CN221074294U - Tunnel wall body longitudinal rib distributing device - Google Patents

Abstract

The utility model discloses a distributing device for longitudinal ribs of a tunnel wall body, and relates to the technical field of tunnel construction; comprising the following steps: the longitudinal bar picking and conveying mechanism comprises a picking and conveying longitudinal beam and a turnover driving assembly, a plurality of longitudinal bar grabbing assemblies and a plurality of cloth linear drivers are arranged on the picking and conveying longitudinal beam at intervals along the length direction of the picking and conveying longitudinal beam, the length direction of each cloth linear driver is perpendicular to the picking and conveying longitudinal beam and used for pushing the longitudinal bar grabbing assemblies, and the turnover driving assembly is in transmission connection with the picking and conveying longitudinal beam and used for driving the picking and conveying longitudinal beam to rotate along the length direction of the picking and conveying longitudinal beam; the longitudinal bar conveying mechanism comprises a layout annular rail and an annular driving assembly, wherein the annular driving assembly is in transmission connection with the layout annular rail and is connected with the longitudinal bar taking and conveying mechanism, and the annular driving assembly is used for driving the longitudinal bar taking and conveying mechanism to move along the layout annular rail. The utility model can realize automatic arrangement of the longitudinal bars, so as to shorten the arrangement operation time of the longitudinal bars and improve the construction efficiency of the arrangement of the longitudinal bars.

Description

Tunnel wall body longitudinal rib distributing device

Technical Field

The utility model relates to the technical field of tunnel wall steel bar construction, in particular to a tunnel wall longitudinal bar distributing device.

Background

After the tunnel is excavated, anchor spraying operation is needed, then binding of tunnel reinforcing steel bars is carried out, the tunnel wall reinforcing steel bars are divided into longitudinal reinforcing steel bars extending longitudinally along the tunnel and ring reinforcing steel bars distributed along the cross section of the tunnel, and pouring of two lining reinforcing steel bar concrete is carried out completely after the reinforcing steel bars are distributed. The part of the tunnels are single-layer annular ribs and longitudinal ribs, and the part of the tunnels are double-layer annular ribs and longitudinal ribs, so that the engineering quantity is large, and the construction progress of the secondary lining concrete of the tunnels is severely restricted. At present, the tunnel reinforcing bar trolley only meets the requirement of manual operation, 4-5 workers are needed to lift and place the longitudinal bars on the wall surface of the tunnel, then the longitudinal bars are distributed one by one, and are bound, so that the labor cost is high, the labor intensity is high, the mechanization degree is low, and the construction period is long. Therefore, a device for distributing longitudinal ribs of a tunnel wall body needs to be researched and designed, and automatic layout of the longitudinal ribs is achieved.

Disclosure of Invention

The utility model provides a distributing device for longitudinal ribs of a tunnel wall, which can realize automatic arrangement of the longitudinal ribs, reduce labor and labor intensity, shorten the arrangement operation time of the longitudinal ribs, and improve the construction efficiency of the arrangement operation of the longitudinal ribs.

The utility model is realized by the following technical scheme:

The utility model provides a tunnel wall longitudinal bar distributing device which comprises a longitudinal bar taking and conveying mechanism and a longitudinal bar conveying mechanism, wherein the longitudinal bar taking and conveying mechanism comprises a taking and conveying longitudinal beam and a turnover driving assembly, a plurality of longitudinal bar grabbing assemblies and a plurality of linear distributing drivers are arranged on the taking and conveying longitudinal beam at intervals along the length direction of the taking and conveying longitudinal beam, the length direction of each linear distributing driver is perpendicular to the taking and conveying longitudinal beam and is used for pushing the longitudinal bar grabbing assembly, and the turnover driving assembly is in transmission connection with the taking and conveying longitudinal beam and is used for driving the taking and conveying longitudinal beam to rotate along the length direction of the taking and conveying longitudinal beam; the longitudinal bar conveying mechanism comprises a layout annular rail and an annular driving assembly, wherein the annular driving assembly is in transmission connection with the layout annular rail and is connected with the longitudinal bar taking and conveying mechanism, and the annular driving assembly is used for driving the longitudinal bar taking and conveying mechanism to move along the layout annular rail.

The utility model provides a tunnel wall longitudinal bar distributing device, which comprises a longitudinal bar taking and conveying mechanism and a turnover driving assembly, wherein a plurality of longitudinal bar grabbing assemblies and a plurality of material distribution linear drivers are arranged on the longitudinal bar taking and conveying mechanism at intervals along the length direction of the longitudinal bar taking and conveying mechanism, the material distribution linear drivers are used for pushing the longitudinal bar grabbing assemblies and driving the longitudinal bar taking and conveying mechanism to rotate along the length direction of the longitudinal bar grabbing and conveying mechanism, meanwhile, the longitudinal bar conveying mechanism comprises a ring-shaped track and a ring-shaped driving assembly, the ring-shaped driving assembly is in transmission connection with the ring-shaped track and is connected with the longitudinal bar taking and conveying mechanism, and the ring-shaped driving assembly is used for driving the longitudinal bar taking and conveying mechanism to move along the ring-shaped track. Before using, install the tunnel wall body on the platform truck with the muscle distributing device for lay the ring rail and be located the tip of platform truck, during operation, it is upset to drive the longeron of getting by upset drive assembly, make to indulge the muscle and snatch the subassembly upset to the operation platform top of platform truck, and on will indulge the muscle and remove the work path of indulging the muscle and snatch the subassembly through manual work or indulging muscle distributing mechanism, with snatch the subassembly and snatch corresponding indulging the muscle, it is upset by upset drive assembly drive and get to send the longeron, make to indulge the muscle and snatch the subassembly upset to the outside of platform truck, then drive by ring to drive assembly and get and send the longeron along laying ring rail and remove to corresponding position, finally, it is ejecting to indulge the muscle snatch the subassembly through cloth linear drive, thereby lay indulging the muscle to corresponding ligature station.

The longitudinal bar grabbing assemblies and the cloth linear drivers are arranged at intervals along the length direction of the longitudinal beam, so that stability of the longitudinal bars in grabbing or transferring processes can be ensured. Therefore, the distributing device for the longitudinal ribs of the tunnel wall body can realize automatic arrangement of the longitudinal ribs, can reduce labor and labor intensity, shortens the arrangement operation time of the longitudinal ribs, and improves the construction efficiency of the arrangement operation of the longitudinal ribs.

In an alternative embodiment, the longitudinal bar grabbing component comprises a longitudinal bar grabbing disc, and the longitudinal bar grabbing disc is connected with the cloth linear driver; the longitudinal bar grabbing plate is provided with a plurality of longitudinal bar clamping jaws and a plurality of clamping drivers, and each clamping driver is in transmission connection with the corresponding longitudinal bar clamping jaw and is used for driving the corresponding longitudinal bar clamping jaw to clamp the longitudinal bar, so that a plurality of longitudinal bars can be transferred at one time, and the arrangement efficiency of the longitudinal bars is improved.

In an alternative embodiment, the longitudinal bar clamping jaw comprises a fixed jaw and a movable jaw, wherein the fixed jaw is fixedly arranged on the longitudinal bar grabbing disc, and one end of the movable jaw is hinged with the longitudinal bar grabbing disc; the clamping driver is a linear driver, one end of the clamping driver is hinged with the longitudinal bar grabbing disc, and the other end of the clamping driver is hinged with the movable claw, so that the longitudinal bar clamping jaw can clamp the longitudinal bar rapidly and stably.

In an optional embodiment, the cloth linear driver is connected with the longitudinal rib grabbing component through a synchronous lifting rod, and the synchronous lifting rod is parallel to the picking and delivering longitudinal beam, so that the cloth linear driver can drive the synchronous lifting longitudinal rib grabbing component, the longitudinal rib can not be pulled in the lifting process of the cloth linear driver, and the operation safety and the quality of the position of the longitudinal rib are ensured.

In an optional embodiment, the longitudinal beam is further provided with a cloth synchronous telescopic cylinder, and two ends of the cloth synchronous telescopic cylinder are respectively connected with corresponding ends of the cloth linear driver, so that radial force of the cloth linear driver in the rotation process of the longitudinal beam along with the taking and delivering is born by the synchronous telescopic cylinder, and damage to the cloth linear driver is avoided.

In an alternative embodiment, the annular driving component comprises an annular moving frame, the annular moving frame can be slidably clamped outside the annular track, the annular moving frame is driven by a gear mechanism to move along the annular track, and the overturning driving component is arranged on the annular moving frame to ensure that the reversing driving component can move along the annular track.

In an alternative embodiment, the annular moving frame is provided with an annular moving driving gear, and the annular arranging rail is provided with an annular arranging gear ring meshed with the annular moving driving gear.

In an optional embodiment, the annular moving frame is further provided with an annular moving supporting roller and an annular moving holding wheel pair, the annular moving supporting roller is abutted to the outer side of the annular track, and the annular moving holding wheel pair is clamped on two sides of the inner side of the annular track, so that the stability of the reversing driving assembly moving on the annular track is ensured.

In an alternative embodiment, the turnover driving assembly comprises a rotating platform and a turnover driving motor, the rotating platform is fixedly connected with the end part of the taking and conveying longitudinal beam, the turnover driving motor is in transmission connection with the rotating platform, and the turnover driving motor can drive the rotating platform to rotate along the axis of the rotating platform so as to ensure that the turnover driving assembly can drive the taking and conveying longitudinal beam to rotate.

In an optional embodiment, two ring rails are arranged at a longitudinal interval, and two ends of the taking and delivering longitudinal beam are respectively connected with the corresponding ring driving assembly, so as to ensure the stability of the movement of the taking and delivering longitudinal beam.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

The utility model provides a longitudinal bar distributing device of a tunnel wall, which comprises a longitudinal bar taking and delivering longitudinal beam and a turnover driving component, wherein a plurality of longitudinal bar grabbing components and a plurality of linear distributing drivers are arranged on the longitudinal bar taking and delivering longitudinal beam at intervals along the length direction of the longitudinal bar taking and delivering longitudinal beam, the linear distributing drivers are used for pushing the longitudinal bar grabbing components and driving the longitudinal bar taking and delivering longitudinal beam to rotate along the length direction of the longitudinal bar grabbing components, meanwhile, the longitudinal bar delivering mechanism comprises a circumferential driving component and a circumferential driving component, the circumferential driving component is in transmission connection with the circumferential driving component and is connected with the longitudinal bar taking and delivering mechanism, the circumferential driving component is used for driving the longitudinal bar taking and delivering mechanism to move along the circumferential driving component, the longitudinal bar distributing device of the tunnel wall can be arranged on a trolley, the circumferential driving component is arranged at the end part of the trolley, the longitudinal bar taking and delivering longitudinal beam is driven by the turnover driving component to turn over, the longitudinal bar grabbing component is enabled to be overturned above an operation platform of the trolley, the longitudinal bar is moved to a working path of the longitudinal bar grabbing component through a manual work or a longitudinal bar distributing mechanism, the corresponding longitudinal bar is grabbed through the longitudinal bar grabbing component, the overturning driving component drives the longitudinal bar grabbing component to be overturned, the longitudinal bar grabbing component is enabled to be overturned to the outer side of the trolley, then the circumferential driving component drives the longitudinal bar grabbing component to be overturned to move along a circumferential track, the longitudinal bar is moved to a corresponding position, finally the longitudinal bar grabbing component is ejected through a cloth linear driver, and the longitudinal bar is arranged to a corresponding binding station.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

In the drawings:

FIG. 1 is a schematic diagram of a front view structure of a longitudinal rib distributing device of a tunnel wall body in an embodiment of the utility model;

FIG. 2 is a schematic diagram of a side view structure of a distributing device for longitudinal ribs of a tunnel wall body in an embodiment of the utility model;

FIG. 3 is a schematic side view of a longitudinal bar delivery mechanism according to an embodiment of the present utility model with the flip drive assembly removed;

Fig. 4 is a schematic structural view of a longitudinal bar conveying mechanism according to an embodiment of the present utility model.

In the drawings, the reference numerals and corresponding part names:

630-longitudinal bar taking and conveying mechanism, 631-longitudinal bar taking and conveying longitudinal beam, 632-turnover driving component, 632 a-rotating platform, 632 b-turnover driving motor, 633-longitudinal bar grabbing component, 633 a-longitudinal bar grabbing disc, 633 b-longitudinal bar clamping jaw, 633 c-clamping driver, 634-cloth linear driver, 635-synchronous jacking rod and 636-cloth synchronous telescopic cylinder;

640-longitudinal bar conveying mechanism, 641-arrangement ring rail, 642-annular driving component, 642 a-annular moving frame, 642 b-annular moving driving gear, 642 c-annular moving supporting roller, 642 d-annular moving holding wheel pair, 642 e-annular moving driving motor and 643-arrangement gear ring.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application.

In the description of the embodiments of the present application, the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship conventionally put in use of the product of the application, or the orientation or positional relationship conventionally understood by those skilled in the art, is merely for convenience of describing the present application and simplifying the description, and does not indicate or imply that the apparatus or element in question must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application.

Meanwhile, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Examples

Referring to fig. 1 and 2, the present embodiment provides a vertical rib distributing device for a tunnel wall, including a vertical rib taking mechanism 630 and a vertical rib conveying mechanism 640, where the vertical rib taking mechanism 630 includes a taking and conveying longitudinal beam 631 and a turning driving assembly 632, the taking and conveying longitudinal beam 631 is provided with a plurality of vertical rib grabbing assemblies 633 and a plurality of linear distributing drivers 634 along its length direction at intervals, the length direction of each linear distributing driver 634 is perpendicular to the taking and conveying longitudinal beam 631 and is used for pushing the vertical rib grabbing assembly 633, and the turning driving assembly 632 is in transmission connection with the taking and conveying longitudinal beam 631 and is used for driving the taking and conveying longitudinal beam 631 to rotate along its length direction; the longitudinal bar conveying mechanism 640 comprises a distribution circular rail 641 and a circular driving assembly 642, the circular driving assembly 642 is in transmission connection with the distribution circular rail 641 and is connected with the longitudinal bar taking and conveying mechanism 630, and the circular driving assembly 642 is used for driving the longitudinal bar taking and conveying mechanism 630 to move along the distribution circular rail 641.

Specifically, referring to fig. 3, the longitudinal bar grasping assembly 633 includes a longitudinal bar grasping plate 633a, and the longitudinal bar grasping plate 633a is connected to the cloth linear driver 634; the vertical bar grabbing disc 633a is provided with a plurality of vertical bar clamping jaws 633b (usually 5) and a plurality of clamping drivers 633c, each clamping driver 633c is in transmission connection with the corresponding vertical bar clamping jaw 633b and is used for driving the corresponding vertical bar clamping jaw 633b to clamp the vertical bar, so that a plurality of vertical bars can be transferred at a time, and the efficiency of the vertical bar arrangement is improved.

As can be appreciated, the longitudinal rib clamping jaw 633b includes a fixed jaw and a movable jaw, the fixed jaw is fixedly disposed on the longitudinal rib grabbing disc 633a, and one end of the movable jaw is hinged to the longitudinal rib grabbing disc 633 a; the clamping driver 633c is a linear driver, and one end of the clamping driver 633c is hinged to the longitudinal bar grabbing plate 633a, and the other end of the clamping driver is hinged to the movable jaw, so as to ensure that the longitudinal bar clamping jaw 633b can clamp the longitudinal bar quickly and stably.

Further, the cloth linear driver 634 is connected to the longitudinal rib grabbing component 633 through a synchronous lifting rod 635, and the synchronous lifting rod 635 is parallel to the picking and delivering longitudinal beam 631, so as to ensure that the cloth linear driving synchronous lifting longitudinal rib grabbing component 633 can not pull the longitudinal rib in the lifting process of the cloth linear driving synchronous lifting longitudinal rib grabbing component, and ensure the operation safety and the quality of the position of the longitudinal rib.

On this basis, the feeding longitudinal beam 631 is further provided with a cloth synchronous telescopic tube 636, two ends of the cloth synchronous telescopic tube 636 are respectively connected with corresponding ends of the cloth linear driver 634, so that the cloth linear driver 634 is subjected to radial force in the rotation process of the feeding longitudinal beam 631 by the synchronous telescopic tube, and damage to the cloth linear driver 634 is avoided.

Generally, a rectangular tube is used as the take-off and feed beam 631 to facilitate the installation of the cloth synchronization telescoping tube 636 on the take-off and feed beam 631 while securing sufficient rigidity thereof. Likewise, a cloth synchronization telescoping tube 636 is formed in the form of a large rectangular tube and a small rectangular tube.

For the turnover driving assembly 632, the turnover driving assembly 632 comprises a rotating platform 632a and a turnover driving motor 632b, the rotating platform 632a is fixedly connected with the corresponding end part of the taking and conveying longitudinal beam 631, the turnover driving motor 632b is in transmission connection with the rotating platform 632a, and the turnover driving motor 632b can drive the rotating platform 632a to rotate along the axis of the rotating platform 632a so as to ensure that the turnover driving assembly 632 can drive the taking and conveying longitudinal beam 631 to rotate.

In addition, two ring rails 641 are longitudinally arranged at intervals, and two ends of the fetching and delivering longitudinal beam 631 are respectively connected with the corresponding ring driving assembly 642, so as to ensure the stability of the movement of the fetching and delivering longitudinal beam 631.

Referring to fig. 4, the annular driving assembly 642 includes an annular moving frame 642a, the annular moving frame 642a is slidably clamped outside the annular track 641, the annular moving frame 642a is driven by a gear mechanism to move along the annular track 641, and the turnover driving assembly 632 is disposed on the annular moving frame 642a to ensure that the reversing driving assembly can move along the annular track 641.

It should be understood that the ring frame 642a is provided with a ring driving gear 642b, and the ring rail 641 is provided with a ring gear 643 engaged with the ring driving gear 642 b.

In this embodiment, the annular moving frame 642a is further provided with an annular moving support roller 642c and an annular moving wheel set 642d, the annular moving support roller 642c abuts against the outer side of the annular track 641, and the annular moving wheel set 642d is clamped on two sides of the inner side of the annular track 641, so as to ensure the stability of the reversing driving assembly moving on the annular track 641.

It should be noted that, before using, the tunnel wall longitudinal bar distributing device provided in this embodiment is installed on the trolley, so that the laying ring rail 641 is located at the end of the trolley, during working, the turning driving component 632 drives the fetching and delivering longitudinal beam 631 to turn over, so that the longitudinal bar grabbing component 633 turns over to the upper portion of the operating platform of the trolley, and the longitudinal bar moving longitudinal bar grabbing component 633 is manually or by the longitudinal bar distributing mechanism to grab the corresponding longitudinal bar by the longitudinal bar grabbing component 633, the turning driving component drives the fetching and delivering longitudinal beam 631 to turn over by the turning driving component 632, so that the longitudinal bar grabbing component 633 turns over to the outer side of the trolley, then the ring driving component 642 drives the fetching and delivering longitudinal beam 631 to move along the circumferential direction of the laying ring rail 641, so that the longitudinal bar is moved to the corresponding position, and finally the longitudinal bar grabbing component 633 is ejected by the cloth linear driver 634, so that the longitudinal bar is laid to the corresponding binding station.

Wherein, the longitudinal bar grabbing component 633 and the cloth linear driver 634 are arranged at intervals along the length direction of the taking and delivering longitudinal beam 631 (usually 5), so that the stability of the longitudinal bar in the grabbing or transferring process can be ensured.

Therefore, the tunnel wall longitudinal bar distributing device provided by the embodiment can realize automatic arrangement of longitudinal bars, can reduce labor and labor intensity, shortens the arrangement operation time of the longitudinal bars, and improves the construction efficiency of the longitudinal bar arrangement operation.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the utility model, and is not meant to limit the scope of the utility model, but to limit the utility model to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (10)

1. The utility model provides a muscle distributing device is indulged to tunnel wall body which characterized in that includes:

the longitudinal rib taking and conveying mechanism (630), the longitudinal rib taking and conveying mechanism (630) comprises a taking and conveying longitudinal beam (631) and a turnover driving assembly (632), a plurality of longitudinal rib grabbing assemblies (633) and a plurality of cloth linear drivers (634) are arranged on the taking and conveying longitudinal beam (631) at intervals along the length direction of the longitudinal rib taking and conveying longitudinal beam, the length direction of each cloth linear driver (634) is perpendicular to the taking and conveying longitudinal beam (631) and used for pushing the longitudinal rib grabbing assemblies (633), and the turnover driving assembly (632) is in transmission connection with the taking and conveying longitudinal beam (631) and is used for driving the taking and conveying longitudinal beam (631) to rotate along the length direction of the longitudinal beam;

Longitudinal bar conveying mechanism (640), longitudinal bar conveying mechanism (640) is including laying ring rail (641) and hoop drive subassembly (642), hoop drive subassembly (642) with lay ring rail (641) transmission connection and with longitudinal bar take-off mechanism (630) link to each other, hoop drive subassembly (642) are used for the drive longitudinal bar take-off mechanism (630) are followed lay ring rail (641) removal.

2. The tunnel wall longitudinal bar distributing device according to claim 1, wherein the longitudinal bar grabbing component (633) comprises a longitudinal bar grabbing disc (633 a), and the longitudinal bar grabbing disc (633 a) is connected with the distributing linear driver (634);

the longitudinal bar grabbing plate (633 a) is provided with a plurality of longitudinal bar clamping jaws (633 b) and a plurality of clamping drivers (633 c), and each clamping driver (633 c) is in transmission connection with the corresponding longitudinal bar clamping jaw (633 b) and is used for driving the corresponding longitudinal bar clamping jaw (633 b) to clamp the longitudinal bar.

3. The tunnel wall longitudinal bar distributing device according to claim 2, wherein the longitudinal bar clamping jaw (633 b) comprises a fixed jaw and a movable jaw, the fixed jaw is fixedly arranged on the longitudinal bar grabbing disc (633 a), and one end of the movable jaw is hinged with the longitudinal bar grabbing disc (633 a);

The clamping driver (633 c) is a linear driver, one end of the clamping driver (633 c) is hinged to the longitudinal rib grabbing disc (633 a), and the other end of the clamping driver is hinged to the movable claw.

4. The tunnel wall longitudinal bar distributing device according to claim 1, wherein the distributing linear driver (634) is connected with the longitudinal bar grabbing component (633) through a synchronous lifting rod (635), and the synchronous lifting rod (635) is parallel to the taking and conveying longitudinal beam (631).

5. The tunnel wall longitudinal rib distributing device according to claim 1, wherein the feeding longitudinal beam (631) is further provided with a cloth synchronous telescopic tube (636), and two ends of the cloth synchronous telescopic tube (636) are respectively connected with corresponding ends of the cloth linear driver (634).

6. The tunnel wall longitudinal rib distributing device according to claim 1, wherein the annular driving assembly (642) comprises an annular moving frame (642 a), the annular moving frame (642 a) is slidably clamped outside the annular distributing rail (641), the annular moving frame (642 a) is driven by a gear mechanism to move along the annular distributing rail (641), and the overturning driving assembly (632) is arranged on the annular moving frame (642 a).

7. The tunnel wall longitudinal rib distributing device according to claim 6, wherein a ring-moving driving gear (642 b) is arranged on the ring-moving frame (642 a), and a distributing gear ring (643) meshed with the ring-moving driving gear (642 b) is arranged on the distributing ring rail (641).

8. The tunnel wall longitudinal rib distributing device according to claim 7, wherein a ring-moving support roller (642 c) and a ring-moving holding wheel pair (642 d) are further arranged in the ring-moving frame (642 a), the ring-moving support roller (642 c) is abutted against the outer side of the distribution ring rail (641), and the ring-moving holding wheel pair (642 d) is clamped on two sides of the inner side of the distribution ring rail (641).

9. The tunnel wall longitudinal bar distributing device according to claim 1, wherein the overturning driving assembly (632) comprises a rotating platform (632 a) and an overturning driving motor (632 b), the rotating platform (632 a) is fixedly connected with the corresponding end part of the taking-out longitudinal beam (631), the overturning driving motor (632 b) is in transmission connection with the rotating platform (632 a), and the overturning driving motor (632 b) can drive the rotating platform (632 a) to rotate along the axis of the rotating platform.

10. The distributing device for longitudinal ribs of tunnel walls according to any one of claims 1 to 9, wherein two distributing annular rails (641) are longitudinally arranged at intervals, and two ends of the taking-out and conveying longitudinal beam (631) are respectively connected with the corresponding annular driving assembly (642).