CN219381682U - Polymer prevents arranging integrative waterproofing membrane overlap joint processing tool equipment - Google Patents

Abstract

The utility model relates to an integrative waterproofing membrane overlap joint processing machines equipment is prevented arranging to polymer belongs to waterproof engineering construction equipment field, and its technical essential includes the casing, set up transversely to run through on the lateral wall of casing one side the processing chamber of casing, the processing chamber is located the opening at casing both ends, and one of them opening is for sending into the mouth, and another is for sending out the mouth, the chamber end of processing chamber is provided with response gang tool and drive response gang tool opens the actuating mechanism who stops, leave the distance between the chamber top surface of response gang tool and processing chamber, send into the processing intracavity from sending into the mouth when waterproofing membrane, response gang tool can cut waterproofing membrane. The utility model has the effect that can prevent arranging integrative waterproofing membrane to the polymer and cut the water drainage tank fast, form the equal thickness, with the level and smooth overlap joint face of width.

Description

Polymer prevents arranging integrative waterproofing membrane overlap joint processing tool equipment

Technical Field

The application relates to the field of waterproof engineering construction equipment, in particular to high polymer anti-drainage integrated waterproof coiled material lap joint treatment equipment.

Background

The short-side lap joint sealing treatment of the macromolecule anti-drainage integrated waterproof coiled material in the current market has a certain technical difficulty, and the national standard requirement cannot be met by depending on the self performance of the coiled material. The leakage hidden trouble caused by the infirm lap joint is large, and after the drainage groove below the short side of the high polymer drainage-preventing integrated waterproof coiled material is treated by special equipment, a flat lap joint surface with uniform thickness and uniform width is formed, and then self-adhesion lap joint or welding construction is carried out.

Electric tools such as a hot melting machine and a welding gun which are commonly used in the market at present cannot completely clean the drainage groove below the high polymer waterproof coiled material sheet, and the main reason is that quality flaws always exist in short side treatment of the high polymer waterproof coiled material, so that the lap joint problem cannot be solved from the material, and the short side of the high polymer waterproof coiled material cannot thoroughly remove the defect of the drainage groove. Meanwhile, the hot melting equipment is adopted to directly weld the waterproof coiled material integrated with the macromolecule anti-drainage, so that the drainage groove is easily blocked after being melted, and the function of the macromolecule anti-drainage is weakened.

Disclosure of Invention

In order to be able to prevent arranging integrative waterproofing membrane to the polymer and carry out the quick escape canal that cuts, form the equal thickness, with the level overlap joint face of width, realize the polymer and prevent arranging integrative waterproofing membrane minor face seal overlap joint, this application provides a polymer and prevents arranging integrative waterproofing membrane overlap joint treatment machines equipment.

The application provides a polymer prevents arranging integrative waterproofing membrane overlap joint processing machines equipment adopts following technical scheme:

the utility model provides an integrative waterproofing membrane overlap joint processing machines equipment is prevented arranging to polymer, includes the casing, set up on the lateral wall of casing one side transversely run through the processing chamber of casing, the processing chamber is located the opening at casing both ends, and one of them opening is for sending into the mouth, and another is for sending out the mouth, the chamber bottom of processing chamber is provided with response combination cutter and drive response combination cutter opens the actuating mechanism who stops, leave the distance between the chamber top surface of response combination cutter and processing chamber, send into the processing intracavity from sending into the mouth when waterproofing membrane, response combination cutter can cut waterproofing membrane.

Through adopting above-mentioned technical scheme, send into the inside in processing chamber with waterproofing membrane's edge from sending into the mouth, transversely pull waterproofing membrane, waterproofing membrane is from sending into mouthful to sending out the mouth and remove, along with waterproofing membrane's removal, the water drainage tank is cut to waterproofing membrane's edge fast to the response combination cutter, forms the level overlap joint face of equal thickness, same width to be convenient for make waterproofing membrane minor face seal overlap joint.

Optionally, the bottom surface of the processing cavity is provided with an installation cavity communicated with the processing cavity, and the induction combined cutter and the driving mechanism are installed in the installation cavity.

Through adopting above-mentioned technical scheme, install the inside of installation cavity with response combination cutter, be convenient for restrict the position of response combination cutter to make response combination cutter when cutting waterproofing membrane, the difficult removal of position or the condition of damaging appear in response combination cutter.

Optionally, a chip removal port communicating the installation cavity with the outer side of the casing is arranged in the casing and below the installation cavity.

Through adopting above-mentioned technical scheme, thereby can discharge the sweeps that enter into the installation intracavity through the chip removal mouth, reduce the piling up of sweeps in the installation intracavity.

Optionally, the number of the induction combined cutters is four and the induction combined cutters are arranged in a longitudinal and transverse arrangement mode, the induction combined cutters comprise cutter holders, cutter cabins communicated with the top surfaces of cavities of the cutter holders are arranged on the cutter holders, and spiral cutter heads are connected in the cutter cabins in a rotating mode; the driving mechanism comprises a driving motor, a motor shaft of the driving motor is parallel to the axis of the spiral cutter head, the driving motor is located at the center of a space surrounded by a plurality of spiral cutter heads, a driving gear is fixed on the motor shaft of the driving motor, driven gears are fixed on each spiral cutter head, and the driven gears are distributed on the circumferential direction of the driving gears and meshed with the driving gears.

Through adopting above-mentioned technical scheme, spiral tool bit cuts waterproofing membrane to form the overlap joint platform in waterproofing membrane's edge.

Optionally, the top surface and the bottom surface of the processing cavity are both provided with metal panels.

By adopting the technical scheme, the wear resistance of the top and bottom of the processing cavity is improved, so that the service life of the lap joint processing equipment is prolonged.

Optionally, one end of the processing cavity near the feeding port is provided with a feeding pushing mechanism, one end of the processing cavity near the feeding port is provided with a discharging pushing mechanism, and the shell is provided with a control mechanism for synchronously controlling the feeding pushing mechanism and the starting and stopping of the discharging pushing mechanism.

Through adopting above-mentioned technical scheme, thereby can drive waterproofing membrane through feeding pushing mechanism and ejection of compact pushing mechanism and remove in the processing intracavity to save the manual work to waterproofing membrane's propelling movement, accelerate the efficiency of waterproofing membrane cutting.

Optionally, the feeding pushing mechanism comprises a feeding roller shaft rotatably connected to the casing, a plurality of feeding rollers are arranged on the feeding roller shaft at intervals along the axial direction of the feeding roller shaft, and a distance is reserved between the feeding rollers and the top surface of the processing cavity; the discharging pushing mechanism comprises a discharging roller shaft which is rotatably connected to the shell, a plurality of discharging rollers are arranged on the discharging roller shaft at intervals along the axial direction of the discharging roller shaft, and a distance is reserved between the discharging rollers and the top surface of the processing cavity; the control mechanism comprises a first driving sprocket fixed on the feeding roll shaft, a second driving sprocket fixed on the discharging roll shaft, a driving chain meshed with the first driving sprocket and the second driving sprocket respectively, and a control motor, wherein a sprocket is arranged on a motor shaft of the control motor, and the sprocket is meshed with the driving chain.

Through adopting above-mentioned technical scheme, control mechanism drives feeding roller and ejection of compact roller simultaneously and carries out synchronous drive to make feeding pushing mechanism and feeding pushing mechanism can operate simultaneously, guarantee the stability of waterproofing membrane in the propelling movement in-process.

Optionally, the casing is from the horizontal bisection of processing chamber place highly divide into two, including last half casing and lower half casing, it is articulated mutually to go up between half casing and the lower half casing, be provided with locking mechanical system between last half casing and the lower half casing, when last half casing and lower half casing are detained mutually, locking mechanical system locks the relative state of last half casing and lower half casing.

Through adopting above-mentioned technical scheme, thereby upper half casing can upwards turn up and make upper half casing and lower half casing separation, when upper half casing and lower half casing separation, can expose the chamber bottom in processing chamber, the maintainer of being convenient for overhauls the change to response gang tool.

Optionally, the locking mechanical system adopts the electromagnetic lock, including fixing the tapered end of last half casing and fixing the hasp board at the latter half casing, when last half casing and latter half casing lock, the tapered end is relative with the hasp board, thereby the tapered end is after the circular telegram, thereby the tapered end produces magnetic attraction and the hasp board is inhaled fixedly.

By adopting the technical scheme, the locking and the separation of the upper half shell and the lower half shell can be realized rapidly.

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

1. the edge of the waterproof coiled material is fed into the processing cavity from the feeding opening, the waterproof coiled material is transversely pulled, the waterproof coiled material moves from the feeding opening to the feeding opening, along with the movement of the waterproof coiled material, the induction combined cutter rapidly cuts off the drainage groove on the edge of the waterproof coiled material to form a flat lap joint surface with equal thickness and width, so that the short sides of the waterproof coiled material are conveniently and hermetically lapped;

2. the waterproof coiled material can be driven to move in the processing cavity through the feeding pushing mechanism and the discharging pushing mechanism, so that the pushing of the waterproof coiled material by manpower is saved, and the cutting efficiency of the waterproof coiled material is accelerated;

3. the upper half shell can be turned upwards to enable the upper half shell to be separated from the lower half shell, and when the upper half shell is separated from the lower half shell, the cavity bottom of the processing cavity can be exposed, so that an maintainer can conveniently overhaul and replace the induction combined cutter.

Drawings

Fig. 1 is a schematic structural diagram of a polymer anti-drainage integrated waterproof roll lap joint treatment machine tool device according to the first embodiment of the present application;

FIG. 2 is a schematic view of the structure of the bottom surface of the process chamber of the present application;

FIG. 3 is a schematic view of the structure of the installation cavity in the present application;

FIG. 4 is a schematic diagram of the structure of the induction combined tool of the present application;

FIG. 5 is a schematic view of the connection structure between the induction combined tool and the driving mechanism in the present application;

FIG. 6 is a schematic view of the connection between the feed pushing mechanism, the discharge pushing mechanism and the control mechanism in the present application;

fig. 7 is a schematic structural diagram of a polymer anti-drainage integrated waterproof roll lap joint treatment machine device according to a second embodiment of the present application

Reference numerals illustrate: 1. a housing; 101. an upper half shell; 102. a lower half shell; 11. a processing chamber; 111. a feed port; 112. a delivery port; 113. a metal panel; 12. a mounting cavity; 13. a chip removal port; 14. a first concave cavity; 15. a second concave cavity; 2. sensing the combined cutter; 21. a tool holder; 211. a cutter cabin; 22. screw type cutter head; 221. a cutter shaft; 222. a helical blade; 3. a driving mechanism; 31. a driving motor; 32. a drive gear; 33. a driven gear; 4. a feed pushing mechanism; 41. a feeding roller shaft; 42. a feed roller; 5. a discharging pushing mechanism; 51. a discharging roll shaft; 52. a discharge roller; 6. a control mechanism; 61. a first drive sprocket; 62. a second drive sprocket; 63. a drive chain; 64. controlling a motor; 65. a sprocket; 7. a locking mechanism; 71. a lock head; 72. a locking plate.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-7.

Example 1

The embodiment of the application discloses a polymer anti-drainage integrated waterproof coiled material lap joint treatment equipment.

Referring to fig. 1 and 2, the polymer anti-drainage integrated waterproof coiled material lap joint treatment equipment comprises a machine shell 1, wherein a machining cavity 11 transversely penetrating through the machine shell 1 along the length direction of the machine shell 1 is formed in the side wall of one side of the machine shell 1, and the machining cavity 11 is respectively communicated with two ends of the machine shell 1 in the length direction. The processing chamber 11 is located at two openings of the casing 1, wherein one opening is a feed-in port 111 of the processing chamber 11, and the other opening is a feed-out port 112 of the processing chamber 11.

Referring to fig. 2 and 3, a mounting cavity 12 communicating with the processing cavity 11 is provided on the cavity bottom surface of the processing cavity 11, and a plurality of induction combined tools 2 are installed in the mounting cavity 12, and the number of the induction combined tools 2 in the embodiment of the present application is four and is arranged in a longitudinal and transverse arrangement. The induction combined tool 2 extends out from the cavity opening of the mounting cavity 12 and is spaced from the top end of the processing cavity 11.

Referring to fig. 2 and 4, the induction combined tool 2 includes a tool holder 21, a tool compartment 211 communicating with a top surface of a cavity of the tool holder 21 is provided on the tool holder 21, and a screw type tool bit 22 is rotatably connected to an inside of the tool compartment 211. The screw type cutter head 22 includes a cutter shaft 221 vertically arranged and rotatably connected to the inside of the cutter compartment 211, and a screw blade 222 in the circumferential direction of the cutter shaft 221, and the screw blade 222 and the cutter shaft 221 are integrally machined or welded and fixed. The bottom end of the cutter shaft 221 penetrates the cutter holder 21 so as to protrude from the bottom end of the cutter holder 21.

Referring to fig. 2 and 5, a driving mechanism 3 for driving the start and stop of the induction combined cutter 2 is further provided in the interior of the installation cavity 12.

The driving mechanism 3 comprises a driving motor 31 fixed in the mounting cavity 12, and a motor shaft of the driving motor 31 is parallel to the cutter shaft 221. The driving motor 31 is located at a central position of a space surrounded by the four cutter shafts 221. A driving gear 32 is fixed on a motor shaft of the driving motor 31, and driven gears 33 are fixed on each cutter shaft 221, and the driven gears 33 are distributed in the circumferential direction of the driving gear 32 and meshed with the driving gear 32. When the driving motor 31 is started, the motor shaft of the driving motor 31 rotates, and all the cutter shafts 221 are driven to coaxially rotate under the transmission action of the driving gear 32 and the driven gear 33, and the spiral cutter heads 22 synchronously rotate along with the rotation of the cutter shafts 221.

The edge of the waterproof coiled material is fed into the processing cavity 11 from the feeding port 111 of the processing cavity 11, and when the edge of the waterproof coiled material passes through the induction combined cutter 2, the induction combined cutter 2 cuts the edge of the waterproof coiled material, so that the edge of the waterproof coiled material is cut and molded.

Referring to fig. 1, a metal panel 113 is provided on the top surface and bottom surface of the processing chamber 11. The metal panel 113 positioned on the top surface of the processing cavity 11 is stuck and fixed on the top surface of the processing cavity 11, the metal panel 113 positioned on the bottom surface of the processing cavity 11 is stuck and fixed on the top surface of the processing cavity 11, and the spiral cutter head 22 of the induction combined cutter 2 extends out from the upper surface of the metal panel 113 on the bottom surface of the processing cavity 11.

Referring to fig. 1 and 3, a chip discharge port 13 is provided in the housing 1 below the installation cavity 12 to communicate the installation cavity 12 with the outside of the housing 1, and the chip cut by the induction combined cutter 2 and fallen into the installation cavity 12 is discharged from the chip discharge port 13 through the chip discharge port 13.

Referring to fig. 2 and 6, a first concave cavity 14 is disposed at one end of the bottom surface of the processing cavity 11 near the inlet 111, a feeding pushing mechanism 4 is disposed in the first concave cavity 14, the feeding pushing mechanism 4 includes a feeding roller shaft 41 rotatably connected in the first concave cavity 14, and the feeding roller shaft 41 is transversely disposed and parallel to the inlet 111. A plurality of feed rollers 42 are arranged on the feed roller shaft 41 at intervals along the axial direction of the feed roller shaft 41, and the feed rollers 42 and the feed roller shaft 41 are integrally formed or welded. The top end of the feeding roller 42 extends out from the cavity opening of the first concave cavity 14 and is spaced from the cavity top surface of the processing cavity 11, and the top end of the feeding roller 42 is lower than the spiral cutter head 22.

A second concave cavity 15 is arranged at one end, close to the delivery outlet 112, of the bottom surface of the processing cavity 11, a discharge pushing mechanism 5 is arranged in the second concave cavity 15, the discharge pushing mechanism 5 comprises a discharge roller shaft 51 rotatably connected in the second concave cavity 15, and the discharge roller shaft 51 is transversely arranged and parallel to the delivery outlet 112. A plurality of discharging rollers 52 are arranged on the discharging roller shaft 51 at intervals along the axial direction of the discharging roller shaft 51, and the discharging rollers 52 and the discharging roller shaft 51 are integrally formed or welded and fixed. The top end of the discharging roller 52 extends out from the cavity opening of the second concave cavity 15 and is spaced from the cavity top surface of the processing cavity 11, and the top end of the discharging roller 52 is lower than the screw cutter head 22.

A control mechanism 6 for synchronously controlling the start and stop of the feed roller shaft 41 and the discharge roller shaft 51 is arranged between the feed roller shaft 41 and the discharge roller shaft 51, and the control mechanism 6 comprises a first driving sprocket 61 fixed on the feed roller shaft 41, a second driving sprocket 62 fixed on the discharge roller shaft 51 and a driving chain 63 meshed with the first driving sprocket 61 and the second driving sprocket 62 respectively.

The control mechanism 6 further comprises a control motor 64, a chain wheel 65 is fixed on a motor shaft of the control motor 64, and the chain wheel 65 is meshed with the transmission chain 63. The control motor 64 is fixed inside the casing 1. When the control motor 64 is started, the sprocket 65 drives the transmission chain 63 to move so as to synchronously rotate the feed roller shaft 41 and the discharge roller shaft 51.

When the edge of the waterproof roll is fed into the processing cavity 11 from the feeding opening 111, the feeding roller 42 and the top surface of the processing cavity 11 squeeze the edge of the waterproof roll, and the waterproof roll is driven to move along with the rotation of the feeding roller 42 in the direction where the waterproof roll is fed out of the processing cavity 112. Similarly, when the waterproof roll moves between the discharge roller 52 and the top surface of the processing chamber 11, the cut waterproof roll is extruded by the discharge roller 52 and the top surface of the processing chamber 11, and the waterproof roll is driven to be sent out from the sending-out port 112 along with the rotation of the discharge roller 52.

The application method of the macromolecule anti-drainage integrated waterproof coiled material lap joint treatment equipment comprises the following steps: the edge of the waterproof coiled material is fed into the processing cavity 11 from the feeding opening 111, and the induction combined cutter 2 positioned at the bottom end of the processing cavity 11 cuts the waterproof coiled material, so that the edge of the waterproof coiled material forms a desired shape, and the cutting treatment of the edge of the waterproof coiled material is completed.

Example two

The embodiment of the application discloses a polymer anti-drainage integrated waterproof coiled material lap joint treatment equipment.

Referring to fig. 7, the second embodiment is different from the first embodiment in that; the housing 1 is divided into two parts transversely from the height of the processing cavity 11, and comprises an upper half shell 101 and a lower half shell 102, wherein the upper half shell 101 and the lower half shell 102 are hinged. A locking mechanism 7 is provided between the upper half casing 101 and the lower half casing 102 to lock the relative positions of the upper half casing 101 and the lower half casing 102 when the upper half casing 101 and the lower half casing 102 are fastened and fixed together.

The locking mechanism 7 adopts an electromagnetic lock, and comprises a locking head 71 fixed on the bottom surface of the cavity of the upper half shell 101 and a locking plate 72 fixed on the top surface of the cavity of the lower half shell 102, wherein when the upper half shell 101 and the lower half shell 102 are buckled together, the locking head 71 is opposite to the locking plate 72. By energizing the locking head 71, when a current passes through the locking head 71, the locking head 71 generates a magnetic attraction force to tightly attract the latch plate 72, thereby locking between the upper half case 101 and the lower half case 102.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. A polymer prevents arranging integrative waterproofing membrane overlap joint processing machines equipment, its characterized in that: including casing (1), set up transversely run through on the lateral wall of casing (1) one side processing chamber (11) of casing (1), processing chamber (11) are located the opening at casing (1) both ends, and one of them opening is for sending into mouth (111), and another is for sending out mouth (112), the chamber bottom of processing chamber (11) is provided with response combination tool (2) and drive actuating mechanism (3) that response combination tool (2) started and stopped, leave the distance between the chamber top surface of response combination tool (2) and processing chamber (11), send into processing chamber (11) when waterproofing membrane from sending into mouth (111), response combination tool (2) can cut waterproofing membrane.

2. The polymeric anti-drainage integrated waterproof roll overlap joint treatment equipment according to claim 1, wherein: the induction combined tool is characterized in that a mounting cavity (12) communicated with the processing cavity (11) is formed in the bottom surface of the processing cavity (11), and the induction combined tool (2) and the driving mechanism (3) are mounted in the mounting cavity (12).

3. The polymeric anti-drainage integrated waterproof roll overlap joint treatment equipment according to claim 2, wherein: and a chip removal port (13) which is used for communicating the mounting cavity (12) with the outer side of the casing (1) is arranged in the casing (1) and below the mounting cavity (12).

4. The polymeric anti-drainage integrated waterproof roll overlap joint treatment equipment according to claim 1, wherein: the number of the induction combined cutters (2) is four and the induction combined cutters are arranged in a longitudinal and transverse mode, each induction combined cutter (2) comprises a cutter rest (21), each cutter rest (21) is provided with a cutter cabin (211) with communicated cavity top surfaces of the cutter rest (21), and spiral cutter heads (22) are rotatably connected in the cutter cabins (211); the driving mechanism (3) comprises a driving motor (31), a motor shaft of the driving motor (31) is parallel to the axis of the spiral cutter head (22), the driving motor (31) is located at the central position of a space surrounded by a plurality of spiral cutter heads (22), a driving gear (32) is fixed on the motor shaft of the driving motor (31), driven gears (33) are fixed on each spiral cutter head (22), and the driven gears (33) are distributed on the circumferential direction of the driving gear (32) and meshed with the driving gear (32).

5. The polymeric anti-drainage integrated waterproof roll overlap joint treatment equipment according to claim 1, wherein: the top surface and the bottom surface of the processing cavity (11) are provided with metal panels (113).

6. The polymeric anti-drainage integrated waterproof roll overlap joint treatment equipment according to claim 1, wherein: one end of the processing cavity (11) close to the feeding port (111) is provided with a feeding pushing mechanism (4), one end of the processing cavity (11) close to the feeding port (112) is provided with a discharging pushing mechanism (5), and the shell (1) is provided with a control mechanism (6) for synchronously controlling the feeding pushing mechanism (4) and the starting and stopping of the discharging pushing mechanism (5).

7. The polymeric anti-drainage integrated waterproof roll overlap joint treatment equipment according to claim 6, wherein: the feeding pushing mechanism (4) comprises a feeding roller shaft (41) which is rotatably connected to the machine shell (1), a plurality of feeding rollers (42) are arranged on the feeding roller shaft (41) at intervals along the axial direction of the feeding roller shaft (41), and a distance is reserved between the feeding rollers (42) and the top surface of the processing cavity (11); the discharging pushing mechanism (5) comprises a discharging roller shaft (51) which is rotatably connected to the machine shell (1), a plurality of discharging rollers (52) are arranged on the discharging roller shaft (51) at intervals along the axial direction of the discharging roller shaft (51), and a distance is reserved between the discharging rollers (52) and the top surface of the processing cavity (11); the control mechanism (6) comprises a first driving sprocket (61) fixed on the feeding roller shaft (41), a second driving sprocket (62) fixed on the discharging roller shaft (51), a driving chain (63) meshed with the first driving sprocket (61) and the second driving sprocket (62) and a control motor (64), a sprocket (65) is arranged on a motor shaft of the control motor (64), and the sprocket (65) is meshed with the driving chain (63).

8. The polymeric anti-drainage integrated waterproof roll overlap joint treatment equipment according to claim 1, wherein: the casing (1) is transversely divided into two parts from the height of a processing cavity (11), and comprises an upper half shell (101) and a lower half shell (102), wherein the upper half shell (101) is hinged to the lower half shell (102), a locking mechanism (7) is arranged between the upper half shell (101) and the lower half shell (102), and when the upper half shell (101) is buckled with the lower half shell (102), the locking mechanism (7) locks the relative states of the upper half shell (101) and the lower half shell (102).

9. The polymeric anti-drainage integrated waterproof roll overlap joint treatment equipment according to claim 8, wherein: the locking mechanism (7) adopts an electromagnetic lock, and comprises a lock head (71) fixed on the upper half shell (101) and a locking plate (72) fixed on the lower half shell (102), wherein when the upper half shell (101) and the lower half shell (102) are buckled, the lock head (71) is opposite to the locking plate (72), and after the lock head (71) is electrified, the lock head (71) generates magnetic attraction to be fixedly attracted with the locking plate (72).