CN206437813U - A kind of efficient hoist engine for massif geological disaster Emergency management - Google Patents

Abstract

The utility model is related to mechanical hoisting device field, disclose a kind of efficient hoist engine for massif geological disaster Emergency management, including motor (1), capstan winch (2), transmission case (3), motor (1) and capstan winch (2) are connected by transmission case (3), motor (1) drives capstan winch (2) to rotate by transmission case (3), also include movable plate (4), motor (1), capstan winch (2), transmission case (3) is each provided on movable plate (4), the lower section of movable plate (4) is provided with the roller (5) being connected with movable plate (4), the lower section in movable plate (4) that roller (5) is uniformly arranged；The lower section of movable plate (4) is provided with bottom plate (6), and bottom plate (6) is provided with two horizontally arranged slide rails (7), and roller (5), which coordinates to be located in slide rail (7), to be moved.The utility model ensures the gathering and pull-out of steel wire rope in order, improves operating efficiency, also improves the security of motor work.

Description

A kind of efficient hoist engine for massif geological disaster Emergency management

Technical field

The utility model is related to mechanical hoisting device field, more particularly to a kind of for massif geological disaster Emergency management Efficient hoist engine.

Background technology

In the work of massif geological disaster Emergency management, what the folding and unfolding of steel wire rope was ordered into during lifting is wrapped in hoist engine On capstan winch, because steel wire rope of the steel wire rope in folding and unfolding and on reel can produce differential seat angle, and then friction is produced, cause steel wire The damage and entanglement of rope, but motor continues to work, so as to cause wire rope roll together, causes hoist engine to damage. Problems, which are not only caused, causes production efficiency low, while there is also very big potential safety hazard in production engineering.

The content of the invention

The utility model causes the shortcoming of motor damage for the easy entanglement of steel wire rope in the prior art, and there is provided a kind of steel Cord is not easy the hoist engine for massif geological disaster Emergency management that entanglement does not result in motor damage.

In order to solve the above-mentioned technical problem, the utility model is addressed by following technical proposals：

A kind of efficient hoist engine for massif geological disaster Emergency management, including motor, capstan winch, transmission case, motor and Capstan winch is connected by transmission case, and motor drives capstan winch to rotate by transmission case, in addition to movable plate, and motor, capstan winch, transmission case are equal It is located on movable plate, the lower section of movable plate is provided with the roller being connected with movable plate, the lower section in movable plate that roller is uniformly arranged； The lower section of movable plate is provided with bottom plate, and bottom plate is provided with two horizontally arranged slide rails, and roller, which coordinates to be located in slide rail, to be moved, roller Drive movable plate to be moved on bottom plate, provided with the buffer stopper being fixedly connected with bottom plate inside the right-hand member of slide rail, on capstan winch by a left side extremely The right side, which is provided between multiple uniform arrangement annular protrusions, annular protrusion, is provided with horizontally disposed bottom surface, adjacent annular protrusion and bottom Face forms the annular groove for lay winding wire ropes.

Preferably, annular protrusion includes the side wall of two upper end connections, side wall upper right is obliquely installed to lower to both sides Triangle is formed, the bottom of side wall and the end of bottom surface are connected.

Preferably, movable plate is provided with controller, controller provided with the wireless module being connected with mobile terminal, control Device is provided with the controlling switch with controlled motor rotating speed, and interior be provided with of transmission case is used to sense the gravity sensing that capstan winch receives pulling force Device, gravity sensor is connected with controller.

Preferably, motor is provided with the temperature inductor being connected with controller and the alarm being connected with temperature inductor Device, the two ends of capstan winch are provided with the position sensor being connected with controller.

The utility model is as a result of above technical scheme, with significant technique effect：Prevent steel wire rope in work During entanglement wind, cause motor overload, by movable plate move left and right coordinate steel wire rope pull-out location, it is ensured that steel wire rope Orderly gathering and pull-out, improves operating efficiency, also improves the security of motor work.

Brief description of the drawings

Fig. 1 is top view of the present utility model.

Fig. 2 is side view of the present utility model.

Fig. 3 is the structure chart of capstan winch.

Fig. 4 is the partial enlarged drawing for applying M portions in 3.

Fig. 5 is the structured flowchart of control system.

The toponym that each number designation is referred in accompanying drawing is as follows：1-motor, 2-capstan winch, 3-transmission case, 4-shifting Dynamic plate, 5-roller, 6-bottom plate, 7-slide rail, 8-buffer stopper, 9-annular protrusion, 10-bottom surface, 11-annular groove, 12- Side wall, 13-controller, 14-mobile terminal, 15-wireless module, 16-gravity sensor, 17-controlling switch, 18-temperature Spend inductor, 19-alarm, 20-position sensor.

Embodiment

The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings.

Embodiment 1

A kind of efficient hoist engine for massif geological disaster Emergency management, as shown in Figures 1 to 5, including motor 1, strand Disk 2, transmission case 3, motor 1 and capstan winch 2 are connected by transmission case 3, and motor 1 drives capstan winch 2 to rotate by transmission case 3, in addition to Movable plate 4, motor 1, capstan winch 2, transmission case 3 are each provided on movable plate 4, and the lower section of movable plate 4 is provided with the rolling being connected with movable plate 4 Wheel 5, the lower section in movable plate 4 that roller 5 is uniformly arranged；When hoist engine works, roller 5 drives movable plate 4 to move left and right, from And drive motor 1, capstan winch 2, transmission case 3 are moved left and right, so as to prevent steel wire rope entanglement, wirerope-winding is caused, and motor 1 is also In running, the then overload of motor 1 damage, the lower section of movable plate 4 is provided with bottom plate 6, and bottom plate 6 is provided with two horizontally arranged slide rails 7, by setting bottom plate 6 to improve the stability that movable plate 4 is moved, and roller 5 is located in slide rail 7, improves what movable plate 4 was moved Balance, roller 5, which coordinates to be located in slide rail 7, to be moved, and roller 5 drives movable plate 4 to be moved on bottom plate 6, inside the right-hand member of slide rail 7 Provided with the buffer stopper 8 being fixedly connected with bottom plate 6, the end of slide rail 7 is moved in movable plate 4, roller 4 offsets with buffer stopper 8, kept away Exempt from roller 4 to cause on abrasion, capstan winch 2 from left to right provided with multiple uniform arrangement annular protrusions 9, annular protrusion 9 with the friction of bottom plate 6 Between be provided with horizontally disposed bottom surface 10, adjacent annular protrusion 9 and bottom surface 10 form the annular groove for lay winding wire ropes 11, by wirerope-winding in annular groove 11, ensure steel wire rope being stuck in annular groove 11 in order when around steel wire rope, rise To the effect of automatic arranging steel wire rope, it is to avoid steel wire rope entanglement is intertwined.

Annular protrusion 9 includes the side wall 12 of two upper end connections, and the upper right of side wall 12 to lower be obliquely installed to both sides to be formed Triangle, the bottom of side wall 12 is connected with the end of bottom surface 10, on capstan winch 2 during lay winding wire ropes, facilitates steel wire rope automatic Slide into corresponding annular groove 11, improve the efficiency of wirerope-winding.

Movable plate 4 is provided with controller 13, controller 13 provided with the wireless module 15 being connected with mobile terminal 14, work Personnel remotely can pass through the rotating of the rotating speed and motor 1 of the controlled motor 1 of controller 13, controller 13 using mobile terminal 14 Being provided with provided with the controlling switch 17 with the rotating speed of controlled motor 1, in transmission case 3 is used to sense the gravity-feed tank that capstan winch 2 receives pulling force Device 16 is answered, gravity sensor 16 is connected with controller 13, when weight induction device 16 senses that the pulling force that capstan winch 2 is subject to is more than control The value of thrust of setting in device 13, the controlled motor 1 of controller 13 reduction rotating speed, it is to avoid the rotating speed of motor 1 is too fast, causes motor 1 to overload.

Motor 1 is provided with the temperature inductor 18 being connected with controller 13 and the alarm being connected with temperature inductor 18 19, the two ends of capstan winch 2 are provided with the position sensor 20 being connected with controller 13.Temperature inductor 18 is used to monitor motor 1 in real time Temperature during work, when temperature inductor 18 senses that the temperature of motor 1 is too high, alarm 18 is received from temperature inductor 18 Alarm signal, reminds staff to note, while when controller 13 receives temperature too high signal, the controlled motor 1 of controller 13 Slow down or be stopped, protect motor 1, position sensor 20 is used to detect the position that steel wire rope is pulled out from capstan winch, so as to control Movable plate 4 processed is moved left and right, it is to avoid steel wire rope entanglement, causes steel wire rope friction damage.

In a word, preferred embodiment of the present utility model is the foregoing is only, it is all according to present utility model application the scope of the claims institute The equivalent changes and modifications of work, should all belong to the covering scope of the utility model patent.

Claims (4)

1. a kind of efficient hoist engine for massif geological disaster Emergency management, including motor (1), capstan winch (2), transmission case (3), Motor (1) and capstan winch (2) are connected by transmission case (3), and motor (1) drives capstan winch (2) to rotate by transmission case (3), its feature It is：Also include movable plate (4), motor (1), capstan winch (2), transmission case (3) are each provided on movable plate (4), under movable plate (4) Side is provided with the roller (5) being connected with movable plate (4), the lower section in movable plate (4) that roller (5) is uniformly arranged；Movable plate (4) Lower section is provided with bottom plate (6), and bottom plate (6) is provided with two horizontally arranged slide rails (7), and roller (5), which coordinates, is located at shifting in slide rail (7) Dynamic, roller (5) drives movable plate (4) to be moved on bottom plate (6), is provided with and is fixedly connected with bottom plate (6) inside the right-hand member of slide rail (7) Buffer stopper (8), from left to right provided with multiple uniform arrangement annular protrusions (9) on capstan winch (2), annular protrusion is provided between (9) Horizontally disposed bottom surface (10), adjacent annular protrusion (9) and bottom surface (10) forms the annular groove for lay winding wire ropes (11)。

2. a kind of efficient hoist engine for massif geological disaster Emergency management according to claim 1, it is characterised in that： Annular protrusion (9) includes the side wall (12) of two upper end connections, and wall (12) upper right in side is obliquely installed to form three to lower to both sides Angular, the bottom of side wall (12) is connected with the end of bottom surface (10).

3. a kind of efficient hoist engine for massif geological disaster Emergency management according to claim 1, it is characterised in that： Movable plate (4) is provided with controller (13), controller (13) provided with the wireless module (15) being connected with mobile terminal (14), control Device (13) processed is provided with the controlling switch (17) with controlled motor (1) rotating speed, and interior be provided with of transmission case (3) is used to sense capstan winch (2) The gravity sensor (16) of pulling force is received, gravity sensor (16) is connected with controller (13).

4. a kind of efficient hoist engine for massif geological disaster Emergency management according to claim 3, it is characterised in that： Motor (1) is provided with the temperature inductor (18) being connected with controller (13) and the alarm being connected with temperature inductor (18) (19), the two ends of capstan winch (2) are provided with the position sensor (20) being connected with controller (13).