CN203881692U - Penicillin bottle feeding device for lamp inspection machine - Google Patents

Abstract

The utility model provides a penicillin bottle feeding device for a lamp inspection machine. The penicillin bottle feeding device is characterized by comprising a feeding mesh-belt system, a screw system, a screw matching star-wheel system, a head part detection star-wheel system and guard bar components, wherein the feeding mesh-belt system and the screw system are respectively provided with a penicillin bottle conveying passage, the penicillin bottle conveying passage of the feeding mesh-belt system is connected with the penicillin bottle conveying passage of the screw system, the screw matching star-wheel system comprises a first star wheel, the first star wheel is arranged in an outlet of the penicillin bottle conveying passage of the screw system, the head part detection star-wheel system comprises a second star wheel, the first star wheel is engaged with the second star wheel, and the guard-rail components are arranged on the periphery of the first star wheel and the second star wheel. By adopting the penicillin bottle feeding device for the lamp inspection device, penicillin bottles of an upstream device can be gradually, stably, rapidly and continuously conveyed into a main shaft system of the lamp inspection system one by one to be automatically detected.

Description

For the cillin bottle feed arrangement of lamp inspection machine

Technical field

The utility model relates to a kind of cillin bottle feed arrangement for lamp inspection machine, thus its aim at the system support of lamp inspection machine use realize by cillin bottle on-line continuous to be checked transfer to the function in axis system.

Background technology

In pharmaceutical machine apparatus field, full-automatic soup bottle intelligent vision check system is the full-automatic on-line measuring device detecting for product qualities such as cillin bottle, cillin bottle and large transfusion bottles on pharmaceutical production line, can detect online the foreign matters such as glass chip, metallic aluminium bits, eraser chips, hair, fiber, can also detect the package quality of breakage, crackle and the bottleneck of bottle itself etc., automatic rejection unacceptable product.Compared with manual detection, improve greatly detection speed and quality, avoid the instability of manual detection, realize product is carried out to 100% detection, and detection method and standard are evenly unified, thoroughly stop underproof product introduction market.It uses machine vision technique to combine with Automatic Control Theory, make detected product run up, brake by mechanical means, adopt high-speed industrial camera to obtain a series of images of detected material, use high-performance industrial control system and software that image is calculated, analyzed, complete the detection to product.The unacceptable product detecting, gives automatic rejection by the actuating unit of automatic control, realizes the touchless detection of medicinal liquid bottle quality.

Lamp inspection machine in the market mainly contains two kinds, and one is batch (-type) lamp inspection machine, and it is motionless that camera and light source all keep, and in the time that bottle turns between camera and light source, image acquisition has stopped operating; Another kind is continous way lamp inspection machine, and camera keeps synchronizeing and having rotated image acquisition with detection bottle by mechanically operated mode with light source.The former detects discontinuous, and detection efficiency is extremely low; The latter realizes synchronously by mechanical drive mode, higher to mechanical component processing and structure installation requirement, once assembly precision does not reach requirement, will directly affect accuracy of detection.

There is lower column defects in the cillin bottle feed system of existing continous way lamp inspection machine:

1, the cillin bottle feed system stability on current most domestic lamp inspection machine is not high, and cillin bottle at the volley speed is not steady, neglects fast neglecting slowly, will affect like this taking pictures of camera, cause vision system error in judgement, certified products are mistaken for to defective products, cause unnecessary loss to pharmaceutical factory.

2, guipure, the screw rod in the cillin bottle feed system on current most domestic lamp inspection machine easily shaken, positioning precision is not high, indirectly cause fragile bottle in the course of conveying of cillin bottle, broken chips of glass is easily transported in axis system, likely can block the light path of light source and prism, affect taking pictures of camera, cause vision system error in judgement, even large chips of glass is likely the damage such as camera, light source.

3, the project organization of the cillin bottle feed system of the machine of most domestic lamp inspection is at present reasonable not, star-wheel, screw rod, the selected material of guardrail are yielding, and in structure, do not consider quick-replaceable and clean, not only affect the performance of machine, and can make troubles to operator.

Utility model content

The purpose of this utility model is to provide a kind of lamp inspection machine cillin bottle feed arrangement, by this device automatically detecting in axis system stable these cillin bottles of upstream equipment, that be transported to fast, one by one, continuously lamp inspection machine.

To achieve these goals, the utility model provides a kind of lamp inspection machine cillin bottle feed arrangement, it is characterized in that, comprise charging guipure system, screw rod system, screw rod coordinates star-wheel system, the head detection star wheel series fence assembly of unifying, charging guipure system and screw rod system are all provided with cillin bottle transfer passage, the cillin bottle transfer passage of the cillin bottle transfer passage connecting screw rod system of charging guipure system, screw rod coordinates star wheel series turnkey to draw together the first star-wheel, the first star-wheel is located at the cillin bottle transfer passage exit of screw rod system, head detection star wheel series turnkey is drawn together the second star-wheel, the first star-wheel and the second star-wheel are meshed, the first star-wheel and the second star-wheel periphery are provided with fence assembly.

Preferably, described charging guipure system comprises driving wheel and engaged wheel, and driving wheel and engaged wheel are provided with guipure, and driving wheel connects variable-frequency motor, and guipure top is provided with guardrail, and cillin bottle transfer passage is positioned at guardrail middle part.

More preferably, described engaged wheel has two, driving wheel is between two engaged wheels, the bearing at driving wheel and engaged wheel two ends is fixed on bearing seat, bearing seat is fixed on fuselage side plate, fuselage side plate is positioned at the left and right sides of guipure, the fuselage side plate of the left and right sides connects by connecting link, guipure supports by backing plate, backing plate is fixed on connecting link, fuselage side plate connects guipure fixed head, fuselage side plate is provided with guardrail holder, guardrail holder connects guardrail fixed bar, guardrail fixed bar connects guardrail, the front end of described guipure is provided with rebound, rebound is by being fixed on the rebound stent support on fuselage side plate, the side of described fuselage side plate is provided with sensor.

Preferably, described screw rod system comprises screw arbor assembly, screw arbor assembly is located at a side of cillin bottle transfer passage, one end of screw arbor assembly connects rapid-acting coupling, rapid-acting coupling is located on drive installation plate, the other end of screw arbor assembly connects movable axis free to rotate and that move forward and backward, described movable axis is provided with bearing, bearing is located on bearing seat, bearing seat connection bearing lid, bearing seat is fixed on two stationary shaft between fixed block by knob, and screw arbor assembly connects the first servomotor by Timing Belt.

More preferably, described fixed block is fixed in screw rod back up pad, and the bottom of screw rod back up pad connects supporting leg, and supporting leg is fixed on equipment main floor, and the first servomotor is located at below equipment main floor.

Preferably, described screw rod coordinates star wheel series turnkey to draw together the first star-wheel rotating shaft, the first star-wheel rotating shaft is provided with clutch shaft bearing, the first star-wheel rotating shaft is located in the first star-wheel bearing, the first star-wheel bearing is fixed on equipment main floor, the first star-wheel rotating shaft upper end connects the first star-wheel, and the first star-wheel rotating shaft lower end connects the first gear, and the first star-wheel rotating shaft connects the first star-wheel locating piece by the first star-wheel knob.

More preferably, described clutch shaft bearing is fixed in the first star-wheel rotating shaft by the first set collar.

Preferably, described head detection star wheel series turnkey is drawn together the second star-wheel rotating shaft, the second star-wheel rotating shaft is provided with the second bearing, the second star-wheel rotating shaft is located in the second star-wheel bearing, the second star-wheel bearing is fixed on equipment main floor, the second star-wheel rotating shaft upper end connects the second star-wheel, and the second star-wheel rotating shaft lower end connects the second gear, and the second star-wheel rotating shaft connects the second star-wheel locating piece by the second star-wheel knob.

More preferably, the second described bearing is fixed in the second star-wheel rotating shaft by the second set collar.

Preferably, described fence assembly comprises guardrail back up pad, guardrail back up pad connects guardrail supporting leg, guardrail supporting leg is fixed on equipment main floor, in guardrail back up pad, be fixed with guardrail, guardrail back up pad is provided with wear rib, and described guardrail is fixed in guardrail back up pad by guardrail fixed knob, and described guardrail back up pad is provided with charging sensor for countering.

Compared with prior art, the beneficial effects of the utility model are:

Lamp inspection machine of the present utility model can be transported to these cillin bottles of upstream equipment are stable, fast, one by one, continuously with cillin bottle feed arrangement in the axis system of lamp inspection machine and automatically detect, screw rod installation positioning precision is high, easily change, do not shake, guardrail frictional resistance is little, has ensured that bottle is in steady at course of conveying medium velocity.

Brief description of the drawings

Fig. 1 is cillin bottle feed arrangement overall schematic;

Fig. 2 is cillin bottle feed arrangement charging guipure system side view;

Fig. 3 is cillin bottle feed arrangement charging guipure system vertical view;

Fig. 4 is cillin bottle feed arrangement screw rod system side view;

Fig. 5 is cillin bottle feed arrangement screw rod system vertical view;

Fig. 6 is that cillin bottle feed arrangement screw rod coordinates star-wheel system sectional view;

Fig. 7 is that cillin bottle feed arrangement screw rod coordinates star-wheel system vertical view;

Fig. 8 is cillin bottle feed arrangement fence assembly side view;

Fig. 9 is cillin bottle feed arrangement fence assembly vertical view.

Figure 10 is cillin bottle feed arrangement sectional view.

Drawing reference numeral explanation:

1 charging guipure system, 2 screw rod systems, 3 screw rods coordinate star-wheel system, 4 head detection star-wheel systems, 5 fence assemblies, 6 equipment main floors, 7 guardrail fixed bars, 8 guardrail holders, 9 guipures, 10 backing plates, 11 engaged wheels, 12 bearing seats, 13 connecting links, 14 driving wheels, 15 rebound supports, 16 rebounds, 17 variable-frequency motors, 18 sensors, 19 guipure fixed heads, 20 fuselage side plates, 21 rapid-acting couplings, 22 screw arbor assemblies, 23 movable axis, 24 bearing seats, 25 bearing caps, 26 stationary shaft, 27 knobs, 28 fixed blocks, 29 screw rod back up pads, 30 supporting legs, 31 first servomotors, 32 origin sensors, 33 drive installation plates, 34 protective covers, 35 first star-wheel locating pieces, 36, the first star-wheel knob, 37 first star-wheels, 38 first star-wheel bearings, 39 clutch shaft bearings, 40 first set collars, 41 first gears, 42 first star-wheel rotating shafts, 43 wear ribs, 44 guardrail back up pads, 45, guardrail supporting leg 46, guardrail 47, guardrail fixed knob 48, charging sensor for countering, 49, the second star-wheel locating piece, 50, the second star-wheel knob, 51 second star-wheels, 52 second star-wheel bearings, 53 second bearings, 54 second set collars, 55 second gears, 56 second star-wheel rotating shafts, 57, drive fixed head, 58 reductors, 59 second servomotors.

Embodiment

For the utility model is become apparent, hereby with preferred embodiment, and coordinate accompanying drawing to be described in detail below.

Embodiment

As shown in Figure 1, for cillin bottle feed arrangement overall schematic, described lamp inspection machine cillin bottle feed arrangement, comprise charging guipure system 1, screw rod system 2, screw rod coordinates star-wheel system 3, head detection star-wheel system 4 and fence assembly 5, spout and expect that guipure system 1 and screw rod system 2 are all provided with cillin bottle transfer passage, the cillin bottle transfer passage of the cillin bottle transfer passage connecting screw rod system 2 of the material guipure system 1 of spouting, screw rod coordinates star-wheel system 3 to comprise the first star-wheel, the first star-wheel is located at the cillin bottle transfer passage exit of screw rod system 2, head detection star-wheel system 4 comprises the second star-wheel, the first star-wheel and the second star-wheel are meshed, the first star-wheel and the second star-wheel periphery are provided with fence assembly 5.

As shown in Figure 2, described cillin bottle feed arrangement charging guipure system comprises guardrail fixed bar 7, guardrail holder 8, guipure 9, backing plate 10, engaged wheel 11, bearing seat 12, bearing, connecting link 13, driving wheel 14, rebound support 15, rebound 16, variable-frequency motor 17, sensor 18, guipure fixed head 19 and fuselage side plate 20, driving wheel 14 and engaged wheel 11 are provided with guipure 9, driving wheel 14 connects variable-frequency motor 17, guipure 9 tops are provided with guardrail, and cillin bottle transfer passage is positioned at guardrail middle part.Described engaged wheel 11 has two, driving wheel 14 is located at rear and front end, in the middle of driving wheel is positioned at, between two engaged wheels 11, the bearing at driving wheel 14 and engaged wheel 11 two ends is fixed on bearing seat 12, bearing seat 12 is fixed on fuselage side plate 20, fuselage side plate 20 is positioned at the left and right sides of guipure 9, the fuselage side plate 20 of the left and right sides connects by connecting link 13, guipure 9 supports by backing plate 10, backing plate 10 is fixed on connecting link 13, as shown in Figure 3, fuselage side plate 20 connects guipure fixed head 19, guipure fixed head 19 is fixed in screw rod back up pad 29, fuselage side plate 20 is provided with guardrail holder 8, guardrail holder 8 connects guardrail fixed bar 7, guardrail fixed bar 7 connects guardrail, for the installation location of guardrail.The front end of described guipure 9 is provided with rebound 16, and rebound 16 supports by the rebound support 15 being fixed on fuselage side plate 20.The side of described fuselage side plate 20 is provided with two sensors, for detection of guipure 9 bottle above, ensures the stability of charging.Upstream equipment exports the cillin bottle of coming and enters guipure 9 through rebound 16, variable-frequency motor 17 starts, and two sensors are used for detecting the bottle above guipure, when first sensor has signal, at this time represent that cillin bottle puts in place, can charging, the first servomotor 31 starts, and starts bottle inlet, when second sensor has signal, at this time represent to have occurred collection bottle on guipure 9, variable-frequency motor 17 stops, and charging stops.

As shown in Figure 4, described screw rod system 2 comprises rapid-acting coupling 21, screw arbor assembly 22, movable axis 23, bearing seat 24, bearing cap 25, stationary shaft 26, knob 27, fixed block 28, screw rod back up pad 29, supporting leg 30, the first servomotor 31, origin sensor 32, drive installation plate 33 and protective cover 34, screw arbor assembly is located at a side of cillin bottle transfer passage, one end of screw arbor assembly 22 connects rapid-acting coupling 21, easy disassembly, rapid-acting coupling 21 is located on drive installation plate 33, the other end of screw arbor assembly 22 connects movable axis 23 free to rotate and that move forward and backward, described movable axis 23 is provided with bearing, bearing is located on bearing seat 24, bearing seat 24 connection bearing lids 25, bearing seat 24 is fixed on two stationary shaft 26 between fixed block 28 when the bottle of plurality of specifications is changed screw rod by knob 27, without any need for external tool, replacing that just can be easy and convenient.Screw arbor assembly 22 connects the first servomotor 31 by Timing Belt.Described fixed block 28 is fixed in screw rod back up pad 29, and the bottom of screw rod back up pad 29 connects supporting leg 30, and supporting leg 30 is fixed on equipment main floor 6, and the first servomotor 31 is located at below equipment main floor 6.When machine startup, the first servomotor 31 turns round, and drives screw arbor assembly 22 to rotate by Timing Belt, and the rotation by screw rod is just guipure 9 bottle above being transported in the first star-wheel one by one like this.Each big or small bottle is the different screw rod of correspondence respectively.As shown in Figure 5, a side of drive installation plate 33 is provided with protective cover 34.

As shown in Figure 6, described screw rod coordinates star-wheel system 3 to comprise the first star-wheel locating piece 35, the first star-wheel knob 36, the first star-wheel 37, the first star-wheel bearing 38, clutch shaft bearing 39, the first set collar 40, the first gear 41 and the first star-wheel rotating shaft 42, in the first star-wheel rotating shaft 42, clutch shaft bearing 39 is installed, in the first star-wheel rotating shaft 42, the first set collar is installed, clutch shaft bearing 39 is fixed in the first star-wheel rotating shaft 42 by the first set collar 40, the first star-wheel rotating shaft 42 is located in the first star-wheel bearing 38, the first star-wheel bearing 38 is fixed on equipment main floor 6, as shown in Figure 7, the first star-wheel rotating shaft 42 upper ends connect the first star-wheel 37, the first star-wheel rotating shaft 42 lower ends connect the first gear 41, for transmission.The first star-wheel rotating shaft 42 is provided with the first star-wheel locating piece 35 above, be used for installing location the first star-wheel, the first star-wheel locating piece 35 is fixing by the first star-wheel knob 36, that the first star-wheel 37 adopts is special wear-resisting, high strength, on-deformable material, ensure that under High Rotation Speed, the first star-wheel 37 is not beated, coordinate dislocation-free with screw rod.

As shown in figure 10, described head detection star-wheel system 4 comprises the second star-wheel locating piece 49, the second star-wheel knob 50, the second star-wheel 51, the second star-wheel bearing 52, the second bearing 53, the second set collar 54, the second gear 55 and the second star-wheel rotating shaft 56, the second bearing 53 is installed in the second star-wheel rotating shaft 56, the second star-wheel rotating shaft 56 is located in the second star-wheel bearing 52, the second star-wheel bearing 52 is fixed on equipment main floor 6, the second star-wheel rotating shaft 56 upper ends connect the second star-wheel 51, the second star-wheel rotating shaft 51 lower ends connect the second gear 55, the second star-wheel locating piece 49 is installed above the second star-wheel rotating shaft 56, by the second star-wheel locating piece, location the second star-wheel is installed, the second star-wheel rotating shaft 56 connects the second star-wheel locating piece 49 by the second star-wheel knob 50.The second set collar 54 is installed in the second star-wheel rotating shaft 56, and the second described bearing 53 is fixed in the second star-wheel rotating shaft 56 by the second set collar 54.Special wear-resisting, the high strength that the second star-wheel adopts, on-deformable material, ensure that under High Rotation Speed, the second star-wheel is not beated.Basic identical on the structural principle of screw rod cooperation star-wheel system 3 and head detection star-wheel system 4, difference is both the first star-wheel and numbers of teeth of the second star-wheel, in different size, and the size, the number of teeth that are arranged on respectively the first gear on both and the second gear are also different.In order to ensure the synchronism in planet gearing process, the gear ratio of the first gear and the second gear is consistent with the gear ratio of the first star-wheel and the second star-wheel.

As shown in Figure 8, described fence assembly 5 comprises wear rib 43, guardrail back up pad 44, guardrail supporting leg 45, guardrail 46, guardrail fixed knob 47 and charging sensor for countering 48, guardrail back up pad 44 connects guardrail supporting leg 45, guardrail supporting leg 45 is for supporting nonfloating rail back up pad 44, guardrail supporting leg 45 is fixed on equipment main floor 6, is fixed with guardrail 46 in guardrail back up pad 44.Described guardrail 46 is fixed in guardrail back up pad 44 by guardrail fixed knob 47.Described guardrail back up pad 44 is provided with charging sensor for countering 48.Wear rib 43 has directly been installed in guardrail back up pad 44.Special wear-resisting, the on-deformable material that guardrail 46 adopts, and on guardrail 46, be designed with dowel hole, fast and easy location and installation.The self-lubricating abrasion-proof material that wear rib 43 adopts, can realize bottle motion smoothly in the above, and wear rib 43 is very little with the contact area of bottle, can reduce friction force on the one hand, also convenient for cleaning on the other hand.Charging sensor for countering 48 is for the counting of charging cillin bottle quantity.

The first gear and the second gear are meshed, and the second gear is driven by the second servomotor 59, and the second servomotor 59 connects reductor 58, and reductor 58 is arranged on and drives on fixed head 57.

When use, cillin bottle is successively by the cillin bottle transfer passage of charging guipure system 1 and screw rod system 2, and the first star-wheel and the second star-wheel, catch bottle by jaw, sends in the axis system of lamp inspection machine and automatically detects.

Claims (10)

1. the cillin bottle feed arrangement for lamp inspection machine, it is characterized in that, comprise charging guipure system (1), screw rod system (2), screw rod coordinates star-wheel system (3), head detection star-wheel system (4) and fence assembly (5), charging guipure system (1) and screw rod system (2) are all provided with cillin bottle transfer passage, the cillin bottle transfer passage of the cillin bottle transfer passage connecting screw rod system (2) of charging guipure system (1), screw rod coordinates star-wheel system (3) to comprise the first star-wheel, the first star-wheel is located at the cillin bottle transfer passage exit of screw rod system (2), head detection star-wheel system (4) comprises the second star-wheel, the first star-wheel and the second star-wheel are meshed, the first star-wheel and the second star-wheel periphery are provided with fence assembly (5).

2. the cillin bottle feed arrangement for lamp inspection machine as claimed in claim 1, it is characterized in that, described charging guipure system (1) comprises driving wheel (14) and engaged wheel (11), driving wheel (14) and engaged wheel (11) are provided with guipure (9), driving wheel (14) connects variable-frequency motor (17), guipure (9) top is provided with guardrail, and cillin bottle transfer passage is positioned at guardrail middle part.

3. the cillin bottle feed arrangement for lamp inspection machine as claimed in claim 2, it is characterized in that, described engaged wheel (11) has two, driving wheel (14) is positioned between two engaged wheels (11), the bearing at driving wheel (14) and engaged wheel (11) two ends is fixed on bearing seat (12), bearing seat (12) is fixed on fuselage side plate (20), fuselage side plate (20) is positioned at the left and right sides of guipure (9), the fuselage side plate (20) of the left and right sides connects by connecting link (13), guipure (9) supports by backing plate (10), backing plate (10) is fixed on connecting link (13), fuselage side plate (20) connects guipure fixed head (19), fuselage side plate (20) is provided with guardrail holder (8), guardrail holder (8) connects guardrail fixed bar (7), guardrail fixed bar (7) connects guardrail, the front end of described guipure (9) is provided with rebound (16), rebound (16) supports by the rebound support (15) being fixed on fuselage side plate (20), the side of described fuselage side plate (20) is provided with sensor (18).

4. the cillin bottle feed arrangement for lamp inspection machine as claimed in claim 1, it is characterized in that, described screw rod system (2) comprises screw arbor assembly (22), screw arbor assembly (22) is located at a side of cillin bottle transfer passage, one end of screw arbor assembly (22) connects rapid-acting coupling (21), rapid-acting coupling (21) is located on drive installation plate (33), the other end of screw arbor assembly (22) connects movable axis (23) free to rotate and that move forward and backward, described movable axis (23) is provided with bearing, bearing is located on bearing seat (24), bearing seat (24) connection bearing lid (25), bearing seat (24) is fixed on the stationary shaft (26) between two fixed blocks (28) by knob (27), screw arbor assembly (22) connects the first servomotor (31) by Timing Belt.

5. the cillin bottle feed arrangement for lamp inspection machine as claimed in claim 4, it is characterized in that, described fixed block (28) is fixed in screw rod back up pad (29), the bottom of screw rod back up pad (29) connects supporting leg (30), it is upper that supporting leg (30) is fixed on equipment main floor (6), and the first servomotor (31) is located at equipment main floor (6) below.

6. the cillin bottle feed arrangement for lamp inspection machine as claimed in claim 1, it is characterized in that, described screw rod coordinates star-wheel system (3) to comprise the first star-wheel rotating shaft (42), the first star-wheel rotating shaft (42) is provided with clutch shaft bearing (39), the first star-wheel rotating shaft (42) is located in the first star-wheel bearing (38), the first star-wheel bearing (38) is fixed on equipment main floor (6), the first star-wheel rotating shaft (42) upper end connects the first star-wheel (37), the first star-wheel rotating shaft (42) lower end connects the first gear (41), the first star-wheel rotating shaft (42) connects the first star-wheel locating piece (35) by the first star-wheel knob (36).

7. the cillin bottle feed arrangement for lamp inspection machine as claimed in claim 6, is characterized in that, described clutch shaft bearing (39) is fixed in the first star-wheel rotating shaft (42) by the first set collar (40).

8. the cillin bottle feed arrangement for lamp inspection machine as claimed in claim 1, it is characterized in that, described head detection star-wheel system (4) comprises the second star-wheel rotating shaft (56), the second star-wheel rotating shaft (56) is provided with the second bearing (53), the second star-wheel rotating shaft (56) is located in the second star-wheel bearing (52), the second star-wheel bearing (52) is fixed on equipment main floor (6), the second star-wheel rotating shaft (56) upper end connects the second star-wheel (51), the second star-wheel rotating shaft (51) lower end connects the second gear (55), the second star-wheel rotating shaft (56) connects the second star-wheel locating piece (49) by the second star-wheel knob (50).

9. the cillin bottle feed arrangement for lamp inspection machine as claimed in claim 8, is characterized in that, described the second bearing (53) is fixed in the second star-wheel rotating shaft (56) by the second set collar (54).

10. the cillin bottle feed arrangement for lamp inspection machine as claimed in claim 1, it is characterized in that, described fence assembly (5) comprises guardrail back up pad (44), guardrail back up pad (44) connects guardrail supporting leg (45), guardrail supporting leg (45) is fixed on equipment main floor (6), in guardrail back up pad (44), be fixed with guardrail (46), guardrail back up pad (44) is provided with wear rib (43), described guardrail (46) is fixed in guardrail back up pad (44) by guardrail fixed knob (47), described guardrail back up pad (44) is provided with charging sensor for countering (48).