CN213616201U - Concrete pump pipe fixing device - Google Patents

Abstract

The utility model provides a concrete pump pipe fixing device, wherein, the test platform comprises a base frame, first retaining member and two centre gripping units, the centre gripping unit includes the connecting seat, the arm lock, buffer layer and spring, the connecting seat is installed on the bed frame, be provided with the first spout that extends along the first direction on the connecting seat, the arm lock has slide rail portion and clamping part, slide rail portion and first spout slidable ground are connected, form the clamp position between the clamping part of two arm locks, the buffer layer sets up on the clamping part and is located the clamp position, spring coupling is between connecting seat and arm lock, or between spring coupling arm lock and the bed frame, the spring forces the arm lock to slide along the extending direction dorsad connecting seat of first spout, first retaining member is connected between the clamping part of two arm locks. The concrete pump pipe fixing device has the advantages of good damping effect and capability of preventing connection looseness after installation.

Description

Concrete pump pipe fixing device

Technical Field

The utility model belongs to the technical field of building construction auxiliary device technique and specifically relates to a concrete pump pipe fixing device is related to.

Background

The concrete pump pipe is one of basic devices for pumping concrete to high-rise buildings, and the conventional fixing mode of the concrete pump pipe mainly comprises the following two modes:

the first method is to directly bind and fix the concrete pump pipe on the scaffold, but the fixing method has the following disadvantages: the vibration generated by the concrete pump pipe in the using process easily loosens the fastening connecting piece of the scaffold, so that the overall firmness and stability of the scaffold are affected, and the overall use safety of the scaffold is further reduced;

the second kind, adopt simple rigid connection spare to be fixed in the concrete pump pipe on the building wall, set up the buffer layer simultaneously between rigid connection spare and concrete pump pipe and alleviate the influence that the vibration that the concrete pump pipe produced brought, although this kind of fixed mode can alleviate the influence that the vibration of concrete pump pipe took to a certain extent, nevertheless because the shock attenuation effect of buffer layer is limited, make after a certain period of time, certain not hard up still can appear in the connection between rigid connection spare and the building wall, and appear that not hard up rigid connection spare takes place the striking with the building wall under the drive of concrete pump pipe easily, lead to the building wall to appear damaging easily, the rigid connection spare also appears deforming easily simultaneously, the crack appears even, thereby influence the fixed of rigid connection spare to the concrete pump pipe.

Disclosure of Invention

In order to solve the problem, the utility model mainly aims at providing a shock attenuation is effectual and prevent to take place to connect not hard up concrete pump pipe fixing device after the installation.

In order to realize the utility model discloses a main objective, the utility model provides a concrete pump pipe fixing device, wherein, the test platform comprises a pedestal, first retaining member and two clamping unit, the clamping unit includes the connecting seat, the arm lock, buffer layer and spring, the connecting seat is installed on the pedestal, be provided with the first spout that extends along the first direction on the connecting seat, the arm lock has slide rail portion and clamping part, slide rail portion and first spout slidable ground are connected, form the clamp position between the clamping part of two arm locks, the buffer layer sets up on the clamping part and lies in the clamp position, spring coupling is between connecting seat and arm lock, or between spring coupling arm lock and the pedestal, the spring forces the arm lock to slide along the extending direction dorsad connecting seat of first spout, first retaining member is connected between the clamping part of two arm locks.

As can be seen from the above, the clamping position formed between the two clamping units is used for accommodating the concrete pump pipe, and simultaneously, the clamping parts of the two clamping arms are matched with the first clamping piece to clamp the concrete pump pipe, the clamping part is provided with a damping layer which is positioned in the clamping position so that the damping layer can be adjacent to the concrete pump pipe, so as to properly absorb the vibration generated by the concrete pump pipe, at the moment, the clamping arm can slide relative to the connecting seat, and a spring is arranged between the clamping arm and the connecting seat or between the clamping arm and the pedestal, so that in the working process of the concrete pump pipe, the vibration generated by the concrete pump pipe can be absorbed by the clamping arms in a manner of sliding relative to the connecting seats so as to protect the concrete pump pipe fixing device, and the reliability of the connection between the concrete pump pipe fixing device and the concrete pump pipe and the reliability of the connection between the concrete pump pipe fixing device and the building wall surface or other connecting structures are ensured.

Preferably, the clamping portion is elastically deformable.

Therefore, the clamping part can be matched with the spring to clamp concrete pump pipes with different pipe diameters by the aid of the structural design, and application range of the concrete pump pipe fixing device is widened.

The clamping part is provided with an arc-shaped connecting piece and two connecting lugs, the two connecting lugs are respectively positioned at two ends of the arc-shaped connecting piece, the number of the first locking pieces is two, and one first locking piece is correspondingly connected with one connecting lug in the two clamping parts.

It is thus clear that the arc connecting piece can make the clamping part laminate concrete pump pipe more to improve the reliability tight to concrete pump pipe, and the engaging lug then is used for providing installation space for first retaining member, and makes first retaining member can lock fixedly to two clamping parts reliably.

Another preferred scheme is that two second sliding grooves are arranged on the base frame, the second sliding grooves extend along a second direction, the connecting seat of one clamping unit is slidably mounted in one second sliding groove, and the second direction is perpendicular to the first direction.

Therefore, the relative positions between the two clamping units and the base frame are adjustable due to the design, so that the positions of the clamping units can be adjusted according to the diameter, the setting position and other factors of the concrete pump pipe, and the applicability of the concrete pump pipe fixing device is improved.

The base frame is further provided with two first through holes, the first through holes penetrate through the base frame along the second direction, and one first through hole is communicated with one second sliding groove; a slide rod is arranged on the connecting seat, extends along the second direction and penetrates through the first through hole; concrete pump pipe fixing device still includes two regulating parts, two regulating parts are rotationally installed on the bed frame around the axis of self respectively, and a regulating part is located a first through-hole department and with a slide bar threaded connection, regulating part drive slide bar slides along the second direction, or the bed frame all is provided with a set of clamping piece group in each first through-hole department, the clamping piece more than two of clamping piece group distributes along the circumference that corresponds a first through-hole, concrete pump pipe fixing device still includes two second retaining members, a second retaining member suit is on a set of clamping piece group, and the second retaining member with correspond the clamping piece threaded connection of a set of clamping piece group, second retaining member drive clamping piece group presss from both sides tight slide bar.

Therefore, the position adjusting structure of the clamping unit can be adjusted according to conditions such as production cost, processing difficulty and use requirements.

Another preferred scheme is that the cross section of the first sliding chute and the cross section of the sliding rail part are both arranged in a square shape; or the cross section of the first sliding chute and the cross section of the sliding rail part are both arranged in a circular shape.

Therefore, the cross section shape of the first sliding chute and the cross section shape of the sliding rail part can be adjusted adaptively according to the damping requirement of the concrete pump pipe.

Another preferred scheme is that the concrete pump pipe fixing device further comprises a base and a third locking member, wherein a rotating shaft and more than two first slotted holes are formed in the base, the more than two first slotted holes are distributed along the circumferential direction of the rotating shaft, the base frame is rotatably connected with the rotating shaft around the axis of the rotating shaft, a second through hole is formed in the base frame, and the third locking member penetrates through the second through hole and is fixedly connected with one first slotted hole.

Therefore, the mounting angle of the penetrating direction of the mounting position can be adjusted according to the trend of the concrete pump pipe through the structural design, so that the concrete pump pipe fixing device can reliably clamp the concrete pump pipes in different trends.

The pedestal is provided with a threaded hole, the rotating shaft is provided with a first shaft section and a second shaft section which are coaxially arranged, the diameter of the first shaft section is smaller than that of the second shaft section, the pedestal comprises a body and a pedestal, the body is installed on the pedestal, a third through hole is arranged on the pedestal, the third through hole penetrates through the pedestal along the axial direction of the rotating shaft, the second shaft section is positioned in the third through hole, and the first shaft section penetrates through the third through hole and is in threaded connection with the threaded hole.

Therefore, the structure of the concrete pump pipe fixing device is optimized and reasonable through the structural design, and the concrete pump pipe fixing device is convenient to manufacture.

In a further aspect, the base has a plurality of second slots extending along a same direction, and the second slots are perpendicular to the shaft.

It is from top to bottom to set up a plurality of second slotted holes on the base for it is more convenient when base and building wall or other connection structure are connected, and make the mounted position of base can finely tune according to the trend or the installation environment of concrete pump pipe.

In a further aspect, the shock absorbing layer is made of rubber or silicone.

Therefore, the shock absorption performance of the shock absorption layer can be improved by adopting rubber or silica gel to manufacture the shock absorption layer.

Drawings

Fig. 1 is a structural diagram of a first embodiment of the concrete pump pipe fixing device of the present invention.

Fig. 2 is a sectional view of the first embodiment of the concrete pump pipe fixing device of the present invention.

Fig. 3 is an exploded view of the first embodiment of the concrete pump pipe fixing device of the present invention.

Fig. 4 is an exploded view of the base frame of the first embodiment of the concrete pump pipe fixing device of the present invention.

Fig. 5 is a structural view of an adjusting member of the first embodiment of the concrete pump pipe fixing device of the present invention.

Fig. 6 is a structural view of a clamping unit of the first embodiment of the concrete pump pipe fixing device of the present invention.

Fig. 7 is a state reference diagram of the position adjusting process of the base frame of the first embodiment of the concrete pump pipe fixing device of the present invention.

Fig. 8 is a sectional view of a connecting seat of a second embodiment of the concrete pump pipe fixing device of the present invention.

Fig. 9 is a partial structure view of a clamp arm of a second embodiment of the concrete pump pipe fixing device of the present invention.

Fig. 10 is a partial structural view of a third embodiment of the concrete pump pipe fixing device of the present invention.

The present invention will be further explained with reference to the drawings and examples.

Detailed Description

Concrete pump pipe fixing device first embodiment:

referring to fig. 1 to 3, a concrete pump pipe fixing apparatus 100 includes a base frame 1, a base 2, a clamping unit 3, an adjusting member 4, a first locking member 51, and a second locking member.

Referring to fig. 4, the base frame 1 includes a body 11 and a base 12, the body 11 is substantially frame-shaped, two opposite frame edges of the body 11 are respectively provided with a second sliding slot 111, the second sliding slot 111 extends along a second direction Z, and the second sliding slot 111 penetrates through the bottom of the body 11. In addition, the body 11 is further provided with two first through holes 112 and two blind holes 113, each first through hole 112 penetrates through the top of the body 11 along the second direction Z, and one first through hole 112 is communicated with one second sliding chute 111. A blind hole 113 is coaxially provided with a first through hole 112, and a blind hole 113 is communicated with the first through hole 112, and an inner wall of the first blind hole 113 is provided with an internal thread.

The seat body 12 is provided with a second through hole 121, a third through hole 122 and a second threaded hole 123, the bottom of the body 11 is fixedly installed on the seat body 12, wherein the body 11 is provided with a third slot hole 115 extending along the first direction X, the first direction X is perpendicular to the second direction Z, the number of the second threaded holes 123 is equal to the number of the third slot holes 115, and one second threaded hole 123 is matched with one third slot hole 115, so that when the body 11 and the seat body 12 are fixedly connected, the first bolt 53 passes through the third slot hole 115 and then the first bolt 53 is in threaded connection with the second threaded hole 123, thereby fixing the body 11 on the seat body 12, and the third slot hole 115 enables the relative position between the body 11 and the seat body 12 to be finely adjusted.

The pedestal 12 is installed on the base 2, and the pedestal 12 can rotate relative to the base 2 for the bed frame 1 and the clamping unit 3 installed on the bed frame 1 can rotate relative to the base 2, thereby adjusting the clamping angle of the clamping unit 3. Specifically, the base 2 is provided with a threaded hole 21, a rotating shaft 22, a first slot 23 and a second slot 24, wherein the axial direction of the threaded hole 21 is parallel to the second direction Z, the threaded hole 21, the rotating shaft 22 and a third through hole 122 are coaxially arranged, and the third through hole 122 penetrates through the seat body 12 along the second direction Z. The rotating shaft 22 has a first shaft section 221 and a second shaft section 222 coaxially disposed, and the diameter of the first shaft section 221 is smaller than that of the second shaft section 222, and the third through hole 122 on the seat body 12 is a countersunk hole, when the seat body 12 is connected to the base 2, the second shaft section 222 of the rotating shaft 22 is disposed in the countersunk portion of the third through hole 122, and the first shaft section 221 of the rotating shaft 22 passes through the third through hole 122 and then is in threaded connection with the threaded hole 21 on the base 2, so that the seat body 12 is limited on the base 2, and the seat body 12 can rotate relative to the base 2. After the installation between the seat body 12 and the base 2 is completed, the body 11 and the seat body 12 are connected, so that the second shaft section 222 of the rotating shaft 22 is enclosed in the third through hole 122 and is limited between the body 11 and the seat body 12.

The number of the first slots 23 on the base 2 is more than two, the more than two first slots 23 are distributed along the axial direction of the rotating shaft 22, when the number of the first slots 23 is two, a first connecting line is formed between the axis of the first slot 23 and the axis of the rotating shaft 22, a second connecting line is formed between the axis of the second first slot 23 and the axis of the rotating shaft 22, the included angle between the first connecting line and the second connecting line is greater than 0 degree and smaller than 180 degrees, and preferably, the included angle between the first connecting line and the second connecting line is 90 degrees. When the number of the first slots 23 is more than three and singular, the more than three first slots 23 are uniformly distributed along the circumferential direction of the rotating shaft 22. When the number of the first slots 23 is more than four and is even, the more than four first slots 23 are uniformly distributed on the half circumference of the rotating shaft 22; or more than four first slots 23 are uniformly distributed on the circumferential direction of the rotating shaft 22, and every two first slots 23 which are centrosymmetric form a group of slot groups.

Referring to fig. 7, the second through hole 121 of the seat body 12 penetrates through the seat body 12 along the second direction Z, and the second through hole 121 is in matching connection with at least one of the two or more first slots 23, when the clamping angle of the clamping unit 3 on the base frame 1 needs to be adjusted, the third locking member 52 is used for fixedly connecting the seat body 12 and the base 2, then the seat body 12 is rotated to align the second through hole 121 of the seat body 12 with another first slot 23, and then the third locking member 52 is passed through the second through hole 121 again, and the third locking member 52 is fixedly connected with the first slot 23 which is aligned again. Wherein the first slot 23 is preferably a threaded hole and the third locking member 52 is preferably a bolt.

In the embodiment, the number of the second slots 24 on the base 2 is four, and each of the second slots 24 extends along the first direction X. The arrangement of the second slotted hole 24 makes the base 2 more convenient to be connected with a building wall surface or other connecting structures, and the mounting position of the base 2 can be finely adjusted according to the trend of the concrete pump pipe or the mounting environment.

Referring to fig. 6, the number of the clamping units 3 is two, two clamping units 3 are respectively installed on the body 11 of the base frame 1, and one clamping unit 3 is connected with one second sliding groove 111 in a matching manner. Specifically, the clamping unit 3 includes a connecting seat 31, a clamping arm 32, a damping layer 33 and a spring 34, the connecting seat 31 is clamped with one second sliding groove 111, and the connecting seat 31 can slide relative to the body 11 along the extending direction of the second sliding groove 111.

The connecting seat 31 is provided with a first sliding slot 311 and a sliding rod 312, the first sliding slot 311 extends along the first direction X, and the first sliding slot 311 penetrates through the connecting seat 31. The sliding rod 312 extends along the second direction Z, the sliding rod 312 penetrates through the first through hole 112 and extends out of the body 11, and an external thread is disposed on an outer peripheral wall of the sliding rod 312.

The clamping arm 32 has a sliding rail portion 321 and a clamping portion 322, the sliding rail portion 321 extends along the first direction X, and the sliding rail portion 321 is clamped with the first sliding slot 311, so that the sliding rail portion 321 can slide along the first sliding slot 311 relative to the connecting seat 31. The clamping portion 322 has an arc connecting member 3221 and two engaging lugs 3222, an arc top of the arc connecting member 3221 is located at the sliding rail portion 321 and is fixedly connected, the two engaging lugs 3222 are respectively located at two ends of the arc connecting member 3221, each engaging lug 3222 is provided with a through groove, and the through grooves are connected along the first direction X. A clamping position is formed between the clamping parts 322 of the clamping arms 32 of the two clamping units 3, preferably, the penetrating direction Y of the clamping position is perpendicular to the first direction X and the second direction Z, and the clamping parts 322 are elastically deformable, so that the clamping parts 322 can cooperate with the springs 34 to clamp concrete pump pipes with different pipe diameters, thereby improving the application range of the concrete pump pipe fixing device 100. In the present embodiment, both the cross section of the first sliding chute 311 and the cross section of the sliding rail portion 321 are square, but as another alternative, the cross section of the first sliding chute 311 and the cross section of the sliding rail portion 321 may also be circular.

The shock absorbing layer 33 is installed on the clamping portion 322, and the shock absorbing layer 33 is located in the clamping portion 30, preferably, the shock absorbing layer 33 is arranged on the wall portion of the clamping portion 30, and the shock absorbing layer 33 is made of rubber or silicon rubber. The shock absorbing layer 33 can be adjacent to the concrete pump pipe to properly absorb vibration generated from the concrete pump pipe.

The spring 34 abuts between the slide rail portion 321 of the clamping arm 32 and the groove wall of the second sliding groove 111 of the body 11, and the spring 34 is used for forcing the clamping arm 32 to slide back to the connecting seat 31 along the extending direction of the first sliding groove 311, so that the clamping arms 32 of the two clamping units 3 move towards each other to form a tendency of clamping the concrete pump pipe located in the clamping position 30. In addition, the clamping arm 32 can slide relative to the connecting seat 31, and the spring 34 is arranged between the clamping arm 32 and the connecting seat 31 or between the clamping arm 32 and the pedestal 1, so that in the working process of the concrete pump pipe, vibration generated by the concrete pump pipe can be absorbed in a mode that the clamping arm 32 slides relative to the connecting seat 31, the concrete pump pipe fixing device 100 is protected, and the connection reliability between the concrete pump pipe fixing device 100 and the concrete pump pipe and the connection reliability between the concrete pump pipe fixing device 100 and a building wall surface or other connection structures are ensured. As another alternative, when the connector holder 31 includes a cover plate closing the notch of the first slide groove 311 near the second slide groove 111, the spring 34 may be disposed to abut between the cover plate of the connector holder 31 and the slide rail portions 321 of the clamp arms 32.

Referring to fig. 5, the number of the adjusting members 4 is two, and one adjusting member 4 is used for being connected with the sliding rod 312 of one clamping unit 3 in a matching manner to drive the clamping unit 3 to slide along the second sliding chute 111. Wherein each adjusting member 4 is rotatably mounted on the body 11 of the base frame 1 about its own axis, and one adjusting member 4 is disposed in one of the blind holes 113 and is threadedly coupled to one of the sliding rods 312, so as to drive the sliding rods 312, which are threadedly coupled to each other, to slide along the second sliding slot 111. Specifically, the adjusting member 4 is disposed in a substantially shaft shape, the adjusting member 4 has a third shaft section 41 and a fourth shaft section 42, the diameter of the third shaft end is smaller than that of the fourth shaft section 42, the fourth shaft section 42 is disposed in the blind hole 113, the adjusting member 4 can rotate around its own axis relative to the blind hole 113, and in addition, in the second direction Z, the height of the fourth shaft section 42 is smaller than that of the blind hole 113. An annular piece 114 is arranged at the opening of the blind hole 113, an external thread is arranged on the outer peripheral wall of the annular piece 114, and the annular piece 114 is sleeved on the third shaft section 41 and is in threaded connection with the blind hole 113, so that the fourth shaft section 42 of the adjusting piece 4 is limited in the blind hole 113. The middle part of regulating part 4 is provided with the screw hole, and screw hole and the external screw thread threaded connection of slide bar 312, when regulating part 4 need drive clamping unit 3 to slide along second spout 111, through rotating regulating part 4 for regulating part 4 moves on second direction Z through self and slide bar 312 between the screw thread structure drive slide bar 312, thereby makes slide bar 312 drive connecting seat 31 and the arm lock 32 on it move on second direction Z.

The first locking member 51 is used for clamping the concrete pipe pump by engaging the clamping portions 322 of the two clamping arms 32, and the first locking member 51 is connected between the clamping portions 322 of the two clamping arms 32. Specifically, the number of the first locking members 51 is two, and one locking member is correspondingly connected with the connecting lugs 3222 in the two clamping portions 322; the first locking member 51 includes a second bolt 511 and a nut 512, wherein the bolt portion of the second bolt 511 passes through the through slots of the connecting lugs 3222 of the two clamping portions 322, and the nut 512 is screwed with the bolt portion of the second bolt 511 to clamp the connecting lugs 3222 of the two clamping portions 322.

Concrete pump pipe fixing device second embodiment:

referring to fig. 8 and 9, the present embodiment is different from the first embodiment of the concrete pump pipe fixing device in the structure of the first chute and the slide rail portion. Specifically, in this embodiment, two symmetrically disposed limiting strips 612 are disposed in the first sliding groove 611 on the connecting seat 61, the limiting strips 612 extend along the first direction X1, two symmetrically disposed third sliding grooves 621 are disposed on the sliding rail portion 62, the third sliding grooves 621 extend along the first direction X1, and one limiting strip 612 is located in one third limiting groove 621.

Concrete pump pipe fixing device third embodiment:

with reference to fig. 10, the present embodiment is different from the above embodiments in that: in this embodiment, the arrangement of the ring member, the blind hole on the body of the base frame, and the adjusting member is eliminated, and a set of clip set 711 is respectively arranged at each first through hole of the body 71 of the base frame, two or more clips of the clip set 711 are distributed along the circumferential direction corresponding to one first through hole, the concrete pump pipe fixing device further includes two second locking members 72, one second locking member 72 is sleeved on one set of clip set 711, and the second locking member 72 is in threaded connection with the clip corresponding to the set of clip set 711, and the second locking member 72 is used for driving each clip of the clip set 711 to move towards the sliding rod 73, so that each clip clamps the sliding rod 73. Wherein, the second locking member 72 is preferably a nut.

When the position of the clamping unit needs to be adjusted, the second locking piece 72 is unscrewed, so that each clamping piece of the clamping piece group 71 releases the clamping of the sliding rod 73, then the connecting seat is slid to adjust the position of the clamping unit, and after the position of the connecting seat is adjusted, the second locking piece 72 is screwed again, so that the second locking piece 72 drives each clamping piece of the clamping piece group 71 to clamp the sliding rod 73.

Finally, it should be emphasized that the above-described embodiments are merely preferred examples of the present invention, and are not intended to limit the invention, as those skilled in the art will appreciate that various changes and modifications may be made, and any and all modifications, equivalents, and improvements made, while remaining within the spirit and principles of the present invention, are intended to be included within the scope of the present invention.

Claims (10)

1. A concrete pump pipe fixing device is characterized by comprising:

a base frame;

the clamping device comprises two clamping units, wherein each clamping unit comprises a connecting seat, clamping arms, a damping layer and a spring, the connecting seat is mounted on the base frame, a first sliding groove extending along a first direction is formed in the connecting seat, each clamping arm is provided with a sliding rail part and a clamping part, the sliding rail part is slidably connected with the first sliding groove, a clamping position is formed between the clamping parts of the two clamping arms, the damping layer is arranged on the clamping part and positioned in the clamping position, the spring is connected between the connecting seat and the clamping arms or between the clamping arms and the base frame, and the spring forces the clamping arms to slide back to the connecting seat along the extending direction of the first sliding groove;

a first locking member connected between the clamp portions of the two clamp arms.

2. The concrete pump pipe fixing device of claim 1, wherein:

the clamping portion is elastically deformable.

3. The concrete pump pipe fixing device of claim 2, wherein:

the clamping part is provided with an arc-shaped connecting piece and two connecting lugs, and the two connecting lugs are respectively positioned at two ends of the arc-shaped connecting piece;

the number of the first locking pieces is two, and one first locking piece is correspondingly connected with the connecting lugs in the two clamping parts.

4. The concrete pump pipe fixing device of claim 1, wherein:

the base frame is provided with two second sliding grooves, the second sliding grooves extend along a second direction, the connecting seat of one clamping unit is slidably arranged in one second sliding groove, and the second direction is perpendicular to the first direction.

5. The concrete pump pipe fixing device of claim 4, wherein:

the base frame is also provided with two first through holes, the first through holes penetrate through the base frame along the second direction, and one first through hole is communicated with one second sliding groove;

a sliding rod is arranged on the connecting seat, extends along the second direction and penetrates through the first through hole;

the concrete pump pipe fixing device further comprises two adjusting pieces, the two adjusting pieces are rotatably arranged on the base frame around the axis of the adjusting pieces, one adjusting piece is positioned at one first through hole and is in threaded connection with one sliding rod, and the adjusting pieces drive the sliding rod to slide along the second direction, or

The bed frame is at each first through-hole department all is provided with a set of clamping piece group, clamping piece more than two of clamping piece group is along corresponding one the circumference of first through-hole distributes, concrete pump pipe fixing device still includes two second retaining members, one the second retaining member suit is in a set of on the clamping piece group, just the second retaining member with correspond a set of clamping piece group clamping piece threaded connection, the drive of second retaining member the clamping piece group is pressed from both sides tightly the slide bar.

6. The concrete pump pipe fixing device of claim 1, wherein:

the cross section of the first sliding chute and the cross section of the sliding rail part are both arranged in a square shape; or

The cross section of the first sliding chute and the cross section of the sliding rail part are both arranged in a circular shape.

7. The concrete pump pipe fixing device of claim 1, wherein:

concrete pump pipe fixing device still includes:

the base is provided with a rotating shaft and more than two first slotted holes, the more than two first slotted holes are distributed along the circumferential direction of the rotating shaft, the base frame is rotatably connected with the rotating shaft around the axis of the rotating shaft, and the base frame is provided with a second through hole;

and the third locking piece penetrates through the second through hole and is fixedly connected with one first slotted hole.

8. The concrete pump pipe fixing device of claim 7, wherein:

the base is provided with a threaded hole, the rotating shaft is provided with a first shaft section and a second shaft section which are coaxially arranged, and the diameter of the first shaft section is smaller than that of the second shaft section;

the base frame comprises a body and a base body, wherein the body is installed on the base body, a third through hole is formed in the base body, the third through hole penetrates through the base body along the axial direction of the rotating shaft, the second shaft section is located in the third through hole, and the first shaft section penetrates through the third through hole and is in threaded connection with the threaded hole.

9. The concrete pump pipe fixing device of claim 7, wherein:

the base is provided with a plurality of second slotted holes, the second slotted holes extend along the same direction, and the second slotted holes are vertical to the rotating shaft.

10. The concrete pump pipe fixing device according to any one of claims 1 to 9, wherein:

the shock-absorbing layer is made of rubber or silica gel.

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