upper end of described fixed bar, the upper end of described fixed bar has external screw thread, described external screw thread and described nut screw connection.Thus, make anesthetic machine can be locked in precalculated position on floor, thus effectively prevent the position of anesthetic machine in driving conditions and change, affect medical personnel and normally use.

Again further, described bracket comprises two crossbeams be spaced apart from each other, and described anesthetic machine assembly comprises further: cushion block, and described cushion block is located at the bottom of described two crossbeams and is connected with described two crossbeams.Thus, cushion block can support anesthetic machine further, ensures support strength.

Alternatively, the upper surface of described cushion block is formed with recessed groove downwards, described two cross beam supports are on the diapire of described groove.Thus, the relative position of cushion block and bracket can be determined, thus improves the stability of strutting system of cushion block.

Further, described arm is connected on the rear surface of described anesthetic machine by connecting plate, and wherein said connecting plate comprises: the first plate, and described first plate extends in the horizontal direction, and described arm is connected on the upper surface of described first plate; With the second plate, described second plate is connected with described first plate and vertically extends, and described second plate is connected on the rear surface of described anesthetic machine.Thus, convenient connection.

Again further, isolated two joint pins in left and right are provided with between described anesthetic machine and described second plate, two described joint pins are all formed with isolated along the vertical direction multiple installing hole, the two ends, left and right of described second plate respectively screw be connected to the correspondence of described two joint pins described installing hole in adjust the relative position of described arm and described anesthetic machine.Thus, can adjust the relative altitude position of anesthetic machine and tower crane, the anesthetic machine that the tower crane that specification is determined and specification are determined can be adapted to the operation locomotive of different size, thus expands the scope of application of anesthetic machine assembly.

Alternatively, described first plate extends back from the top of described second plate, and described connecting plate comprises further: at least one stiffener, and described stiffener is connected between the bottom surface of described first plate and the rear surface of described second plate.Thus, the bonding strength between the first plate and the second plate can be improved, and improve the bonding strength of arm and anesthetic machine.

Operation locomotive according to a second aspect of the present invention, comprises the anesthetic machine assembly for locomotive of performing the operation according to the above-mentioned first aspect of the present invention.

According to operation locomotive of the present invention, by arranging the anesthetic machine assembly for locomotive of performing the operation of above-mentioned first aspect, thus improve the overall performance of operation locomotive, operation locomotive can be used better in speedily carrying out rescue work on a large scale and in making a round of visits in the wild.

Additional aspect of the present invention and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present invention.

Accompanying drawing explanation

Fig. 1 is the front view of the anesthetic machine assembly for locomotive of performing the operation according to the embodiment of the present invention;

Fig. 2 is the partial sectional view of the anesthetic machine assembly shown in Fig. 1.

Reference numeral:

100: anesthetic machine assembly;

1: tower crane; 11: tower seat; 12: arm; 13: cantilever;

2: anesthetic machine;

3: connecting plate; 31: the first plates; 32: the second plates;

41: bearer carrier; 42: connect column; 43: roller; 44: crossbeam;

5: fixed bar; 51: nut;

6: support bar; 61: supporting bracket; 62: handle;

7: cushion block;

200: floor; 201: embedded hole.

Detailed description of the invention

Be described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the present invention, and can not limitation of the present invention being interpreted as.

In describing the invention, it will be appreciated that, term " length ", " width ", " thickness ", " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", the orientation of the instruction such as " end " or position relationship be based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as limitation of the present invention.

In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more these features.In describing the invention, except as otherwise noted, the implication of " multiple " is two or more.

In describing the invention, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition above-mentioned term concrete meaning in the present invention can be understood.

Disclosing hereafter provides many different embodiments or example is used for realizing different structure of the present invention.Of the present invention open in order to simplify, hereinafter the parts of specific examples and setting are described.Certainly, they are only example, and object does not lie in restriction the present invention.In addition, the present invention can in different example repeat reference numerals and/or letter.This repetition is to simplify and clearly object, itself does not indicate the relation between discussed various embodiment and/or setting.In addition, the various specific technique that the invention provides and the example of material, but those of ordinary skill in the art can recognize the property of can be applicable to of other techniques and/or the use of other materials.

In the present invention, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or D score can comprise the first and second features and directly contact, also can comprise the first and second features and not be directly contact but by the other characterisation contact between them.And, fisrt feature second feature " on ", " top " and " above " comprise fisrt feature directly over second feature and oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " comprise fisrt feature directly over second feature and oblique upper, or only represent that fisrt feature level height is less than second feature.

The anesthetic machine assembly 100 for locomotive of performing the operation (scheming not shown) of embodiment is according to a first aspect of the present invention described below with reference to Fig. 1 and Fig. 2.Wherein, have ceiling (scheming not shown) and floor 200 in operation locomotive, ceiling is positioned at the top on floor 200.Here, it should be noted that, operation locomotive is well known to those skilled in the art, no longer describes in detail here.

As shown in Figure 1, the anesthetic machine assembly 100 for locomotive of performing the operation of embodiment according to a first aspect of the present invention, comprising: tower crane 1, anesthetic machine 2 and support member.

Wherein, tower crane 1 is suitable for connecting on the ceiling, and tower crane 1 has the arm 12 extended straight down.Such as in one of them example of the present invention, tower crane 1 comprises tower seat 11, cantilever 13 and arm 12, wherein tower seat 11 is fixing on the ceiling, the inner (left end such as shown in Fig. 1) of cantilever 13 is connected with tower seat 11, outer end (right-hand member such as shown in Fig. 1) is connected with arm 12, cantilever 13 is rotatable around tower seat 11 in horizontal plane relative to tower seat 11, arm 12 vertically extends, and the upper end of arm 12 is connected with the outer end of cantilever 13, arm 12 can be driven when cantilever 13 rotates to rotate together, arm 12 can be provided with the supply such as circuit and gas circuit facility to use to facilitate medical treatment.In addition, it should be noted that, the junction of arm 12 and cantilever 13 can also for being rotationally connected, and spinning motion is made along the central axis of arm 12 in the outer end of restriction arm 12 opposing cantilevers 13 in vertical plane.

Further, the bottom of anesthetic machine 2 is suitable for being fixedly connected on floor 200, arm 12 is connected to compress anesthetic machine 2 downwards with anesthetic machine 2, and support member is located in the bottom of anesthetic machine 2, and support member 2 is configured to be suitable for only supporting upwards to compress anesthetic machine 2 with the upper surface on floor 200.

As shown in Figure 1, anesthetic machine 2 is provided with in operation locomotive, tower crane 1 is located at the top of anesthetic machine 2, and be fixed together by arm 12 and anesthetic machine 2, the bottom of anesthetic machine 2 is connected with fixture (such as fixed bar 5) hereinafter described and support member (such as support bar 6) hereinafter described, wherein, one end (lower end such as shown in Fig. 2) of fixture can be fixed on floor 200, the other end (upper end such as shown in Fig. 2) can be connected on anesthetic machine 2, so that the bottom of anesthetic machine 2 is fixed on floor 200, that is anesthetic machine 2 is removably mounted on floor 200, thus limit the relative position in the horizontal direction on anesthetic machine 2 and floor 200, the lower surface of support member contacts with the upper surface on floor 200, and support member is located at the bottom of anesthetic machine 2, so that anesthetic machine 2 is supported on floor 200, and upwards hold up anesthetic machine 2.

After anesthetic machine 2, tower crane 1 and support member are seated, distance between the upper surface of default tower seat 11 and support member lower surface is slightly larger than the distance between ceiling and floor 200, thus ceiling is applied to the downward pressure of tower crane 1, floor 200 is applied to support member and upwards pressure, that is, anesthetic machine 2 is subject to from the next downward pressure of ceiling transmission simultaneously and transmits upwarding pressure from floor 200, anesthetic machine 2 is tightly fastened by ceiling and floor 200, and then anesthetic machine 2 can be fixed in operation locomotive securely.

According to the anesthetic machine assembly 100 for locomotive of performing the operation of the embodiment of the present invention, by the anesthetic machine be locked on floor 200 2 is connected between tower crane 1 and support member, thus anesthetic machine 2 upwards can be compressed ceiling, be compressed floor 200 downwards by support member by tower crane 1, and then anesthetic machine 2 can be stablized and be fixed in operation locomotive securely, to ensure that surgical medical car anesthetic machine 2 under dynamic and static state two kinds of forms all can normally use, meet operation demand.

In one embodiment of the invention, anesthetic machine assembly 100 comprises further: bracket, and bracket is suitable for being connected on floor 200, and anesthetic machine 2 is located on bracket, and the bottom of bracket is provided with the multiple rollers 43 be spaced apart from each other.Particularly, bracket comprises: two crossbeams 44 be spaced apart from each other, bearer carrier 41 and two connection columns 42, wherein, bearer carrier 41 is roughly rectangular slab and is horizontally disposed with, the left and right sides of bearer carrier 41 has the cuboid crossbeam 44 extended along the longitudinal direction respectively, two connection columns 42 are vertically arranged, and be symmetrically arranged on corresponding two crossbeams 44, anesthetic machine 2 can be arranged between two connection columns 42, rear and front end bottom each crossbeam 44 is separately installed with a roller 43, such four rolling 43 can support bracket and anesthetic machine 2, thus when anesthetic machine 2 is under unfixed state, can move in operation locomotive, and then solve anesthetic machine assembly 100 in a pre-installation with dismounting after anesthetic machine 2 move problem.

Alternatively, support member is support bar 6, and support bar 6 can be located on bracket up or down, and the lower surface of support bar 6 is suitable for only supporting with the upper surface on floor 200.Alternatively, bracket is formed with the screwed hole run through along the vertical direction, the periphery wall of support bar 6 is provided with external thread part, and external thread part coordinates with screwed hole, and the length of external thread part is greater than the length of screwed hole.

As shown in Figure 2, support bar 6 is two, and two support bars 6 are symmetrically arranged on bracket, particularly, each crossbeam 44 is all formed with the first hole, crossbeam 44 is run through in first hole along the vertical direction, two support bars 6 pass vertically through corresponding first hole respectively, and the lower end of each support bar 6 is all only against on floor 200 to downward-extension, particularly, the lower end of support bar 6 can be provided with supporting bracket 61, to increase the contact area of support bar 6 and floor 200, thus the lower end of support bar 6 can be supported on floor 200 reposefully.Here, it should be noted that, the quantity of support bar 6 and the installation site of relative analgesia machine 2 can be arranged according to actual requirement, to meet actual requirement better.

With reference to Fig. 2, the upper end of each support bar 6 all upwards extends and is emerging in the top of corresponding crossbeam 44, and the outer surface of each support bar 6 is all formed with external screw thread, that is, support bar 6 from up to down all can be configured to external thread part, each first hole is screwed hole, external thread part and screwed hole suitable, thus support bar 6 can be screwed onto in the screwed hole on corresponding crossbeam 44, because the distance between support bar 6 upper end and floor 200 upper surface is greater than the distance between crossbeam 44 upper surface and floor 200 upper surface, thus the length of external thread part must be greater than the length of screwed hole, like this when rotary support bar 6 moves downward to make support bar 6, and the lower surface of supporting bracket 61 and floor 200 phase are when only supporting, bracket relative support bar 6 moves upward, that is support bar 6 upwards can hold up bracket, now there is a power upwards on floor by the anesthetic machine 2 on support bar 6 pairs of brackets and bracket, thus support bar 6, anesthetic machine 2 and tower crane 1 entirety can be understood as a beam column stood still for a long while in operation locomotive, make anesthetic machine 2 fixation, and indirectly can be applied to tower crane 1 power upwards due to support bar 6, thus alleviate ceiling and to need to sling the power of tower crane 1, and then solve the load-bearing problem of ceiling, extend the service life of operation locomotive.In addition, it should be noted that, the upper end of support bar 6 can be provided with handle 62, so that the upper end that user holds support bar 6 adjusts the lifting of support bar 6 with rotary support bar 6.

Particularly, floor 200 is formed with embedded hole 201, anesthetic machine assembly 100 comprises further: fixed bar 5, the lower end of fixed bar 5 is stretched into embedded hole 201 through bracket and is fixed in embedded hole 201, bracket is stretched out in the upper end of fixed bar 5, the upper end of fixed bar 5 has external screw thread, external screw thread and nut screw connection.

As depicted in figs. 1 and 2, fixed bar 5 is two, and two fixed bars 5 are symmetrically arranged on bracket, particularly, each crossbeam 44 is all formed with the second hole, crossbeam 44 is run through in second hole along the vertical direction, and the second hole and the first hole time interval are opened, two fixed bars 5 pass vertically through corresponding second hole respectively, the lower end of each fixed bar 5 is all engaged in corresponding embedded hole 201 to downward-extension, thus make the lower end of fixed bar 5 can be fixed on floor 200, the upper end of each fixed bar 5 all upwards extends and is emerging in the top of corresponding crossbeam 44, preferably, each fixed bar 5 be emerging in the part above crossbeam 44 and the part be hidden in the second hole is all formed with external screw thread, nut 51 can be engaged in the external screw thread place on the top of fixed bar 5 like this, when nut 51 is rotated downwardly to extreme position, the lower surface of nut 51 is only against on the upper surface of crossbeam 44, thus bracket can be limited move upward, thus, fixed bar 5 and embedded hole 201 and nut 51 coordinate the precalculated position that can effectively bracket and anesthetic machine 2 be fixed on floor 200 respectively, move in car to prevent anesthetic machine 2 when driving.Here, it should be noted that, the quantity of fixed bar 5 and the setting position on anesthetic machine 2 can be arranged according to actual requirement, to meet actual requirement better.

Alternatively, embedded hole 201 jointly can be limited by floor 200 and built-in fitting (scheming not shown) and form, particularly, floor 200 is formed with circular holding tank, the top of built-in fitting is rectangular slab, bottom is cylindrical drum, the bottom of built-in fitting is engaged in the holding tank on floor 200, the top of built-in fitting is fastened on floor 200, thus the precalculated position that built-in fitting can be embedded on floor 200, the upper surface of built-in fitting is formed with rectangular opening, opening runs through the upper surface of built-in fitting along the vertical direction, the lower end of fixed bar 5 has the cuboid coordinating block suitable with opening, coordinating block can to extend in opening and arbitrarily angled what rotate in opening except the multiple of 180, be locked in holding tank to make coordinating block.Certainly, the present invention is not limited thereto, the structure of embedded hole 201 can also be arranged according to actual requirement, to meet actual requirement better.

Further, bracket comprises two crossbeams 44 be spaced apart from each other, and anesthetic machine 2 assembly comprises further: cushion block 7, and cushion block 7 is located at the bottom of two crossbeams 44 and is connected with two crossbeams 44.Alternatively, the upper surface of cushion block 7 is formed with recessed groove downwards, two crossbeams 44 are supported on the diapire of groove.

As shown in Figure 2, cushion block 7 is roughly cuboid, and be flatly located between crossbeam 44 and floor 200, cushion block 7 extends in left-right direction, and the rear portion of contiguous crossbeam 44 is arranged, cushion block 7 is formed with groove, can extend in groove to make two crossbeams 44, preferably, groove is recessed into straight down from the upper surface of cushion block 7, and distance between groove width in the lateral direction and the outer surface (surface away from carrier center) of two crossbeams 44 is equal, like this, after cushion block 7 and bracket engagement put in place, the outside wall surface of two crossbeams 44 can be fitted in the respective side walls of groove, thus cushion block 7 can stably be fastened in groove, in addition, distance between groove bottom wall and cushion block 7 lower surface equal or slightly larger than crossbeam 44 surface and floor 200 between distance, thus the lower surface of crossbeam 44 can be supported on the diapire of groove.Thus, bracket can be fixed by cushion block 7 securely, and supports reposefully, solves the load-bearing problem of ceiling further, extends the service life of operation locomotive.Further, after cushion block 7 and crossbeam 44 are seated, cushion block 7 can be screwed into one with two crossbeams 44, to meet actual requirement better respectively.

Particularly, arm 12 is connected on the rear surface of anesthetic machine 2 by connecting plate 3, wherein connecting plate 3 comprises: the first plate 31 and the second plate 32, first plate 31 extends in the horizontal direction, arm 12 is connected on the upper surface of the first plate 31, second plate 32 is connected with the first plate 31 and vertically extends, and the second plate 32 is connected on the rear surface of anesthetic machine.Preferably, the first plate 31 and the second plate 32 one-body molded.Here, it should be noted that, the second plate 32 can be connected directly between on the rear surface of anesthetic machine 2, and the second plate 32 can also pass through other structures (such as joint pin) hereinafter described and indirectly be connected on the rear surface of anesthetic machine 2.

As shown in Figure 2, arm 12 is roughly cube, first plate 31 and the second plate 32 can be all rectangular slab, wherein the second plate 32 is vertically arranged, first plate 31 extends back from the rear surface level of the second plate 32, the front surface of the second plate 32 is directly or indirectly connected with the rear surface of anesthetic machine 2, and the upper surface of the first plate 31 directly or is indirectly connected with the lower surface of arm 12.Here, it should be noted that, the first plate 31 can be threaded connection with arm 12, and the second plate 32 also can be threaded connection with anesthetic machine 2.Thus, installation and removal are convenient to.

Alternatively, the first plate 31 extends back from the top of the second plate 32, and connecting plate 3 comprises further: at least one stiffener (scheming not shown), stiffener is connected between the bottom surface of the first plate 31 and the rear surface of the second plate 32.Such as in one of them example of the present invention, the front end of the first plate 31 is connected with the top of the second plate 32, stiffener is roughly triangle, and extend along the longitudinal direction, two right-angle sides of leg-of-mutton stiffener are connected with the second plate 32 with the first plate 31 respectively, particularly, the top of triangular reinforcing plate and front are respectively two right-angle sides, and top is connected with the lower surface of the first plate 31, front is connected with the rear surface of the second plate 32, thus the two ends up and down of the hypotenuse of leg-of-mutton stiffener are only against on the first plate 31 and the second plate 32 respectively.Here, it should be noted that, stiffener can be connected between the first plate 31 and the second plate 32 by modes such as welding.In addition, the shape of stiffener can also be arranged according to actual requirement, to meet actual requirement better.Preferably, stiffener can be multiple, and multiple stiffener left and right uniform intervals is turned up the soil and is arranged between the first plate 31 and the second plate 32.Thus, the intensity of connecting plate 3 can be improved, thus improve the bonding strength of arm 12 and anesthetic machine 2.In addition, it should be noted that, the front end of the first plate 31 can also be connected to middle part or the bottom of the second plate 32, to adapt to actual demand better.

Further, isolated two joint pins in left and right are provided with between anesthetic machine 2 and the second plate 32, two joint pins are all formed with isolated along the vertical direction multiple installing hole, the two ends, left and right of the second plate 32 respectively screw be connected to the correspondence of two joint pins installing hole in adjust the relative position (scheming not shown) of arm 12 and anesthetic machine 2.

Particularly, two joint pins can be that shape is identical, equal and opposite in direction and longitudinal centre line about anesthetic machine 2 is symmetrical, here be only described for a joint pin, the cross section of joint pin is roughly rectangle and vertically extends along the vertical direction, the front surface of joint pin and the rear surface of anesthetic machine 2 directly or are indirectly fixed together, the rear surface of joint pin is formed with multiple installing hole, and each installing hole runs through the rear surface of joint pin all along the longitudinal direction, multiple installing hole is evenly spaced apart in the vertical direction, like this, two installing holes be positioned on same level line on two joint pins can be defined as a pair installing hole, because two joint pins are all vertically arranged, and vertically extend along the vertical direction, thus the pitch-row of often pair of installing hole is all equal, installing hole is preferably screwed hole.

Further, second plate 32 is formed with about two isolated through holes, two through holes run through the second plate 32 all along the longitudinal direction, the pitch-row of two through holes is all equal with the pitch-row of any pair installing hole, first the relative position of arm 12 and anesthetic machine 2 can be chosen like this, then connecting plate 3 is arranged on arm 12, again installing hole corresponding on joint pin for the through hole on the second plate 32 is aimed at, and by two screws respectively successively through corresponding installing hole and through hole, so that connecting plate 3 and joint pin are fixed together, fix by tower crane 1 and anesthetic machine 2.Thus, the relative altitude of anesthetic machine 2 and tower crane 1 can be regulated, the anesthetic machine 2 that the tower crane 1 that specification is determined and specification are determined can be adapted to the operation locomotive of different size, namely when the distance in locomotive of performing the operation between ceiling and floor 200 increases or reduces, same tower crane 1 all can be connected by joint pin with same anesthetic machine 2, thus expands the scope of application of anesthetic machine assembly 100.

In addition, it should be noted that, joint pin can be fixed on bracket, the top of such as two joint pins can be connected on a horizon bar (scheming not shown), and the two ends of horizon bar can be separately fixed on two connection columns 42 of bracket, like this, then anesthetic machine 2 is fixed between two connection columns 42, thus two joint pins are just fixed on the rear surface of anesthetic machine 2 indirectly.

When anesthetic machine assembly 100 comprises simultaneously: fixed bar 5, when support bar 6 and cushion block 7, in assembling process, can first anesthetic machine 2 be arranged on bracket, again anesthetic machine 2 and tower crane 1 are put on the precalculated position of performing the operation in locomotive, then adopt connecting plate 3 by tower crane 1 and anesthetic machine 2 fixation, to make tower crane 1 pushing anesthetic machine 2 downwards, again cushion block 7 is encased inside the bottom of bracket, then support bar 6 is assembled, and support bar 6 is regulated downwards, the supporting bracket 61 of support bar 6 is fully contacted with floor 200, upwards to hold up anesthetic machine 2, like this, by the conduction of power, tower crane 1 can be made, anesthetic machine 2 and support bar 6 become a beam column in operation locomotive, then fixed bar 5 is assemblied on bracket, and it is interior and fixed the lower end of fixed bar 5 to be inserted embedded hole 201, be locked nut 51 top of bar 5 upwards stretching fixed bar 5, make anesthetic machine 2 can be locked in assigned address on floor 200 securely, thus make operation locomotive under dynamic and static state two kinds of forms, anesthetic machine 2 all can be fixed in operation locomotive reposefully, and normally work with demands such as satisfied operations.In addition, locomotive of performing the operation meets good stationarity equally in gathering transport.

The operation locomotive of embodiment according to a second aspect of the present invention, comprises the anesthetic machine assembly 100 for locomotive of performing the operation according to the above-mentioned first aspect embodiment of the present invention.

According to the operation locomotive of the embodiment of the present invention, by arranging the anesthetic machine assembly 100 for locomotive of performing the operation of above-mentioned first aspect embodiment, thus improve the overall performance of operation locomotive, operation locomotive can be used in speedily carrying out rescue work on a large scale and in making a round of visits in the wild better.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present invention or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and describe embodiments of the invention, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present invention and aim, scope of the present invention is by claim and equivalents thereof.

Claims (11)

1. for an anesthetic machine assembly for locomotive of performing the operation, have ceiling and floor, it is characterized in that in described operation locomotive, described anesthetic machine assembly comprises:

Anesthetic machine, the bottom of described anesthetic machine is suitable for being fixedly connected on described floor;

Tower crane, described tower crane is suitable for being connected on described ceiling, and described tower crane has the arm extended straight down, and described arm is connected to compress described anesthetic machine downwards with described anesthetic machine; With

Support member, described support member is located in the bottom of described anesthetic machine, and described support member is configured to be suitable for only supporting upwards to compress described anesthetic machine with the upper surface on described floor.

2. the anesthetic machine assembly for locomotive of performing the operation according to claim 1, is characterized in that, comprise further:

Bracket, described bracket is suitable for being connected on described floor, and described anesthetic machine is located on described bracket, and the bottom of described bracket is provided with the multiple rollers be spaced apart from each other.

3. the anesthetic machine assembly for locomotive of performing the operation according to claim 2, it is characterized in that, described support member is support bar, and described support bar can be located on described bracket up or down, and the lower surface of described support bar is suitable for only supporting with the upper surface on described floor.

4. the anesthetic machine assembly for locomotive of performing the operation according to claim 3, it is characterized in that, described bracket is formed with the screwed hole run through along the vertical direction, the periphery wall of described support bar is provided with external thread part, described external thread part coordinates with described screwed hole, and the length of described external thread part is greater than the length of described screwed hole.

5. the anesthetic machine assembly for locomotive of performing the operation according to claim 2, is characterized in that, described floor is formed with embedded hole,

Described anesthetic machine assembly comprises further:

Fixed bar, the lower end of described fixed bar is stretched into described embedded hole through described bracket and is fixed in described embedded hole, and described bracket is stretched out in the upper end of described fixed bar, and the upper end of described fixed bar has external screw thread, described external screw thread and described nut screw connection.

6. the anesthetic machine assembly for locomotive of performing the operation according to any one of claim 2-5, is characterized in that, described bracket comprises two crossbeams be spaced apart from each other,

Described anesthetic machine assembly comprises further:

Cushion block, described cushion block is located at the bottom of described two crossbeams and is connected with described two crossbeams.

7. the anesthetic machine assembly for locomotive of performing the operation according to claim 6, is characterized in that, the upper surface of described cushion block is formed with recessed groove downwards, described two cross beam supports are on the diapire of described groove.

8. the anesthetic machine assembly for locomotive of performing the operation according to claim 1, is characterized in that, described arm is connected on the rear surface of described anesthetic machine by connecting plate, and wherein said connecting plate comprises:

First plate, described first plate extends in the horizontal direction, and described arm is connected on the upper surface of described first plate; With

Second plate, described second plate is connected with described first plate and vertically extends, and described second plate is connected on the rear surface of described anesthetic machine.

9. the anesthetic machine assembly for locomotive of performing the operation according to claim 8, it is characterized in that, isolated two joint pins in left and right are provided with between described anesthetic machine and described second plate, two described joint pins are all formed with isolated along the vertical direction multiple installing hole, the two ends, left and right of described second plate respectively screw be connected to the correspondence of described two joint pins described installing hole in adjust the position of described arm.

10. the anesthetic machine assembly for locomotive of performing the operation according to claim 8, is characterized in that, described first plate extends back from the top of described second plate,

Described connecting plate comprises further:

At least one stiffener, described stiffener is connected between the bottom surface of described first plate and the rear surface of described second plate.

11. 1 kinds of operation locomotives, is characterized in that, comprise the anesthetic machine assembly for locomotive of performing the operation according to any one of claim 1-10.