CN207911115U - Drawing and pulling type bogey and accelerator section structure for accelerator - Google Patents

Abstract

The utility model provides a kind of drawing and pulling type bogey and accelerator section structure for accelerator, and the drawing and pulling type bogey for accelerator includes frame mechanism and pull-out mechanism, and frame mechanism is for installing accelerator；Pull-out mechanism is connect with frame mechanism, and frame mechanism can be moved relative to pull-out mechanism.Accelerator section structure includes nacelle, shielding body and the drawing and pulling type bogey for accelerator, nacelle has workspace and maintenance area, shielding body is set to workspace, there is shielding body the side towards maintenance area to open the door, when side, which is opened the door, opens, frame mechanism can be extracted out in self-shileding mechanism into maintenance area.

Description

Drawing and pulling type bogey and accelerator section structure for accelerator

Technical field

The utility model is related to accelerators, especially using accelerator as fields such as the analyses of the mineral products of radiation source and irradiation.

Background technology

With continuously improving for electron accelerator technology, more and more industries carry out various answer using high-power accelerator With.Such as：The high energy electron accelerated using accelerator is modified product, carries out radiation sterilizing to food in the food industry Processing carries out radioactive breeding, stimulation volume increase, radiation pest control, and the device for medical industry agriculturally commonly using X-ray Tool disinfection and the Object Classification for mineral products industry.

Current powerful acceleration length of tube is larger, generally in 1m or more, when being installed and being debugged to accelerating tube, needs It is integrally moved out out of accelerator nacelle, thus leads to that inconvenient, efficiency is low.And it is further desired that in accelerator nacelle Larger spatial volume is reserved outside thereby results in the waste of application site to store accelerating tube.

Utility model content

One main purpose of the utility model is to overcome at least one defect of the above-mentioned prior art, provides a kind of use In the drawing and pulling type bogey and accelerator section structure of accelerator behaviour is saved in order to carry out the installation and debugging of accelerator Make the time, improves space availability ratio.

To reach above-mentioned purpose, the utility model provides a kind of drawing and pulling type bogey for accelerator and accelerator cabin Body structure, the drawing and pulling type bogey for accelerator include frame mechanism and pull-out mechanism, and frame mechanism accelerates for installing Device；Pull-out mechanism is connect with frame mechanism, and frame mechanism can be moved relative to pull-out mechanism.

According to an embodiment, frame mechanism includes main frame and at least one fixed supporting seat, and fixed supporting seat is fixed on The upside of main frame, fixed supporting seat are used to support and fix accelerator.

According to an embodiment, main frame include upper support frame, lower bracing frame and be connected to upper support frame and lower bracing frame it Between column, one end of upper support frame is aligned along longitudinal direction with one end of lower bracing frame, and the other end of upper support frame protrudes along longitudinal direction In the other end of lower bracing frame, fixed supporting seat is fixed on upper support frame.

According to an embodiment, frame mechanism further includes protective cover, and protective cover is removably connected to upper support frame, and prominent In the other end of upper support frame.

According to an embodiment, protective cover includes cover body and interconnecting piece, and interconnecting piece is outstanding to be fixed on the another of upper support frame End, cover body are removably connect with interconnecting piece.

According to an embodiment, the material outside of cover body is stainless steel, and inner lining material is lead.

According to an embodiment, pull-out mechanism includes the first track placed consecutively lengthwise, the second track along frame mechanism And third track, the lower section of frame mechanism are equipped at least a pair of of idler wheel, idler wheel can be in the first track, the second track and third rail It is rolled on road, to drive frame mechanism to be moved along longitudinal direction relative to pull-out mechanism.

According to an embodiment, the first track, the second track and third track include a pair of continuous and alignment guide groove, The height of guide groove is identical as the height of idler wheel, which is equal to the spacing to idler wheel, this can to idler wheel It is slided in guide groove, to drive frame mechanism relative to pull-out mechanism linear movement along longitudinal direction.

According to an embodiment, frame mechanism further includes fixed part, is located at the both ends of main frame, and protrudes from main frame Downside；First track further includes the first pedestal, and the guide groove of the first track is fixed on the first pedestal, and one end of the first pedestal is set There is the first limiting section, when frame mechanism moves to first position, the fixed part of one end of main frame is supported by the first limiting section, And it can be fixedly connected with the first limiting section；Third track further includes third pedestal, and the guide groove of third track is fixed on third On pedestal, one end far from the first track of third pedestal is equipped with the second limiting section, when frame mechanism moves to the second position, The fixed part of the other end of main frame is supported by the second limiting section, and can be fixedly connected with the second limiting section.

According to an embodiment, pull-out mechanism includes hydraulic cylinder, and the piston rod of hydraulic cylinder is fixedly connected with frame mechanism, piston Frame mechanism can be driven to carry out linear movement relative to the cylinder body of hydraulic cylinder in bar telescopic process.

The utility model also provides a kind of accelerator section structure comprising nacelle, shielding body and for accelerator There is workspace and maintenance area, shielding body to be set to workspace for drawing and pulling type bogey, nacelle, and shielding body has towards dimension The side for repairing area is opened the door, and when side, which is opened the door, opens, frame mechanism can be extracted out in self-shileding mechanism into maintenance area.

According to an embodiment, accelerator includes accelerating tube and target guard assembly, and one end of target guard assembly is connected to acceleration One end of pipe.

According to an embodiment, frame mechanism includes main frame and at least one fixed supporting seat, and fixed supporting seat is fixed on The upside of main frame, fixed supporting seat are used to support and fix accelerator；Frame mechanism further includes protective cover, and protective cover is detachable The upper support frame for being connected to main frame, and the other end of target guard assembly can be coated.

According to an embodiment, pull-out mechanism includes the first track placed consecutively lengthwise, the second track along frame mechanism And third track, the first track are set in workspace, third track is set in maintenance area, and a part of second track is located at work Make in area, the second track of another part is located in maintenance area, and the lower section of frame mechanism is equipped at least a pair of of idler wheel, and idler wheel can be It is rolled on first track, the second track and third track.

According to an embodiment, shielding body includes shielding cavity, and the first track is aligned setting with shielding cavity, and frame mechanism can Enter workspace along the first track, and target guard assembly can enter shielding cavity.

The advantageous effect of the utility model compared to the prior art is：Compared with prior art, the utility model is to take out Drawing mode moves accelerator, substantially mitigates operation difficulty, improves the maintenance and debugging efficiency of high-power accelerator.Also, pass through profit With the drawing and pulling type bogey of the utility model, debugging or repair can be completed in the inside of accelerator section structure.Therefore, nothing Reserved space volume nacelle exterior space need to be avoided outside accelerator nacelle to improve the utilization rate of nacelle inner space Waste.

Description of the drawings

Consider the detailed description of the following preferred embodiment to the utility model in conjunction with the accompanying drawings, the utility model it is each Kind target, feature and advantage will become apparent.Attached drawing is only the exemplary diagram of the utility model, is not necessarily It is drawn to scale.In the accompanying drawings, same reference numeral always shows same or similar component.Wherein：

Fig. 1 is the stereogram of the drawing and pulling type bogey for accelerator of the utility model.

Fig. 2 is the front view of the drawing and pulling type bogey for accelerator of the utility model.

Fig. 3 is the vertical view of the drawing and pulling type bogey for accelerator of the utility model.

Fig. 4 is the side view of the drawing and pulling type bogey for accelerator of the utility model.

Fig. 5 is the vertical view of the accelerator section structure of the utility model.

Fig. 6 is the sectional view of the accelerator section structure of the utility model.

Specific implementation mode

Example embodiment is described more fully with reference to the drawings.However, example embodiment can be with a variety of shapes Formula is implemented, and is not understood as limited to embodiment set forth herein；On the contrary, thesing embodiments are provided so that this practicality is new The design of example embodiment more comprehensively and completely, and is comprehensively communicated to those skilled in the art by type.It is identical in figure Reference numeral indicates same or similar structure, thus will omit their detailed description.

The term of relativity, such as " relatively low " or " bottom " and " higher " or " top " may be used in embodiment, to retouch State relativeness of the component for another component of icon.It is appreciated that, if the device overturning of icon made thereon Lower reverse, then the component described in " relatively low " side will be as in the component of " higher " side.In addition, when certain layer in other layers or When substrate "upper", it is possible to refer to " direct " on other layers or substrate, or refer to certain layer on other layers or substrate, or refer to other The other layers of sandwiched between layer or substrate.

The utility model provides a kind of drawing and pulling type bogey for accelerator, as shown in Figures 1 to 4 comprising frame Frame mechanism 10 and pull-out mechanism 20.Frame mechanism 10 is for installing accelerator 100.Pull-out mechanism 20 is connect with frame mechanism 10, And frame mechanism 10 can be moved relative to pull-out mechanism 20.

The drawing and pulling type bogey of the utility model can be applied to accelerator section structure, as shown in Figure 5,6, accelerator cabin Body structure may include that nacelle 30, shielding body 40 and the above-mentioned drawing and pulling type bogey for accelerator, nacelle 30 have work Area A1 and maintenance area A2, shielding body 40 are set to workspace A1, and shielding body 40 has the side enabling 41 towards maintenance area A2, When 41 opening is opened the door in side, frame mechanism 10 can be extracted out in self-shileding mechanism 40 into maintenance area A2.

When therefore, it is necessary to which accelerator 100 being debugged or repaired, the frame mechanism of carrying accelerator 100 can be pulled on 10 so that the accelerator 100 positioned at workspace A1 moves to maintenance area A2 relative to pull-out mechanism 20, can be completed in nacelle 30 Debugging or repair.

Therefore, compared with prior art, the utility model moves accelerator 100 in a manner of pull, and it is difficult substantially to mitigate operation Degree improves the maintenance and debugging efficiency of high-power accelerator 100.Also, by using the drawing and pulling type bogey of the utility model, Debugging or repair can be completed in the inside of accelerator section structure, it is therefore not necessary in 100 nacelle of accelerator, 30 outer reserved space Volume avoids the waste of 30 exterior space of nacelle to improve the utilization rate of 30 inner space of nacelle.

In the present embodiment, as shown in Figure 1, 2, frame mechanism 10 may include main frame 11 and at least one fixed supporting seat 12, fixed supporting seat 12 is fixed on the upside of main frame 11, and fixed supporting seat 12 is used to support and fixes accelerator 100.

In the present embodiment, main frame 11 may include upper support frame 111, lower bracing frame 112 and be connected to upper support frame 111 with Column 113 between lower bracing frame 112.One end of upper support frame 111 is aligned along longitudinal direction with one end of lower bracing frame 112, upper branch The other end of support 111 protrudes from the other end of lower bracing frame 112 along longitudinal direction.Fixed supporting seat 12 is fixed on upper support frame 111.

In the present embodiment, accelerator 100 includes accelerating tube 110 and target guard assembly 120.One end of target guard assembly 120 It is connected to one end of accelerating tube 110.Frame mechanism 10 may also include protective cover 13, and protective cover 13 is removably connected to support Frame 111, and the other end of upper support frame 111 is protruded from, protective cover 13 can coat the other end of target guard assembly 120.

In the present embodiment, protective cover 13 may include cover body 131 and interconnecting piece 132, and interconnecting piece 132 is outstanding to be fixed on branch The other end of support 111, cover body 131 are removably connect with interconnecting piece 132.Wherein, the material outside of cover body 131 can be stainless Steel, inner lining material can be lead.

When actually going out beam, protective cover 13 is removed, and target guard assembly 120 is exposed.Accelerator 100 in maintenance process, Protective cover 13 is connected to upper support frame 111, it is made to cover one end of target guard assembly 120.Especially for generation X-ray For accelerator 100, the setting of protective cover 13 can provide radiation protection shielding when beam to protect, and stop beam later to activation The isolating and protecting of target prevents maintenance personal from being radiated.

In the present embodiment, pull-out mechanism 20 may include the first track 21 placed consecutively lengthwise along frame mechanism 10, The lower section of two tracks 22 and third track 23, frame mechanism 10 is equipped at least a pair of of idler wheel 14, and idler wheel 14 can be in the first track 21, it is rolled on the second track 22 and third track 23, to drive frame mechanism 10 linear along longitudinal direction relative to pull-out mechanism 20 Movement.

Wherein, the first track 21 is set in the A1 of workspace, and third track 23 is set in the A2 of maintenance area, a part second Track 22 is located in the A1 of workspace, and the second track of another part 22 is located in the A2 of maintenance area.

As shown in figure 5, when accelerator 100 is in running order, frame mechanism 10 is located in shielding body 40, shield machine The side enabling 41 of structure 40 is closed, and the second track 22 is not installed.

When needing repairing or debugging accelerator 100, the side enabling 41 of shielding body 40 is opened, the second track is installed 22 so that the second track 22 is and continuous along straight line with the first track 21 and third track 23 across workspace A1 and maintenance area A2 Arrangement, to constitute complete rail mounted pull-out mechanism 20, frame mechanism 10 can along the first track 21, the second track 22 and Third track 23 is moved into maintenance area A2.

In the present embodiment, corresponding track can be dismantled or installed according to actual needs, it is the simple installation of track, quick, and Without substantially being changed to existing accelerator section structure, therefore, the accelerator section structure of the present embodiment it is operable Property is good, applicability is high.

It should be appreciated that the quantity of track is without being limited thereto, it can be 1,2 or 3 or more, can be carried out according to actual conditions Adjustment.Also, the arrangement of track is without being limited thereto or curve arrangement, the motion mode of frame mechanism 10 are not limited to linearly transport It is dynamic, it is alternatively curvilinear motion.

In the present embodiment, as shown in Figure 5,6, shielding body 40 may include shielding cavity 42, the first track 21 and shielding cavity 42 Alignment setting, frame mechanism 10 can enter workspace A1 along the first track 21, and target guard assembly 120 enters shielding cavity 42.Therefore, track is applied not only to pull transmission, and the also installation for accelerating tube 110 and target guard assembly 120 is provided to bit function, To improve installation effectiveness, prevent from leading to target material damage due to the installation dislocation of target guard assembly 120.

In the present embodiment, as shown in Fig. 1,4, the first track 21, the second track 22 and third track 23 include a pair of connect Continuous and alignment guide groove 24, the height of guide groove 24 is identical with the height of idler wheel 14, which is equal to this To the spacing of idler wheel 14, this can slide idler wheel 14 in guide groove 24, to drive frame mechanism 10 relative to drawing machine The linear movement along longitudinal direction of structure 20, and guide groove 24 can play the role of guiding, limit to the movement of frame mechanism 10, prevent frame 10 offset track of frame mechanism.

In the present embodiment, as shown in Fig. 1,4, frame mechanism 10 may also include fixed part 15, be located at the two of main frame 11 End, and protrude from the downside of main frame 11.

First track 21 further includes the first pedestal 211, and the guide groove 24 of the first track 21 is fixed on the first pedestal 211, One end of first pedestal 211 is equipped with the first limiting section 212, main when frame mechanism 10 moves to first position (right end in Fig. 2) The fixed part 15 of one end of frame 11 is supported by the first limiting section 212, and can be fixedly connected with the first limiting section 212.

Third track 23 further includes third pedestal 231, and the guide groove 24 of third track 23 is fixed on third pedestal 231, One end far from the first track 21 of third pedestal 231 is equipped with the second limiting section 232, when frame mechanism 10 moves to the second position When (left end in Fig. 2), the fixed part 15 of the other end of main frame 11 supported by the second limiting section 232, and can be with the second limit Portion 232 is fixedly connected.

In the present embodiment, the both ends fixed part 15 of frame mechanism 10 coordinates with the limiting section at 20 both ends of pull-out mechanism, can Limit the maximum displacement that is slided on pull-out mechanism 20 of frame mechanism 10, also, in extreme position, fixed part 15 with it is corresponding Limiting section be fixedly connected, so as to realize the fastening of frame mechanism 10, prevent its shaking, improve the accuracy and peace of operation Quan Xing.

It should be appreciated that the form of pull-out mechanism 20 is not limited to orbit form, it can arbitrarily realize that the scheme of movement can fit For the utility model, such as conveyer belt, hydraulic cylinder etc..

Specifically, pull-out mechanism may include that hydraulic cylinder, the piston rod of hydraulic cylinder are fixedly connected with frame mechanism, piston rod is stretched Frame mechanism can be driven to carry out linear movement relative to the cylinder body of hydraulic cylinder in compression process.

In conclusion compared with prior art, the utility model moves accelerator in a manner of pull, it is difficult substantially to mitigate operation Degree, improves the maintenance and debugging efficiency of high-power accelerator.Also, by using the drawing and pulling type bogey of the utility model, Debugging or repair can be completed in the inside of accelerator section structure, it is therefore not necessary to the reserved space volume outside accelerator nacelle, from And the utilization rate of nacelle inner space is improved, avoid the waste of nacelle exterior space.

Although exemplary embodiment describing the utility model with reference to several, it is to be understood that, term used is explanation With term exemplary, and not restrictive.Since the utility model can be embodied in a variety of forms without departing from practical new The spirit or essence of type, it should therefore be appreciated that above-described embodiment is not limited to any details above-mentioned, and should be in appended claims Defined by widely explain in spirit and scope, therefore fall into whole variations and modification in claim or its equivalent scope Appended claims are all should be to be covered.

Claims (15)

1. a kind of drawing and pulling type bogey for accelerator, which is characterized in that including：

Frame mechanism, for installing accelerator；And

Pull-out mechanism is connect with frame mechanism, and frame mechanism can be moved relative to pull-out mechanism.

2. the drawing and pulling type bogey according to claim 1 for accelerator, which is characterized in that frame mechanism includes master Frame and at least one fixed supporting seat, fixed supporting seat are fixed on the upside of main frame, and fixed supporting seat is used to support and consolidates Determine accelerator.

3. the drawing and pulling type bogey according to claim 2 for accelerator, which is characterized in that main frame includes upper branch Support, lower bracing frame and the column being connected between upper support frame and lower bracing frame, one end of upper support frame and lower bracing frame One end is aligned along longitudinal direction, and the other end of upper support frame protrudes from the other end of lower bracing frame along longitudinal direction, and fixed supporting seat is fixed on Upper support frame.

4. the drawing and pulling type bogey according to claim 3 for accelerator, which is characterized in that frame mechanism further includes Protective cover, protective cover are removably connected to upper support frame, and protrude from the other end of upper support frame.

5. the drawing and pulling type bogey according to claim 4 for accelerator, which is characterized in that protective cover includes cover body And interconnecting piece, the interconnecting piece other end outstanding for being fixed on upper support frame, cover body are removably connect with interconnecting piece.

6. the drawing and pulling type bogey according to claim 5 for accelerator, which is characterized in that the material outside of cover body For stainless steel, inner lining material is lead.

7. the drawing and pulling type bogey according to claim 2 for accelerator, which is characterized in that pull-out mechanism includes edge The lower section of the first track placed consecutively lengthwise, the second track and the third track of frame mechanism, frame mechanism is equipped at least one To idler wheel, idler wheel can roll on the first track, the second track and third track, to drive frame mechanism relative to pull Mechanism moves along longitudinal direction.

8. the drawing and pulling type bogey according to claim 7 for accelerator, which is characterized in that the first track, second Track and third track include a pair of continuous and alignment guide groove, and the height of guide groove is identical as the height of idler wheel, this is right The spacing of guide groove is equal to the spacing to idler wheel, this can slide idler wheel in guide groove, to drive frame mechanism phase For pull-out mechanism linear movement along longitudinal direction.

9. the drawing and pulling type bogey according to claim 7 for accelerator, which is characterized in that frame mechanism further includes Fixed part, is located at the both ends of main frame, and protrudes from the downside of main frame；First track further includes the first pedestal, the first rail The guide groove in road is fixed on the first pedestal, and one end of the first pedestal is equipped with the first limiting section, when frame mechanism moves to first When position, the fixed part of one end of main frame is supported by the first limiting section, and can be fixedly connected with the first limiting section；Third rail Road further includes third pedestal, and the guide groove of third track is fixed on third pedestal, one far from the first track of third pedestal End is equipped with the second limiting section, and when frame mechanism moves to the second position, the fixed part of the other end of main frame is by the second limit Portion supports, and can be fixedly connected with the second limiting section.

10. the drawing and pulling type bogey according to claim 1 for accelerator, which is characterized in that pull-out mechanism includes The piston rod of hydraulic cylinder, hydraulic cylinder is fixedly connected with frame mechanism, frame mechanism can be driven opposite in piston rod telescopic process Linear movement is carried out in the cylinder body of hydraulic cylinder.

11. a kind of accelerator section structure, which is characterized in that including any in nacelle, shielding body and such as claims 1 to 10 There is workspace and maintenance area, shielding body to be set to work for the drawing and pulling type bogey for accelerator described in, nacelle Area, shielding body have the door towards maintenance area, and when the door is open, frame mechanism can be extracted out in self-shileding mechanism into repair Area.

12. accelerator section structure according to claim 11, which is characterized in that accelerator includes accelerating tube and target protection One end of component, target guard assembly is connected to one end of accelerating tube.

13. accelerator section structure according to claim 11, which is characterized in that frame mechanism includes main frame and at least One fixed supporting seat, fixed supporting seat are fixed on the upside of main frame, and fixed supporting seat is used to support and fixes accelerator；Frame Frame mechanism further includes protective cover, and protective cover is removably connected to the upper support frame of main frame, and can coat target guard assembly The other end.

14. accelerator section structure according to claim 11, which is characterized in that pull-out mechanism includes along frame mechanism First track, the second track and third track placed consecutively lengthwise, the first track are set in workspace, the setting of third track In in maintenance area, a part of second track is located in workspace, and the second track of another part is located in maintenance area, frame mechanism Lower section is equipped at least a pair of of idler wheel, and idler wheel can roll on the first track, the second track and third track.

15. accelerator section structure according to claim 14, which is characterized in that shielding body includes shielding cavity, and first Track is aligned setting with shielding cavity, and frame mechanism can enter workspace along the first track, and target guard assembly can enter Shielding cavity.