CN207472978U - A kind of elevating type multifunctional monitors stent - Google Patents

Abstract

The utility model is related to radiation appliance fields, it is intended to provide a kind of convenience and stent is monitored to the elevating type multifunctional that the radiation in small space is monitored, its key points of the technical solution are that including pedestal, telescopic rod and monitoring seat, telescopic rod includes the first telescopic joint and the second telescopic joint, first telescopic joint is set as hollow form, second telescopic joint is located in telescopic joint, the madial wall of first telescopic joint is equipped with groove, one end of groove is equipped with first gear by the first rotation axis, second telescopic joint is equipped with the first rack, first rack is engaged with first gear, driving handle is additionally provided with by stent on first telescopic joint, driving handle is connected to first gear by transmission mechanism.By using above-mentioned technical proposal, radiation monitor is mounted on monitoring seat, length tune telescopic rod is long, radiation monitor is sent into the small space for needing to monitor by telescopic rod, radiation in small space is monitored, solves the problems, such as that monitoring personnel is difficult to enter small space monitoring.

Description

A kind of elevating type multifunctional monitors stent

Technical field

The utility model is related to radiation monitoring equipment field, more particularly to a kind of elevating type multifunctional monitoring stent.

Background technology

Radiation refers to energy in the form of electromagnetic wave or particle to external diffusion.All objects in nature, as long as warm Degree is more than absolute temperature zero degree, moment ceaselessly outside transfer of heat, this transmission energy all in the form of electromagnetic wave and particle The mode of amount is referred to as radiating.From radiation source, all direction straight lines radiate the energy of radiation outward.Object is released by radiation Energy, referred to as radiation energy.Radiation is calculated by roentgen/hour (R).It is " reciprocity " that important feature that there are one radiation, which is exactly it,. No matter object temperature height is all to external radiation, first object can be to second object radiation, while second can also be radiated to first.It is general universal This noun is used in ionising radiation.Radiation is neutral words in itself, but the radiation of Cucumber may bring harm.

At present, notification number is that the Chinese patent of CN204065244U discloses a kind of electromagnetic field radiation monitor, including machine Shell, controller, display screen, monitoring probe, temperature sensor, power switch, it is characterized in that：Controller is housed inside housings, It is equipped with display screen on the controller, display screen is installed with casing cooperation, and monitoring probe, temperature sensing are equipped at the top of housing Device is equipped with power supply indicator and alarm lamp in the top of display screen, is equipped with electricity successively in the lower section of display screen, magnetic switching is pressed Button, data interlock button are set in the lower part of housing there are one semicircular handle, equipped with power switch on handle, in handle Bottom among be equipped with headlamp, the back of casing be equipped with battery.

Although this electromagnetic field radiation monitor can be monitored radiation, when the narrow space of monitoring position When, monitoring personnel is difficult to enter, and makes troubles for monitoring.

Utility model content

The purpose of this utility model is to provide a kind of elevating type multifunctional monitoring stent, can install radiation monitor It is convenient that radiation in small space is monitored above, it solves monitoring personnel and is difficult to enter asking for small space monitoring Topic.

The above-mentioned technical purpose of the utility model technical scheme is that：

A kind of elevating type multifunctional monitors stent, and pedestal is arranged on including pedestal, telescopic rod and monitoring seat, the telescopic rod On, the monitoring seat is arranged on one end that telescopic rod deviates from pedestal, and the telescopic rod includes the first telescopic joint and the second telescopic joint, First telescopic joint is set as hollow form, and second telescopic joint is arranged in telescopic joint, and second telescopic joint with It is connected between first telescopic joint by the first spring, the madial wall of first telescopic joint is equipped with groove, and the groove deviates from One end of pedestal is equipped with first gear by the first rotation axis, and second telescopic joint is equipped with the first rack, first tooth Item is engaged with first gear, and driving handle is additionally provided with by stent on first telescopic joint, and the driving handle passes through transmission Mechanism is connected to first gear.

By using above-mentioned technical proposal, driving handle drives first gear to rotate by transmission mechanism, and first gear turns It is dynamic to drive the first racks turn engaged, so as to change the relative position between the first telescopic joint and the second telescopic joint, energy It is enough that the length of telescopic rod is adjusted, when monitoring the radiation in small space, radiation monitor is mounted on monitoring seat, Length tune telescopic rod is long, and radiation monitor is sent into the small space for needing to monitor by telescopic rod, is realized to narrow Radiation in space is monitored, and solves the problems, such as that monitoring personnel is difficult to enter small space monitoring.

Further setting：The transmission mechanism includes several second gears, several described second gears are by the Two rotation axis are arranged on the lateral wall of the first telescopic joint, and are intermeshed between several described second gears, described first The first telescopic rod is run through in one end of rotation axis, and connects the second gear close to first gear, away from the second of the first rotation axis Rotation axis is connected with driving handle.

By using above-mentioned technical proposal, driving handle is rotated, the second gear being adjacent to by driving handle drive Rotation so as to which several second gears be driven to rotate, when being rotated close to the second gear of first gear, passes through the first rotation axis band Dynamic first gear rotation, first gear rotation drive the first racks turn, so as to change the first telescopic joint and the second telescopic joint it Between relative position, the length of telescopic rod is enable to adjust, realizes and the radiation in small space is monitored, solves monitoring The problem of personnel are difficult to enter small space monitoring.

Further setting：The lateral wall of first telescopic joint is equipped with slipping mechanism, and the slipping mechanism is equipped with lock Bar, the driving handle are equipped with lockhole, and the locking bar matches with lockhole.

By using above-mentioned technical proposal, monitor radiate when, by driving handle by the length adjustment of telescopic rod it is good after, Locking bar is pushed, locking bar, so as to which locking bar be made to be inserted into lockhole, leads to by generating relative motion between slipping mechanism and the first telescopic joint It crosses locking bar to limit driving handle, driving handle rotation is avoided to change the length of telescopic rod, influences measurement result.

Further setting：The slipping mechanism includes the first dovetail groove and the first dovetails, the first dovetail groove setting On the first telescopic joint, first dovetails are connected to locking bar, and first dovetails are embedded in the first dovetail groove.

By using above-mentioned technical proposal, when pushing locking bar, the first dovetails are slided in the first dovetail groove, make locking bar Relative position between the first telescopic joint changes, and locking bar is inserted into lockhole, and driving handle is limited, avoids driving Handle rotation changes the length of telescopic rod, influences measurement result.

Further setting：Second spring is equipped between first dovetails and the first dovetail groove, the second spring One end connects the first dovetails, and the other end connects one end that the first dovetail groove deviates from driving handle, and second spring is in nature During state, the first dovetails are in the first dovetail groove close to one end of driving handle, and locking bar is inserted into lockhole.

By using above-mentioned technical proposal, after locking bar is inserted into lockhole by monitoring personnel, telescopic rod is avoided to be in vertical shape State hour locking lever is skidded off out of lockhole.

Further setting：It is additionally provided with the first limit component between first telescopic joint and the second telescopic joint, described first Limit component includes sliding block, sliding slot and limited block, and the sliding slot is arranged on the first telescopic joint, and the sliding block is arranged on second and stretches For casing coupling close to one end of the first spring, the limited block is arranged on one end that sliding slot deviates from pedestal, and the sliding block is embedded in sliding slot It is interior.

By using above-mentioned technical proposal, when the second telescopic joint is moved relative to the first telescopic joint, sliding block is in sliding slot Movement, when sliding block contradicts limited block, limited block limits sliding block, and the stopping of the second telescopic joint continues to move, and avoids second Telescopic joint is detached from the first telescopic joint during the motion.

Further setting：The monitoring seat includes bottom plate, first level positive stop hook, the second Horizontal limiting hook, first vertically Positive stop hook and the second vertical positive stop hook, the both sides of the bottom plate are equipped with first level cavity and the second horizontal cavity, and described first Third spring is equipped in horizontal cavity, the third spring is connected to first level positive stop hook, is set in second horizontal cavity There is the 4th spring, the 4th spring is connected to the second Horizontal limiting hook, and cavity, the phase of the cavity are additionally provided on the bottom plate The side wall on opposite is equipped with the second dovetail groove and third dovetail groove, and the second coattail strip is embedded in second dovetail groove, described Third coattail strip is embedded in third dovetail groove, the first vertical positive stop hook is connected to the second coattail strip, the second vertical limiting Hook connects are connected respectively in being additionally provided with driving mechanism, two output terminals of the driving mechanism in third coattail strip, the cavity In the first vertical positive stop hook and the second vertical positive stop hook.

By using above-mentioned technical proposal, first level positive stop hook and the second Horizontal limiting hook are pulled, makes it to the bottom of away from The direction movement of plate, at this time third spring and the 4th spring be in tensional state, driving mechanism drive the first vertical positive stop hook with Second vertical positive stop hook is moved to away from bottom plate direction, and radiation monitor is placed on, and unclamps first level positive stop hook With the second Horizontal limiting hook, first level positive stop hook and the second Horizontal limiting hook are moved to close to bottom plate direction, to Radiation monitoring Instrument is tentatively limited, and is again started up driving mechanism, makes the first vertical positive stop hook and the second vertical positive stop hook to close to bottom plate side To movement, radiation monitor is limited again, so as to which radiation monitor is mounted on monitoring seat, monitoring personnel is by stretching Radiation monitor is sent into small space by contracting bar, and the radiation in small space is monitored, monitoring personnel is solved and is difficult to The problem of being monitored into small space.

Further setting：The driving mechanism includes third gear, the second rack, third rack and handle, the third Gear is arranged on by third rotation axis in cavity, and second rack is arranged on the first vertical positive stop hook, the third tooth Item is arranged on the second vertical positive stop hook, and second rack and third rack are engaged with third gear, the third rotation One end of axis is connect through bottom plate with handle.

By using above-mentioned technical proposal, third gear is driven to rotate by swing handle, the rotation of third gear drives Second rack and the movement close to each other of third rack mutually deviate from movement, when the second rack and third rack mutually deviate from fortune When dynamic, facilitate and be placed on radiation monitor, when the second rack and the movement close to each other of third rack, with the second tooth The first vertical positive stop hook that item is connected, the second vertical positive stop hook being connected with third rack limit radiation monitor, will radiate Monitor is mounted on monitoring seat, and radiation monitor is sent into small space by monitoring personnel by telescopic rod, to small space Interior radiation is monitored, and solves the problems, such as that monitoring personnel is difficult to enter small space monitoring.

Further setting：The first sliding equipment is equipped between the first level positive stop hook and first level cavity, it is described First sliding equipment includes the first T-shape slot and the first T-shape block, and first T-shape slot is arranged in first level cavity, The first T-shape block is arranged on first level positive stop hook close to one end of third spring, and the first T-shape block is embedded In one T-shape slot, the second sliding equipment is equipped between the second Horizontal limiting hook and the second horizontal cavity, described second slides Mechanism includes the second T-shape slot and the second T-shape block, and second T-shape slot is arranged in the second horizontal cavity, and described second T-shape block is arranged on the second Horizontal limiting hook close to one end of the 4th spring, and the second T-shape block is embedded in the second T-shape In slot.

By using above-mentioned technical proposal, the setting of the first T-shape slot and the first T-shape block is to first level positive stop hook Movement travel is limited, de- out of first level cavity to when being moved away from bottom plate direction, avoiding in first level positive stop hook It separates out and, the reset for first level positive stop hook is made troubles；The setting of second T-shape slot and the second T-shape block is to the second water The movement travel of flat positive stop hook is limited, and in the second Horizontal limiting hook to when being moved away from bottom plate direction, is avoided from the second water Intracavitary detaches out of the void, and the reset for the second Horizontal limiting hook is made troubles.

Further setting：The handle includes the first rotation section and the second rotation saves, during the first rotation section is set as Empty shape, one end of the first rotation section are connected with third rotation axis, and the second rotation section is set in the first rotation section, institute State the first rotation section and second rotation section between by the second limit component connect, second limit component include positive stop strip and Limiting slot, the limiting slot are arranged on the madial wall of the first rotation section, and the positive stop strip is arranged on the second rotation section, described Positive stop strip is embedded in limiting slot.

By using above-mentioned technical proposal, when needing swing handle, the second rotation section is inserted into the first rotation section, is made Positive stop strip is embedded in limiting slot, and rotation the second rotation section, the rotation of the second rotation section drives third to turn by the first rotation section Moving axis rotates, and so as to which third gear be driven to rotate, when not needing to swing handle, the second rotation section is taken out out of first rotation section Go out, the rotation of the second rotation section is avoided third gear to be driven to rotate by the first rotation section.

In conclusion the utility model has the advantages that：

1st, the setting of telescopic rod can make monitoring personnel pass through telescopic rod by radiation monitor be sent into small space in, to narrow Radiation in small space is monitored, and solves the problems, such as that monitoring personnel is difficult to enter small space monitoring；

2nd, the setting of monitoring seat can limit radiation monitor, avoid the Radiation monitoring during Radiation monitoring Instrument is fallen；

3rd, the setting of locking bar and lockhole can limit driving handle, after the length adjustment to telescopic rod, will lock Bar is inserted into lockhole, avoids driving handle rotation that the length of telescopic rod is adjusted.

Description of the drawings

Fig. 1 is the structure diagram for being used to embody utility model in the present embodiment；

Fig. 2 is the structure diagram for being used to embody first level cavity in the present embodiment；

Fig. 3 is for the structure diagram of the second horizontal cavity of embodiment in the present embodiment；

Fig. 4 is to show in the present embodiment for embodying the structure of position relationship between third coattail strip and the second vertical positive stop hook It is intended to；

Fig. 5 is to show in the present embodiment for embodying the structure of position relationship between the second coattail strip and the first vertical positive stop hook It is intended to；

Fig. 6 is the A portions schematic enlarged-scale view for being used to embody handle in Fig. 5；

Fig. 7 is for the structural representation of position relationship between the first telescopic joint of embodiment and the second telescopic joint in the present embodiment Figure；

Fig. 8 is the structure diagram for being used to embody position relationship between first gear and the first rotation axis in the present embodiment；

Fig. 9 is for the structure diagram of position relationship between the second rotation axis of embodiment and second gear in the present embodiment；

Figure 10 is for the structure diagram of position relationship between the first telescopic joint of embodiment and pedestal in the present embodiment；

Figure 11 is the B portions schematic enlarged-scale view for being used to embody slipping mechanism in Figure 10.

In figure, 1, pedestal；2nd, telescopic rod；21st, the first telescopic joint；22nd, the second telescopic joint；3rd, seat is monitored；31st, bottom plate；32、 First level positive stop hook；33rd, the second Horizontal limiting hook；34th, the first vertical positive stop hook；35th, the second vertical positive stop hook；4th, the first bullet Spring；5th, groove；6th, the first rotation axis；7th, first gear；8th, the first rack；9th, driving handle；10th, transmission mechanism；11st, the second tooth Wheel；12nd, the second rotation axis；13rd, slipping mechanism；131st, the first dovetail groove；132nd, the first dovetails；14th, locking bar；15th, lockhole； 16th, second spring；17th, the first limit component；171st, sliding block；172nd, sliding slot；173rd, limited block；18th, first level cavity；19、 Second horizontal cavity；20th, third spring；23rd, the 4th spring；24th, the second dovetail groove；25th, third dovetail groove；26th, the second dovetail Item；27th, third coattail strip；28th, driving mechanism；281st, third gear；282nd, the second rack；283rd, third rack；284th, handle； 2841st, the first rotation section；2842nd, the second rotation section；29th, third rotation axis；30th, the first sliding equipment；301st, the first T-shape Slot；302nd, the first T-shape block；36th, the second sliding equipment；361st, the second T-shape slot；362nd, the second T-shape block；37th, radiation prison Survey instrument；38th, the second limit component；381st, positive stop strip；382nd, limiting slot.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment：A kind of elevating type multifunctional monitors stent, as shown in Figure 1, including pedestal 1, telescopic rod 2 and monitoring seat 3, Telescopic rod 2 is arranged on pedestal 1, and monitoring seat 3 is arranged on one end that telescopic rod 2 deviates from pedestal 1.

As shown in Figures 2 and 3, monitoring seat 3 includes bottom plate 31, first level positive stop hook 32, the second Horizontal limiting hook 33, the One vertical 34 and second vertical positive stop hook 35 of positive stop hook is equipped with 18 and second horizontal blank of first level cavity in the both sides of bottom plate 31 Chamber 19, first level cavity 18 is interior to be equipped with third spring 20, and third spring 20 is connected to first level positive stop hook 32；First level The first sliding equipment 30 is equipped between positive stop hook 32 and first level cavity 18, the first sliding equipment 30 includes the first T-shape slot 301 and the first T-shape block 302, the first T-shape slot 301 be arranged in first level cavity 18, the first T-shape block 302 is arranged on First level positive stop hook 32 is embedded close to one end of third spring 20, the first T-shape block 302 in the first T-shape slot 301.

As shown in figure 3, being equipped with the 4th spring 23 in the second horizontal cavity 19, the 4th spring 23 is connected to the second Horizontal limiting Hook 33, is equipped with the second sliding equipment 36 between the second Horizontal limiting hook 33 and the second horizontal cavity 19, the second sliding equipment 36 wraps The second T-shape slot 361 and the second T-shape block 362 are included, the second T-shape slot 361 is arranged in the second horizontal cavity 19, second " T " Type block 362 is arranged on the second Horizontal limiting hook 33 close to one end of the 4th spring 23, and the second T-shape block 362 is embedded in second " T " In type groove 361.

As shown in Figure 4 and Figure 5, cavity is additionally provided on bottom plate 31, the side wall of the opposite face of cavity is equipped with the second dovetail groove 24 and third dovetail groove 25, the second coattail strip 26 is embedded in the second dovetail groove 24, and third swallow is embedded in third dovetail groove 25 Tail item 27, the first vertical positive stop hook 34 are connected to the second coattail strip 26, and the second vertical positive stop hook 35 is connected to third coattail strip 27, Driving mechanism 28 is additionally provided in cavity, two output terminals of driving mechanism 28 are connected to the first vertical positive stop hook 34 and second Vertical positive stop hook 35.

As shown in Figure 4 and Figure 5, driving mechanism 28 includes third gear 281, the second rack 282, third rack 283 and handle Hand 284, third gear 281 are arranged on by third rotation axis 29 in cavity, and the second rack 282 is arranged on the first vertical positive stop hook On 34, third rack 283 is arranged on the second vertical positive stop hook 35, the second rack 282 and third rack 283 with third gear 281 engagements, one end of third rotation axis 29 are connect through bottom plate 31 with handle 284, as shown in fig. 6, handle 284 includes first turn Dynamic 2841 and second rotation section 2842 of section, the first rotation section 2841 are set as hollow form, and one end of the first rotation section 2841 with Third rotation axis 29 is connected, and the second rotation section 2842 is set in the first rotation section 2841, and the first rotation saves 2841 and second turn It is connected between dynamic section 2842 by the second limit component 38, the second limit component 38 includes positive stop strip 381 and limiting slot 382, limit Position slot 382 is arranged on the madial wall of the first rotation section 2841, and positive stop strip 381 is arranged on the second rotation section 2842, positive stop strip 381 are embedded in limiting slot 382, apply pulling force to the second rotation section 2842, and the second rotation can be saved to 2842 from the first rotation It is extracted out in section 2841.

As shown in fig. 7, telescopic rod 2 includes the first telescopic joint 21 and the second telescopic joint 22, during the first telescopic joint 21 is set as Empty shape, the second telescopic joint 22 are arranged in the first telescopic joint 21, and pass through between the second telescopic joint 22 and the first telescopic joint 21 One spring 4 connects, and the first limit component 17, the first limit component 17 are additionally provided between the first telescopic joint 21 and the second telescopic joint 22 Including sliding block 171, sliding slot 172 and limited block 173, sliding slot 172 is arranged on the first telescopic joint 21, and sliding block 171 is arranged on second For telescopic joint 22 close to one end of the first spring 4, limited block 173 is arranged on one end that sliding slot 172 deviates from pedestal 1, and sliding block 171 is embedded In sliding slot 172.

As shown in Figure 8 and Figure 9, the madial wall of the first telescopic joint 21 is equipped with groove 5, and groove 5 leads to away from one end of pedestal 1 The first rotation axis 6 is crossed equipped with first gear 7, the second telescopic joint 22 is equipped with the first rack 8, and the first rack 8 is nibbled with first gear 7 It closes, driving handle 9 is additionally provided with by stent on the first telescopic joint 21, driving handle 9 is connected to the first tooth by transmission mechanism 10 Wheel 7, transmission mechanism 10 include several second gears 11, several second gears 11 are arranged on the by the second rotation axis 12 It on the lateral wall of one telescopic joint 21, and is intermeshed between several second gears 11, one end of the first rotation axis 6 runs through first Telescopic rod 2, and the second gear 11 close to first gear 7 is connected, away from the second rotation axis 12 and the driving hand of the first rotation axis 6 Handle 9 is connected；

As shown in Figure 10 and Figure 11, the lateral wall of the first telescopic joint 21 is equipped with slipping mechanism 13, is set on slipping mechanism 13 There is locking bar 14, driving handle 9 is equipped with lockhole 15, and locking bar 14 matches with lockhole 15, and locking bar 14 is inserted into lockhole 15, sliding Telephone-moving structure 13 includes the first dovetail groove 131 and the first dovetails 132, and the first dovetail groove 131 is arranged on the first telescopic joint 21, the One dovetails 132 are connected to locking bar 14, and the first dovetails 132 are embedded in the first dovetail groove 131, the first dovetails 132 and It is equipped with second spring 16 between one dovetail groove 131, one end of second spring 16 connects the first dovetails 132, other end connection the One dovetail groove 131 deviates from one end of driving handle 9, and second spring 16 in the raw when, the first dovetails 132 are in the One dovetail groove 131 is inserted into close to one end of driving handle 9, locking bar 14 in lockhole 15.

Implementation process：When needing to be monitored the radiation in small space, radiation monitor 37 is mounted on first It monitors on seat 3, the second rotation is saved 2842 and is inserted into the first rotation section 2841, positive stop strip 381 is made to be embedded in limiting slot 382, The second rotation of rotation section 2842 makes the second rotation section 2842 save 2841 drive third rotation axis 29 by the first rotation and rotates, the The rotation of three rotation axis 29 drives third gear 281 to rotate, and the rotation of third gear 281 drives the second rack engaged 282 and third rack 283 move simultaneously, when the second rack 282 and third rack 283 are moved to mutual departing direction, first Vertical 34 and second vertical positive stop hook 35 of positive stop hook is moved to away from 31 direction of bottom plate, to first level positive stop hook 32 and second Horizontal limiting hook 33 applies pulling force, and 32 and second Horizontal limiting hook 33 of first level positive stop hook is made to be transported to away from 31 direction of bottom plate Dynamic, 20 and the 4th spring 23 of third spring is in tensional state, and radiation monitor 37 is placed on bottom plate 31, unclamps the first water Flat 32 and second Horizontal limiting hook 33 of positive stop hook, 32 and second Horizontal limiting hook 33 of first level positive stop hook is to close to 31 side of bottom plate To movement, radiation monitor 37 is tentatively limited；After radiation monitor 37 tentatively limiting, second is rotated round about Rotation section 2842, makes the second rack 282 and third rack 283 be moved to direction close to each other, so as to drive the first vertical limiting 34 and second vertical positive stop hook 35 of hook is moved to close to 31 direction of bottom plate, the first vertical 34 and second vertical positive stop hook 35 of positive stop hook Radiation monitor 37 is limited again, realizes the purpose being mounted on radiation monitor 37 on monitoring seat 3.

After radiation monitor 37 is mounted on monitoring seat 3, pulling force is applied to locking bar 14, locking bar 14 is drawn from lockhole 15 Go out, second spring 16 is in compressive state at this time, rotates driving handle 9, driving handle 9 drives close by the second rotation axis 12 The second gear 11 of driving handle 9 rotates, so as to which several second gears 11 be driven to rotate, close to the second tooth of first gear 7 During 11 rotation of wheel, first gear 7 is driven to rotate by the first rotation axis 6, the rotation of first gear 7 drives the first rack 8 to rotate, from And changing the relative position between the first telescopic joint 21 and the second telescopic joint 22, monitoring personnel is according to need of work by telescopic rod 2 Length adjustment it is good after, release the pulling force to locking bar 14, second spring 16 made to be restored to nature, locking bar 14 is inserted into lockhole 15 It is interior, the length that driving handle 9 rotates the telescopic rod 2 that will be regulated is avoided to change.Staff can hold pedestal 1, by stretching Radiation monitor 37 is sent into the small space for needing to monitor by contracting bar 2, and the radiation in small space is monitored, is solved The problem of monitoring personnel is difficult to enter small space monitoring.

The above embodiments are only explanation to the utility model, are not the limitation to the utility model, ability Field technique personnel can as needed make the present embodiment the modification of no creative contribution after this specification is read, but As long as it is all protected in the right of the utility model by Patent Law.

Claims (10)

1. a kind of elevating type multifunctional monitors stent, including pedestal (1), telescopic rod (2) and monitoring seat (3), the telescopic rod (2) It is arranged on pedestal (1), the monitoring seat (3) is arranged on telescopic rod (2) away from one end of pedestal (1), it is characterised in that：It is described Telescopic rod (2) includes the first telescopic joint (21) and the second telescopic joint (22), and first telescopic joint (21) is set as hollow form, institute It states the second telescopic joint (22) to be arranged in the first telescopic joint, and leads between second telescopic joint (22) and the first telescopic joint (21) The first spring (4) connection is crossed, the madial wall of first telescopic joint (21) is equipped with groove (5), and the groove (5) is away from pedestal (1) by the first rotation axis (6) equipped with first gear (7), second telescopic joint (22) is equipped with the first rack for one end (8), first rack (8) is engaged with first gear (7), and driving hand is additionally provided with by stent on first telescopic joint (21) Handle (9), the driving handle (9) are connected to first gear (7) by transmission mechanism (10).

2. a kind of elevating type multifunctional monitoring stent according to claim 1, it is characterised in that：The transmission mechanism (10) Including several second gears (11), several described second gears (11) are arranged on first by the second rotation axis (12) and stretch On the lateral wall of casing coupling (21), and it is intermeshed between several described second gears (11), the one of first rotation axis (6) End connects the second gear (11) close to first gear (7) through the first telescopic rod (2), away from the of the first rotation axis (6) Two rotation axis (12) are connected with driving handle (9).

3. a kind of elevating type multifunctional monitoring stent according to claim 2, it is characterised in that：First telescopic joint (21) lateral wall is equipped with slipping mechanism (13), and the slipping mechanism (13) is equipped with locking bar (14), the driving handle (9) Lockhole (15) is equipped with, the locking bar (14) matches with lockhole (15).

4. a kind of elevating type multifunctional monitoring stent according to claim 3, it is characterised in that：The slipping mechanism (13) Including the first dovetail groove (131) and the first dovetails (132), first dovetail groove (131) is arranged on the first telescopic joint (21) On, first dovetails (132) are connected to locking bar (14), and first dovetails (132) are embedded in the first dovetail groove (131) It is interior.

5. a kind of elevating type multifunctional monitoring stent according to claim 4, it is characterised in that：First dovetails (132) second spring (16) is equipped between the first dovetail groove (131), one end of the second spring (16) connects the first dovetail Block (132), the other end connects the first dovetail groove (131) away from one end of driving handle (9), and second spring (16) is in nature During state, for the first dovetails (132) in the first dovetail groove (131) close to one end of driving handle (9), locking bar (14) is inserted into lock In hole (15).

6. a kind of elevating type multifunctional monitoring stent according to claim 5, it is characterised in that：First telescopic joint (21) the first limit component (17) is additionally provided between the second telescopic joint (22), first limit component (17) is including sliding block (171), sliding slot (172) and limited block (173), the sliding slot (172) are arranged on the first telescopic joint (21), the sliding block (171) the second telescopic joint (22) is arranged on close to one end of the first spring (4), and the limited block (173) is arranged on sliding slot (172) Away from one end of pedestal (1), the sliding block (171) is embedded in sliding slot (172).

7. a kind of elevating type multifunctional monitoring stent according to claim 6, it is characterised in that：The monitoring seat (3) is wrapped It is vertical to include bottom plate (31), first level positive stop hook (32), the second Horizontal limiting hook (33), the first vertical positive stop hook (34) and second Positive stop hook (35), the both sides of the bottom plate (31) are equipped with first level cavity (18) and the second horizontal cavity (19), and described first Third spring (20) is equipped in horizontal cavity (18), the third spring (20) is connected to first level positive stop hook (32), described The 4th spring (23) is equipped in second horizontal cavity (19), the 4th spring (23) is connected to the second Horizontal limiting hook (33), Cavity is additionally provided on the bottom plate (31), the side wall of the opposite face of the cavity is equipped with the second dovetail groove (24) and third dovetail Slot (25) is embedded with the second coattail strip (26) in second dovetail groove (24), and the is embedded in the third dovetail groove (25) Three coattail strips (27), the first vertical positive stop hook (34) are connected to the second coattail strip (26), and the second vertical positive stop hook (35) is even Third coattail strip (27) is connected to, driving mechanism (28), two output terminals of the driving mechanism (28) are additionally provided in the cavity It is connected to the first vertical positive stop hook (34) and the second vertical positive stop hook (35).

8. a kind of elevating type multifunctional monitoring stent according to claim 7, it is characterised in that：The driving mechanism (28) Including third gear (281), the second rack (282), third rack (283) and handle (284), the third gear (281) is logical It crosses third rotation axis (29) to be arranged in cavity, second rack (282) is arranged on the first vertical positive stop hook (34), described Third rack (283) is arranged on the second vertical positive stop hook (35), second rack (282) and third rack (283) with Third gear (281) engages, and one end of the third rotation axis (29) is connect through bottom plate (31) with handle (284).

9. a kind of elevating type multifunctional monitoring stent according to claim 8, it is characterised in that：The first level limiting The first sliding equipment (30) is equipped between hook (32) and first level cavity (18), first sliding equipment (30) is including first T-shape slot (301) and the first T-shape block (302), first T-shape slot (301) are arranged in first level cavity (18), The first T-shape block (302) be arranged on first level positive stop hook (32) close to third spring (20) one end, described first T-shape block (302) is embedded in the first T-shape slot (301), the second Horizontal limiting hook (33) and the second horizontal cavity (19) Between be equipped with the second sliding equipment (36), second sliding equipment (36) includes the second T-shape slot (361) and the second T-shape Block (362), second T-shape slot (361) are arranged in the second horizontal cavity (19), the second T-shape block (362) setting In the second Horizontal limiting hook (33) close to one end of the 4th spring (23), the second T-shape block (362) is embedded in second " T " In type groove (361).

10. a kind of elevating type multifunctional monitoring stent according to claim 9, it is characterised in that：Handle (284) packet The first rotation section (2841) and the second rotation section (2842) are included, the first rotation section (2841) is set as hollow form, and described the One end of one rotation section (2841) is connected with third rotation axis (29), and the second rotation section (2842) is set in the first rotation section (2841) it in, is connected between the first rotation section (2841) and the second rotation section (2842) by the second limit component (38), Second limit component (38) includes positive stop strip (381) and limiting slot (382), and the limiting slot (382) is arranged on first turn On the madial wall of dynamic section (2841), the positive stop strip (381) is arranged on the second rotation section (2842), the positive stop strip (381) It is embedded in limiting slot (382).