CN116511120B - Fixed-point video monitoring device for concrete pumping - Google Patents

Abstract

The invention belongs to the technical field of concrete pumping monitoring, in particular to a fixed-point video monitoring device for concrete pumping, which comprises a concrete pumping hopper and a monitoring mechanism arranged on the surface of the concrete pumping hopper, wherein the monitoring mechanism comprises a monitoring component, a rotating component, a lifting component and a circulating component, the monitoring component is arranged on the surface of the concrete pumping hopper, the rotating component is arranged on the surface of the monitoring component and is connected with the monitoring component, the lifting component is arranged in the rotating component, and the circulating component is arranged on the surface of the monitoring component; the lifting sleeve is favorable for driving the spiral scraping plate to vertically descend after rotating and ascending, and the effect of cleaning foreign objects adhered to the surface of the transparent protective cover is achieved.

Description

Fixed-point video monitoring device for concrete pumping

Technical Field

The invention belongs to the technical field of concrete pumping monitoring, and particularly relates to a fixed-point video monitoring device for concrete pumping.

Background

With the development of society and the improvement of urban construction and transportation technology, concrete pumping is increasingly widely applied in construction, however, various adverse factors can be encountered in the concrete pumping process to cause the degradation of concrete quality, so that the quality of the concrete pumping and the legitimacy of the whole process are necessarily monitored;

in the process of monitoring the concrete pumping quality and the whole process through the monitor, as the camera is arranged at the hopper at the tail part of the concrete pump truck, the situation that concrete splashes to shield the camera when the concrete is poured into the hopper is easy to occur, so that the normal use of the camera is influenced;

for this purpose, a fixed-point video monitoring device for concrete pumping is designed to solve the above problems.

Disclosure of Invention

To solve the problems set forth in the background art. The invention provides a fixed-point video monitoring device for concrete pumping, which is beneficial to enabling a lifting sleeve to drive a spiral scraping plate to vertically descend after rotating and ascending, so as to realize the effect of cleaning foreign objects adhered on the surface of a transparent protective cover.

In order to achieve the above purpose, the present invention provides the following technical solutions: the fixed-point video monitoring device for concrete pumping comprises a concrete pumping hopper and a monitoring mechanism arranged on the surface of the concrete pumping hopper;

the monitoring mechanism comprises a monitoring component, a rotating component, a lifting component and a circulating component, wherein the monitoring component is arranged on the surface of the concrete pumping bucket, the rotating component is arranged on the surface of the monitoring component and is connected with the monitoring component, the lifting component is arranged in the rotating component, and the circulating component is arranged on the surface of the monitoring component.

The fixed-point video monitoring device for concrete pumping is preferable, the monitoring assembly comprises a connecting plate, a placing table, a transparent protective cover, a rotary table, a camera, a supporting rod and a fixing plate, wherein the fixing plate is fixedly connected to the upper surface of the concrete pumping hopper, the connecting plate is arranged above the concrete pumping hopper and is fixedly connected with the fixing plate, the placing table is fixedly connected to the upper surface of the connecting plate, the transparent protective cover is fixedly connected to the upper surface of the placing table, the camera and the rotary table are both arranged in the transparent protective cover, the rotary table is fixedly connected with the placing table, the supporting rod is arranged between the camera and the rotary table, and two ends of the supporting rod are respectively fixedly connected with the camera and the rotary table.

As the fixed-point video monitoring device for concrete pumping, the rotating assembly comprises a motor, a hexagonal rod, a lifting sleeve and a cylindrical block, wherein the lifting sleeve is arranged above the placing table, the transparent protective cover is positioned in the lifting sleeve, the cylindrical block is inserted into a circular groove formed in the upper surface of the lifting sleeve and is fixedly connected with the lifting sleeve, the hexagonal rod is inserted into a hexagonal groove formed in the surface of the cylindrical block, the hexagonal rod is in sliding connection with the cylindrical block through the hexagonal groove, the motor is arranged on the upper surface of the transparent protective cover, and one end of the hexagonal rod is fixedly connected with an output shaft of the motor.

As the fixed-point video monitoring device for concrete pumping, the rotating assembly further comprises an upper cover plate, limiting rings and annular limiting grooves, wherein the upper cover plate is sleeved on the surface of the lifting sleeve, the two limiting rings are fixedly connected to the inner part of the upper cover plate, the surface of the lifting sleeve is provided with the two annular limiting grooves which are matched with the limiting rings respectively, the limiting rings are rotatably connected to the inner part of the annular limiting grooves, the upper surface of the upper cover plate is provided with a through round hole, and the six-edge rod is positioned in the through round hole.

As the fixed-point video monitoring device for concrete pumping, the rotating assembly further comprises an L-shaped supporting rod, a gravity block and a square sleeve, wherein the L-shaped supporting rod is fixedly connected to the surface of the upper cover plate, the gravity block is fixedly connected to one end, away from the upper cover plate, of the L-shaped supporting rod, the square sleeve is sleeved on the surface of the gravity block, the gravity block is in sliding connection with the square sleeve, and the square sleeve is fixedly connected with the connecting plate.

As the fixed-point video monitoring device for concrete pumping, the rotating assembly also comprises a rectangular sleeve, wherein the rectangular sleeve is sleeved on the surface of the L-shaped supporting rod and is positioned in the square sleeve, the rectangular sleeve is fixedly connected with the square sleeve, and the rectangular sleeve is in sliding connection with the L-shaped supporting rod.

As the fixed-point video monitoring device for concrete pumping, the lifting assembly comprises the splicing columns and the spiral scraping plates, wherein the two splicing columns are symmetrically and fixedly connected to the surface of the transparent protective cover, two rectangular sliding grooves and two spiral sliding grooves are formed in the lifting sleeve, the spiral scraping plates are arranged in the lifting sleeve and are fixedly connected with the lifting sleeve, and the spiral scraping plates are attached to the surface of the transparent protective cover.

As the fixed-point video monitoring device for concrete pumping, the two rectangular sliding grooves are symmetrically arranged, the two spiral sliding grooves are centrally and symmetrically arranged, and the head and the tail of each spiral sliding groove are respectively communicated with the two rectangular sliding grooves.

As the fixed-point video monitoring device for concrete pumping, the circulating assembly comprises a first spring, a second rectangular sliding plate, a first guide plate, a storage battery, a second guide plate and a second spring, wherein the first rectangular groove and the second rectangular groove are formed in the square sleeve, the first rectangular groove is positioned above the second rectangular groove, the first spring, the second rectangular sliding plate and the first rectangular sliding plate are all arranged in the first rectangular groove, the first rectangular sliding plate is positioned below the second rectangular sliding plate, two ends of the first spring are fixedly connected with the second rectangular sliding plate and the square sleeve respectively, the first rectangular sliding plate is in sliding connection with the square sleeve, the second guide plate is positioned in the second rectangular groove, the first guide plate is positioned above the second guide plate, two ends of the second spring are fixedly connected with the second guide plate and the square sleeve respectively, and the storage battery is installed on the bottom surface of the connecting plate.

As the fixed-point video monitoring device for concrete pumping, the circulating assembly further comprises a linkage plate, a first friction plate and a second friction plate, wherein a linkage groove is formed in the square sleeve, the linkage groove is communicated with the second rectangular groove and the first rectangular groove, the linkage plate is inserted into the linkage groove and is in sliding connection with the square sleeve through the linkage groove, two ends of the linkage plate are respectively and fixedly connected with the first guide plate and the first rectangular slide plate, the first friction plate is fixedly connected to the right surface of the first rectangular slide plate, the second friction plate is fixedly connected to the right surface of the first guide plate, and the first friction plate and the second friction plate are all attached to the inner part of the square sleeve.

Compared with the prior art, the invention has the beneficial effects that: the lifting sleeve is favorable for driving the spiral scraping plate to vertically descend after being lifted in a rotating way, the effect of cleaning foreign objects adhered to the surface of the transparent protective cover is achieved, and the effect that the video monitoring is influenced due to shielding of the foreign objects is avoided.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view of the invention at A in FIG. 2;

FIG. 4 is an enlarged view of the invention at B in FIG. 2;

FIG. 5 is a schematic view of the structure of the L-shaped strut and the upper cover plate in the present invention;

FIG. 6 is a schematic view of the structure of the first guide plate and the linkage plate according to the present invention;

FIG. 7 is a schematic view of the structure of the lifting sleeve and the annular limiting groove in the invention;

FIG. 8 is a schematic view of the structure of the helical flighting and lifting sleeve of the present invention;

FIG. 9 is a schematic view of the structure of the plug post and the transparent shield of the present invention;

FIG. 10 is a schematic diagram of a camera system in accordance with the present invention;

in the figure:

1. concrete pumping hopper; 2. a monitoring mechanism;

21. a monitoring component; 211. a connecting plate; 212. a placement table; 213. a transparent protective cover; 214. a rotary table; 215. a camera; 216. a support rod; 217. a fixing plate;

22. a rotating assembly; 221. a motor; 222. a hexagonal rod; 223. an upper cover plate; 224. a limiting ring; 225. an annular limit groove; 226. a through round hole; 227. an L-shaped supporting rod; 228. a gravity block; 229. a square sleeve; 2210. a rectangular sleeve; 2211. a cylindrical block; 2212. a six-edge groove; 2213. lifting the sleeve;

23. a lifting assembly; 231. rectangular sliding grooves; 232. a spiral chute; 233. a helical flighting; 234. a plug-in column;

24. a circulation assembly; 241. a first spring; 242. a second rectangular slide plate; 243. a first rectangular groove; 244. a first friction plate; 245. a first rectangular slide plate; 246. a linkage plate; 247. a linkage groove; 248. a second rectangular groove; 249. a second friction plate; 2410. a first guide plate; 2411. a storage battery; 2412. a second guide plate; 2413. and a second spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 10;

the fixed-point video monitoring device for concrete pumping comprises a concrete pumping hopper 1 and a monitoring mechanism 2 arranged on the surface of the concrete pumping hopper 1;

the monitoring mechanism 2 comprises a monitoring assembly 21, a rotating assembly 22, a lifting assembly 23 and a circulating assembly 24, wherein the monitoring assembly 21 is arranged on the surface of the concrete pumping hopper 1, the rotating assembly 22 is arranged on the surface of the monitoring assembly 21 and is connected with the monitoring assembly 21, the lifting assembly 23 is arranged in the rotating assembly 22, and the circulating assembly 24 is arranged on the surface of the monitoring assembly 21.

In an alternative embodiment, the monitoring assembly 21 includes a connection plate 211, a placement table 212, a transparent protection cover 213, a rotation table 214, a camera 215, a support rod 216 and a fixing plate 217, the fixing plate 217 is fixedly connected to the upper surface of the concrete pumping bucket 1, the connection plate 211 is disposed above the concrete pumping bucket 1 and is fixedly connected to the fixing plate 217, the placement table 212 is fixedly connected to the upper surface of the connection plate 211, the transparent protection cover 213 is fixedly connected to the upper surface of the placement table 212, the camera 215 and the rotation table 214 are both disposed inside the transparent protection cover 213, the rotation table 214 is fixedly connected to the placement table 212, the support rod 216 is disposed between the camera 215 and the rotation table 214, and two ends of the support rod 216 are respectively fixedly connected to the camera 215 and the rotation table 214.

In an alternative embodiment, the rotating assembly 22 includes a motor 221, a hexagonal rod 222, a lifting sleeve 2213 and a cylindrical block 2211, the lifting sleeve 2213 is disposed above the placing table 212, the transparent protective cover 213 is located inside the lifting sleeve 2213, the cylindrical block 2211 is inserted into a circular groove formed on the upper surface of the lifting sleeve 2213, the cylindrical block 2211 is fixedly connected with the lifting sleeve 2213, the hexagonal rod 222 is inserted into a hexagonal groove 2212 formed on the surface of the cylindrical block 2211, the hexagonal rod 222 is slidably connected with the cylindrical block 2211 through the hexagonal groove 2212, the motor 221 is mounted on the upper surface of the transparent protective cover 213, and one end of the hexagonal rod 222 is fixedly connected with an output shaft of the motor 221.

In an alternative embodiment, the rotating assembly 22 further includes an upper cover plate 223, a limiting ring 224 and an annular limiting groove 225, the upper cover plate 223 is sleeved on the surface of the lifting sleeve 2213, two limiting rings 224 are fixedly connected in the upper cover plate 223, two annular limiting grooves 225 matched with the limiting rings 224 respectively are formed in the surface of the lifting sleeve 2213, the limiting rings 224 are rotationally connected in the annular limiting groove 225, a through round hole 226 is formed in the upper surface of the upper cover plate 223, and the six-edge rod 222 is located in the through round hole 226.

In an alternative embodiment, the rotating assembly 22 further includes an L-shaped strut 227, a gravity block 228, and a square sleeve 229, wherein the L-shaped strut 227 is fixedly connected to the surface of the upper cover plate 223, the gravity block 228 is fixedly connected to one end of the L-shaped strut 227 away from the upper cover plate 223, the square sleeve 229 is sleeved on the surface of the gravity block 228, the gravity block 228 is slidably connected to the square sleeve 229, and the square sleeve 229 is fixedly connected to the connecting plate 211.

In an alternative embodiment, the rotating assembly 22 further includes a rectangular sleeve 2210, the rectangular sleeve 2210 is sleeved on the surface of the L-shaped strut 227 and is located inside the square sleeve 229, and the rectangular sleeve 2210 is fixedly connected with the square sleeve 229, and the rectangular sleeve 2210 is slidably connected with the L-shaped strut 227.

In an alternative embodiment, the lifting assembly 23 includes a plug post 234 and a spiral scraper 233, the two plug posts 234 are symmetrically and fixedly connected to the surface of the transparent protective cover 213, two rectangular sliding grooves 231 and two spiral sliding grooves 232 are formed in the lifting sleeve 2213, the spiral scraper 233 is disposed in the lifting sleeve 2213, the spiral scraper 233 is fixedly connected to the lifting sleeve 2213, and the spiral scraper 233 is attached to the surface of the transparent protective cover 213.

In an alternative embodiment, the two rectangular sliding grooves 231 are symmetrically arranged, the two spiral sliding grooves 232 are centrally and symmetrically arranged, and the head and the tail of each spiral sliding groove 232 are respectively communicated with the two rectangular sliding grooves 231.

In an alternative embodiment, the circulation assembly 24 includes a first spring 241, a second rectangular slide 242, a first rectangular slide 245, a first guide plate 2410, a battery 2411, a second guide plate 2412, and a second spring 2413, wherein the first rectangular slot 243 and the second rectangular slot 248 are formed in the square sleeve 229, the first rectangular slot 243 is located above the second rectangular slot 248, the first spring 241, the second rectangular slide 242, and the first rectangular slide 245 are all disposed in the first rectangular slot 243, the first rectangular slide 245 is located below the second rectangular slide 242, two ends of the first spring 241 are fixedly connected with the second rectangular slide 242 and the square sleeve 229, the first rectangular slide 245 is slidably connected with the square sleeve 229, the first guide plate 2410, the second guide plate 2412, and the second spring 2413 are all located in the second rectangular slot 248, and the first guide plate 2410 is located above the second guide plate 2412, two ends of the second spring 2413 are fixedly connected with the second rectangular sleeve 2412 and the square sleeve 229, respectively, and the battery bottom surface 2411 is mounted on the connection plate 211.

In an alternative embodiment, the circulation assembly 24 further includes a linkage plate 246, a first friction plate 244 and a second friction plate 249, the interior of the square sleeve 229 is provided with a linkage groove 247, the linkage groove 247 is communicated with the second rectangular groove 248 and the first rectangular groove 243, the linkage plate 246 is inserted in the linkage groove 247, the linkage plate 246 is slidably connected with the square sleeve 229 through the linkage groove 247, two ends of the linkage plate 246 are respectively fixedly connected with the first guide plate 2410 and the first rectangular slide plate 245, the first friction plate 244 is fixedly connected with the right surface of the first rectangular slide plate 245, the second friction plate 249 is fixedly connected with the right surface of the first guide plate 2410, and the first friction plate 244 and the second friction plate 249 are all attached to the interior of the square sleeve 229.

In this embodiment: when the fixed-point video monitoring device is used, the arrangement of the transparent protective cover 213 prevents the surface of the camera 215 from adhering to concrete, thereby shielding the camera 215, when the surface of the transparent protective cover 213 adheres to concrete to shield the image capturing area of the camera 215, the motor 221 is started by the controller, the operation of the motor 221 drives the six-edge rod 222 to rotate, the rotation of the six-edge rod 222 drives the cylindrical block 2211 and the lifting sleeve 2213 to synchronously rotate, the rotation of the lifting sleeve 2213 enables the inserting column 234 to slide in the spiral chute 232, the inserting column 234 slides in the spiral chute 232 along with the sliding of the inserting column 234, so that the lifting sleeve 2213 vertically moves, the movement of the lifting sleeve 2213 drives the spiral scraping plate 233 to move, thereby cleaning and scraping the external objects adhered to the surface of the transparent protective cover 213, thereby being beneficial to scraping the concrete adhered to the surface of the transparent protective cover 213, the use effect of the device is improved, the upper cover plate 223 is driven to synchronously move in the moving process of the lifting sleeve 2213, the upper cover plate 223 moves through the L-shaped supporting rod 227 to drive the gravity block 228 to slide in the square sleeve 229, the gravity block 228 slides upwards in the square sleeve 229 in the upward moving process of the lifting sleeve 2213 and the upper cover plate 223, when the gravity block 228 is attached to the surface of the first rectangular sliding plate 245, the first rectangular sliding plate 245 continuously moves along with the continuous movement of the gravity block 228, the first rectangular sliding plate 245 moves through the linkage plate 246 to drive the first sliding plate 2410 to move, so that the surfaces of the first sliding plate 2410 and the second sliding plate 2412 are not attached any more, the position of the first sliding plate 2410 can be fixed under the friction force of the second friction plate 249 and the first friction plate 244, the motor 221 and the storage battery 2411 form a circuit breaking state, the motor 221 stops running, and the plug post 234 just moves to the inside of the rectangular chute 231 at this moment, move vertically downwards under the effect of gravity of the gravity block 228 and the transparent protective cover 213, along with the movement of the gravity block 228, when the surfaces of the gravity block 228 and the first guide plate 2410 are attached, the surfaces of the first guide plate 2410 and the second guide plate 2412 are attached under the effect of gravity, the motor 221 and the storage battery 2411 form a closed circuit at this moment, the motor 221 operates, the motor 221 drives the hexagonal rod 222 to rotate so that the lifting sleeve 2213 rises in a rotating way, according to the cleaning condition of the concrete adhered to the surface of the transparent protective cover 213, the lifting sleeve 2213 can be controlled by the controller to drive the spiral scraping plate 233 to rise in a rotating way for vertical falling until the cleaning of the concrete adhered to the surface of the transparent protective cover 213 is completed, the lifting sleeve 2213 is favorable for driving the spiral scraping plate 233 to rise in a rotating way, the effect of cleaning the foreign objects adhered to the surface of the transparent protective cover 213 is realized, and the effect of preventing the foreign objects from affecting the effect of video monitoring is avoided.

It should be noted that: when the video camera 215 is used, power is supplied to the video camera 215 through an external power supply, a video monitoring module and a data transmission module are installed on the video camera 215, the video monitoring module is a high-definition waterproof camera, the data transmission module can be uploaded to a terminal through a 4G network, a 4G Beidou/GPS vehicle video terminal is installed on a concrete pump truck, and real-time videos of the concrete pump truck can be uploaded to a server or a temporary storage vehicle-mounted video terminal through the 4G network.

It should be noted that: the output end of the storage battery 2411 is connected with the input end of the motor 221 through a wire, the input end of the storage battery 2411 is connected with the second guide plate 2412 through a wire, the output end of the motor 221 is connected with the first guide plate 2410 through a wire, when the surfaces of the first guide plate 2410 and the second guide plate 2412 are attached, the motor 221 and the storage battery 2411 form a closed circuit, at the moment, the motor 221 can be started under the action of a controller, so that the lifting sleeve 2213 is enabled to rotate and rise, under the action of gravity of the lifting sleeve 2213 and the gravity block 228, the lifting sleeve 2213 can drive the spiral scraping plate 233 to vertically move downwards under the action of gravity of the lifting sleeve 2213 and the gravity block 228 until the gravity block 228 is contacted with the first guide plate 2410, the first guide plate 2410 is pushed to move, the first guide plate 2410 and the second guide plate 2412 are attached, the motor 221 is enabled to operate to drive the lifting sleeve 2213 to rotate and rise, and the effect of cleaning the foreign objects adhered on the surface of the transparent protective cover 213 is achieved.

It should be noted that: when the motor 221 drives the hexagonal rod 222 to rotate, the rotation of the hexagonal rod 222 can drive the cylindrical block 2211 to rotate, and the hexagonal rod 222 can slide in the hexagonal groove 2212 during the lifting process of the lifting sleeve 2213.

It should be noted that: in the process of rotating the lifting sleeve 2213, under the limitation of the L-shaped supporting rod 227 and the square sleeve 229, the upper cover plate 223 cannot rotate, and the limiting ring 224 can rotate in the annular limiting groove 225, so that the position limitation of the upper cover plate 223 and the lifting sleeve 2213 is realized when the lifting sleeve 2213 rotates.

It should be noted that: the first friction plate 244 and the second friction plate 249 are both attached to the inside of the square sleeve 229, and under the action of the extrusion of the first rectangular slide plate 245 and the first slide plate 2410, the positions of the first slide plate 2410 and the first rectangular slide plate 245 can be fixed when no external force is applied, and under the action of the second spring 2413, the surfaces of the first slide plate 2410 and the second slide plate 2412 can be attached to each other.

It should be noted that: the two rectangular sliding grooves 231 are symmetrically arranged, the two rectangular sliding grooves 231 are in a vertical state, the two spiral sliding grooves 232 are arranged in a central symmetry mode, the head and the tail of each spiral sliding groove 232 are respectively communicated with the two rectangular sliding grooves 231, so that when the plug-in posts 234 rotate in the spiral sliding grooves 232, the lifting sleeve 2213 vertically moves, when the plug-in posts 234 move to the positions of the rectangular sliding grooves 231, under the action of gravity, the lifting sleeve 2213 vertically moves downwards, the plug-in posts 234 slide in the inner parts of the rectangular sliding grooves 231 at the moment, the spiral scraping plates 233 are of spiral structures, the spiral scraping plates 233 are prevented from driving foreign objects to rise in the process of rotating and rising, and the effect that when the lifting sleeve 2213 drives the spiral scraping plates 233 to vertically move downwards, the foreign objects adhered to the surface of the transparent protective cover 213 is achieved.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A fixed point video monitoring device for concrete pumping, includes concrete pumping bucket (1), its characterized in that: the system also comprises a monitoring mechanism (2) arranged on the surface of the concrete pumping hopper (1);

the monitoring mechanism (2) comprises a monitoring component (21), a rotating component (22), a lifting component (23) and a circulating component (24), wherein the monitoring component (21) is arranged on the surface of the concrete pumping hopper (1), the rotating component (22) is arranged on the surface of the monitoring component (21) and is connected with the monitoring component (21), the lifting component (23) is arranged in the rotating component (22), the circulating component (24) is arranged on the surface of the monitoring component (21), the monitoring component (21) comprises a connecting plate (211), a placing table (212), a transparent protective cover (213), a rotary table (214), a camera (215), a supporting rod (216) and a fixing plate (217), the fixing plate (217) is fixedly connected to the upper surface of the concrete pumping hopper (1), the placing table (212) is fixedly connected to the upper surface of the connecting plate (211), the transparent protective cover (213) is fixedly connected to the upper surface of the transparent protective cover (213) and the transparent protective cover (215) which are fixedly arranged on the upper surface of the transparent protective cover (213) and the transparent protective cover (213), and revolving stage (214) with place platform (212) fixed connection, bracing piece (216) set up camera (215) with between revolving stage (214), just bracing piece (216) both ends respectively with camera (215) with revolving stage (214) fixed connection, rotating assembly (22) include motor (221), six arris pole (222), lift sleeve (2213) and cylindricality piece (2211), lift sleeve (2213) set up place the top of platform (212), just transparent protection casing (213) are located the inside of lift sleeve (2213), cylindricality piece (2211) are inserted and are in the circular slot that lift sleeve (2213) upper surface was seted up, just cylindricality piece (2211) with lift sleeve (2213) fixed connection, six arris pole (222) are inserted and are established in six arris grooves (2) that cylindricality piece (2211) surface was seted up, and six arris pole (222) are in through six arris pole (2212) and lift sleeve (2213) the inside of lift sleeve (2213), cylindricality piece (2211) upper surface is connected, and still include that six arris piece (2211) are connected with rotating assembly (221) output shaft (221) and one end (221) Spacing ring (224) and annular spacing recess (225), upper cover plate (223) cover is established the surface of lift sleeve (2213), two equal fixed connection of spacing ring (224) is in the inside of upper cover plate (223), two respectively with spacing ring (224) assorted annular spacing recess (225) have been seted up on the surface of lift sleeve (2213), spacing ring (224) rotate and connect the inside of annular spacing recess (225), link up round hole (226) have been seted up on the upper surface of upper cover plate (223), just hexagonal pole (222) are located link up the inside of round hole (226), rotating assembly (22) still include L type branch (227), gravity piece (228) and square sleeve (229), L type branch (227) fixed connection is in the surface of upper cover plate (223), gravity piece (228) fixed connection are in L type branch (227) keep away from the one end of upper cover plate (223), gravity piece (229) cover is established in gravity piece (228) and square sleeve (229) and connection 229).

2. The fixed point video monitoring device for concrete pumping according to claim 1, wherein: the rotary component (22) further comprises a rectangular sleeve (2210), the rectangular sleeve (2210) is sleeved on the surface of the L-shaped supporting rod (227) and positioned inside the square sleeve (229), the rectangular sleeve (2210) is fixedly connected with the square sleeve (229), and the rectangular sleeve (2210) is slidably connected with the L-shaped supporting rod (227).

3. The fixed point video monitoring device for concrete pumping according to claim 1, wherein: lifting assembly (23) are including grafting post (234) and heliciform scraper blade (233), two grafting post (234) symmetry fixed connection is in the surface of transparent protection casing (213), two rectangle spout (231) and two heliciform spouts (232) have been seted up to the inside of lifting sleeve (2213), heliciform scraper blade (233) set up the inside of lifting sleeve (2213), just heliciform scraper blade (233) with lifting sleeve (2213) fixed connection, heliciform scraper blade (233) with the surface of transparent protection casing (213) is laminated mutually.

4. The fixed point video monitoring device for concrete pumping according to claim 3, wherein: the two rectangular sliding grooves (231) are symmetrically arranged, the two spiral sliding grooves (232) are centrally and symmetrically arranged, and the head and the tail of each spiral sliding groove (232) are respectively communicated with the two rectangular sliding grooves (231).

5. The fixed point video monitoring device for concrete pumping according to claim 1, wherein: the circulating assembly (24) comprises a first spring (241), a second rectangular slide plate (242), a first rectangular slide plate (245), a first slide plate (2410), a storage battery (2411), a second slide plate (2412) and a second spring (2413), wherein a first rectangular groove (243) and a second rectangular groove (248) are formed in the square sleeve (229), the first rectangular groove (243) is located above the second rectangular groove (248), the first spring (241), the second rectangular slide plate (242) and the first rectangular slide plate (245) are all arranged in the first rectangular groove (243), the first rectangular slide plate (245) is located below the second rectangular slide plate (242), two ends of the first spring (241) are fixedly connected with the second rectangular slide plate (242) and the square sleeve (229), the first rectangular slide plate (245) is slidably connected with the square sleeve (229), the first slide plate (2410), the second slide plate (2412) is fixedly connected with the second rectangular sleeve (2413), and the second rectangular slide plate (2413) is fixedly connected with the square sleeve (229) at two ends of the second slide plate (2412), the storage battery (2411) is mounted on the bottom surface of the connection plate (211).

6. The fixed point video monitoring device for concrete pumping according to claim 5, wherein: the circulation assembly (24) further comprises a linkage plate (246), a first friction plate (244) and a second friction plate (249), a linkage groove (247) is formed in the square sleeve (229), the linkage groove (247) is communicated with the second rectangular groove (248) and the first rectangular groove (243), the linkage plate (246) is inserted into the linkage groove (247), the linkage plate (246) is in sliding connection with the square sleeve (229) through the linkage groove (247), two ends of the linkage plate (246) are fixedly connected with the first guide plate (2410) and the first rectangular slide plate (245) respectively, the first friction plate (244) is fixedly connected to the right surface of the first rectangular slide plate (245), the second friction plate (249) is fixedly connected to the right surface of the first guide plate (2410), and the first friction plate (244) and the second friction plate (249) are all attached to the inner portion of the square sleeve (229).