CN214832461U - Hoist and gate integrated device - Google Patents

Abstract

The utility model relates to a hydraulic engineering's technical field discloses an integrative device of headstock gear, gate, and it includes gate and headstock gear, and the both sides at gate top all are provided with the tie-beam, the one end of tie-beam and the frame fixed connection of gate, the other end and the headstock gear fixed connection of tie-beam, and the screw rod on the headstock is articulated with the door body of gate, still includes vertical sliding connection workstation on two tie-beams and sets up the adjusting part that is used for adjusting the workstation on two tie-beams. This application is through setting up the gate, the headstock gear, the tie-beam, workstation and adjusting part, when the staff need operate the headstock gear, operation adjusting part, adjusting part adjusts the workstation, then make adjusting part adjust the workstation, thereby make the workstation drive the staff and rise, the condition that the staff station need climb the platform ladder when on the workstation has been reduced to this in-process takes place, and then the security when having increased and climbing to the workstation.

Description

Hoist and gate integrated device

Technical Field

The application relates to the technical field of hydraulic engineering, in particular to an integrated device of a hoist and a gate.

Background

The gate is an important component of a hydraulic building and can be used for intercepting water flow, controlling water level, regulating flow, discharging silt and floating objects and the like. The gate is a control facility for closing and opening the drainage passage.

In the correlation technique, if chinese utility model patent that bulletin number is CN2234970Y discloses an integrative device of headstock gear, gate, including gate and headstock gear, the device still includes the frame, and the frame is passed through the bolt and is linked as an organic whole with gate and headstock gear, and the left and right landing leg lower extreme of frame is linked as an organic whole by bolt and headstock gear, and the lug in the middle of the lead screw of headstock gear and the gate top is linked as an organic whole by the xiao biao, and the left and right landing legs of frame are isometric, and the frame constitutes isosceles triangle-shaped, and the plane that the frame links to each other with the headstock gear is parallel with the gate, is equipped with platform ladder and workstation from top to bottom on the left leg. The gate and the hoist are connected into a whole through the frame, so that the device is simple and convenient to operate and easy to construct.

To the correlation technique among the above-mentioned, the inventor thinks when the staff operates the headstock gear, need the staff to climb to the workstation through the platform ladder on, make the staff can operate the headstock gear then, because fixed connection is on the left leg of slope during the platform ladder, so there is the easy defect that takes place danger when having the staff to climb to the workstation.

SUMMERY OF THE UTILITY MODEL

In order to alleviate the problem that the staff takes place danger easily when climbing to the workstation, this application provides an integrative device of headstock gear, gate.

The application provides a hoist, integrative device of gate adopts following technical scheme:

the utility model provides an integrative device of headstock gear, gate, includes gate and headstock gear, the both sides at gate top all are provided with the tie-beam, the one end of tie-beam and the frame fixed connection of gate, the other end and the headstock gear fixed connection of tie-beam, screw rod on the headstock gear is articulated with the door body of gate, still includes vertical sliding connection workstation on two tie-beams and sets up the adjusting part that is used for adjusting the workstation on two tie-beams.

Through adopting above-mentioned technical scheme, when the staff need operate the headstock gear, the staff stands on the workstation, then let other staff operate the adjusting part again, make the adjusting part adjust the workstation then, thereby make the workstation drive the staff and move to the position that can operate the headstock gear, this in-process has reduced the condition that the staff need climb a ladder station on the workstation and has taken place, and then increase the security that the staff climbed on the workstation.

Optionally, the adjusting part includes two regulation poles and two spinal branch vaulting poles, adjust the pole and set up with the bracing piece one-to-one, adjust pole and bracing piece threaded connection, it sets up with the tie-beam one-to-one to adjust the pole, it is on a parallel with the tie-beam setting that corresponds to adjust the pole, it rotates with the tie-beam that corresponds to adjust the pole and is connected, bracing piece and the tie-beam sliding connection that corresponds, its slip direction is the length direction of tie-beam, the bracing piece sets up the bottom at the workstation.

Through adopting above-mentioned technical scheme, the staff stands back on the workstation, need two extra staff to rotate two regulation poles respectively, adjust pole and tie-beam and take place relative rotation, adjust the pole and take place the screw thread with the bracing piece that corresponds and rotate, the bracing piece moves along the length direction of regulation pole, the relative slip takes place for the bottom of bracing piece and workstation, two spinal branch vaulting poles drive the workstation motion simultaneously, thereby make the rising of workstation, and then reach the effect that makes things convenient for the staff to carry out the promotion to the workstation.

Optionally, each connecting beam is provided with a first T-shaped groove, the direction of the first T-shaped groove is parallel to the length direction of the corresponding connecting beam, each supporting rod is fixedly connected with a first T-shaped block, the first T-shaped blocks are slidably connected in the corresponding first T-shaped grooves, and the adjusting rods are rotatably connected in the corresponding first T-shaped grooves and penetrate through the corresponding first T-shaped blocks in a threaded manner.

Through adopting above-mentioned technical scheme, when adjusting the pole and rotating, adjust the pole and take place the screw thread with the first T type piece that corresponds and rotate, make then first T type piece along the length direction motion of adjusting the pole, first T type piece drives the bracing piece motion that corresponds, and the bracing piece drives the workstation motion, has realized the promotion of workstation promptly, through seting up first T type groove and setting up first T type piece, can increase the stability when bracing piece and tie-beam take place relative slip.

Optionally, the bottom of workstation is provided with two connecting pipes, second T type groove has been seted up to the bottom of workstation, the direction of seting up in second T type groove is on a parallel with the direction that two spinal branch vaulting poles are close to or keep away from each other, fixedly connected with second T type piece on the week side of connecting pipe, second T type piece sliding connection is in second T type groove, the connecting pipe sets up with the bracing piece one-to-one, the connecting pipe cup joints with the bracing piece that corresponds is coaxial.

By adopting the technical scheme, when the support rod moves along the length direction of the adjusting rod, the support rod drives the connecting pipes to move, the distance between the two connecting pipes is continuously changed along with the continuous movement of the two connecting pipes, so that the connecting pipes drive the second T-shaped block on the support rod to move, the second T-shaped block and the second T-shaped groove slide relatively, the connecting pipes drive the workbench to ascend or descend, the connecting pipes are arranged at the bottom of the workbench, and the second T-shaped block and the second T-shaped groove are arranged, so that the connection stability between the workbench and the two support rods can be increased, the phenomenon that the workbench inclines due to different stresses at the two ends of the workbench is reduced, the safety of the worker standing on the workbench is further improved, and the workbench can be detached from the support rod when the worker does not need to operate the hoist, the operation of non-working personnel on the hoist is reduced.

Optionally, one end of each support rod close to the connecting beam is fixedly connected with a limiting block which is abutted against the end of the connecting pipe.

Through adopting above-mentioned technical scheme, with the workstation install the bracing piece on the back, the connecting pipe is close to the tip and the stopper conflict of tie-beam, makes then the stopper carry on spacingly to the workstation, reduces the condition emergence that workstation and tie-beam contradict to reduce the frictional force between workstation and the tie-beam, and then required power when reducing the staff and driving the regulating lever.

Optionally, each supporting rod is provided with a limiting assembly at one end far away from the connecting beam, and the limiting assembly is used for limiting the connecting pipe.

Through adopting above-mentioned technical scheme, with the connecting pipe with the coaxial back that cup joints together of bracing piece, spacing subassembly carries on spacingly to the connecting pipe, reduces then that bracing piece and connecting pipe take place the relative slip's the condition and take place, reduces the condition of connecting pipe and bracing piece separation and takes place to reach the effect that increases connecting pipe and bracing piece connection stability, and then increase the security that the staff stood on the workstation.

Optionally, spacing subassembly includes gag lever post and spring, the central axis collineation setting of gag lever post and spring, the one end of gag lever post and the one end fixed connection of spring, set up flutedly on the bracing piece, the length direction setting of the direction perpendicular to bracing piece of seting up of recess, the spring sets up in the recess and the spring keeps away from the one end of gag lever post and the tank bottom fixed connection of recess, the one end setting of gag lever post is in the recess and along self length direction and recess sliding connection, the tip conflict of connecting beam is kept away from with the connecting pipe to the gag lever post.

Through adopting the above-mentioned technical scheme, when installing the workstation on the bracing piece, press the gag lever post earlier, the gag lever post compresses the spring, the gag lever post moves to in the recess, then cup joint the one end of connecting pipe coaxially on the bracing piece that corresponds, make the gag lever post contradict with the pipe wall of connecting pipe, the orientation promotes the workstation near the direction of tie-beam, relative slip takes place for the pipe wall of gag lever post and connecting pipe, along with the workstation constantly moves towards the tie-beam, the connecting pipe is close to the tip and the stopper back of tie-beam, the gag lever post moves out the connecting pipe, spacing pipe is towards the outside motion of recess under the effect of spring, thereby make the tip conflict of tie-beam is kept away from with the connecting pipe to the gag lever post, and then realize the spacing of connecting pipe, finally reach the effect that increases connecting pipe and bracing piece stability of being connected.

Optionally, the bottom of the two connecting beams is provided with a driving assembly, and the driving assembly is used for driving the two adjusting rods.

Through adopting above-mentioned technical scheme, when the staff need promote the workstation, operation drive assembly, drive assembly drives two regulation poles, makes the regulating lever drive the bracing piece then, and the bracing piece drives the workstation and rises, and then reaches the effect that makes things convenient for the staff to promote the workstation.

Optionally, the driving assembly includes a driving motor, a driving rod and four bevel gears, two of the bevel gears are coaxially and fixedly connected with the driving rod, the driving rod is coaxially and fixedly connected with an output shaft of the driving motor, the remaining two bevel gears are respectively coaxially and fixedly connected with the two adjusting rods, one bevel gear on the driving rod is in meshing transmission connection with the bevel gear on one adjusting rod, the other bevel gear on the driving rod is in meshing transmission connection with the bevel gear on the other adjusting rod, and the driving motor is fixedly connected with one connecting beam.

Through adopting above-mentioned technical scheme, when needing to promote the workstation, start driving motor, driving motor's output shaft drives the actuating lever and rotates, the actuating lever drives two bevel gear rotations on self, bevel gear on the actuating lever drives the bevel gear on the adjusting lever, thereby make the bevel gear on the adjusting lever drive the adjusting lever and rotate, the adjusting lever drives the bracing piece, the bracing piece drives the workstation motion, and then realized the automatic rising and the whereabouts of workstation, the extravagant labour's condition when rising or whereabouts the workstation has been reduced takes place.

Optionally, the workbench is fixedly connected with a guardrail, and the guardrail is arranged along the periphery of the workbench.

Through adopting above-mentioned technical scheme, when the staff stands on the workstation, the staff stands in the guardrail, makes the guardrail protect staff's life safety then, reduces the staff and leads to the fact life danger to self because of misoperation, and then increases the security that the staff stood on the workstation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the gate, the hoist, the connecting beam, the workbench and the adjusting assembly, when a worker needs to operate the hoist, the adjusting assembly is operated and adjusts the workbench, so that the adjusting assembly adjusts the workbench, the workbench drives the worker to ascend, the situation that the worker needs to climb a platform ladder when standing on the workbench is reduced in the process, and the safety when climbing on the workbench is improved;

2. through the arrangement of the adjusting rod and the supporting rod, the supporting rod is in threaded connection with the adjusting rod, the supporting rod is in sliding connection with the connecting beam along the length direction of the connecting beam, the adjusting rod is arranged in parallel with the connecting beam and is in rotating connection with the connecting beam, the supporting rod is abutted against the bottom of the workbench, when the workbench is lifted, the adjusting rod is rotated, the adjusting rod and the supporting rod are in threaded rotation, the supporting rod moves along the length direction of the adjusting rod, and the supporting rod drives the workbench to move, so that the lifting of the workbench is realized, and the effect of facilitating workers to lift the workbench is further achieved;

3. through set up first T type groove on the tie-beam, the first T type piece of tip fixed connection of bracing piece, first T type piece sliding connection is in first T type groove, it connects in first T type groove and the first T type piece is passed to the screw thread to adjust the pole rotation, when adjusting the pole rotation, adjust the pole and take place the screw thread rotation with first T type piece, first T type piece slides in first T type groove, first T type piece drives the bracing piece motion, the bracing piece drives the workstation motion, and then stability when increasing bracing piece and tie-beam and taking place the relative slip.

Drawings

FIG. 1 is a schematic structural diagram of an integrated hoist and gate device according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a workbench in an integrated hoist and gate device according to an embodiment of the present disclosure;

fig. 3 is a partial structural schematic diagram of an integrated hoist and gate device according to an embodiment of the present application, and mainly illustrates a driving assembly.

Description of reference numerals: 100. a gate; 110. a door body; 120. a frame; 200. a hoist; 300. a connecting assembly; 310. a connecting beam; 311. a first T-shaped groove; 400. a work table; 410. a connecting pipe; 411. a second T-shaped block; 420. a second T-shaped groove; 430. a guardrail; 500. an adjustment assembly; 510. adjusting a rod; 520. a support bar; 521. a first T-shaped block; 522. a limiting block; 523. a groove; 600. a limiting component; 610. a spring; 620. a limiting rod; 700. a drive assembly; 710. a drive motor; 720. a drive rod; 730. a bevel gear.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses an integrated device of hoist and gate.

Referring to fig. 1, an integrated hoist and gate device includes a gate 100, a hoist 200 and a connecting assembly 300, the connecting assembly 300 is used to connect the gate 100 and the hoist 200 together, one end of the connecting assembly 300 is disposed on the gate 100, the other end of the connecting assembly 300 is disposed on the hoist 200, and the hoist 200 is used to open and close the gate 100.

The gate 100 includes a door body 110 and a frame 120, and the door body 110 is slidably coupled in the frame 120 in a vertical direction. The connection assembly 300 includes two connection beams 310, one connection beam 310 is disposed on one side of the top of the bezel 120, and the other connection beam 310 is disposed on the other side of the top of the bezel 120. One end of each of the two connecting beams 310 is fixedly connected with the top of the frame 120, the other end of each of the two connecting beams 310 is inclined towards the direction close to each other and is fixedly connected together, and the tops of the two connecting beams 310 and the top of the frame 120 jointly form an isosceles triangle. The hoist 200 is fixedly connected to the joint of the two connecting beams 310, a screw on the hoist 200 is vertically arranged, and the screw on the hoist 200 is hinged to the top of the door body 110.

A workbench 400 is arranged on one side of the two connecting beams 310, and the workbench 400 is connected with the two connecting beams 310 in a sliding manner along the vertical direction. Fixedly connected with guardrail 430 on workstation 400, guardrail 430 sets up along the week side of workstation 400 to reach the effect of carrying out safety protection to the staff. In order to facilitate the worker to adjust the position of the work table 400 relative to the connection beams 310, the two connection beams 310 are provided with an adjusting assembly 500, and the adjusting assembly 500 adjusts the position of the work table 400 relative to the two connection beams 310.

The adjustment assembly 500 includes two adjustment rods 510 and two support rods 520, one support rod 520 is disposed corresponding to one adjustment rod 510, and the other support rod 520 is disposed corresponding to the other adjustment rod 510. Each support bar 520 is perpendicular to the corresponding adjusting bar 510, and the adjusting bars 510 are in threaded connection with the corresponding support bars 520. One adjustment bar 510 is disposed corresponding to one of the coupling beams 310, and the other adjustment bar 510 is disposed corresponding to the other coupling beam 310. Each adjusting rod 510 is parallel to the corresponding connecting beam 310 and is rotatably connected to the connecting beam 310, each supporting rod 520 is slidably connected to the corresponding connecting beam 310, and the sliding direction of each supporting rod is parallel to the length direction of the corresponding connecting beam 310. The two support rods 520 are arranged at the bottom of the workbench 400 and are abutted against and slidably connected with the workbench 400.

When the position of the table 400 with respect to the two connection beams 310 is adjusted, the two adjustment rods 510 are rotated, the adjustment rods 510 and the connection beams 310 rotate with respect to each other, the adjustment rods 510 and the support rods 520 rotate with screw threads, and the support rods 520 move along the length direction of the adjustment rods 510. The supporting rods 520 drive the workbench 400 to move, meanwhile, the distance between the two supporting rods 520 changes, the two supporting rods 520 and the bottom of the workbench 400 slide relatively, and finally the workbench 400 is adjusted relative to the two connecting beams 310.

Referring to fig. 1 and 2, in order to increase the stability of the support rod 520 and the connection beam 310 when sliding relatively, each connection beam 310 is provided with a first T-shaped groove 311, and the opening direction of each first T-shaped groove 311 is parallel to the length direction of the corresponding connection beam 310. The end of each support bar 520 close to the connecting beam 310 is integrally formed with a first T-shaped block 521, and the first T-shaped block 521 is slidably connected in the corresponding first T-shaped slot 311. Each adjusting rod 510 is rotatably connected to the corresponding first T-shaped groove 311, an external thread is formed in each adjusting rod 510, a threaded hole in threaded fit with the external thread is formed in each first T-shaped block 521, and one end thread of each adjusting rod 510 penetrates through the threaded hole in the corresponding first T-shaped block 521.

When the adjusting rod 510 rotates, the adjusting rod 510 and the corresponding first T-shaped block 521 rotate in a threaded manner, the first T-shaped block 521 slides relative to the first T-shaped groove 311, the first T-shaped block 521 moves along the length direction of the adjusting rod 510, so that the first T-shaped block 521 drives the supporting rod 520 to move, and the supporting rod 520 drives the workbench 400. Through the arrangement of the first T-shaped groove 311 and the arrangement of the first T-shaped block 521, the first T-shaped block 521 can be matched with the first T-shaped groove 311 to guide the movement of the supporting rod 520 and support the supporting rod 520 and the adjusting rod 510, so that the effect of increasing the relative stability of the supporting rod 520 and the connecting beam 310 is achieved.

In order to reduce the risk of the worker caused by the inclination of the workbench 400 due to unbalanced stress at the two ends of the workbench 400, two connecting pipes 410 are arranged at the bottom of the workbench 400, the two connecting pipes 410 are arranged in parallel, and the two connecting pipes 410 are slidably connected with the workbench 400 along the directions close to or far away from each other. Two second T-shaped grooves 420 parallel to each other are formed at the bottom of the working table 400, and the direction of each second T-shaped groove 420 is parallel to the sliding direction of the two connecting pipes 410. Two second T-shaped blocks 411 are fixedly connected to the circumferential side surface of each connecting pipe 410, one second T-shaped block 411 is arranged corresponding to one second T-shaped groove 420, and each second T-shaped block 411 is slidably connected to the corresponding second T-shaped groove 420.

One connecting tube 410 is disposed corresponding to one support rod 520, and the other connecting tube 410 is disposed corresponding to the other support rod 520. When the workbench 400 is mounted on the support rods 520, the connecting pipes 410 on the workbench 400 are coaxially sleeved on the corresponding support rods 520, so that the workbench 400 is connected with the support rods 520, and the danger of the workers caused by unbalanced stress at the two ends of the workbench 400 is reduced. The workbench 400 is connected with the supporting rod 520 through the connecting pipe 410, so that workers can detach the workbench 400 from the supporting rod 520 conveniently, and the situation that non-workers can operate the hoist 200 is reduced.

When the support rod 520 moves along the length direction of the adjustment rod 510, the support rod 520 drives the connection pipe 410 to move, and the connection pipe 410 drives the workbench 400 to move. When the two support rods 520 move along the corresponding connecting beams 310, the two support rods 520 move towards the directions away from or close to each other, so that the two connecting pipes 410 move towards the directions close to or away from each other, the connecting pipes 410 drive the second T-shaped blocks 411 to move, the second T-shaped blocks 411 and the second T-shaped grooves 420 slide relatively, and the stability of the connecting pipes 410 and the workbench 400 during relative sliding is further improved.

In order to reduce workstation 400 and tie-beam 310 and contradict, cause the great condition of frictional force to take place between workstation 400 and the tie-beam 310, every bracing piece 520 is close to the equal fixedly connected with stopper 522 of one end of tie-beam 310, stopper 522 is contradicted with the tip that connecting pipe 410 is close to tie-beam 310, in order to realize carrying out spacing effect to connecting pipe 410, the condition that reduces workstation 400 and tie-beam 310 contact takes place, thereby reduce the frictional force between workstation 400 and the tie-beam 310, and then reduce required power when staff rotates adjusting lever 510.

In order to reduce the occurrence of the situation that the connecting pipe 410 is easily separated from the supporting rods 520, one end of each supporting rod 520, which is far away from the connecting beam 310, is provided with a limiting assembly 600, and the limiting assembly 600 is used for limiting the relative positions of the connecting pipe 410 and the supporting rods 520. Spacing subassembly 600 includes spring 610 and gag lever post 620, and the central axis collineation setting of gag lever post 620 and spring 610, the one end of gag lever post 620 and the one end fixed connection of spring 610. One end of the support rod 520 far away from the connecting beam 310 is provided with a groove 523, and the opening direction of the groove 523 is perpendicular to the support rod 520. The spring 610 is arranged in the groove 523, and one end of the spring 610, which is far away from the limiting rod 620, is fixedly connected with the groove bottom of the groove 523. When the spring 610 is in a natural state, one end of the limiting rod 620 close to the spring 610 is located in the groove 523, and the limiting rod 620 can completely slide into the groove 523 after the limiting rod 620 compresses the spring 610. After the workbench 400 is installed, one end of the limiting rod 620, which is far away from the spring 610, is located outside the groove 523 and is abutted against the end part of the connecting pipe 410, which is far away from the connecting beam 310, so that the effect of limiting the connecting pipe 410 is achieved.

Referring to fig. 1 and 3, in order to reduce the labor of workers in rotating the adjusting levers 510, driving assemblies 700 are provided at the bottoms of the two connecting beams 310, and the driving assemblies 700 are used for driving the two adjusting levers 510 to rotate synchronously. The driving assembly 700 includes a driving motor 710, a driving rod 720 and four bevel gears 730, the driving rod 720 is coaxially and fixedly connected with an output shaft of the driving motor 710, two of the bevel gears 730 are coaxially and fixedly connected to the driving rod 720, and the remaining two bevel gears 730 are respectively coaxially and fixedly connected to the two adjusting rods 510. One bevel gear 730 on the driving rod 720 is in meshed transmission connection with the bevel gear 730 on one adjusting rod 510, and the other bevel gear 730 on the driving rod 720 is in meshed transmission connection with the bevel gear 730 on the other adjusting rod 510. Two ends of the driving rod 720 are respectively inserted into the two connecting beams 310 and rotatably connected with the connecting beams 310, and the driving motor 710 is fixedly connected with one connecting beam 310.

When the driving motor 710 works, the output shaft of the driving motor 710 drives the driving rod 720 to rotate, the driving rod 720 drives the bevel gear 730 on the driving rod 720 to rotate, the bevel gear 730 on the driving rod 720 drives the bevel gear 730 on the adjusting rod 510, and then the adjusting rod 510 can rotate without manual driving of workers, so that the labor capacity of the workers is reduced.

The implementation principle of the integrated device of the hoist and the gate in the embodiment of the application is as follows: when the staff need operate headstock 200, install workstation 400 to bracing piece 520 earlier, then make connecting pipe 410 on the workstation 400 and the coaxial cup joint of bracing piece 520 that corresponds be in the same place, connecting pipe 410 contradicts with stopper 522 simultaneously, and the one end that tie-beam 310 was kept away from with connecting pipe 410 is contradicted to gag lever post 620.

Then the worker turns over the guardrail 430 and stands on the workbench 400, and then starts the driving motor 710, the driving motor 710 drives the driving rod 720 to rotate, and the driving rod 720 drives the bevel gear 730 on the driving rod 720 to rotate. The bevel gear 730 on the driving rod 720 drives the bevel gear 730 on the adjusting rod 510, so that the adjusting rod 510 rotates, the adjusting rod 510 and the first T-shaped block 521 rotate in a threaded manner, and the supporting rod 520 moves along the length direction of the adjusting rod 510. The support rod 520 drives the connecting pipe 410 to move, and the connecting pipe 410 drives the workbench 400 to move, so that the worker stands on the workbench 400 to be lifted, and the worker can operate the hoist 200 conveniently.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an integrative device of headstock gear, gate, includes gate (100) and headstock gear (200), the both sides at gate (100) top all are provided with tie-beam (310), the one end of tie-beam (310) and frame (120) fixed connection of gate (100), the other end and headstock gear (200) fixed connection of tie-beam (310), screw rod on headstock gear (200) is articulated with door body (110) of gate (100), its characterized in that: the workbench (400) is vertically and slidably connected onto the two connecting beams (310) and the adjusting assembly (500) is arranged on the two connecting beams (310) and used for adjusting the workbench (400).

2. The hoist and gate integrated device according to claim 1, wherein: adjusting part (500) includes two regulation poles (510) and two spinal branch vaulting poles (520), it sets up with bracing piece (520) one-to-one to adjust pole (510), adjust pole (510) and bracing piece (520) threaded connection, adjust pole (510) and tie-beam (310) one-to-one setting, it sets up in tie-beam (310) that adjusts pole (510) to be on a parallel with the correspondence, it rotates with tie-beam (310) that corresponds to adjust pole (510) to be connected, bracing piece (520) and tie-beam (310) sliding connection who corresponds, its sliding direction is the length direction of tie-beam (310), bracing piece (520) set up the bottom at workstation (400).

3. The hoist and gate integrated device according to claim 2, wherein: every first T type groove (311) have all been seted up on tie-beam (310), the direction of seting up of first T type groove (311) sets up in parallel to tie-beam (310) length direction that corresponds, and equal first T type piece (521) of fixedly connected with on every bracing piece (520), first T type piece (521) sliding connection is in first T type groove (311) that corresponds, adjust pole (510) rotate connect in first T type groove (311) that corresponds and the screw thread passes corresponding first T type piece (521).

4. The hoist and gate integrated device according to claim 2, wherein: the bottom of workstation (400) is provided with two connecting pipes (410), second T type groove (420) have been seted up to the bottom of workstation (400), the direction of seting up of second T type groove (420) is on a parallel with the direction that two spinal branch vaulting poles (520) are close to each other or keep away from, fixedly connected with second T type piece (411) on the week side of connecting pipe (410), second T type piece (411) sliding connection is in second T type groove (420), connecting pipe (410) and bracing piece (520) one-to-one set up, connecting pipe (410) and the coaxial socket joint of bracing piece (520) that corresponds.

5. The hoist and gate integrated device according to claim 4, wherein: and one end of each support rod (520) close to the connecting beam (310) is fixedly connected with a limit block (522) which is abutted against the end part of the connecting pipe (410).

6. The hoist and gate integrated device according to claim 4, wherein: every one end that bracing piece (520) kept away from tie-beam (310) all is provided with spacing subassembly (600), spacing subassembly (600) are used for spacing connecting pipe (410).

7. The hoist and gate integrated device according to claim 6, wherein: spacing subassembly (600) include gag lever post (620) and spring (610), the central axis collineation setting of gag lever post (620) and spring (610), the one end of gag lever post (620) and the one end fixed connection of spring (610), recess (523) have been seted up on bracing piece (520), the length direction who sets up direction perpendicular to bracing piece (520) of recess (523) sets up, spring (610) set up in recess (523) and spring (610) keep away from the one end of gag lever post (620) and the tank bottom fixed connection of recess (523), the one end setting of gag lever post (620) is in recess (523) and along self length direction and recess (523) sliding connection, the tip of connecting beam (310) is contradicted in gag lever post (620) and connecting pipe (410) keeping away from.

8. The hoist and gate integrated device according to claim 2, wherein: the bottom of the two connecting beams (310) is provided with a driving assembly (700), and the driving assembly (700) is used for driving the two adjusting rods (510).

9. The hoist and gate integrated device according to claim 8, wherein: the driving assembly (700) comprises a driving motor (710), a driving rod (720) and four bevel gears (730), wherein two bevel gears (730) are coaxially and fixedly connected with the driving rod (720), the driving rod (720) is coaxially and fixedly connected with an output shaft of the driving motor (710), the rest two bevel gears (730) are respectively and coaxially and fixedly connected with two adjusting rods (510), one bevel gear (730) on the driving rod (720) is in meshing transmission connection with the bevel gear (730) on one adjusting rod (510), the other bevel gear (730) on the driving rod (720) is in meshing transmission connection with the bevel gear (730) on the other adjusting rod (510), and the driving motor (710) is fixedly connected with one connecting beam (310).

10. The hoist and gate integrated device according to claim 1, wherein: fixedly connected with guardrail (430) on workstation (400), guardrail (430) set up along the week side of workstation (400).

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