CN112900585B - Reinforced concrete drain pipe construction assembly and construction method - Google Patents

Abstract

The invention relates to the technical field of drain pipe construction, in particular to a reinforced concrete drain pipe construction assembly which comprises a plurality of mounting pipes and an assembling mechanism, wherein the mounting pipes are connected end to end, the assembling mechanism is positioned in a pipe body of the mounting pipes, and the assembling mechanism comprises a baffle part, a driving part, an injection part, an opening and closing part, a retaining column, a steel wire rope and a hand-operated block; the invention has the advantages that the sliding expansion between the two baffle bodies is controlled by rotating the hand wheel, thereby being beneficial to realizing the start-stop control of the sealant conveying, when the conveying channel is staggered with the circulation port, the sealant conveying is blocked, when the conveying channel is communicated with the circulation port, the sealant conveying is normally carried out, and the problems that the existing drain pipe is easy to have a gap after being installed, the sealing performance is poor, and the assembly joint between the two drain pipes is easy to leak after long-term use are solved; the invention also provides a construction method of the reinforced concrete drain pipe construction assembly.

Description

Reinforced concrete drain pipe construction assembly and construction method

Technical Field

The invention relates to the technical field of drain pipe construction, in particular to a reinforced concrete drain pipe construction assembly and a construction method.

Background

The reinforced concrete drain pipe is widely applied to projects such as rainwater, sewage, railway sleeve pipes and farmland irrigation, construction modes are divided into jacking construction method (non-excavation construction) and slotting method construction, the traditional slotting construction method is mainly used for installing the drain pipe and is mainly implemented by mechanical installation such as cranes and forklifts, the installation precision is inaccurate, the pipe body is easily damaged, and a great deal of invariance is brought to the installation of the drain pipe under the limitation of a field operation surface.

The chinese patent with publication number CN211499108U discloses a drain pipe for construction, including the trunk line, be provided with the thickening pipe layer on the trunk line head inner wall, the trunk line afterbody is provided with connecting tube, the connecting tube size corresponds the mouth of pipe size on thickening pipe layer, thickening pipe inner wall is provided with three outside-in mounting grooves, the mounting groove is equidistant on thickening pipe inner wall, it sets up the installation piece to correspond the mounting groove position on the connecting tube outer wall. A drain pipe for construction, through setting up the thickening pipe layer in trunk line inner wall head position, set up the connecting tube that the size corresponds at the trunk line afterbody, the mounting groove of the installation piece alignment thickening pipe layer inner wall of connecting tube outer wall is installed during the installation to spacing groove through the mounting groove rear carries out preliminary fixed, gag lever post in the main fixed block of rethread trunk line outer wall thickening pipe layer top carries out the secondary and fixes, compares with conventional glue bonding mode, save time and make things convenient for recycle.

A chinese patent with publication number CN109027458A discloses a municipal drainage pipe connection structure, which comprises a connecting piece and drainage pipes, wherein the left end of the connecting piece is connected with the right end of the drainage pipe, the right end of the connecting piece is connected with the left end of another drainage pipe, and the left and right ends of the connecting piece are both provided with an annular slot for the drainage pipe to be inserted; the both ends of connecting piece all are equipped with a seal structure, seal structure includes according to the clamp plate, annular push jack, sealing washer one, compact heap, the lid of tightening, and according to the clamp plate and be equipped with a plurality of and all set up the both ends lateral wall at the drain pipe, according to the clamp plate and include kink, portion, ejector pad that compresses tightly, the kink is the arc and all sets up towards the drain pipe middle part, the one end and the drain pipe connection of kink. The outer wall at the left and right both ends of drain pipe all is equipped with a plurality of reinforced structure, reinforced structure arranges along the circumference of drain pipe.

However, the above patents still have the following problems:

(1) the existing drain pipe construction assembly is mainly installed by adopting machines such as a crane and a forklift when a drain pipe is installed, the installation precision is inaccurate, a pipe body is easy to be damaged, and the installation of the drain pipe is not changed due to the limitation of a field operation surface;

(2) There is the gap easily behind the drain pipe installation, only relies on the mechanical cooperation between the drain pipe to the installation of drain pipe in the current drain pipe construction, and the leakproofness is not good, and the leakage phenomenon appears easily in the assembled joint department between two rows of water pipes after long-term the use, influences the use.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a reinforced concrete drain pipe construction assembly, which is used for solving the problems that in the prior art, the drain pipe construction assembly is installed by adopting machines such as a crane and a forklift when the drain pipe is installed, the installation precision is inaccurate, a pipe body is easy to be damaged, the installation of the drain pipe is not changed due to the limitation of a field operation surface, gaps are easy to exist after the drain pipe is installed, the installation of the drain pipe in the existing drain pipe construction only depends on the mechanical cooperation between the drain pipes, the sealing performance is poor, the leakage phenomenon is easy to occur at the assembly connection position between the two drain pipes after the long-term use, the use is influenced, and the like.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention discloses a construction method of the reinforced concrete drain pipe construction assembly, which comprises the following steps:

S1, preparing in advance, placing the assembling mechanism in the pipe bodies of a plurality of mounting pipes, aligning the embedded clamp ring on the baffle plate part to a gap formed by matching the matching groove and the matching boss between two adjacent mounting pipes, rotating a hand wheel, expanding the two baffle plate bodies until the embedded clamp ring is clamped in the gap between the two adjacent mounting pipes, fixing the baffle column in a baffle column fixing groove of the mounting pipe to be mounted, and connecting a sealant conveying pipe at a sealant inlet of the injection part body;

s2, assembling the drain pipe, rotating the hand block to tighten the steel wire rope, and aligning the matching groove at the head end of the mounting pipe to be mounted with the matching boss at the tail end of the mounted mounting pipe to approach until the two are completely matched;

s3, filling sealant, rotating a hand wheel, slightly contracting the two baffle bodies until the release heads and the daub brush extend out from the outer sides of the baffle bodies and the circulation port coincides with the conveying channel, holding the first connecting rod or the second connecting rod by hand, circumferentially rotating the baffle parts through the driving part, entering the sealant inlet through the sealant conveying pipe, reaching the release member through the circulation port and the conveying channel, and finally releasing the gap formed by the matching of the matching groove and the matching boss between the two adjacent mounting pipes through the release heads to carry out sealing filling;

And S4, assembling the next section, after sealing and filling are finished, rotating the hand wheel again to perform telescopic adjustment on the two baffle bodies, enabling the circulation port and the conveying channel to be staggered mutually, cutting off the supply of the sealant, rotating the roller direction of the driving part, displacing the baffle part towards the next section of the installation pipe, and continuously repeating the operation.

A reinforced concrete drain pipe construction assembly comprises installation pipes and an assembly mechanism, wherein a plurality of installation pipes are connected end to end, the assembly mechanism is positioned inside a pipe body of the installation pipes and comprises baffle parts, driving parts, injection parts, opening and closing parts, retaining columns, steel wire ropes and a manual hoist, the baffle parts are positioned between two adjacent installation pipes, the two injection parts are symmetrically arranged on the left side and the right side of the baffle parts respectively, the two injection parts penetrate through the baffle parts respectively in the front and back directions, the upper ends and the lower ends of the front and back penetrating ends of the two injection parts are respectively provided with a plurality of driving parts, the upper driving parts and the lower driving parts of the same penetrating ends are connected through first connecting rods, the left and right driving parts of the same penetrating ends are connected through second connecting rods, the opening and closing parts are arranged on the baffle parts, the retaining columns are arranged at one end of the outer side of the installation pipes to be installed, the manual block is located between the baffle portion and the retaining columns and connected with the baffle portion and the retaining columns through the steel wire ropes.

When specifically using, hand block passes through many wire rope and keeps off board portion and bumping post and is connected, will keep off board portion places between two adjacent installation pipes, will the outside of waiting the installation pipe of installation is arranged in to the bumping post, through using hand block can aim at fender portion and bumping post each other and lean on tightly, thereby it is right to reach the installation purpose of installation pipe, the installation precision is high, labour saving and time saving, it is inaccurate to have solved current installation precision, the problem of damaging the body easily, through mutually supporting between fender portion, drive division, injection portion and the portion that opens and shuts, can be to adjacent two the hookup location of installation pipe carries out sealed glue and fills, has solved and has had the gap easily after current drain pipe installation, and the leakproofness is not good, and the problem of seepage phenomenon appears easily in the assembled joint department between the two rows of water pipes after the long-term use.

Furthermore, the injection part comprises an injection part body, sliding grooves and release members, the injection part body is connected with the baffle part in a left-right sliding mode, the sliding grooves are formed in the upper end and the lower end of the injection part body respectively, and the two release members are arranged on one side face, close to the inner wall of the installation pipe, of the injection part body respectively.

When specifically using, through injection portion body and baffle portion left and right sliding connection, right the baffle portion stretches out the baffle portion to the chucking of installation pipe and the release member on the injection portion body and fills sealed glue to the installation pipe, can realize the mutual work of the two.

Furthermore, a sealant inlet is formed in the front end of the injection part body, the sealant inlet can be connected with a conveying pipe, a conveying channel is formed in the injection part body, the sealant inlet is in conduction connection with the conveying channel, the release members are provided with inner cavities and are in end-to-end conduction, and the two release members are also in conduction connection with the conveying channel;

two flow-limiting column channels are arranged between the two releasing components on the injection part body, the two flow-limiting column channels penetrate through the injection part body from left to right, and the sealant inlet is arranged between the two flow-limiting column channels.

When the device is used specifically, the sealant can enter the sealant inlet through an external conveying pipe and enters the release member through the conveying channel to perform sealant filling work, the flow limiting column can be inserted into the flow limiting column channel, and the sealant conveying is controlled to start and stop.

Further, the release member comprises a guide block, a release head and two glue applying brushes, the release head is arranged on one side surface of the guide block close to the inner wall of the mounting pipe, and the two glue applying brushes are respectively arranged on the upper side and the lower side of the release head;

The daub brush includes brush-holder stud, brush head and round brush again, the end and the brush-holder stud of brush head are connected, the head end and the round brush of brush head are connected, the round brush rolls with the brush head on brush head and is connected.

When specifically using, the height that highly should be a little higher than the release head of daub brush, the round brush c that the daub was brushed can roll, and is convenient right from the sealed glue that releases is paintd the processing to release head, is favorable to painting sealed glue evenly firmly adjacent two in the gap of installation pipe.

Further, the driving part comprises a roller, a roller seat, a rotating seat and a supporting rod, one end of the rotating seat is arranged on the supporting rod, the roller seat is rotatably connected with the other end of the rotating seat, the roller is in rolling connection with the roller seat, and the roller is in contact with the inner wall of the installation pipe in a laminating manner.

When specifically using, every gyro wheel on the drive division all laminates the contact with the inner wall of installation pipe mutually, is favorable to ordering about the drive division carries out the displacement operation, the gyro wheel seat rotates with the other end that rotates the seat to be connected, and the accessible rotates the position of gyro wheel seat, and the selectivity is right baffle portion rotates or linear displacement.

Further, baffle portion includes two baffle bodies, two the baffle body is the semicircle type, two the baffle body is central symmetry and connects, the one end of baffle body is provided with first connecting plate, the other end of baffle body is provided with the second connecting plate, one first connecting plate on the baffle body and the second connecting plate on another baffle body pass through baffle slide rail horizontal slip connection, one second connecting plate on the baffle body and the first connecting plate on another baffle body also pass through baffle slide rail horizontal slip connection, the outer lane of baffle body is provided with the embedding snap ring.

When specifically using, two the mutual sliding connection of baffle body does benefit to and realizes the installation pipe installation and sealed packing interactive operation, the outer lane of baffle body is provided with the embedding snap ring and is favorable to the baffle portion chucking between two adjacent installation pipes.

Furthermore, two be provided with injection portion spout on the baffle body respectively, be provided with two current-limiting post in the injection portion spout, two current-limiting post corresponds two current-limiting post passageways on running through the injection portion body respectively, two one side that is close to baffle body outer lane on the current-limiting post runs through the current-limiting post respectively and is provided with the circulation mouth, the size of a dimension of circulation mouth and transfer passage's size of a dimension match each other, run through the baffle body on the side that injection portion spout is close to baffle body outer lane and be provided with two guide block passageways, two the guide block corresponds respectively and runs through two guide block passageways, the upper and lower both ends of injection portion spout are provided with the slide rail respectively.

When specifically using, the current-limiting post can realize opening and stop control sealed glue and carry, works as when transfer passage staggers with the circulation mouth, sealed glue is carried and is blocked, works as during transfer passage communicates with the circulation mouth, sealed glue is carried and is normally gone on, the guide block passageway can hold the guide block and lean out and shrink, is favorable to going on installation pipe installation and sealed glue fill interactive operation.

Furthermore, the portion of opening and shutting includes hand wheel, stroke pole and reinforcement frame, two the stroke pole sets up respectively on the baffle body, two the stroke pole is central symmetry, the stroke pole is connected to the one end of reinforcement frame, the other end connection baffle body of reinforcement frame, the stroke pole is sunken towards one side of another stroke pole, and this sunken department is provided with the rack, the end of hand wheel is provided with the gear, the hand wheel passes through the gear and is connected with the rack transmission on two stroke poles.

When the baffle is used specifically, the tail end of the hand wheel is provided with a gear, the hand wheel is connected with the racks on the two stroke rods in a transmission mode through the gear, the hand wheel can be close to and far away from the two stroke rods through rotation, so that opening and closing movement between the baffle bodies is achieved, and operation is convenient.

Furthermore, the head end of the mounting pipe is provided with a matching groove, the tail end of the mounting pipe is provided with a matching boss, and the depth of the matching groove is slightly greater than the length of the matching boss;

a retaining column fixing groove is formed in the tail end of the mounting pipe, and fixing columns are arranged at two ends of the retaining column respectively;

one side of the blocking column facing the blocking plate portion is provided with two steel wire rope pull rings, and one side of the blocking plate portion facing the blocking column is also provided with two steel wire rope pull rings.

When the steel wire rope pull ring is used specifically, the depth of the matching groove is slightly larger than the length of the matching boss, so that the embedded snap ring can be embedded into a gap between the matching groove and the matching boss, a retaining column fixing groove is formed in the tail end of the installation pipe, fixing columns are arranged at two ends of each retaining column respectively, the retaining columns can be clamped at the tail end of the installation pipe firmly, and the steel wire rope pull ring is favorable for fixing the steel wire rope on the baffle plate portion and the retaining columns in a connecting mode.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the baffle part and the baffle column can be aligned and abutted tightly by using the manual hoist, so that the mounting purpose of the mounting pipe is achieved, the mounting precision is high, time and labor are saved, and the problems of inaccurate mounting precision and easiness in damaging the pipe body in the prior art are solved.

The invention controls the sliding and stretching between the two baffle bodies by rotating the hand wheel to lead the injection part and the injection part sliding groove to slide back and forth, thereby leading the releasing component and the guide block channel to slide back and forth to realize the extension and contraction of the releasing head and the daub brush at the outer side of the baffle plate part, being beneficial to playing a role in protecting the releasing head and the daub brush when the installation pipe is assembled, meanwhile, the flow-limiting column channel and the flow-limiting column slide back and forth, thereby being beneficial to realizing the start-stop control of the sealant delivery, when transfer passage staggers with the circulation mouth, sealed glue is carried and is blocked, when transfer passage and circulation mouth intercommunication, sealed glue is carried and is normally gone on, and the gyro wheel in every drive division all laminates the contact with the inner wall of installation pipe mutually, is favorable to ordering about the drive division and carries out the displacement operation, has solved and has had the gap easily after the installation of current drain pipe, and the leakproofness is not good, and the problem of seepage phenomenon appears easily in the assembled joint department between two rows of water pipes after the long-term use.

According to the invention, the roller on each driving part is in contact with the inner wall of the installation pipe in a fitting manner, the roller seat is rotatably connected with the other end of the rotating seat, and the baffle part can be selectively rotated or linearly displaced through the position of the rotating roller seat, so that sealant filling and movement of the assembly mechanism in the installation pipe are favorably realized.

Drawings

FIG. 1 is a half sectional view illustrating a perspective structure of a reinforced concrete drain pipe construction assembly according to the present invention;

FIG. 2 is a half sectional view showing a front view structure of a combination of a baffle portion, a driving portion, an injection portion and an opening and closing portion in a reinforced concrete drain pipe construction assembly according to the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a perspective view illustrating a combination of a driving part and an injection part in a reinforced concrete drain pipe construction assembly according to the present invention;

FIG. 5 is a partial enlarged view of the portion B in FIG. 4;

FIG. 6 is a perspective view illustrating a combination of a baffle portion and an opening and closing portion in a reinforced concrete drain pipe construction assembly according to the present invention;

FIG. 7 is a sectional view illustrating a side view of a mounting pipe in a reinforced concrete drain pipe construction assembly according to the present invention;

reference numerals referred to in the drawings are:

The mounting pipe 1 is matched with the groove 101, the boss 102 and the retaining column fixing groove 103;

the baffle plate comprises a baffle plate part 2, a baffle plate body 201, a first connecting plate 202, a second connecting plate 203, a baffle plate slide rail 204, an embedded snap ring 205, an injection part slide groove 206, a flow limiting column 207, a flow opening 208, a guide block channel 209 and a slide rail 210;

a driving part 3, a roller 301, a roller seat 302, a rotating seat 303, a support rod 304, a first connecting rod 305 and a second connecting rod 306;

the injection part 4, the injection part body 401, the chute 402, the sealant inlet 403, the flow limiting column channel 404, the conveying channel 405, the release member 406, the guide block 4061, the release head 4062, the glue applying brush 4063, the brush rod 4063a, the brush head 4063b and the rolling brush 4063 c;

the opening and closing part 5, a hand wheel 501, a stroke rod 502, a reinforcing frame 503, a gear 504 and a rack 505;

a retaining column 6, a fixed column 601 and a steel wire rope pull ring 602;

a wire rope 7;

and a hand-operated block 8.

Detailed Description

In order that those skilled in the art can better understand the present invention, the following technical solutions are further described in conjunction with the accompanying drawings and examples:

it should be noted that the same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if the terms "upper", "lower", "left", "right", "inner", "outer", etc. are used for indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not indicated or implied that the referred device or element must have a specific orientation, be constructed in a specific orientation and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limitations of the present patent, and the specific meanings of the terms may be understood by those skilled in the art according to specific situations.

In addition, the descriptions relating to "first", "second", etc. in the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature.

In the description of the present invention, unless otherwise explicitly specified or limited, the term "connected" or the like, if appearing to indicate a connection relationship between the components, is to be understood broadly, for example, as being fixed or detachable or integral; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through one or more other components or may be in an interactive relationship with one another. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The first embodiment is as follows:

as shown in FIGS. 1 to 7, the present invention discloses a construction method of the reinforced concrete drain pipe construction assembly, comprising the steps of:

s1, preparing in advance, placing the assembling mechanism in the interiors of the pipe bodies of a plurality of mounting pipes 1, aligning the embedded snap rings 205 on the baffle plate parts 2 to the gaps formed by the matching grooves 101 and the matching bosses 102 between two adjacent mounting pipes 1, rotating the hand wheel 501, expanding the two baffle plate bodies 201 until the embedded snap rings 205 are clamped in the gaps between the two adjacent mounting pipes 1, fixing the retaining columns 6 in the retaining column fixing grooves 103 of the mounting pipes 1 to be mounted, and connecting the sealant conveying pipes at the sealant inlets 403 of the injection part bodies 401;

s2, assembling the drain pipe, rotating the manual block 8 to tighten the steel wire rope 7, and aligning the matching groove 101 at the head end of the installation pipe 1 to be installed with the matching boss 102 at the tail end of the installed installation pipe 1 to be closed until the two are completely matched;

s3, filling sealant, rotating the hand wheel 501, slightly contracting the two baffle bodies 201 until the release head 4062 and the glue applying brush 4063 extend out of the baffle body 201 and the circulation port 208 coincides with the conveying channel 405, holding the first connecting rod 305 or the second connecting rod 306 by hand, circumferentially rotating the baffle part 2 through the driving part 3, enabling the sealant to enter the sealant inlet 403 through the sealant conveying pipe at the moment, and reaching the release component 406 through the circulation port 208 and the conveying channel 405, and finally releasing through the release head 4062 to hermetically fill a gap formed by the matching of the matching groove 101 and the matching boss 102 between the two adjacent mounting pipes 1;

And S4, assembling the next section, after sealing and filling are finished, rotating the hand wheel 501 again to telescopically adjust the two baffle bodies 201, enabling the circulation port 208 and the conveying channel 405 to be staggered mutually, cutting off the supply of the sealing glue, rotating the direction of the roller 301 of the driving part 3, displacing the baffle part 2 to the next section of the installation pipe 1, and continuously repeating the operations.

A reinforced concrete drain pipe construction assembly comprises a mounting pipe 1 and an assembling mechanism, wherein a plurality of mounting pipes 1 are connected end to end, the assembling mechanism is positioned inside a pipe body of the mounting pipe 1 and comprises baffle parts 2, driving parts 3, injection parts 4, opening and closing parts 5, baffle columns 6, steel wire ropes 7 and hand-operated hoists 8, the baffle parts 2 are positioned between two adjacent mounting pipes 1, the two injection parts 4 are respectively and symmetrically arranged at the left side and the right side of the baffle parts 2, the two injection parts 4 respectively penetrate through the baffle parts 2 from front to back, the upper ends and the lower ends of the front penetrating ends and the rear penetrating ends of the two injection parts 4 are respectively provided with a plurality of driving parts 3, the upper driving parts and the lower driving parts 3 of the same penetrating ends are connected through first connecting rods 305, the left driving parts and the right driving parts 3 of the same penetrating ends are connected through second connecting rods 306, the opening and closing parts 5 are arranged on the baffle parts 2, the baffle columns 6 are arranged at one end of the outer side of the mounting pipe 1 to be mounted, manual block 8 is located between baffle 2 and bumping post 6, and manual block 8 is connected with baffle 2 and bumping post 6 through many wire rope 7.

When specifically using, hand block 8 is connected with baffle 2 and bumping post 6 through many wire rope 7, place baffle 2 between two adjacent installation pipes 1, place bumping post 6 in the outside of the installation pipe 1 of treating the installation, can aim at baffle 2 and bumping post 6 each other through using hand block 8 and lean on tightly, thereby reach the installation purpose to installation pipe 1, the installation precision is high, time saving and labor saving, current installation precision is inaccurate has been solved, the problem of the body of damaging easily, through baffle 2, drive division 3, mutually support between injection portion 4 and the portion of opening and shutting 5, can pack sealed glue to the hookup location of two adjacent installation pipes 1, it has the gap easily to have solved after the installation of current drain pipe, the leakproofness is not good, the problem of seepage phenomenon appears easily in the assembly connection department between the two rows of water pipes after long-term use.

The injection part 4 includes an injection part body 401, sliding grooves 402 and releasing members 406, the injection part body 401 is connected with the baffle part 2 in a left-right sliding manner, the two sliding grooves 402 are respectively arranged at the upper and lower ends of the injection part body 401, and the two releasing members 406 are respectively arranged on one side surface of the injection part body 401 close to the inner wall of the mounting pipe 1.

When specifically using, through injection part body 401 and baffle portion 2 side-to-side sliding connection, to baffle portion 2 to the chucking of installation pipe 1 and release member 406 on injection part body 401 stretch out baffle portion 2 and seal glue and fill installation pipe 1, can realize the mutual work of the two.

The front end of the injection part body 401 is provided with a sealant inlet 403, the sealant inlet 403 can be connected with a delivery pipe, a delivery channel 405 is arranged inside the injection part body 401, the sealant inlet 403 is in conduction connection with the delivery channel 405, the release members 406 are provided with inner cavities and are in end-to-end conduction, and the two release members 406 are also in conduction connection with the delivery channel 405;

two flow-limiting column channels 404 are arranged on the injection part body 401 between the two release members 406, the two flow-limiting column channels 404 penetrate through the injection part body 401 from left to right, and the sealant inlet 403 is arranged between the two flow-limiting column channels 404.

When the device is used specifically, the sealant can enter the sealant inlet 403 through an external conveying pipe and enter the release member 406 through the conveying channel 405 to perform sealant filling operation, the flow limiting column 207 can be inserted into the flow limiting column channel 404, and the start and stop control of the sealant conveying can be performed.

The releasing component 406 comprises a guide block 4061, a releasing head 4062 and two glue applying brushes 4063, wherein the releasing head 4062 is arranged on one side surface of the guide block 4061 close to the inner wall of the installation pipe 1, and the two glue applying brushes 4063 are respectively arranged on the upper side and the lower side of the releasing head 4062;

the daub brush 4063 further comprises a brush rod 4063a, a brush head 4063b and a rolling brush 4063c, the tail end of the brush head 4063b is connected with the brush rod 4063a, the head end of the brush head 4063b is connected with the rolling brush 4063c, and the rolling brush 4063c is connected with the brush head 4063b in a rolling manner on the brush head 4063 b.

When specifically using, the height of daub brush 4063 should be a little higher than the height of release head 4062, and the round brush 4063c on the daub brush 4063 can roll, conveniently paints the processing from the sealed glue that release head 4062 released, is favorable to painting sealed glue evenly firmly in the gap of two adjacent installation pipes 1.

The driving part 3 comprises a roller 301, a roller seat 302, a rotating seat 303 and a support rod 304, one end of the rotating seat 303 is arranged on the support rod 304, the roller seat 302 is rotatably connected with the other end of the rotating seat 303, the roller 301 is in rolling connection with the roller seat 302, and the roller 301 is in contact with the inner wall of the installation pipe 1.

When the device is used specifically, the roller 301 on each driving part 3 is in contact with the inner wall of the installation pipe 1, so that the driving part 3 is driven to perform displacement operation, the roller seat 302 is rotatably connected with the other end of the rotating seat 303, and the baffle part 2 can be selectively rotated or linearly displaced by rotating the position of the roller seat 302.

The second embodiment:

as a further improvement of the previous embodiment, as shown in fig. 1 to 7, the present invention discloses a construction method of the reinforced concrete drain pipe construction assembly, which comprises the following steps:

s1, preparing in advance, placing the assembling mechanism in the interiors of the pipe bodies of a plurality of mounting pipes 1, aligning the embedded snap rings 205 on the baffle plate parts 2 to the gaps formed by the matching grooves 101 and the matching bosses 102 between two adjacent mounting pipes 1, rotating the hand wheel 501, expanding the two baffle plate bodies 201 until the embedded snap rings 205 are clamped in the gaps between the two adjacent mounting pipes 1, fixing the retaining columns 6 in the retaining column fixing grooves 103 of the mounting pipes 1 to be mounted, and connecting the sealant conveying pipes at the sealant inlets 403 of the injection part bodies 401;

S2, assembling the drain pipe, rotating the manual block 8 to tighten the steel wire rope 7, and aligning the matching groove 101 at the head end of the installation pipe 1 to be installed with the matching boss 102 at the tail end of the installed installation pipe 1 to be closed until the two are completely matched;

s3, filling sealant, rotating the hand wheel 501, slightly contracting the two baffle bodies 201 until the release head 4062 and the glue applying brush 4063 extend out of the baffle body 201 and the circulation port 208 coincides with the conveying channel 405, holding the first connecting rod 305 or the second connecting rod 306 by hand, circumferentially rotating the baffle part 2 through the driving part 3, enabling the sealant to enter the sealant inlet 403 through the sealant conveying pipe at the moment, and reaching the release component 406 through the circulation port 208 and the conveying channel 405, and finally releasing through the release head 4062 to hermetically fill a gap formed by the matching of the matching groove 101 and the matching boss 102 between the two adjacent mounting pipes 1;

and S4, assembling the next section, after sealing and filling, rotating the hand wheel 501 again to telescopically adjust the two baffle bodies 201, enabling the circulation port 208 and the conveying channel 405 to be staggered mutually, cutting off the supply of the sealant, rotating the direction of the roller 301 of the driving part 3, displacing the baffle part 2 to the next section of the installation pipe 1, and continuously repeating the operation.

A reinforced concrete drain pipe construction assembly comprises a mounting pipe 1 and an assembling mechanism, wherein a plurality of mounting pipes 1 are connected end to end, the assembling mechanism is positioned inside a pipe body of the mounting pipe 1 and comprises baffle parts 2, driving parts 3, injection parts 4, opening and closing parts 5, baffle columns 6, steel wire ropes 7 and hand-operated hoists 8, the baffle parts 2 are positioned between two adjacent mounting pipes 1, the two injection parts 4 are respectively and symmetrically arranged at the left side and the right side of the baffle parts 2, the two injection parts 4 respectively penetrate through the baffle parts 2 from front to back, the upper ends and the lower ends of the front penetrating ends and the rear penetrating ends of the two injection parts 4 are respectively provided with a plurality of driving parts 3, the upper driving parts and the lower driving parts 3 of the same penetrating ends are connected through first connecting rods 305, the left driving parts and the right driving parts 3 of the same penetrating ends are connected through second connecting rods 306, the opening and closing parts 5 are arranged on the baffle parts 2, the baffle columns 6 are arranged at one end of the outer side of the mounting pipe 1 to be mounted, the hand hoist 8 is located between baffle portion 2 and bumping post 6, and hand hoist 8 is connected with baffle portion 2 and bumping post 6 through many wire rope 7.

When specifically using, hand block 8 is connected with baffle 2 and bumping post 6 through many wire rope 7, place baffle 2 between two adjacent installation pipes 1, place bumping post 6 in the outside of the installation pipe 1 of treating the installation, can aim at baffle 2 and bumping post 6 each other through using hand block 8 and lean on tightly, thereby reach the installation purpose to installation pipe 1, the installation precision is high, time saving and labor saving, current installation precision is inaccurate has been solved, the problem of the body of damaging easily, through baffle 2, drive division 3, mutually support between injection portion 4 and the portion of opening and shutting 5, can pack sealed glue to the hookup location of two adjacent installation pipes 1, it has the gap easily to have solved after the installation of current drain pipe, the leakproofness is not good, the problem of seepage phenomenon appears easily in the assembly connection department between the two rows of water pipes after long-term use.

The injection part 4 includes an injection part body 401, sliding grooves 402 and releasing members 406, the injection part body 401 is connected with the baffle part 2 in a left-right sliding manner, the two sliding grooves 402 are respectively arranged at the upper and lower ends of the injection part body 401, and the two releasing members 406 are respectively arranged on one side surface of the injection part body 401 close to the inner wall of the installation pipe 1.

When specifically using, through injection part body 401 and baffle portion 2 side-to-side sliding connection, to baffle portion 2 to the chucking of installation pipe 1 and release member 406 on injection part body 401 stretch out baffle portion 2 and seal glue and fill installation pipe 1, can realize the mutual work of the two.

The front end of the injection part body 401 is provided with a sealant inlet 403, the sealant inlet 403 can be connected with a delivery pipe, a delivery channel 405 is arranged inside the injection part body 401, the sealant inlet 403 is in conduction connection with the delivery channel 405, the release members 406 are provided with inner cavities and are in end-to-end conduction, and the two release members 406 are also in conduction connection with the delivery channel 405;

two flow-limiting column channels 404 are arranged on the injection part body 401 between the two release members 406, the two flow-limiting column channels 404 penetrate through the injection part body 401 from left to right, and the sealant inlet 403 is arranged between the two flow-limiting column channels 404.

When the device is used specifically, the sealant can enter the sealant inlet 403 through an external conveying pipe and enter the release member 406 through the conveying channel 405 to perform sealant filling operation, the flow limiting column 207 can be inserted into the flow limiting column channel 404, and the start and stop control of the sealant conveying can be performed.

The releasing component 406 comprises a guide block 4061, a releasing head 4062 and two glue applying brushes 4063, wherein the releasing head 4062 is arranged on one side surface of the guide block 4061 close to the inner wall of the installation pipe 1, and the two glue applying brushes 4063 are respectively arranged on the upper side and the lower side of the releasing head 4062;

the daub brush 4063 further comprises a brush rod 4063a, a brush head 4063b and a rolling brush 4063c, the tail end of the brush head 4063b is connected with the brush rod 4063a, the head end of the brush head 4063b is connected with the rolling brush 4063c, and the rolling brush 4063c is connected with the brush head 4063b in a rolling manner on the brush head 4063 b.

When specifically using, the height of daub brush 4063 should be a little higher than the height of release head 4062, and the round brush 4063c on the daub brush 4063 can roll, conveniently paints the processing from the sealed glue that release head 4062 released, is favorable to painting sealed glue evenly firmly in the gap of two adjacent installation pipes 1.

The driving part 3 comprises a roller 301, a roller seat 302, a rotating seat 303 and a support rod 304, one end of the rotating seat 303 is arranged on the support rod 304, the roller seat 302 is rotatably connected with the other end of the rotating seat 303, the roller 301 is in rolling connection with the roller seat 302, and the roller 301 is in contact with the inner wall of the installation pipe 1.

When the device is used specifically, the roller 301 on each driving portion 3 is in contact with the inner wall of the installation tube 1, so as to facilitate the driving portion 3 to perform displacement operation, the roller seat 302 is rotatably connected with the other end of the rotating seat 303, and the baffle portion 2 can be selectively rotated or linearly displaced by rotating the position of the roller seat 302.

Baffle portion 2 includes two baffle bodies 201, two baffle bodies 201 are the semicircle type, two baffle bodies 201 are central symmetry and connect, the one end of baffle body 201 is provided with first connecting plate 202, the other end of baffle body 201 is provided with second connecting plate 203, first connecting plate 202 on one baffle body 201 and the second connecting plate 203 on another baffle body 201 pass through baffle slide rail 204 horizontal sliding connection, second connecting plate 203 on one baffle body 201 and the first connecting plate 202 on another baffle body 201 also pass through baffle slide rail 204 horizontal sliding connection, the outer lane of baffle body 201 is provided with embedding snap ring 205.

When specifically using, two mutual sliding connection of baffle body 201 are favorable to realizing that installation pipe 1 installation and sealed packing are interactive operation, and the outer lane of baffle body 201 is provided with embedding snap ring 205 and is favorable to managing 2 chunks of baffle portion between two adjacent installation pipes 1.

Be provided with injection portion spout 206 on two baffle bodies 201 respectively, be provided with two current-limiting post 207 in the injection portion spout 206, two current-limiting post 207 correspond respectively and run through two current-limiting post passageways 404 on the injection portion body 401, the one side that is close to baffle body 201 outer lane on two current-limiting post 207 runs through current-limiting post 207 respectively and is provided with circulation mouth 208, the size of a dimension of circulation mouth 208 matches each other with the size of a dimension of transfer passage 405, run through baffle body 201 on the side that injection portion spout 206 is close to baffle body 201 outer lane and be provided with two guide block passageways 209, two guide block 4061 correspond respectively and run through two guide block passageways 209, the upper and lower both ends of injection portion spout 206 are provided with slide rail 210 respectively.

When specifically using, current-limiting column 207 can realize opening stop control to sealed gluey transport, and when transfer passage 405 staggers with circulation mouth 208, sealed gluey transport is blocked, and when transfer passage 405 and circulation mouth 208 communicate, sealed gluey transport is normally gone on, and guide block passageway 209 can hold guide block 4061 and lean out and shrink, is favorable to installing 1 installation of pipe and sealed gluey packing interactive operation.

The opening and closing part 5 comprises a hand wheel 501, stroke rods 502 and a reinforcing frame 503, the two stroke rods 502 are respectively arranged on the baffle body 201, the two stroke rods 502 are in central symmetry, one end of the reinforcing frame 503 is connected with the stroke rods 502, the other end of the reinforcing frame 503 is connected with the baffle body 201, one side of each stroke rod 502, facing the other stroke rod 502, is recessed, a rack 505 is arranged at the recessed position, a gear 504 is arranged at the tail end of the hand wheel 501, and the hand wheel 501 is in transmission connection with the racks 505 on the two stroke rods 502 through the gears 504.

When the baffle plate is used specifically, a gear 504 is arranged at the tail end of the hand wheel 501, the hand wheel 501 is in transmission connection with the racks 505 on the two stroke rods 502 through the gear 504, and the two stroke rods 502 can be close to and far away from each other by rotating the hand wheel 501, so that the opening and closing movement between the two baffle plate bodies 201 is realized, and the operation is convenient.

The head end of the installation pipe 1 is provided with a matching groove 101, the tail end of the installation pipe 1 is provided with a matching boss 102, and the depth of the matching groove 101 is slightly larger than the length of the matching boss 102;

the tail end of the mounting pipe 1 is provided with a retaining column fixing groove 103, and two ends of the retaining column 6 are respectively provided with a fixing column 601;

the side of the shield column 6 facing the shield plate 2 is provided with two wire rope tabs 602, and the side of the shield plate 2 facing the shield column 6 is also provided with two wire rope tabs 602.

When the installation pipe is used specifically, the depth of the matching groove 101 is slightly larger than the length of the matching boss 102, so that the snap ring 205 can be embedded into a gap between the installation pipe and the snap ring, the tail end of the installation pipe 1 is provided with the retaining column fixing groove 103, the two ends of the retaining column 6 are respectively provided with the fixing column 601, the retaining column 6 can be firmly clamped at the tail end of the installation pipe 1, and the steel wire rope 7 can be connected and fixed on the baffle plate part 2 and the retaining column 6 through the steel wire rope pull ring 602.

The advantage of the second embodiment over the first embodiment is that: the two baffle bodies 201 are mutually connected in a sliding manner, so that the installation of the installation pipes 1 and the sealant filling interactive operation can be favorably realized, and the outer ring of each baffle body 201 is provided with the embedded snap ring 205, so that the baffle part 2 can be favorably clamped between two adjacent installation pipes 1; the flow limiting column 207 can realize start-stop control on sealant conveying, when the conveying channel 405 is staggered with the circulation port 208, the sealant conveying is blocked, when the conveying channel 405 is communicated with the circulation port 208, the sealant conveying is normally carried out, the guide block channel 209 can accommodate the guide block 4061 to extend out and contract, and interactive operation of installation of the installation pipe 1 and sealant filling is facilitated; a gear 504 is arranged at the tail end of the hand wheel 501, the hand wheel 501 is in transmission connection with racks 505 on the two stroke rods 502 through the gear 504, and the two stroke rods 502 can be close to and far away from each other by rotating the hand wheel 501, so that the opening and closing movement between the two baffle bodies 201 is realized, and the operation is convenient; the depth of the matching groove 101 is slightly larger than the length of the matching boss 102, so that the snap ring 205 can be embedded into a gap between the two, the tail end of the installation pipe 1 is provided with a retaining column fixing groove 103, two ends of the retaining column 6 are respectively provided with a fixing column 601, the retaining column 6 can be firmly clamped at the tail end of the installation pipe 1, and the steel wire rope 7 can be connected and fixed on the baffle plate part 2 and the retaining column 6 through the steel wire rope pull ring 602.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent.

Claims (10)

1. The utility model provides a reinforced concrete drain pipe construction subassembly which characterized in that: the assembling device comprises mounting pipes (1) and an assembling mechanism, wherein the mounting pipes (1) are connected end to end, the assembling mechanism is positioned inside a pipe body of the mounting pipes (1), the assembling mechanism further comprises baffle parts (2), driving parts (3), injection parts (4), opening and closing parts (5), baffle columns (6), steel wire ropes (7) and manual hoists (8), the baffle parts (2) are positioned between two adjacent mounting pipes (1), the two injection parts (4) are respectively and symmetrically arranged on the left side and the right side of the baffle parts (2), the two injection parts (4) respectively penetrate through the baffle parts (2) from front to back, the upper ends and the lower ends of the front penetrating ends and the rear penetrating ends of the two injection parts (4) are respectively provided with a plurality of driving parts (3), the upper driving parts and the lower driving parts (3) of the same penetrating ends are connected through first connecting rods (305), the left driving parts and the right driving parts (3) of the same penetrating ends are connected through second connecting rods (306), the opening and closing part (5) is arranged on the baffle part (2), the retaining column (6) is arranged at one end of the outer side of the installation pipe (1) to be installed, the manual hoist (8) is located between the baffle part (2) and the retaining column (6), and the manual hoist (8) is connected with the baffle part (2) and the retaining column (6) through a plurality of steel wire ropes (7).

2. A reinforced concrete drain pipe construction assembly as claimed in claim 1, wherein: the injection part (4) comprises an injection part body (401), sliding grooves (402) and releasing members (406), the injection part body (401) is connected with the baffle part (2) in a left-right sliding mode, the sliding grooves (402) are respectively arranged at the upper end and the lower end of the injection part body (401), and the releasing members (406) are respectively arranged on one side face, close to the inner wall of the installation pipe (1), of the injection part body (401).

3. A reinforced concrete drain pipe construction assembly as claimed in claim 2, wherein: the front end of the injection part body (401) is provided with a sealant inlet (403), the sealant inlet (403) can be connected with a delivery pipe, a delivery channel (405) is arranged inside the injection part body (401), the sealant inlet (403) is in conduction connection with the delivery channel (405), the release members (406) are provided with inner cavities and are in end-to-end conduction, and the two release members (406) are also in conduction connection with the delivery channel (405);

two flow-limiting column channels (404) are arranged between the two release members (406) on the injection part body (401), the two flow-limiting column channels (404) penetrate through the injection part body (401) from left to right, and the sealant inlet (403) is located between the two flow-limiting column channels (404).

4. A reinforced concrete drain pipe construction assembly as claimed in claim 3, wherein: the releasing component (406) comprises a guide block (4061), a releasing head (4062) and glue smearing brushes (4063), the releasing head (4062) is arranged on one side face, close to the inner wall of the installation pipe (1), of the guide block (4061), and the two glue smearing brushes (4063) are respectively arranged on the upper side and the lower side of the releasing head (4062);

the daub brush (4063) comprises a brush rod (4063a), a brush head (4063b) and a rolling brush (4063c), the tail end of the brush head (4063b) is connected with the brush rod (4063a), the head end of the brush head (4063b) is connected with the rolling brush (4063c), and the rolling brush (4063c) is connected with the brush head (4063b) in a rolling mode on the brush head (4063 b).

5. A reinforced concrete drain pipe construction assembly as claimed in claim 4, wherein: drive division (3) include gyro wheel (301), gyro wheel seat (302), rotate seat (303) and branch (304), the one end setting of rotating seat (303) is on branch (304), gyro wheel seat (302) rotates with the other end of rotating seat (303) and is connected, gyro wheel (301) and gyro wheel seat (302) roll connection, gyro wheel (301) and the inner wall of installation pipe (1) contact of laminating mutually.

6. A reinforced concrete drain pipe construction assembly as claimed in claim 5, wherein: baffle portion (2) include two baffle bodies (201), two baffle body (201) are the semicircle type, two baffle body (201) are central symmetry and connect, the one end of baffle body (201) is provided with first connecting plate (202), the other end of baffle body (201) is provided with second connecting plate (203), one first connecting plate (202) on baffle body (201) and second connecting plate (203) on another baffle body (201) pass through baffle slide rail (204) horizontal sliding connection, one second connecting plate (203) on baffle body (201) and first connecting plate (202) on another baffle body (201) also pass through baffle slide rail (204) horizontal sliding connection, the outer lane of baffle body (201) is provided with embedding snap ring (205).

7. A reinforced concrete drain pipe construction assembly as claimed in claim 6, wherein: the two baffle bodies (201) are respectively provided with an injection part sliding groove (206), the injection part sliding groove (206) is internally provided with two flow limiting columns (207), the two flow limiting columns (207) respectively and correspondingly penetrate through two flow limiting column channels (404) on the injection part body (401), one side of the two flow limiting columns (207) close to the outer ring of the baffle body (201) is respectively provided with a flow port (208) through the flow limiting column (207), the size of the circulation opening (208) and the size of the conveying channel (405) are matched with each other, the side surface of the injection part sliding groove (206) close to the outer ring of the baffle body (201) is provided with two guide block channels (209) by penetrating through the baffle body (201), the two guide blocks (4061) respectively penetrate through the two guide block channels (209) correspondingly, the upper end and the lower end of the injection part sliding groove (206) are respectively provided with a sliding rail (210).

8. A reinforced concrete drain pipe construction assembly as claimed in claim 7, wherein: the opening and closing part (5) comprises a hand wheel (501), stroke rods (502) and a reinforcing frame (503), wherein the stroke rods (502) are arranged on a baffle body (201) respectively, the stroke rods (502) are in central symmetry, one end of the reinforcing frame (503) is connected with the stroke rods (502), the other end of the reinforcing frame (503) is connected with the baffle body (201), the stroke rods (502) are sunken towards one side of the other stroke rod (502), racks (505) are arranged at the sunken positions, gears (504) are arranged at the tail ends of the hand wheel (501), and the hand wheel (501) is in transmission connection with the racks (505) on the two stroke rods (502) through the gears (504).

9. A reinforced concrete drain pipe construction assembly as claimed in claim 8, wherein: the head end of the mounting pipe (1) is provided with a matching groove (101), the tail end of the mounting pipe (1) is provided with a matching boss (102), and the depth of the matching groove (101) is slightly larger than the length of the matching boss (102);

a retaining column fixing groove (103) is formed in the tail end of the mounting pipe (1), and fixing columns (601) are respectively arranged at two ends of the retaining column (6);

one side of the blocking column (6) facing the blocking plate part (2) is provided with two steel wire rope pull rings (602), and one side of the blocking plate part (2) facing the blocking column (6) is also provided with two steel wire rope pull rings (602).

10. The construction method of a reinforced concrete drain pipe construction assembly according to claim 9, wherein: the method comprises the following steps:

s1, preparing in advance, placing an assembling mechanism in the interiors of the pipe bodies of a plurality of mounting pipes (1), aligning an embedding snap ring (205) on a baffle plate part (2) to a gap formed by matching a matching groove (101) and a matching boss (102) between two adjacent mounting pipes (1), rotating a hand wheel (501), expanding two baffle plate bodies (201) until the embedding snap ring (205) is clamped in the gap between the two adjacent mounting pipes (1), fixing a baffle column (6) in a baffle column fixing groove (103) of the mounting pipe (1) to be mounted, and connecting a sealant conveying pipe at a sealant inlet (403) of an injection part body (401);

S2, assembling the drain pipe, rotating the manual block (8) to tighten the steel wire rope (7), and aligning the matching groove (101) at the head end of the mounting pipe (1) to be mounted to the matching boss (102) at the tail end of the mounted mounting pipe (1) to draw together until the two are completely matched;

s3, filling sealant, rotating a hand wheel (501), slightly contracting the two baffle bodies (201) until a release head (4062) and a glue applying brush (4063) extend out of the outer sides of the baffle bodies (201) and a circulation port (208) is overlapped with a conveying channel (405), holding a first connecting rod (305) or a second connecting rod (306), circumferentially rotating the baffle parts (2) through a driving part (3), enabling the sealant to enter a sealant inlet (403) through a sealant conveying pipe at the moment, reaching a release member (406) through the circulation port (208) and the conveying channel (405), and finally releasing through the release head (4062) to hermetically fill a gap formed by matching of a matching groove (101) and a matching boss (102) between two adjacent mounting pipes (1);

and S4, assembling the next section, after sealing and filling, rotating the hand wheel (501) again to telescopically adjust the two baffle bodies (201), enabling the circulation port (208) and the conveying channel (405) to be mutually staggered, cutting off the supply of the sealant, rotating the direction of the roller (301) of the driving part (3), displacing the baffle part (2) to the next section of the installation pipe (1), and continuously repeating the operation.

Images