CN111648197A

CN111648197A - Improved slurry filling method and auxiliary equipment for road construction

Info

Publication number: CN111648197A
Application number: CN202010626353.8A
Authority: CN
Inventors: 李爱军; 李兴龙; 陈雅韵
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-01
Filing date: 2020-07-01
Publication date: 2020-09-11
Anticipated expiration: 2040-07-01
Also published as: CN111648197B

Abstract

The invention discloses an improved slurry filling method and auxiliary equipment for road construction. When the drill bit is used, the inclination driving mechanism is firstly enabled to enable the drill rod to be positioned in the vertical direction, then, vertical drilling is carried out, the drill bit is drilled to a certain depth, the positioning ball seat is clamped on the bottom surface, the inclination driving mechanism is started, the drill bit is enabled to continuously incline in the space under the driving of the inclination driving mechanism, and the inclination angle is continuously increased along with the continuous drilling, so that the drilling of the tapered hole is realized.

Description

Improved slurry filling method and auxiliary equipment for road construction

Technical Field

The invention particularly relates to an improved slurry filling method and auxiliary equipment for road construction, and relates to the field related to road construction and maintenance machinery.

Background

At present, in road construction, particularly after a cement road, an asphalt road and the like are used for a long time, pits and other damages often occur in local areas, and if the pits cannot be processed in time, larger-area damages are easily caused at the pits. Therefore, the pit problem of the road needs to be repaired and maintained timely, however, the existing repair and maintenance generally directly fills the required slurry in the pit, and although the mode is simple, the slurry is difficult to form a whole with the original road after being solidified and fixed, and the problem of layering is often caused, and the problem of layering causes the slurry for subsequent repair to fall off, so that the service life of the slurry is influenced.

Disclosure of Invention

Therefore, in order to solve the above-mentioned disadvantages, the present invention provides an improved slurry filling method and auxiliary equipment for road construction.

The invention is realized in this way, and an improved slurry filling method for road construction is constructed, which comprises the following steps:

(1) cleaning the position of the road to be constructed to ensure that no falling slag particles exist in the pit to be constructed;

(2) drilling a plurality of conical holes on the bottom surface of the pit by using road construction auxiliary equipment, wherein the conical holes are of a blind hole structure with an opening at the upper end, and the cross sectional area of the upper end of each conical hole is smaller than that of the lower end of each conical hole;

(3) cleaning slag particles in the conical holes and the pits to ensure clean;

(4) simultaneously injecting construction slurry into each conical hole by using grouting equipment to ensure that the conical holes are filled with the construction slurry;

(5) injecting construction slurry into the pits by using grouting equipment, and enabling the construction slurry in the pits and the construction slurry in the conical holes to be of an integral structure;

(6) and maintaining the construction slurry in the concave pits and the conical holes to ensure the solidification performance of the slurry.

Further, preferably, the cross-sectional area of the uppermost opening of the tapered hole is not more than one half of the cross-sectional area of the lowermost portion of the tapered hole.

Further, as a preference, the road construction auxiliary equipment can simultaneously drill at least two taper holes at one time.

Further, the present invention provides a road construction auxiliary device for an improved grout filling method for road construction, which is characterized in that: it includes that lift drive case seat, flexible protection rubber ring, power drive seat, construction bore establish the mechanism and erect the mechanism, wherein, erect the mechanism and install in the mount pad bottom, adopt horizontal drive connection of seat to be provided with on the mount pad lift drive case seat, the bottom output of lift drive case seat is connected to through the lift post power drive seat, just the outside cover of lift post is equipped with flexible protection rubber ring, the lower extreme of power drive seat is provided with the mechanism is bored in the construction, the lower extreme of establishing the mechanism is bored in the construction is provided with two at least drill bits, when the drill bit can be rotatory around its self axis, the drill bit can also be around its upper portion swing, and then realizes boring of bell mouth and establish.

Further, as preferred, the construction drilling mechanism comprises a drilling frame assembly, a drilling motor seat, a drilling motor, an inclination driving mechanism, a positioning ball seat, a rotary ball and a drill bit, wherein the drilling frame assembly is fixed at the lower end of the power driving seat, at least two inclination driving mechanisms are arranged on the periphery of the upper portion of the drilling frame assembly, the end of the inclination driving mechanism is connected with the drilling motor seat, the drilling motor is arranged on the drilling motor seat, the output end of the drilling motor is connected with the rotary ball, the lower end of the rotary ball is connected with a drill rod, the drill bit is arranged at the lower end of the drill rod, the lower end side of the drilling frame assembly is further connected with the positioning ball seat, a ball groove is formed in the positioning ball seat, the rotary ball is rotatably positioned in the ball groove, and the inclination driving mechanism can drive the drilling motor seat to incline in the space, and the rotating ball relatively rotates in the positioning ball seat, so that the drill rod can tilt in space.

Further, as preferred, the slope actuating mechanism includes flexible driver, middle flexible driver down, the both ends of going up flexible driver are connected respectively the rig subassembly with bore the upper portion of establishing the motor cabinet, the both ends of flexible driver down are connected respectively the rig subassembly with bore the lower part of establishing the motor cabinet, through the cooperation of stretching down of going up flexible driver, middle flexible driver and flexible driver down realize right bore the slope drive of establishing the motor cabinet in the space.

Further, as preferred, the drilling frame assembly comprises an upper frame disc, a middle connecting column and a lower frame disc, the center of the upper frame disc is connected to the lower frame disc through the middle connecting column extending vertically, the inclination driving mechanism is connected to the middle connecting column, and the positioning ball seat is connected to the outer peripheral side of the lower frame disc.

Further, as preferred, the front end detachable of lift drive case seat is provided with the end cover, erect the mechanism and include the bottom plate board, paste floor, first down tube, cam seat, wear mouthful, adjust pole, card pipe, inserted bar, cylinder seat, second down tube and third down tube, the bottom plate board is located first down tube inboard, paste floor top welded fastening on first down tube, the cylinder seat is installed in the embedding on the cam seat, it is equipped with and wears the mouth to run through on the regulation pole, it has the card pipe to adjust pole top welding, the card pipe top extends to install to the mount pad bottom, the inserted bar is pegged graft and is installed on wearing mouthful, the second down tube is the same with third down tube structure.

Preferably, the top of the lifting driving box seat is provided with a top frame rod, the top frame rod is welded and fixed on the extension rod, the transverse driving seat can drive the lifting driving box seat to transversely move on the mounting seat, the bottom of the mounting seat is also provided with a triangular auxiliary support frame in a sliding manner, and the end side of the triangular auxiliary support frame is fixed on the side of the lifting driving box seat.

Preferably, the mounting seat comprises a main body seat, a rubber ring, an upper clamping ring, a bonding rubber ring, a hinge rod, a side connecting rod, a lower clamping ring and a locking assembly, the rubber ring is bonded and mounted on the main body seat, a tripod is welded and fixed on the main body seat, the upper clamping ring is hinged with the main body seat through the hinge rod, the bonding rubber ring is bonded with the upper clamping ring through an adhesive, the upper clamping ring is hinged with the lower clamping ring through the side connecting rod, and the lower clamping ring is locked with the upper clamping ring through the locking assembly; the upper clamping ring comprises an upper clamping ring main body, a hinging rod and a prefabricated notch, the hinging rod is rotatably mounted on the upper clamping ring main body, the upper clamping ring main body and the prefabricated notch are of an integrated structure, and the upper clamping ring main body is arranged below the power cylinder; the lower clamping ring comprises a lower clamping ring main body and corresponding notches, the lower clamping ring main body and the corresponding notches are of an integrated structure, and the lower clamping ring main body is located on the right side of the tripod.

The invention has the following advantages: compared with the similar equipment, the improved slurry filling method and the auxiliary equipment for road construction provided by the invention have the following advantages:

(1) according to the improved slurry filling method for road construction, the bottom surface of the pit is drilled with the plurality of tapered holes by using the road construction auxiliary equipment, and the cross sectional area of the upper end of each tapered hole is smaller than that of the lower end of each tapered hole, so that construction slurry is injected into the pit by using the grouting equipment during subsequent grouting repair, and the construction slurry in the pit and the construction slurry in the tapered holes are integrated, and the construction performance of the slurry can be effectively guaranteed.

(2) The invention also provides a road construction auxiliary device, which can well assist road construction, wherein at least two drill bits are arranged at the lower end of the construction drilling mechanism, and the drill bits can rotate around the axes of the drill bits, and can swing around the upper parts of the drill bits, so that the drilling of the tapered holes is realized, and the reliability of road construction is ensured;

(3) according to the invention, the erecting mechanism is optimally arranged, the first inclined rod, the second inclined rod and the third inclined rod are matched to form a stable triangular structure for supporting, the first inclined rod, the second inclined rod and the third inclined rod are conveniently matched with corresponding structures to be vertically erected and placed, the supporting stability is strong, the penetrating port and the inserting rod are matched to enable the adjusting rod to be clamped at the corresponding position on the barrel seat to conveniently adjust the supporting height, so that the mounting seat is optimally arranged, the upper clamping ring and the lower clamping ring are arranged on the main body seat to be matched to fix the top end of the adjusting rod, the upper clamping ring and the lower clamping ring are tightened by using the locking assembly at the side end, and the connection mode.

Drawings

FIG. 1 is a schematic view of the construction of a tapered hole for grout filling in accordance with the present invention;

FIG. 2 is a schematic view showing the construction of an auxiliary apparatus for road construction according to the present invention;

FIG. 3 is a schematic view of the interior of the construction drill mechanism of the present invention;

FIG. 4 is a schematic bottom view of the mounting base of the present invention;

FIG. 5 is a schematic view of the mounting mechanism of the present invention;

FIG. 6 is a side view of the upper snap ring of the present invention;

FIG. 7 is a side view of a lower snap ring of the present invention.

Detailed Description

The present invention will be described in detail below with reference to fig. 1 to 7, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides an improved slurry filling method for road construction through improvement, which comprises the following steps:

(1) cleaning the position of the road to be constructed to ensure that no falling slag particles exist in the pit 01 to be constructed;

(2) drilling a plurality of conical holes 00 on the bottom surface of the pit by using road construction auxiliary equipment, wherein the conical holes are of a blind hole structure with an opening at the upper end, and the cross sectional area of the upper end of each conical hole is smaller than that of the lower end of each conical hole;

(3) cleaning slag particles in the conical holes and the pits to ensure clean;

In the invention, the cross-sectional area of the uppermost opening of the tapered hole is not more than one half of the cross-sectional area of the bottommost opening of the tapered hole.

As a preferred embodiment, the road construction auxiliary equipment can simultaneously drill at least two conical holes at one time.

In addition, the invention also provides a road construction auxiliary device for the improved slurry filling method for road construction, which is characterized in that: it includes lift drive case seat 4, flexible protection rubber ring 3, power drive seat 2, construction and bores and establish mechanism 1 and erects mechanism 10, wherein, it installs in mount pad 9 bottom to erect mechanism 10, adopt horizontal drive seat 8 to connect on the mount pad to be provided with lift drive case seat 4, the bottom output of lift drive case seat 4 is connected to through the lift post power drive seat, just the outside cover of lift post is equipped with flexible protection rubber ring 3, the lower extreme of power drive seat 2 is provided with the mechanism is bored in the construction, the lower extreme that the mechanism was established in the construction brill is provided with two at least drill bits 18, when the drill bit can be rotatory around its self axis, the drill bit can also be around its upper portion swing, and then realizes boring of bell mouth and establishes.

As a preferred embodiment, the construction drilling mechanism 1 includes a drilling frame assembly, a drilling motor base 22, a drilling motor 23, an inclination driving mechanism, a positioning ball seat 16, a rotary ball 19 and a drill bit 18, wherein the drilling frame assembly is fixed at the lower end of the power driving base 2, at least two inclination driving mechanisms are arranged on the upper portion peripheral side of the drilling frame assembly, the end portion of each inclination driving mechanism is connected with the drilling motor base, the drilling motor is arranged on the drilling motor base, the output end of the drilling motor is connected with the rotary ball, the lower end of the rotary ball is connected with a drill rod, the lower end of the drill rod is provided with the drill bit, the lower end side of the drilling frame assembly is further connected with the positioning ball seat, a ball groove is arranged in the positioning ball seat, the rotary ball is rotatably located in the ball groove, and the inclination driving mechanism can drive the drilling motor base to incline in space, and the rotating ball relatively rotates in the positioning ball seat, so that the drill rod can tilt in space.

The inclination driving mechanism comprises an upper telescopic driver 13, a lower telescopic driver 20 and a middle telescopic driver, wherein two ends of the upper telescopic driver are respectively connected with the drill frame assembly and the upper part of the drilling motor base, two ends of the lower telescopic driver are respectively connected with the drill frame assembly and the lower part of the drilling motor base, and the inclination driving of the drilling motor base on the space is realized through the telescopic matching of the upper telescopic driver, the middle telescopic driver and the lower telescopic driver.

The drilling frame assembly comprises an upper frame disc 12, a middle connecting column 15 and a lower frame disc 21, the center of the upper frame disc is connected to the lower frame disc through the middle connecting column extending vertically, the inclination driving mechanism is connected to the middle connecting column, and the positioning ball seat 16 is connected to the outer peripheral side of the lower frame disc.

The detachable end cover 5 that is provided with of front end of lift drive case seat 4, erect mechanism 10 and include bottom plate board 1001, subsides floor 1002, first down tube 1003, trigonid 1004, wear mouthful 1005, adjust pole 1006, card pipe 1007, inserted bar 1008, cylinder base 1009, second down tube 1010 and third down tube 1011, bottom plate board 1001 is located first down tube 1003 inboardly, stick floor 1002 top welded fastening on first down tube 1003, the embedding is installed on the trigonid 1004 and is had cylinder base 1009, it is equipped with the mouth 1005 to run through on adjusting pole 1006, it has card pipe 1007 to adjust pole 1006 top welding, the card pipe 1007 top extends to install to mount pad 9 bottom, inserted bar 1008 grafting is installed on wearing mouthful 1005, second down tube 1010 is the same with third down tube 1011 structure.

A top frame rod 6 is installed at the top end of the lifting driving box seat 4, the top frame rod 6 is welded and fixed on an extension rod 7, the transverse driving seat 8 can drive the lifting driving box seat 4 to transversely move on the mounting seat, a triangular auxiliary supporting frame 11 is arranged at the bottom end of the mounting seat 9 in a sliding mode, and the end side of the triangular auxiliary supporting frame is fixed on the side portion of the lifting driving box seat 4.

The mounting seat 9 comprises a main body seat 901, a rubber ring 902, an upper snap ring 903, an attaching rubber ring 904, a hinge rod 905, a side connecting rod 906, a lower snap ring 907 and a locking assembly 908, wherein the rubber ring 902 is attached to the main body seat 901 in an adhering mode, a tripod 11 is fixedly welded to the main body seat 901, the upper snap ring 903 is hinged to the main body seat 901 through the hinge rod 905, the attaching rubber ring 904 is adhered to the upper snap ring 903 through an adhesive, the upper snap ring 903 is hinged to the lower snap ring 907 through the side connecting rod 906, and the lower snap ring 907 is locked to the upper snap ring 903 through the locking assembly 908; the upper clamping ring 903 comprises an upper clamping ring main body 9031, a hinged rod 9032 and a prefabricated notch 9033, the upper clamping ring main body 9031 is rotatably provided with the hinged rod 9032, the upper clamping ring main body 9031 and the prefabricated notch 9033 are of an integrated structure, and the upper clamping ring main body 9031 is arranged below the power cylinder 8; the lower snap ring 907 comprises a lower snap ring main body 9071 and a corresponding notch 9072, the lower snap ring main body 9071 and the corresponding notch 9072 are of an integrated structure, and the lower snap ring main body 9071 is located on the right side of the tripod 11.

When road construction equipment is erected and placed, the top end of the adjusting rod 1006 extends to the inner sides of the upper clamping ring 903 and the lower clamping ring 907, and after the locking assembly 908 is screwed, the adhesive ring 904 is attached to the adjusting rod 1006 to enable the erecting mechanism 10 to be connected with the mounting base 9; when adjusting and using initial height, utilize inserted bar 1008 to insert and wear a mouthful 1005 cooperation and make the convenient support height of adjusting of corresponding position of adjusting pole 1006 card on barrel holder 1009, first down tube 1003, second down tube 1010, third down tube 1011 cooperation form and stabilize the triangle-shaped structure and support, adjust the vertical orientation of pole 1006 vertical installation setting when being convenient for construction equipment and placing simultaneously.

According to the improved slurry filling method for road construction, the bottom surface of the pit is drilled with the plurality of tapered holes by using the road construction auxiliary equipment, and the cross sectional area of the upper end of each tapered hole is smaller than that of the lower end of each tapered hole, so that construction slurry is injected into the pit by using the grouting equipment during subsequent grouting repair, and the construction slurry in the pit and the construction slurry in the tapered holes are integrated, and the construction performance of the slurry can be effectively guaranteed. The invention also provides a road construction auxiliary device, which can well assist road construction, wherein at least two drill bits are arranged at the lower end of the construction drilling mechanism, and the drill bits can rotate around the axes of the drill bits and can swing around the upper parts of the drill bits, so that the drilling of the tapered hole is realized, and the reliability of road construction is ensured.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. An improved slurry filling method for road construction comprises the following steps:

(1) cleaning the position of the road to be constructed to ensure that no falling slag particles exist in the pit (01) to be constructed;

(2) drilling a plurality of conical holes (00) on the bottom surface of the pit by using road construction auxiliary equipment, wherein the conical holes are of blind hole structures with openings at the upper ends, and the cross sectional areas of the upper ends of the conical holes are smaller than the cross sectional areas of the lower ends of the conical holes;

(3) cleaning slag particles in the conical holes and the pits to ensure clean;

2. The improved grout filling method for road construction according to claim 1, wherein: the cross-sectional area of the uppermost opening of the tapered hole is not more than one half of the cross-sectional area of the bottommost opening of the tapered hole.

3. The improved grout filling method for road construction according to claim 1, wherein: the road construction auxiliary equipment can be used for simultaneously drilling and constructing at least two taper holes at one time.

4. A road construction auxiliary equipment for an improved grout filling method for road construction as claimed in any one of claims 1 to 3, characterized in that: which comprises a lifting driving box seat (4), a telescopic protective rubber ferrule (3), a power driving seat (2), a construction drilling mechanism (1) and an erection mechanism (10), wherein the erecting mechanism (10) is arranged at the bottom end of the mounting seat (9), the mounting seat is provided with the lifting driving box seat (4) by adopting a transverse driving seat (8) in a connecting way, the bottom output end of the lifting driving box seat (4) is connected to the power driving seat through a lifting column, the outer part of the lifting column is sleeved with the telescopic protective rubber ferrule (3), the lower end of the power driving seat (2) is provided with the construction drilling mechanism, the lower end of the construction drilling mechanism is provided with at least two drill bits (18), the drill bits can rotate around the axes of the drill bits, and meanwhile the drill bits can swing around the upper portions of the drill bits, and drilling of the conical holes is achieved.

5. The road construction assisting apparatus according to claim 4, wherein: the construction drilling mechanism (1) comprises a drilling frame assembly, a drilling motor base (22), a drilling motor (23), an inclination driving mechanism, a positioning ball seat (16), a rotary ball (19) and a drill bit (18), wherein the drilling frame assembly is fixed at the lower end of the power driving base (2), at least two inclination driving mechanisms are arranged on the upper portion of the drilling frame assembly in the peripheral direction, the end portion of each inclination driving mechanism is connected with the drilling motor base, the drilling motor base is provided with the drilling motor, the output end of the drilling motor is connected with the rotary ball, the lower end of the rotary ball is connected with a drill rod, the drill bit is arranged at the lower end of the drill rod, the lower end side of the drilling frame assembly is also connected with the positioning ball seat, a ball groove is formed in the positioning ball seat, the rotary ball is rotatably positioned in the ball groove, and the inclination driving mechanism can drive the drilling motor base to incline in the space, and the rotating ball relatively rotates in the positioning ball seat, so that the drill rod can tilt in space.

6. The road construction assisting apparatus according to claim 5, wherein: the inclination driving mechanism comprises an upper telescopic driver (13), a lower telescopic driver (20) and a middle telescopic driver, wherein two ends of the upper telescopic driver are respectively connected with the drill frame assembly and the upper part of the drilling motor base, two ends of the lower telescopic driver are respectively connected with the drill frame assembly and the lower part of the drilling motor base, and the inclination driving of the drilling motor base on the space is realized through the telescopic matching of the upper telescopic driver, the middle telescopic driver and the lower telescopic driver.

7. The road construction assisting apparatus according to claim 5, wherein: the drilling frame assembly comprises an upper frame disc (12), a middle connecting column (15) and a lower frame disc (21), wherein the middle connecting column extending vertically is connected to the lower frame disc in the center of the upper frame disc, the inclined driving mechanism is connected to the middle connecting column, and the positioning ball seat (16) is connected to the outer peripheral side of the lower frame disc.

8. The road construction assisting apparatus according to claim 5, wherein: the detachable end cover (5) that is provided with of the front end of lift drive case seat (4), erect mechanism (10) and include bottom plate board (1001), stick to floor (1002), first down tube (1003), triangular seat (1004), wear mouthful (1005), adjust pole (1006), card pipe (1007), inserted bar (1008), barrel seat (1009), second down tube (1010) and third down tube (1011), bottom plate board (1001) is located first down tube (1003) inboard, stick to floor (1002) top welded fastening on first down tube (1003), embedding is installed barrel seat (1009) on triangular seat (1004), it has wear mouthful (1005) to run through on adjusting pole (1006), adjust pole (1006) top welding has card pipe (1007), the top of card pipe (1007) extends to install to mount pad (9) bottom, inserted bar (1008) grafting is installed on wear mouthful (1005), the second diagonal rod (1010) and the third diagonal rod (1011) have the same structure.

9. The road construction assisting apparatus according to claim 8, wherein: a top frame rod (6) is installed on the top end of the lifting driving box seat (4), the top frame rod (6) is welded and fixed on the extension rod (7), the transverse driving seat (8) can drive the lifting driving box seat (4) to transversely move on the mounting seat, a triangular auxiliary supporting frame (11) is arranged at the bottom end of the mounting seat (9) in a sliding mode, and the end side of the triangular auxiliary supporting frame is fixed on the side portion of the lifting driving box seat (4).

10. The improved grout filling method and auxiliary equipment for road construction as claimed in claim 9, wherein: the mounting seat (9) comprises a main body seat (901), a rubber ring (902), an upper clamping ring (903), an attaching rubber ring (904), a hinge rod (905), a side connecting rod (906), a lower clamping ring (907) and a locking assembly (908), wherein the rubber ring (902) is attached to the main body seat (901) in a bonding mode, a tripod (11) is fixedly welded to the main body seat (901), the upper clamping ring (903) is hinged to the main body seat (901) through the hinge rod (905), the attaching rubber ring (904) is bonded to the upper clamping ring (903) through an adhesive, the upper clamping ring (903) is hinged to the lower clamping ring (907) through the side connecting rod (906), and the lower clamping ring (907) is locked to the upper clamping ring (903) through the locking assembly (908); the upper clamping ring (903) comprises an upper clamping ring main body (9031), a hinged rod (9032) and a prefabricated notch (9033), the upper clamping ring main body (9031) is rotatably provided with the hinged rod (9032), the upper clamping ring main body (9031) and the prefabricated notch (9033) are of an integrated structure, and the upper clamping ring main body (9031) is arranged below the power cylinder (8); the lower clamping ring (907) comprises a lower clamping ring main body (9071) and a corresponding notch (9072), the lower clamping ring main body (9071) and the corresponding notch (9072) are of an integrated structure, and the lower clamping ring main body (9071) is located on the right side of the tripod (11).