CN113428260B - Trolley for observing dangerous situation - Google Patents

Abstract

The application discloses a dolly for observing dangerous situation belongs to the observation dolly field. Each motion mechanism of the trolley comprises a support main body, a walking structure and a protection structure; the walking structure is arranged on the supporting main body and used for driving the movement mechanism to move; the tail end of the support main body of one motion mechanism is hinged with the head end of the support main body of the other motion mechanism through a hinge mechanism; the observation mechanism, the walking structure and the opening and closing mechanism are respectively electrically connected with the display control mechanism; the observation mechanism comprises an observer which is arranged on the support main body of the first motion mechanism and can observe the front situation and transmit the situation to the display control mechanism; the opening and closing mechanism is arranged between the first motion mechanism and the last motion mechanism so as to realize the fixation or the opening between the first motion mechanism and the last motion mechanism; the protective structure is arranged on the support main body and can at least protect one side of the support main body, which is provided with the observer. By using the method and the device, the situation of dangerous situations can be known in advance, and the rescue time can be greatly saved.

Description

Trolley for observing dangerous situation

Technical Field

The application relates to the technical field of observation trolleys, in particular to a trolley for observing dangerous situations.

Background

In practice, there are many dangerous situations such as building fire, earthquake, dangerous gas spreading, etc., and it is necessary to observe the real-time situation in the environment and know the specific location of the person needing rescue, so as to facilitate the rescue work.

At present, rescue workers enter dangerous situations to perform rescue one by checking without knowing the real-time situation of the environment. Since the environmental conditions cannot be known until the rescuer enters a dangerous situation, the personal safety of the rescuer is threatened. Meanwhile, the specific positions of the persons needing rescue are obtained by checking one by one, so that more time is delayed, and further the optimal rescue time is possibly missed.

Disclosure of Invention

The embodiment of the application provides a device for observing dangerous situations, can solve the problem that the environment condition can not be known in advance under the dangerous situations, and the best rescue time can be missed possibly due to one-by-one troubleshooting.

The embodiment of the invention provides a trolley for observing dangerous situations, which comprises an observation mechanism, an opening and closing mechanism, a display control mechanism, a hinge mechanism and a plurality of motion mechanisms, wherein the observation mechanism is arranged on the trolley; each motion mechanism comprises a support main body, a walking structure and a protection structure; the walking structure is arranged on the supporting main body and used for driving the movement mechanism to move; the tail end of the support main body of one motion mechanism is hinged with the head end of the support main body of the other motion mechanism through the hinge mechanism; the observation mechanism, the walking structure and the opening and closing mechanism are respectively electrically connected with the display control mechanism; the observation mechanism comprises an observer which is arranged on the support main body of the first motion mechanism, can observe a front situation and can transmit the situation to a display control mechanism; the opening and closing mechanism is arranged between the first motion mechanism and the last motion mechanism so as to realize the fixation or the opening between the first motion mechanism and the last motion mechanism; the protective structure is arranged on the support main body and can at least protect one side of the support main body, which is provided with the observer.

In one possible implementation, the opening and closing mechanism comprises a lifting structure and an opening and closing arm; a fixed shaft is arranged at the head end of the support main body of the first motion mechanism; one end of the opening and closing arm is hinged with the tail end of the support main body of the motion mechanism at the tail, and the other end of the opening and closing arm is provided with a notch which can be clamped or separated from the fixed shaft; one end of the lifting structure is connected with the opening and closing arm and can drive the opening and closing arm to descend or ascend so as to clamp or separate the notch of the opening and closing arm from the fixed shaft; the lifting structure is electrically connected with the display control mechanism.

In one possible implementation, the walking structure includes a wheel set and a drive assembly; the wheel set comprises a driving wheel and a driven wheel, the driving wheel is arranged at the front end of the supporting main body, and the driven wheel is arranged at the rear end of the supporting main body; the driving assembly is connected with the wheel set and used for driving the wheel set to move; the display control mechanism is electrically connected with the driving assembly to control the motion state of the driving assembly.

In one possible implementation, the trolley for observing hazardous situations comprises two sets of said wheels; the two sets of wheel sets are respectively arranged on two side faces of the supporting main body.

In one possible implementation, a trolley for observing hazardous situations comprises a set of said wheel sets; the driving wheel of the wheel set is arranged in the middle of the front end of the supporting main body, and the driven wheel is arranged in the middle of the rear end of the supporting main body.

In one possible implementation, the walking structure further comprises a support ring; the side surfaces of the supporting main body are respectively provided with a supporting ring, and when the trolley moves, the supporting rings can be supported on the ground.

In one possible implementation, the drive assembly includes a drive and a belt; the driver is connected with the driving wheel to drive the driving wheel to move; the display control mechanism is electrically connected with the driver so as to control the working state of the driver; the belt is sleeved on the driving wheel and the driven wheel of the wheel set.

In one possible implementation, the guard structure includes a plurality of guard bands; the both ends of many guard bands respectively with the both sides of supporting the main part are connected and form the ring-shaped, just the observer set up in the guard band with in the guard space that forms between the supporting the main part.

In one possible implementation, the hinge mechanism includes a hinge shaft and a hinge lever; one motion the tail end of the supporting main body and another motion the head end of the supporting main body all is provided with an articulated shaft, and the through-holes at the two ends of the articulated rod are respectively sleeved on one articulated shaft.

In one possible implementation, the hinge mechanism further comprises a support bar; the tail end of the supporting main body of one motion mechanism and the head end of the supporting main body of the other motion mechanism are both provided with mounting grooves, and two ends of the supporting rod are respectively arranged in one mounting groove.

One or more technical solutions provided in the embodiments of the present invention have at least the following technical effects or advantages:

the embodiment of the invention provides a trolley for observing dangerous situations, wherein the tail end of a supporting main body of one movement mechanism of the trolley is hinged with the head end of a supporting main body of the other movement mechanism of the trolley through a hinge mechanism, and an opening and closing mechanism is arranged between the first movement mechanism and the tail movement mechanism. When a dangerous situation such as a building is on fire, an earthquake, dangerous gas spreading and the like occurs, a real-time situation under the environment needs to be observed and the specific position of a person needing to be rescued needs to be known, the first moving mechanism and the last moving mechanism are fixed through the opening and closing mechanism, the trolley is surrounded into a ring shape, the ring-shaped trolley is thrown into the dangerous situation, the protection structure is arranged on the support main body and can at least protect one side, provided with the observer of the observation mechanism, of the support main body, provided with the walking structure and located on the ring-shaped inner side, and is located on the ring-shaped outer side, so that the protection effect on the support main body, the walking structure and other components is good, all the components of the trolley are protected, and subsequent normal work can be carried out after the trolley is thrown into the ring-shaped trolley. Because the mechanism that opens and shuts is connected with showing accuse mechanism electricity, when the dolly fell on the ground, show that accuse mechanism control opens and shuts the mechanism and open to the dolly becomes the linearity, at this moment in the course of the work, protective structure still can continue to protect the dolly one side that sets up the observer. The walking structure and the observation mechanism of the movement mechanism are electrically connected with the display control mechanism, when the trolley is in a linear shape, and the walking structure touches the ground, the display control mechanism controls the walking structure to move and controls the working state of the observation mechanism, the walking structure can drive the trolley to move, an observer arranged on the support main body of the first movement mechanism can observe the front situation and can transmit the situation to the display control mechanism, so that the real-time situation in the dangerous environment can be observed by people outside the dangerous situation according to the information returned by the observer, the rescue workers can know the environmental condition in advance before entering the dangerous situation, and the personal safety of the rescue workers can be guaranteed. In the walking process of the trolley, the observer can capture the information of the surrounding environment in time, so that the specific position of the person needing rescue can be quickly searched according to the information, and the rescue time is greatly saved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic linear structural diagram of a trolley for observing dangerous situations according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of the annular configuration of the trolley for observing hazardous situations of FIG. 1;

fig. 3 is a schematic linear structural diagram of a trolley for observing a dangerous situation according to another embodiment provided in the present application.

Fig. 4 is a schematic structural diagram of an opening and closing mechanism provided in an embodiment of the present application.

Icon: 1-observation mechanism; 11-an observer; 12-an antenna; 2-an opening and closing mechanism; 21-a lifting structure; 211-lift cylinder; 212-hanging shaft; 213-lifting lug; 22-an opening and closing arm; 221-front panel; 222-side plate; 223-a top plate; 3-a hinge mechanism; 31-a hinged lever; 32-a support bar; 4-a motion mechanism; 41-a support body; 42-a walking structure; 421-wheel group; 4211-driving wheel; 4212-driven wheel; 422-a drive assembly; 4221-leather belt; 423-support ring; 43-a protective structure; 431-protective tape; 44-fixed axis.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the embodiments of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the embodiments of the present invention and simplifying the description, but do not indicate or imply that the referred devices or elements must have specific orientations, be configured in specific orientations, and operate, and thus, should not be construed as limiting the present invention. The terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, the terms "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. Specific meanings of the above terms in the embodiments of the present invention can be understood by those of ordinary skill in the art according to specific situations.

Referring to fig. 1 to 4, a trolley for observing dangerous situations includes an observation mechanism 1, an opening and closing mechanism 2, a display and control mechanism, a hinge mechanism 3 and a plurality of movement mechanisms 4. The display control mechanism can be a computer, a programmable logic controller and other equipment. The number of the motion mechanisms 4 can be three, four, five, etc., and fig. 1 to 3 show the structure of three motion mechanisms 4. Each movement mechanism 4 comprises a supporting body 41, a walking structure 42 and a protective structure 43. The walking structure 42 is disposed on the supporting body 41, and is used for driving the moving mechanism 4 to move, so as to realize the movement of the whole trolley. The tail end of the support body 41 of one movement mechanism 4 is hinged with the head end of the support body 41 of the other movement mechanism 4 through the hinge mechanism 3. The observation mechanism 1, the walking structure 42 and the opening and closing mechanism 2 are respectively electrically connected with the display control mechanism, so that the display control mechanism can control the working states of the observation mechanism 1, the walking structure 42 and the opening and closing mechanism 2 according to actual conditions, such as controlling the opening or closing of the observation mechanism 1 and the walking structure 42; the observation mechanism 1 is controlled to rotate according to the place to be observed, and the walking structure 42 is controlled to move forwards and backwards.

The observation mechanism 1 includes an observer 11, wherein the observer 11 may be a camera or the like, the observer 11 is electrically connected to a display control mechanism, and the observer 11 is provided on the support main body 41 of the first moving mechanism 4 and is capable of observing an event in front and transmitting the event to the display control mechanism. The scope 11 may be provided at the front end of the support body 41 of the first motion mechanism 4 as shown in fig. 1 and 2, or the scope 11 may be provided at the middle portion of the support body 41 of the first motion mechanism 4 as shown in fig. 3.

The opening and closing mechanism 2 is arranged between the first and last moving mechanisms 4 to realize the fixation or the opening of the first and last moving mechanisms 4, and due to the hinged connection between the supporting bodies 41, as shown in fig. 2, when the first and last moving mechanisms 4 are fixed, the trolley surrounds a ring, as shown in fig. 1 and 3, and when the first and last moving mechanisms 4 are opened, the trolley becomes linear and can move on the ground. The protective structure 43 is provided on the support body 41 and is capable of protecting at least the side thereof on which the viewer 11 is provided. In general, in order to improve the signal of the observer 11, the antenna 12 is mounted on the cart, and the antenna 12 is also electrically connected to the display and control mechanism, and as shown in fig. 1 to 3, the antenna 12 is mounted on the supporting body 41 of the last movement mechanism 4 on the same side as the observer 11, so that the antenna 12 can be protected by the protective structure 43.

The embodiment of the application provides a trolley for observing dangerous situations, the tail end of a supporting body 41 of one moving mechanism 4 of the trolley is hinged with the head end of a supporting body 41 of another moving mechanism 4 through a hinge mechanism 3, and an opening and closing mechanism 2 is arranged between the first moving mechanism 4 and the last moving mechanism 4. When a dangerous situation such as a building fire, an earthquake, dangerous gas spreading and the like occurs, a real-time situation under the environment needs to be observed and a specific position of a person needing to be rescued needs to be known, the first moving mechanism 4 and the last moving mechanism 4 are fixed through the opening and closing mechanism 2, the trolley is surrounded into a ring shape as shown in fig. 2, the ring-shaped trolley is thrown into the dangerous situation, the protective structure 43 is arranged on the supporting body 41 and can at least protect one side of the observer 11 where the observing mechanism 1 is arranged, therefore, in the process of throwing the trolley, the protective structure 43 can at least protect the observing mechanism 1 from being damaged, the trolley is in the ring shape at the moment, the supporting body 41 and the walking structure 42 of the moving mechanism 4 are located on the inner side of the ring shape, the protective structure 43 is located on the outer side of the ring shape, a good protective effect is achieved on the supporting body 41, the walking structure 42 and other components, all components of the trolley are protected, and subsequent normal work can be carried out after throwing. Because the opening and closing mechanism 2 is electrically connected with the display and control mechanism, when the trolley falls onto the ground, the display and control mechanism controls the opening and closing mechanism 2 to be opened, so that the trolley becomes linear as shown in fig. 1 and 3, and at the moment, in the working process, the protection structure 43 can still continuously protect one side of the trolley, which is provided with the observer 11. The walking structure 42 and the observation mechanism 1 of the movement mechanism 4 are electrically connected with the display control mechanism, when the trolley is in a straight line shape, and the walking structure 42 touches the ground, the display control mechanism controls the walking structure 42 to move and controls the working state of the observation mechanism 1, the walking structure 42 can drive the trolley to move, the observer 11 arranged on the support main body 41 of the first movement mechanism 4 can observe the front situation and can transmit the situation to the display control mechanism, so that the personnel outside the dangerous situation can observe the real-time situation in the dangerous environment in real time according to the information returned by the observer 11, and the rescue personnel can know the environmental situation in advance before entering the dangerous situation, and the personal safety of the rescue personnel can be guaranteed. In the walking process of the trolley, the observer 11 can capture the information of the surrounding environment in time, so that the specific position of the person needing rescue can be quickly searched according to the information, and the rescue time is greatly saved.

In practical applications, as shown in fig. 4, the opening and closing mechanism 2 includes a lifting mechanism 21 and an opening and closing arm 22. The head end of the support body 41 of the first motion mechanism 4 is provided with a fixed shaft 44, and when the fixed shaft 44 is arranged, the axis of the fixed shaft is vertical to the motion direction of the trolley. One end of the opening and closing arm 22 is hinged to the tail end of the supporting body 41 of the last moving mechanism 4, specifically, a hinge shaft is arranged at the tail end of the supporting body 41 of the last moving mechanism 4, the axis of the hinge shaft is perpendicular to the moving direction of the trolley, a through hole is arranged at one end of the opening and closing arm 22, and the hinge shaft is sleeved in the through hole, so that the end of the opening and closing arm 22 can rotate around the axis of the hinge shaft. The other end of the opening and closing arm 22 is provided with a notch which can be clamped or separated from the fixed shaft 44, when the notch clamps the fixed shaft 44, the first moving mechanism 4 and the last moving mechanism 4 are fixed, and the trolley forms a ring shape as shown in figure 2; when the notch is disengaged from the fixed shaft 44, the gap between the leading and trailing moving mechanisms 4 is opened, and the cart is formed in a straight line as shown in fig. 1 and 3.

One end of the lifting structure 21 is connected with the opening and closing arm 22, and can drive the opening and closing arm 22 to descend or ascend so as to clamp or separate the notch of the opening and closing arm 22 from the fixed shaft 44. The lifting structure 21 is electrically connected with the display control mechanism, so that the display control mechanism can control the working state of the lifting structure 21. Specifically, when the first movement mechanism 4 and the last movement mechanism 4 are required to be fixed, the display control mechanism controls the lifting structure 21 to drive the opening and closing arm 22 to descend so that the notch clamps the fixed shaft 44, and therefore the trolley is surrounded into a ring shape; when the trolley is needed to be opened between the first moving mechanism 4 and the last moving mechanism 4 after being grounded, the display control mechanism controls the lifting structure 21 to drive the opening and closing arm 22 to be lifted so that the notch is separated from the fixed shaft 44, and therefore the trolley is in a linear shape. The opening and closing mechanism 2 provided by the embodiment of the application has a simple structure and is easy to realize.

Further, as shown in fig. 4, the opening and closing arm 22 includes a front plate 221 and two side plates 222 with the same shape and parallel arrangement, one end of each of the two side plates 222 is provided with a through hole for sleeving the hinge shaft, and the other end is provided with a notch capable of clamping or separating from the fixing shaft 44. The front plate 221 is provided on the front end surface of the side plate 222 where the notch is provided, so that the two side plates 222 are connected. The inner cavity of the opening and closing arm 22 provided by the embodiment of the application is of a hollow structure, so that the weight of the whole opening and closing mechanism 2 can be reduced, the weight of the trolley is lighter, and the throwing-in and moving of the trolley are facilitated. The opening and closing arm 22 further comprises a top plate 223, the top plate 223 is respectively connected with the front plate 221 and the two side plates 222, and the length of the top plate 223 is only 1/5-1/4 of the length of the opening and closing arm 22, so that the top plate 223 can connect the two side plates 222, the strength of the opening and closing arm 22 is improved, and the weight of the opening and closing arm 22 is not too heavy.

With continued reference to fig. 4, the lifting structure 21 provided in the embodiment of the present application includes a lift cylinder 211, a hanging shaft 212, and a lifting lug 213. The hanging shaft 212 is fixedly connected with the opening and closing arm 22, the lifting lug 213 is fixedly connected with the rear end of the supporting main body 41 of the tail movement mechanism 4, the upper end of the cylinder body of the lifting oil cylinder 211 is connected with the hanging shaft 212, the lower end of the cylinder body is hinged with the lifting lug 213, and a control system of the lifting oil cylinder 211 is electrically connected with the display control mechanism so as to control the working state of the lifting oil cylinder 211. Of course, the lifting structure 21 may further include a disc spring cylinder, a hanging shaft 212 and a lifting lug 213, the hanging shaft 212 is fixedly connected to the opening and closing arm 22, the lifting lug 213 is fixedly connected to the rear end of the support main body 41 of the last motion mechanism 4, the upper end of the cylinder body of the disc spring cylinder is connected to the hanging shaft 212, the lower end of the cylinder body of the disc spring cylinder is hinged to the lifting lug 213, and the control system of the disc spring cylinder is electrically connected to the display control mechanism to control the working state of the disc spring cylinder.

Because one end of the opening and closing arm 22 of the opening and closing mechanism 2 is hinged to the tail end of the support main body 41 of the last motion mechanism 4, and the suspension loop of the lifting structure 21 is also connected to the tail end of the support main body 41 of the last motion mechanism 4, when the opening and closing arm 22 is lifted and the first and last motion mechanisms 4 are opened, the observation sight of the observer 11 arranged on the support main body 41 of the first motion mechanism 4 is not blocked.

As shown in fig. 1-3, walking structure 42 includes a wheel set 421 and a drive assembly 422. The wheel set 421 includes a driving wheel 4211 and a driven wheel 4212, the driving wheel 4211 is disposed at the front end of the support body 41, and the driven wheel 4212 is disposed at the rear end of the support body 41. The driving component 422 is connected with the wheel set 421 for driving the wheel set 421 to move. The display control mechanism is electrically connected with the driving component 422 to control the motion state of the driving component 422, specifically, when the trolley needs to move, the display control mechanism controls the driving component 422 to work, and when the trolley does not need to move, the display control mechanism controls the driving component 422 to close.

As shown in fig. 1, the trolley for observing dangerous situations provided by the embodiment of the present application includes two sets of wheel sets 421. The two sets of wheel sets 421 are respectively disposed on two side surfaces of the supporting body 41. The two sets of wheel sets 421 can make the trolley move more stably, so that the real-time observation effect is better.

As shown in fig. 3, the vehicle for observing hazardous situations includes a set of wheel sets 421. The driving pulley 4211 of the wheel set 421 is disposed at the middle of the front end of the support main body 41, and the driven pulley 4212 is disposed at the middle of the rear end of the support main body 41. The arrangement of the group of wheel sets 421 can reduce the manufacturing cost of the trolley, and simultaneously can reduce the whole weight of the trolley, thereby facilitating the throwing and moving of the trolley.

Due to the arrangement of the group of wheel sets 421, in the moving process of the trolley, if the trolley encounters a slight touch of an obstacle, the trolley will be unstable, and as shown in fig. 3, the walking structure 42 of the trolley for observing a dangerous situation provided by the embodiment of the present application further includes the support ring 423, the support ring 423 is disposed on each side surface of the support main body 41, and when the trolley moves, the support ring 423 can be supported on the ground, so that when the trolley is provided with the group of wheel sets 421, the stability of the trolley in the moving process can be ensured.

The drive assembly 422 of the trolley for observing dangerous situations provided by the embodiment of the application comprises a driver and a belt 4221. The driver is connected with the driving wheel 4211 to drive the driving wheel 4211 to move. The display control mechanism is electrically connected with the driver to control the working state of the driver. The belt 4221 is sleeved on the driving wheel 4211 and the driven wheel 4212 of one group of wheel sets 421. The driving assembly 422 provided by the embodiment of the application has the advantages of simple structure, lower cost and stable operation. Of course, the driving assembly 422 may further include a driver and a chain, and the chain is sleeved on the driving wheel 4211 and the driven wheel 4212 of the set of wheel sets 421.

Further, the driver comprises a motor, and an output shaft of the motor is connected with the driving wheel 4211 to drive the driving wheel 4211 to rotate. Specifically, when the trolley comprises a set of wheel sets 421, the motor is provided with a single output shaft, and the single output shaft is connected with the driving wheel 4211 to drive the driving wheel 4211 to rotate; when the trolley comprises two sets of wheel sets 421, the motor is provided with dual output shafts which are respectively connected with the driving wheels 4211 of the two sets of wheel sets 421 to drive the two driving wheels 4211 to rotate.

As shown in fig. 1 to 3, the protective structure 43 of the trolley for observing dangerous situations provided by the embodiment of the present application comprises a plurality of protective bands 431. Both ends of the plurality of guard bands 431 are connected to both sides of the support main body 41, respectively, to form a ring shape, and the scope 11 is disposed in a guard space formed between the guard bands 431 and the support main body 41. When the observation mechanism 1 further includes the antenna 12, the antenna 12 is also disposed in the shielded space formed between the shield band 431 and the support main 41. The arrangement of the plurality of protective belts 431 not only can play a good protective effect, but also has low cost, and in addition, the weight of the trolley is within a reasonable range. Because many protecting belts 431 form the ring, not only can form the better guard space of protective effect and resist the invasion and attack of external object, simultaneously when the first of dolly and the motion 4 of end were opened, probably this one side of dolly or protecting belt 431 contacts with ground earlier this moment, because protecting belt 431 is cyclic annular, thereby can impel the dolly upset, and then make the opposite side of protecting belt 431, namely walking structure 42 place side contacts with ground, the dolly can get into normal work fast like this. In practical application, the protective belt 431 is made of a material with stronger elasticity, and the protective effect is better.

The number of the protective bands 431 may be two, four, six, etc., which is not limited in the embodiment of the present application. In contrast, four protective belts 431 have better protective effect and reasonable manufacturing cost. Fig. 1 to 3 show four schematic structural diagrams of the guard belts 431 of each movement mechanism 4, wherein two ends of the first guard belt are respectively disposed on two sides of the front end of the supporting main body 41, two ends of the second guard belt are respectively disposed on two sides of the rear end of the supporting main body 41, and planes of the rings formed by the first guard belt and the second guard belt are parallel to each other. Two ends of the third protection belt are respectively arranged at two sides of the front end of the support main body 41, and a plane where an annular shape formed by the third protection belt is located and a plane where an annular shape formed by the first protection belt is located form a preset angle; two ends of the fourth protection belt are respectively disposed at two sides of the rear end of the supporting body 41, and a plane of the ring formed by the fourth protection belt and a plane of the ring formed by the second protection belt form a preset angle. Due to the fact that planes of the first protective belt and the second protective belt are parallel to each other and the preset angle exists, when the trolley is in a linear shape as shown in figure 1 or figure 3 or in a ring shape as shown in figure 2, the trolley can achieve comprehensive protection on the moving mechanism 4, the observation mechanism 1, the opening and closing mechanism 2 and the hinge mechanism 3 located at the joint of the front moving mechanism 4 and the rear moving mechanism 4.

As shown in fig. 1 and 3, the hinge mechanism 3 of the cart for observing hazardous situations includes a hinge shaft and a hinge lever 31. The tail end of the supporting body 41 of one motion mechanism 4 and the head end of the supporting body 41 of the other motion mechanism 4 are both provided with an articulated shaft, the axis of the articulated shaft is vertical to the motion direction of the trolley, and through holes at two ends of the articulated rod 31 are respectively sleeved on the articulated shaft. The hinge structure that this application embodiment provided, simple structure easily realizes.

Since the first and last moving mechanisms 4 of the trolley are fixed or opened to make the trolley be annular or linear, if the hinge mechanism 3 only includes the hinge shaft and the hinge rod 31, the connection between the adjacent moving mechanisms 4 of the trolley may be unstable, and there is a risk of loose fixation or large swing during the moving process. With continued reference to fig. 1 and 3, the articulated mechanism 3 of the trolley for observing dangerous situations provided by the embodiment of the present application further comprises a support rod 32. The tail end of the supporting body 41 of one motion mechanism 4 and the head end of the supporting body 41 of the other motion mechanism 4 are both provided with mounting grooves, and two ends of the supporting rod 32 are respectively arranged in one mounting groove. The two ends of the support rod 32 are respectively abutted against the end faces of the support main bodies 41 of the two adjacent motion mechanisms 4, so that the stability of connection between the adjacent motion mechanisms 4 can be improved. More specifically, both end sides of the support rod 32 are arc-shaped, such as semicircular, so that when the first and last moving mechanisms 4 of the cart are exchanged between the fixed ring state and the opened linear state, both ends of the support rod 32 can be more smoothly rotated in the mounting groove, thereby making the state transition faster and more stable.

When the trolley comprises two sets of wheel sets 421, as shown in fig. 1 and 2, the hinge rod 31 and the support rod 32 are disposed in the middle of the end surfaces of two adjacent moving mechanisms 4, and when the trolley comprises one set of wheel sets 421, as shown in fig. 3, the wheel sets 421 are disposed in the middle of the end surfaces of the moving mechanisms 4, and in order to avoid the wheel sets 421, the hinge rod 31 and the support rod 32 are disposed at positions close to both sides of the end surfaces of the adjacent moving mechanisms 4.

The dolly for observing dangerous situation that this application embodiment provided, the preparation material of each part is selected according to actual demand, and this application embodiment does not do the injecing, for example need put in to conflagration situation, then select the refractory material preparation for use, if put in to earthquake situation, then select the material of shock-resistant for use, if put in to the situation that hazardous gas spreads, then select the material of acid and alkali corrosion resistance for use.

The embodiments in the present specification are described in a progressive manner, and the same or similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments.

The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the present application; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure.

Claims (9)

1. A trolley for observing dangerous situations is characterized by comprising an observation mechanism, an opening and closing mechanism, a display control mechanism, a hinge mechanism and a plurality of motion mechanisms;

each motion mechanism comprises a support main body, a walking structure and a protection structure; the walking structure is arranged on the supporting main body and is used for driving the movement mechanism to move;

the tail end of the support main body of one motion mechanism is hinged with the head end of the support main body of the other motion mechanism through the hinge mechanism;

the observation mechanism, the walking structure and the opening and closing mechanism are respectively electrically connected with the display control mechanism;

the observation mechanism comprises an observer which is arranged on the support main body of the first motion mechanism, can observe a front situation and can transmit the situation to a display control mechanism;

the opening and closing mechanism is arranged between the first motion mechanism and the last motion mechanism so as to realize the fixation or the opening between the first motion mechanism and the last motion mechanism;

the protective structure is arranged on the support main body and can at least protect one side of the support main body, which is provided with the observer;

the opening and closing mechanism comprises a lifting structure and an opening and closing arm;

a fixed shaft is arranged at the head end of the support main body of the first motion mechanism;

one end of the opening and closing arm is hinged with the tail end of the support main body of the motion mechanism at the tail, and the other end of the opening and closing arm is provided with a notch which can be clamped or separated from the fixed shaft;

one end of the lifting structure is connected with the opening and closing arm and can drive the opening and closing arm to descend or ascend so as to clamp or separate the notch of the opening and closing arm from the fixed shaft;

the lifting structure is electrically connected with the display control mechanism.

2. The trolley for observing hazardous situations of claim 1, wherein the walking structure comprises a set of wheels and a drive assembly;

the wheel set comprises a driving wheel and a driven wheel, the driving wheel is arranged at the front end of the supporting main body, and the driven wheel is arranged at the rear end of the supporting main body;

the driving assembly is connected with the wheel set and used for driving the wheel set to move;

the display control mechanism is electrically connected with the driving assembly to control the motion state of the driving assembly.

3. The trolley for observing dangerous situations according to claim 2, comprising two sets of said wheels;

the two sets of wheel sets are respectively arranged on two side faces of the supporting main body.

4. The trolley for observing hazardous situations of claim 2, comprising a set of said wheel sets;

the driving wheel of the wheel set is arranged in the middle of the front end of the supporting main body, and the driven wheel is arranged in the middle of the rear end of the supporting main body.

5. The trolley for observing hazardous circumstances of claim 4, wherein the walking structure further comprises a support ring;

the side of the supporting body is provided with a supporting ring, and when the trolley moves, the supporting ring can be supported on the ground.

6. The trolley for observing hazardous situations according to any one of claims 2 to 5, wherein the drive assembly comprises a drive and a belt;

the driver is connected with the driving wheel to drive the driving wheel to move;

the display control mechanism is electrically connected with the driver so as to control the working state of the driver;

the belt is sleeved on the driving wheel and the driven wheel of the wheel set.

7. The trolley for observing hazardous situations of claim 1, wherein said protective structure comprises a plurality of protective bands;

the both ends of many guard bands respectively with the both sides of supporting the main part are connected and form the ring-shaped, just the observer set up in the guard band with in the guard space that forms between the supporting the main part.

8. The trolley for observing hazardous situations of claim 1, wherein the articulation mechanism comprises an articulation shaft and an articulation rod;

one motion the tail end of the supporting main body and another motion the head end of the supporting main body all is provided with an articulated shaft, and the through-holes at the two ends of the articulated rod are respectively sleeved on one articulated shaft.

9. The trolley for observing hazardous situations of claim 8, wherein the articulation mechanism further comprises a support bar;

the tail end of the supporting main body of one of the moving mechanisms and the head end of the supporting main body of the other moving mechanism are both provided with mounting grooves, and two ends of the supporting rod are respectively arranged in one of the mounting grooves.

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