CN114960561A

CN114960561A - Plane gate slot embedded part supporting structure

Info

Publication number: CN114960561A
Application number: CN202210431542.9A
Authority: CN
Inventors: 张学超; 田斌; 张涛; 邰庆功
Original assignee: Bengbu Jianghe Hydraulic Engineering Construction Co ltd
Current assignee: Bengbu Jianghe Hydraulic Engineering Construction Co ltd
Priority date: 2022-04-23
Filing date: 2022-04-23
Publication date: 2022-08-30
Anticipated expiration: 2042-04-23
Also published as: CN114960561B

Abstract

The application discloses a plane gate slot buries a supporting structure belongs to the technical field of face gate, it includes the base and is fixed in two door plants of base top surface, install the door leaf along vertical sliding between two door plants, the both sides of door leaf all are fixed with removes the wheel, the mounting groove has all been seted up to the relative inboard of two door plants, it slides along vertical and door plant through the mounting groove to remove the wheel and is connected, be provided with the heating chamber in the door plant, it is fixed with the heating pipe to heat the intracavity, the embedded power that is fixed with can be connected with the heating pipe electricity of establishing of door plant. The probability that the door leaf collides with the ice surface can be reduced, and therefore the possibility that the door leaf is damaged is reduced.

Description

Plane gate slot embedded part supporting structure

Technical Field

The application relates to the technical field of plane gates, in particular to a plane gate slot embedded part supporting structure.

Background

The plane gate is a gate with a plane water retaining surface, and the gate leaf of the plane gate moves linearly in the gate slot to close or open the water channel, and is widely used on various hydraulic buildings as a working gate, an accident gate and an overhaul gate.

For example, chinese patent No. CN106245598B discloses a supporting device for gate slot embedded parts of a planar gate and a mounting method for gate slot embedded parts, comprising a plurality of two-side supporting mechanisms for supporting the embedded parts of the gate slot bases on two sides, and two adjacent two-side supporting mechanisms are connected by an adjustable supporting rod between the embedded parts of the gate slot bases, so as to ensure the mounting accuracy of the embedded parts of the gate slot.

With respect to the above-described related art, the inventors consider that: when weather is colder, the water surface can freeze, and when the door leaf moves in the door slot, the door leaf collides with the ice surface easily, resulting in the door leaf to damage.

Disclosure of Invention

In order to improve the problem that the door leaf is easy to collide with the ice surface in cold weather, the application provides a plane gate door slot embedded part supporting structure.

The application provides a plane gate slot buries a bearing structure adopts following technical scheme:

the utility model provides a plane gate slot buries a supporting structure, includes the base and is fixed in two door plants of base top surface, two install the door leaf along vertical sliding between the door plant, the both sides of door leaf all are fixed with the removal wheel, two the mounting groove has all been seted up to the relative inboard of door plant, it passes through to remove the wheel the mounting groove along vertical with the door plant slides and connects, be provided with the heating chamber in the door plant, the heating intracavity is fixed with the heating pipe, the door plant is embedded to be equipped with can with the power that the heating pipe electricity is connected.

Through adopting above-mentioned technical scheme, when the surface of water freezes, be connected power and heating pipe electricity, make the heating pipe circular telegram to heat the ice surface, thereby make the ice surface melt, reduce the probability that door leaf and ice surface bump, thereby reduce the possibility that the door leaf takes place to damage.

Preferably, connecting rods are fixed to the top and the bottom of the moving wheel, a connecting assembly for electrically connecting a power source with the heating pipe is arranged on the connecting rods, the connecting assembly comprises a moving sleeve sleeved on the periphery of the connecting rods, a moving block is fixed to one end, away from the connecting rods, of the moving sleeve, a contact rod is fixed to the side, away from the moving sleeve, of the moving block, a first spring is fixed to one end, away from the connecting rods, of the moving sleeve, the other end of the first spring is fixedly connected with one end, away from the moving wheel, of the connecting rods, a moving groove is formed in the inner circumferential surface of the moving sleeve, a fixed ring is fixed to the side, away from the moving wheel, of the moving groove, the fixed ring is electrically connected with the heating pipe, a moving ring is fixed to the outer circumferential surface of the connecting rods, the moving ring is electrically connected with the power source, and the side, away from the moving wheel, of the moving ring, can be electrically contacted with the side, close to the moving wheel, of the fixed ring, of the moving wheel .

By adopting the technical scheme, when the water surface is frozen and the gate needs to be closed or opened, the contact rod is firstly contacted with the ice surface, the contact rod and the movable block stop moving, the movable wheel drives the connecting rod to continue moving, so that the movable ring is electrically contacted with the fixed ring, and the heating pipe is electrified to supply heat, so that the ice surface is melted; after the ice surface melts, the contact rod moves towards the direction far away from the moving wheel under the action of the elastic force of the spring I, the moving ring is separated from the fixed ring, and the heating pipe is powered off and stops supplying heat.

Preferably, the relative inboard of door plant all is fixed with the gib block, the outer peripheral face of removal wheel seted up be used for with gib block matched with direction annular, the both sides of movable block all seted up be used for with gib block matched with guide way.

Through adopting above-mentioned technical scheme, remove wheel and movable block and pass through the spacing of gib block, follow vertical removal all the time, be difficult for taking place the skew.

Preferably, the top of door plant is fixed with the mounting panel, rotate on the mounting panel and install the lead screw of two vertical settings, the lead screw with door leaf screw drive cooperation, the bottom of lead screw with the base rotates to be connected, be fixed with the motor on the mounting panel, the output shaft of motor with the top fixed connection of lead screw.

Through adopting above-mentioned technical scheme, starter motor, the lead screw rotates, drives the vertical removal of door leaf along to control opening and closing of gate.

Preferably, a cavity is formed in the door leaf, a driving block is rotatably mounted in the cavity and is in screw transmission fit with the lead screw, a clamping groove is formed in the inner circumferential surface of the cavity, the door leaf is slidably mounted with a clamping strip along the length direction of the door leaf through the clamping groove, and a synchronous groove for inserting the clamping strip is formed in the outer circumferential surface of the driving block.

Through adopting above-mentioned technical scheme, when the card strip is inserted and is established in the synchronization groove, the drive block drives the door leaf along vertical removal, and when the card strip breaks away from the synchronization groove, the rotation takes place for the drive block to follow the lead screw, and the door leaf stops to remove.

Preferably, a control block is fixed at one end of the clamping strip, which is far away from the driving block, a control groove is formed in the side surface of the clamping groove, which is far away from the driving block, a first connecting groove is formed in the side surface of the clamping groove, which is far away from the driving block, the control block is connected with the door leaf in a sliding manner along the length direction of the door leaf through the control groove, a first connecting block is installed on the side surface of the door leaf, which is close to the control block, in a sliding manner along the vertical direction through the second connecting groove, a second connecting block is installed on the side surface of the door leaf, which is close to the door leaf, a first inclined surface is arranged on the side surface of the first connecting block, which is close to the moving block, in a sliding manner against the first inclined surface, a second inclined surface is arranged on the side surface of the first connecting block, and a third inclined surface is respectively arranged on the opposite inner sides of the first connecting block and the second connecting block, the two sides of the control block are provided with four inclined surfaces, and the side face, close to the control block, of the second connecting block is provided with a fifth inclined surface which is used for being in four-phase abutting connection with the inclined surfaces.

Through adopting above-mentioned technical scheme, when contact lever and ice surface butt and stop moving, the movable block stops moving simultaneously, it moves to remove the direction that the wheel drove the door leaf and is close to the movable block, inclined plane one and inclined plane two looks butt, promote connecting block one and move towards the direction that is close to the drive block, connecting block one promotes connecting block two through inclined plane three and moves towards the direction that is close to the control block, connecting block two is through inclined plane four and five looks butt in inclined plane, promote the control block and move towards the direction of keeping away from the drive block, make the card strip break away from the synchronizing groove, thereby make the door leaf stop moving, reduce the probability that door leaf and ice surface collided.

Preferably, a second spring is fixed on the side surface of the control block far away from the clamping strip, and one end of the second spring far away from the control block is fixedly connected with the side surface of the control groove far away from the driving block.

By adopting the technical scheme, when the moving block resets under the elastic action of the first spring, the moving block is separated from the first connecting block, and the control block moves towards the direction close to the driving block under the elastic action of the second spring, so that the clamping strips are inserted in the synchronous grooves, and the door leaf continues to move.

Preferably, the first connecting block is fixedly provided with first reset blocks on two opposite sides, the first reset grooves are formed in the inner sides of the first connecting grooves, the first reset blocks pass through the first reset grooves and are connected with the door leaves in a sliding mode along the length direction of the door leaves, the first reset blocks are close to the side faces of the driving blocks and are fixedly provided with third springs, and the third springs are far away from one ends of the first reset blocks and are fixedly connected with the door leaves through the first reset grooves.

Through adopting above-mentioned technical scheme, when the movable block was separated with connecting block one, connecting block one moved towards the direction of keeping away from the drive block under the spring action of spring three to make connecting block one reset.

Preferably, two opposite sides of the second connecting block are fixed with second reset blocks, the second reset grooves are formed in the opposite inner sides of the second connecting grooves, the second reset blocks are connected with the door leaves in a sliding mode through the second reset grooves along the length direction of the door leaves, the second reset blocks are close to the side faces of the driving blocks and are fixed with fourth springs, and the fourth springs are far away from one ends of the second reset blocks, and the second reset grooves are fixedly connected with the door leaves.

Through adopting above-mentioned technical scheme, the back is reset to connecting block one, and connecting block two moves towards the direction of keeping away from the control block under the spring action of spring four to make connecting block two reset.

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

1. when the water surface is frozen, the power supply is electrically connected with the heating pipe, so that the heating pipe is electrified to heat the ice surface, the ice surface is melted, the probability of collision between the door leaf and the ice surface is reduced, and the possibility of damage to the door leaf is reduced;

2. when the water surface is frozen and the gate needs to be closed or opened, the contact rod is firstly contacted with the ice surface, the contact rod and the movable block stop moving, the movable wheel drives the connecting rod to continue moving, so that the movable ring is in electrical contact with the fixed ring, and the heating pipe is electrified to supply heat, so that the ice surface is melted; after the ice surface is melted, the contact rod moves towards the direction far away from the moving wheel under the action of the elastic force of the spring I, the moving ring is separated from the fixed ring, and the heating pipe is powered off and stops supplying heat;

3. when the contact lever abuts against the ice surface and stops moving, the moving block stops moving at the same time, the moving wheel drives the door leaf to move towards the direction close to the moving block, the first inclined plane abuts against the second inclined plane, the first connecting block is pushed to move towards the direction close to the driving block, the first connecting block pushes the second connecting block to move towards the direction close to the control block through the third inclined plane, the second connecting block pushes the control block to move towards the direction far away from the driving block through the fourth inclined plane and the fifth inclined plane, the clamping strip is separated from the synchronous groove, the door leaf stops moving, and the probability of collision between the door leaf and the ice surface is reduced.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

FIG. 2 is a cross-sectional view of the mounting plate and the door leaf in an embodiment of the present application.

Fig. 3 is an enlarged schematic view at a in fig. 2.

Fig. 4 is a cross-sectional view of a traveling sleeve in an embodiment of the present application.

Fig. 5 is an enlarged schematic view at B in fig. 2.

Reference numerals: 1. a base; 11. mounting a plate; 12. a lead screw; 13. a motor; 2. a door slot assembly; 21. a door panel; 22. mounting grooves; 23. a guide strip; 24. a heating cavity; 25. heating a tube; 26. a power source; 3. a moving wheel; 31. a guide ring groove; 32. a connecting rod; 321. a moving ring; 33. moving the sleeve; 331. fixing a ring; 34. a moving block; 341. a first inclined plane; 342. a guide groove; 35. a contact lever; 36. a moving groove; 37. a first spring; 4. a door leaf; 41. a cavity; 42. a drive block; 43. a synchronization slot; 44. a card slot; 45. clamping the strip; 46. a control block; 461. a fourth inclined plane; 47. a control slot; 48. a second spring; 5. a first connecting block; 51. connecting a first connecting groove; 52. a first reset block; 53. a first reset groove; 54. a third spring; 55. a second inclined plane; 6. a second connecting block; 61. connecting groove two; 62. a second reset block; 63. a second reset groove; 64. a fourth spring; 65. a third inclined plane; 66. and a fifth inclined plane.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a plane gate slot embedded part supporting structure. Referring to fig. 1, the support structure for the gate slot embedded parts of the plane gate comprises a base 1, wherein two sets of gate slot components 2 which are oppositely arranged are fixed on the top surface of the base 1.

Referring to fig. 2 and 3, the door slot assembly 2 includes door panels 21 fixed on the top surface of the mounting plate 11, the opposite inner sides of the two door panels 21 are both provided with mounting grooves 22 vertically arranged, and the opposite inner sides of the mounting grooves 22 are integrally formed with guide strips 23. Install door leaf 4 along vertical sliding between two door plant 21, the both sides of door leaf 4 all are fixed with removes wheel 3, remove wheel 3 and slide along vertical and door plant 21 through mounting groove 22 and be connected, remove the outer peripheral face of wheel 3 and offer and be used for with 23 matched with direction ring groove 31 of gib block.

Referring to fig. 3 and 4, a heating chamber 24 is provided in the door panel 21, and a heating pipe 25 is fixed in the heating chamber 24. The top and the bottom of removal wheel 3 all are fixed with along the connecting rod 32 of vertical setting, and the periphery cover of connecting rod 32 is equipped with traveling sleeve 33, and the one end that connecting rod 32 was kept away from to traveling sleeve 33 is fixed with movable block 34, and the side that traveling sleeve 33 was kept away from to movable block 34 is fixed with the contact lever 35 of vertical setting. The moving block 34 is connected with the door panel 21 in a sliding manner along the vertical direction through the mounting groove 22, and the guide grooves 342 matched with the guide strips 23 are formed in both sides of the moving block 34. The end face, far away from the moving wheel 3, of the connecting rod 32 is fixedly provided with a first spring 37, and one end, far away from the connecting rod 32, of the first spring 37 is fixedly connected with the moving block 34.

Referring to fig. 3 and 4, the inner circumferential surface of the movable sleeve 33 is formed with a movable groove 36, a fixed ring 331 is fixed to a side surface of the movable groove 36 away from the movable wheel 3, and the fixed ring 331 is electrically connected to the heating pipe 25. The outer peripheral surface of the connecting rod 32 is fixedly sleeved with a movable ring 321, and the side surface of the movable ring 321 far away from the movable wheel 3 can be electrically contacted with the side surface of the fixed ring 331 near the movable wheel 3. The door panel 21 is embedded and fixed with a power supply 26, and the movable ring 321 is electrically connected with the power supply 26.

Referring to fig. 2 and 5, a mounting plate 11 is fixed on the top surface of the door panel 21, two vertically arranged lead screws 12 are rotatably mounted on the mounting plate 11, and the lead screws 12 penetrate through the door leaf 4. The top surface of mounting panel 11 is fixed with motor 13, and the output shaft of motor 13 and the top fixed connection of lead screw 12, the bottom of lead screw 12 rotates with base 1 to be connected. A cavity 41 is arranged in the door leaf 4, a driving block 42 is rotatably arranged in the cavity 41, and the driving block 42 is in screw transmission fit with the screw rod 12. The outer peripheral surface of the driving block 42 is provided with a synchronous groove 43, the inner peripheral surface of the cavity 41 is provided with a clamping groove 44, the door leaf 4 is provided with a clamping strip 45 in a sliding mode along the length direction of the door leaf through the clamping groove 44, and the clamping strip 45 can be inserted into the synchronous groove 43.

Referring to fig. 4, a control slot 47 communicated with the slot 44 is arranged in the door leaf 4, a control block 46 is fixed at one end of the clamping strip 45 away from the driving block 42, and the control block 46 is connected with the door leaf 4 in a sliding manner along the length direction of the door leaf 4 through the control slot 47. The side of the control block 46 far away from the clamping strip 45 is fixed with a second spring 48, and one end of the second spring 48 far away from the control block 46 is fixedly connected with the side of the control slot 47 far away from the driving block 42.

Referring to fig. 3 and 5, a first connecting groove 51 is formed in the side surface of the door leaf 4 close to the moving block 34, and a first connecting block 5 is slidably mounted on the door leaf 4 along the length direction of the door leaf 4 through the first connecting groove 51. The side surface of the moving block 34 close to the moving wheel 3 is provided with a first inclined surface 341, the first inclined surface 341 is positioned on the side of the moving block 34 close to the door leaf 4, and the side surface of the connecting block 5 close to the moving block 34 is provided with a second inclined surface 55 for abutting against the first inclined surface 341. A first reset groove 53 is formed in the side face of the first connecting groove 51, a first reset block 52 is fixed on the side face of the first connecting block 5, and the first reset block 52 is connected with the door leaf 4 in a sliding mode along the length direction of the door leaf 4 through the first reset groove 53. And a spring III 54 is fixed on the side surface of the first reset block 52 close to the driving block 42, and one end of the spring III 54 far away from the first reset block 52 is fixedly connected with the side surface of the first reset groove 53 close to the driving block 42.

Referring to fig. 3 and 5, a second connecting groove 61 communicated with the control groove 47 is formed in a side surface of the first connecting groove 51 close to the control block 46, and the second connecting block 6 is slidably mounted on the door leaf 4 along the vertical direction through the second connecting groove 61. The opposite inner sides of the second connecting block 6 and the first connecting block 5 are respectively provided with a third inclined surface 65, the side surface of the second connecting block 6 close to the control block 46 is provided with a fifth inclined surface 66, and the side surface of the control block 46 close to the second connecting block 6 is provided with a fourth inclined surface 461 abutted against the fifth inclined surface 66. A second reset groove 63 is formed in the side face of the second connecting groove 61, a second reset block 62 is fixed to the side face of the second connecting block 6, and the second reset block 62 is connected with the door leaf 4 in a sliding mode along the vertical direction through the second reset groove 63. A spring four 64 is fixed on the side surface of the second reset block 62 close to the control block 46, and one end of the spring four 64 far away from the second reset block 62 is fixedly connected with the side surface of the second reset groove 63 close to the control block 46.

The implementation principle of the embedded part supporting structure of the gate slot of the plane gate in the embodiment of the application is as follows: when the gate is closed, the gate leaf 4 moves downwards under the driving of the screw 12, when the water surface is frozen, the contact rod 35 is in contact with the ice surface, the contact rod 35 and the moving block 34 stop moving, the moving wheel 3 drives the connecting rod 32 to continue to move downwards, the moving ring 321 is in electrical contact with the fixed ring 331, and the heating pipe 25 starts to supply heat after being electrified, so that the ice surface is melted; the moving wheel 3 drives the door leaf 4 to move downwards, the first inclined plane 341 abuts against the second inclined plane 55, the moving block 34 pushes the first connecting block 5 to move towards the direction close to the driving block 42, the first connecting block 5 pushes the second connecting block 6 to move towards the direction close to the control block 46 through the third inclined plane 65, the second connecting block 6 abuts against the fifth inclined plane 66 through the fourth inclined plane 461, the control block 46 is pushed to move towards the direction far away from the driving block 42, the control block 46 drives the clamping strip 45 to be separated from the synchronous groove 43, the driving block 42 rotates, the door leaf 4 stops moving, and therefore the door leaf 4 is not prone to colliding with an ice surface.

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

1. A plane gate slot embedded part supporting structure is characterized in that: including base (1) and be fixed in two door plant (21) of base (1) top surface, two install door leaf (4) along vertical sliding between door plant (21), the both sides of door leaf (4) all are fixed with remove wheel (3), two mounting groove (22) have all been seted up to the relative inboard of door plant (21), remove wheel (3) and pass through mounting groove (22) along vertical with door plant (21) slide and connect, be provided with heating chamber (24) in door plant (21), heating chamber (24) internal fixation has heating pipe (25), door plant (21) embedded establish can with power (26) that heating pipe (25) electricity is connected.

2. A planar gate slot insert support structure as claimed in claim 1, wherein: the top and the bottom of the moving wheel (3) are both fixed with a connecting rod (32), the connecting rod (32) is provided with a connecting component for electrically connecting a power supply (26) with a heating pipe (25), the connecting component comprises a moving sleeve (33) sleeved on the periphery of the connecting rod (32), one end of the moving sleeve (33) far away from the connecting rod (32) is fixed with a moving block (34), the side surface of the moving block (34) far away from the moving sleeve (33) is fixed with a contact rod (35), one end of the moving sleeve (33) far away from the connecting rod (32) is fixed with a first spring (37), the other end of the first spring (37) is fixedly connected with one end of the connecting rod (32) far away from the moving wheel (3), the inner peripheral surface of the moving sleeve (33) is provided with a moving groove (36), and the side surface of the moving groove (36) far away from the moving wheel (3) is fixed with a fixed ring (331), the fixed ring (331) is electrically connected with the heating pipe (25), a movable ring (321) is fixedly sleeved on the outer peripheral surface of the connecting rod (32), the movable ring (321) is electrically connected with the power supply (26), and the side surface of the movable ring (321) far away from the movable wheel (3) can be electrically contacted with the side surface of the fixed ring (331) close to the movable wheel (3).

3. A planar gate slot insert support structure according to claim 2, wherein: the relative inboard of door plant (21) all is fixed with gib block (23), the outer peripheral face of removal wheel (3) seted up be used for with gib block (23) matched with direction annular (31), the both sides of movable block (34) all seted up be used for with gib block (23) matched with guide way (342).

4. A planar gate slot insert support structure according to claim 2, wherein: the top of door plant (21) is fixed with mounting panel (11), rotate on mounting panel (11) and install lead screw (12) of two vertical settings, lead screw (12) with door leaf (4) screw drive cooperation, the bottom of lead screw (12) with base (1) rotates and is connected, be fixed with motor (13) on mounting panel (11), the output shaft of motor (13) with the top fixed connection of lead screw (12).

5. The planar gate slot insert support structure of claim 4, wherein: the door leaf is characterized in that a cavity (41) is formed in the door leaf (4), a driving block (42) is rotatably mounted in the cavity (41), the driving block (42) is in spiral transmission fit with the lead screw (12), a clamping groove (44) is formed in the inner peripheral surface of the cavity (41), a clamping strip (45) is slidably mounted on the door leaf (4) along the length direction of the door leaf through the clamping groove (44), and a synchronous groove (43) used for inserting the clamping strip (45) is formed in the outer peripheral surface of the driving block (42).

6. The planar gate slot insert support structure of claim 5, wherein: a control block (46) is fixed at one end, far away from the driving block (42), of the clamping strip (45), a control groove (47) is formed in the side face, far away from the driving block (42), of the clamping groove (44), the control block (46) is connected with the door leaf (4) in a sliding mode through the control groove (47) along the length direction of the door leaf (4), a first connecting groove (51) is formed in the side face, close to the moving block (34), of the door leaf (4), a first connecting block (5) is installed on the door leaf (4) in a sliding mode through the first connecting groove (51) along the length direction of the door leaf, a second connecting groove (61) communicated with the control groove (47) is formed in the side face, close to the control block (46), of the door leaf (4), a second connecting block (6) is installed on the door leaf (4) in a sliding mode along the vertical direction through the second connecting groove (61), and a first inclined face (341) is arranged on the side face, close to the door leaf (4), of the moving block (34), the side face, close to the moving block (34), of the first connecting block (5) is provided with a second inclined face (55) used for abutting against the first inclined face (341), the opposite inner sides of the first connecting block (5) and the second connecting block (6) are respectively provided with a third inclined face (65), two sides of the control block (46) are respectively provided with a fourth inclined face (461), and the side face, close to the control block (46), of the second connecting block (6) is provided with a fifth inclined face (66) used for abutting against the fourth inclined face (461).

7. The planar gate slot insert support structure of claim 6, wherein: a second spring (48) is fixed on the side surface of the control block (46) far away from the clamping strip (45), and one end of the second spring (48) far away from the control block (46) is fixedly connected with the side surface of the control groove (47) far away from the driving block (42).

8. A planar gate slot insert support structure as claimed in claim 6, wherein: the two opposite sides of the first connecting block (5) are respectively fixed with a first reset block (52), a first reset groove (53) is formed in the inner side of the first connecting groove (51), the first reset block (52) is connected with the door leaf (4) in a sliding mode along the length direction of the door leaf (4) through the first reset groove (53), a third spring (54) is fixed on the side face, close to the driving block (42), of the first reset block (52), and one end, far away from the first reset block (52), of the third spring (54) is fixedly connected with the door leaf (4) through the first reset groove (53).

9. The planar gate slot insert support structure of claim 6, wherein: the relative both sides of connecting block two (6) all are fixed with reset block two (62), reset groove two (63) have all been seted up to the relative inboard of connecting groove two (61), reset block two (62) are passed through reset groove two (63) are followed the length direction of door leaf (4) with door leaf (4) slide and are connected, reset block two (62) are close to the side of drive block (42) is fixed with spring four (64), spring four (64) are kept away from the one end of reset block two (62) is passed through reset groove two (63) with door leaf (4) fixed connection.