CN115781867B - Pouring device of adjustable prefabricated component template - Google Patents

Abstract

The invention discloses a pouring device of an adjustable prefabricated component template, which comprises a feeding device, a pouring mechanism and a conveying device, wherein the conveying device is fixedly arranged at the center of the bottom of the pouring mechanism, the feeding device is fixedly connected with the side end face of the pouring mechanism, a first supporting frame is fixedly arranged in the feeding device, a first driving motor is fixedly arranged at one side of the top of the first supporting frame, a first rolling shaft is fixedly connected with the center of one end face of the first driving motor, a second driving motor is fixedly arranged on the outer surface of the upper part of the first supporting frame, and a second rolling shaft is fixedly connected with the center of one end face of the second driving motor. According to the invention, through the cooperation operation among the feeding device, the pouring mechanism and the conveying device, the size of the discharge hole can be conveniently adjusted according to the size of the template mold, so that the efficiency of injecting concrete into the template mold is improved, and meanwhile, the production efficiency of prefabricated components with different sizes can be ensured.

Description

Pouring device of adjustable prefabricated component template

Technical Field

The invention relates to the technical field of casting equipment of prefabricated component templates, in particular to a casting device of an adjustable prefabricated component template.

Background

The prefabricated part is a steel, wood or concrete part which is prefabricated in a factory or on site according to design specifications, and when the prefabricated part is manufactured, a pouring device of a template is needed, so that concrete is poured into a template die until the concrete is solidified and molded in the template die, and the prefabricated part is manufactured, wherein when the pouring device of the prefabricated part template is used, the efficiency of the prefabricated part production can be improved, so that the stable production of the prefabricated part is ensured, but the existing pouring device of the prefabricated part template still has the following problems when in operation and use:

The size adjustment up to the discharge opening according to the formwork die is inconvenient, so that the efficiency of injecting concrete into the formwork die is affected, and the efficiency of producing prefabricated components with different sizes is affected, and therefore, a pouring device for an adjustable prefabricated component formwork is required to be provided, so that the problems in the background art are solved.

Disclosure of Invention

The invention aims to provide a pouring device of an adjustable prefabricated component template, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a pouring device of adjustable prefabricated component template, includes loading attachment, pouring mechanism and conveyor, conveyor fixed mounting is in the bottom center of pouring mechanism, loading attachment fixed connection is in the side end face of pouring mechanism, loading attachment's inside fixed mounting has first braced frame, first braced frame's top one side fixed mounting has first driving motor, first driving motor's an terminal surface center fixedly connected with first receipts spool, is first braced frame's upper portion surface fixed mounting has second driving motor, second driving motor's an terminal surface center fixedly connected with second receipts spool, the equal rolling of second receipts spool's both ends surface has the second haulage rope, the middle part surface rolling of first receipts spool has first haulage rope, first braced frame's outward appearance slip joint has the spacing, the inside rotation joint of spacing has spacing pivot, the middle part surface welding of spacing pivot has the upper hopper.

Preferably, the inside fixed mounting of pouring mechanism has the concrete storage case, the welding of the bottom both sides of concrete storage case has the second braced frame, the bottom surface center welding of concrete storage case has row material pipe, the top center fixed mounting of concrete storage case has the third driving motor, the inside of concrete storage case has been seted up the chamber that gathers materials, the bottom center fixedly connected with spiral feed shaft of third driving motor, the equal symmetrical welding of both sides surface of row material pipe has spacing cardboard, the surface of row material pipe just is located the center department rotation joint between the spacing cardboard has the transfer line, the one end surface welding of transfer line has first drive gear, the other end surface welding of transfer line has the second drive gear, the surface bottom of first drive gear is connected with first drive pinion, the upper surface meshing of first drive gear is connected with the second drive pinion, the middle part surface of second drive pinion and first drive pinion all welds the shutoff board, the bottom surface fixed mounting of row material pipe has the bottom surface, the bottom fixedly connected with of vibration isolator has the vibration rod vibration spring to reset the vibration portion, the vibration rod is cup jointed on the vibration spring.

Preferably, the inside fixed mounting of conveyor has the support base, the conveyer belt has been cup jointed to the middle part surface of support base, prefabricated component mould has evenly been placed to the upper surface of conveyer belt, the one end side fixed mounting of support base has driving motor, the another side fixed mounting of one end of support base has the electric cabinet, the equal fixed mounting in middle part both sides edge of support base has plunger type cylinder, the top fixedly connected with pressure-bearing diaphragm of plunger type cylinder, the equal fixedly connected with spacing inserted bar in pressure-bearing diaphragm both ends bottom surface, the top center welding of pressure-bearing diaphragm has the drive pinion rack.

Preferably, one end of the second traction rope is fixedly connected to the outer surface of one end of the limiting frame, one end of the first traction rope is fixedly connected to the center of one end top of the upper hopper, and the outer surface of the bottom of the upper hopper is in sliding abutting connection with the outer surface of the first supporting frame.

Preferably, the receiving hopper is arranged at the top center of the rear end face of the concrete storage box, the third driving motor is connected with the inner center of the discharge pipe in an inserting mode through a spiral feeding shaft at the bottom end, the first driving toothed plate and the second driving toothed plate are connected with the outer surface of the discharge pipe in a sliding mode through a plugging plate in an inserting mode, and the first driving toothed plate and the second driving toothed plate are connected with the outer surface of the discharge pipe in a sliding mode through a limiting clamping plate in a clamping mode.

Preferably, the outer surfaces of two sides of the bottom of the discharging pipe are welded with limiting collars, and the vibrating rod is in sliding connection with the outer surface of the bottom of the discharging pipe through the limiting collars.

Preferably, the driving toothed plate is meshed and connected with the outer surface of the transmission rod through a second transmission gear, and connecting clamping plates are arranged on two sides of the top of the prefabricated part die.

Preferably, the plunger cylinder is movably connected with the connecting clamping plate through a pressure-bearing transverse plate at the top, the concrete storage box is fixedly connected with the outer surfaces of the edges of the two sides of the supporting base through a second supporting frame at the bottom, and a trowelling plate is welded on the outer surface of the bottom of the second supporting frame.

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

1. Through setting up the stick that shakes in the both sides of arranging the material pipe, can vibrate the inside concrete of ascending prefabricated component mould to guarantee the production quality of prefabricated component, when prefabricated component mould rises simultaneously, can control to slide in arranging the material pipe inside between two sets of shutoff boards through the rise height of drive pinion rack, thereby can make row material pipe carry out the adaptation to the size of discharge port according to the size of prefabricated component mould and adjust, can guarantee simultaneously the efficiency of pouring to prefabricated component mould inside.

2. Through the cooperation operation between loading attachment, pouring mechanism and the conveyor, can be convenient for according to the size adjustment of template mould until to the bin outlet to improve the inside efficiency of concrete injection template mould, can guarantee the efficiency to the production of not unidimensional prefabricated component simultaneously.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present invention;

FIG. 2 is a schematic view of the structure of the side end of the main body of the present invention;

FIG. 3 is a schematic view of the rear end of the main body of the present invention;

FIG. 4 is a schematic structural view of a feeding device according to the present invention;

FIG. 5 is a schematic view of a casting mechanism according to the present invention;

FIG. 6 is a schematic view of a cross-sectional structure of a casting mechanism of the present invention;

FIG. 7 is a schematic view of a partial enlarged structure of the present invention A;

Fig. 8 is a schematic structural view of the conveying device of the present invention.

In the figure: 1-a feeding device; 2-pouring mechanism; 3-a conveying device; 4-a first take-up reel; 5-a first drive motor; 6-a second take-up reel; 7-a second drive motor; 8-a first support frame; 9-a second traction rope; 10-a limiting frame; 11-limiting a rotating shaft; 12-feeding a hopper; 13-a first traction rope; 14-a second support frame; 15-discharging pipe; 16-a concrete storage tank; 17-a third drive motor; 18-screw feed shaft; 19-an aggregate cavity; 20-a plugging plate; 21-a first transmission gear; 22-vibrator; 23-a return spring; 24-vibrating rod; 25-a first drive toothed plate; 26-a limiting clamping plate; 27-a second transmission gear; 28-a second drive toothed plate; 29-a transmission rod; 30-prefabricating a component die; 31-driving toothed plate; 32-an electric cabinet; 33-a conveyor belt; 34-a drive motor; 35-limiting inserted bars; 36-plunger type cylinder; 37-bearing cross plates; 38-support base.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a pouring device of adjustable prefabricated component template, including loading attachment 1, pouring mechanism 2 and conveyor 3, conveyor 3 fixed mounting is in the bottom center of pouring mechanism 2, loading attachment 1 fixed connection is in the side end face of pouring mechanism 2, the inside fixed mounting of loading attachment 1 has first braced frame 8, first braced frame 8's top one side fixed mounting has first driving motor 5, first driving motor 5's an terminal surface center fixedly connected with first receipts spool 4, be first braced frame 8's upper portion surface fixed mounting has second driving motor 7, second driving motor 7's an terminal surface center fixedly connected with second receipts spool 6, second receipts spool 6's both ends surface all has the second haulage rope 9, first receipts spool 4's middle part surface rolling has first haulage rope 13, first braced frame 8's outward appearance slip joint has spacing 10, spacing pivot 11 is rotated to the joint in the inside of spacing 10, spacing pivot 11's middle part surface welding has upper hopper 12.

The inside fixed mounting who pours mechanism 2 has concrete storage tank 16, the bottom both sides welding of concrete storage tank 16 have second braced frame 14, the bottom surface center welding of concrete storage tank 16 has row material pipe 15, the top center fixed mounting of concrete storage tank 16 has third driving motor 17, the inside of concrete storage tank 16 has seted up the chamber 19 that gathers materials, the bottom center fixedly connected with spiral feed shaft 18 of third driving motor 17, the both sides surface of row material pipe 15 all symmetrically welds spacing cardboard 26, the surface of row material pipe 15 just is located the central department rotation joint between spacing cardboard 26 has transfer line 29, the one end surface welding of transfer line 29 has first drive gear 21, the other end surface welding of transfer line 29 has second drive gear 27, the surface bottom of first drive gear 21 is connected with first drive pinion 25 in the meshing, the upper surface meshing of first drive gear 21 is connected with second drive pinion 28, the middle part surface of second drive pinion 28 and first drive pinion 25 all welds and has board 20, the bottom surface fixed mounting of row material pipe 15 has vibrator 22, the bottom surface of a vibration bar 22 has the symmetrical and has the shutoff spring to cup joints on the bottom surface of vibration bar 24.

The inside fixed mounting of conveyor 3 has a support base 38, the conveyer belt 33 has been cup jointed to the middle part surface of support base 38, prefabricated component mould 30 has evenly been placed to the upper surface of conveyer belt 33, the one end side fixed mounting of support base 38 has driving motor 34, the one end another side fixed mounting of support base 38 has electric cabinet 32, the equal fixed mounting in middle part both sides edge of support base 38 has plunger cylinder 36, the top fixedly connected with pressure-bearing diaphragm 37 of plunger cylinder 36, the equal fixedly connected with spacing inserted bar 35 in pressure-bearing diaphragm 37 both ends bottom surface, the top center welding of pressure-bearing diaphragm 37 has driving pinion rack 31.

One end fixed connection of second haulage rope 9 is at the one end surface of spacing 10 to can control the lift of upper hopper 12 at first braced frame 8 surface, the one end fixed connection of first haulage rope 13 is at the one end top center of upper hopper 12, thereby is convenient for control the rotation of upper hopper 12, and the bottom surface of upper hopper 12 slides and contradicts the surface of connection at first braced frame 8, thereby can guarantee the stability of upper hopper 12 at first braced frame 8 surface lift.

The receiving hopper has been seted up at the rear end face top center of concrete storage case 16, third driving motor 17 is pegged graft through the spiral feed shaft 18 of bottom and the inside center of arranging material pipe 15, thereby can be convenient for play the mediation effect to arranging the inside concrete of material pipe 15, first transmission pinion rack 25 and second transmission pinion rack 28 are pegged graft through the shutoff board 20 with the surface slip of arranging material pipe 15, thereby can control the inside emission of arranging material pipe 15, first transmission pinion rack 25 and second transmission pinion rack 28 pass through spacing cardboard 26 slip joint at the surface of arranging material pipe 15, thereby can play limiting displacement to the slip of first transmission pinion rack 25 and second transmission pinion rack 28.

The limiting lantern rings are welded on the outer surfaces of the two sides of the bottom of the material discharging pipe 15, the vibrating rod 24 is connected with the outer surface of the bottom of the material discharging pipe 15 in a sliding mode through the limiting lantern rings, so that the position of the vibrating rod 24 can be limited, the vibrating rod 24 is arranged on the two sides of the material discharging pipe 15, the rising precast element mould 30 can be vibrated by concrete, the production quality of precast elements is guaranteed, meanwhile, when the precast element mould 30 rises, the rising height of the toothed plate 31 can be driven, sliding of the two groups of plugging plates 20 can be controlled inside the material discharging pipe 15, and accordingly the material discharging pipe 15 can be adjusted in a matching mode according to the size of the precast element mould 30, and meanwhile the pouring efficiency of the precast element mould 30 can be guaranteed.

The driving toothed plate 31 is meshed with the outer surface of the driving rod 29 through the second driving gear 27, so that the second driving gear 27 and the first driving gear 21 are driven to synchronously rotate, the first driving gear 21 rotates to control the plugging plate 20 to slide in the material discharging pipe 15, and connection clamping plates are arranged on two sides of the top of the prefabricated part die 30, so that the plunger type air cylinder 36 can be conveniently connected with two sides of the prefabricated part die 30 through the pressure-bearing transverse plate 37.

The plunger cylinder 36 is movably connected with the connecting clamping plate through the pressure-bearing transverse plate 37 at the top, so that the prefabricated part die 30 can be driven to lift and adjust on the upper surface of the conveying belt 33, the concrete storage box 16 is fixedly connected with the outer surfaces of the two side edges of the supporting base 38 through the second supporting frame 14 at the bottom, the stability of the bottom of the concrete storage box 16 is ensured, the trowelling plate is welded on the outer surface of the bottom of the second supporting frame 14, and trowelling treatment can be performed on the top of the poured prefabricated part die 30.

Working principle: when the prefabricated part is produced, firstly, concrete is transported into the upper hopper 12, then the second driving motor 7 is started to drive the second winding shaft 6 to wind the second traction rope 9, meanwhile, the second traction rope 9 can drive the upper hopper 12 to slide and lift on the outer surface of the first supporting frame 8 until the upper hopper 12 slides to the top end of the outer surface of the first supporting frame 8, meanwhile, the second driving motor 7 is controlled to stop running, the first driving motor 5 is started to drive the first winding shaft 4 to rotate, so that the first winding shaft 4 winds the first traction rope 13, meanwhile, one end of the upper hopper 12 is pulled by the first traction rope 13 to deflect by taking the limiting rotating shaft 11 as the axis, so that the discharge end of the upper hopper 12 is inclined to the receiving hopper at the top side end of the concrete storage tank 16, and at the same time, the concrete in the upper hopper 12 is discharged into the concrete storage tank 16 under the action of gravity, thereby replenishing the concrete in the concrete storage tank 16 until the concrete in the concrete storage tank 16 reaches the maximum storage capacity, then the driving motor 34 is started to drive the conveyer belt 33 to rotate in the top end of the supporting base 38, and when the conveyer belt 33 rotates, the prefabricated part mold 30 on the upper surface is transported until the empty prefabricated part mold 30 is transported to the position right below the bottom end of the discharge pipe 15, then the plunger cylinder 36 is controlled to extend, and the plunger cylinder 36 drives the pressure-bearing cross plate 37 to ascend and be clamped with the connecting clamping plates at two sides of the prefabricated part die 30, so as to drive the prefabricated part die 30 to ascend synchronously, wherein the pressure-bearing cross plate 37 simultaneously drives the driving toothed plate 31 to ascend synchronously, the driving toothed plate 31 drives the second transmission gear 27 with the meshed and connected outer surface to synchronously rotate, the second transmission gear 27 drives the first transmission gear 21 to synchronously rotate through the transmission rod 29 when rotating, the first transmission gear 21 drives the two groups of the first transmission toothed plates 25 and the second transmission toothed plates 28 with the meshed and connected outer surface to synchronously and reversely slide when rotating, while the first transmission toothed plate 25 and the second transmission toothed plate 28 drive the blocking plates 20 on the outer surface of the middle part to synchronously slide when sliding, so that the two groups of blocking plates 20 are mutually separated in the discharge pipe 15, concrete in the discharge pipe 15 is discharged into the prefabricated part mould 30 below through gaps between the blocking plates 20, meanwhile, the vibrator 22 is started to drive the vibrating rod 24 to perform vibrating operation, so that when the concrete enters the prefabricated part mould 30, the vibrating rod 24 synchronously vibrates the concrete in the prefabricated part mould 30, thereby discharging air of the concrete and reducing gaps in the concrete, finally, the concrete in the prefabricated part mold 30 is in a compact state, then the plunger cylinder 36 is started to retract, so that the pressure-bearing transverse plate 37 drives the prefabricated part mold 30 on the upper part to synchronously descend, meanwhile, the driving toothed plate 31 drives the second driving gear 27 to reversely rotate, so that the driving rod 29 drives the first driving toothed plate 25 and the second driving toothed plate 28 to reversely reset and slide through the first driving gear 21, finally, the two groups of plugging plates 20 are closed and slide in the discharge pipe 15, the interior of the discharge pipe 15 is plugged, meanwhile, the prefabricated part mold 30 completely falls onto the upper surface of the conveying belt 33, simultaneously, the driving motor 34 is started to drive the conveying belt 33 to synchronously rotate, so that the poured prefabricated part mould 30 is conveyed until a new prefabricated part mould 30 is conveyed to the position right below the discharge pipe 15, wherein the poured prefabricated part mould 30 passes through a screeding plate on the outer surface of the bottom of the second supporting frame 14 when being conveyed, so that the concrete at the top end inside the prefabricated part mould 30 is screeded again, wherein when the concrete accumulation and discharge inside the concrete storage box 16 are not smooth, the third driving motor 17 can be started to drive the screw feeding shaft 18 connected with the bottom end to rotate, so that the screw feeding shaft 18 conveys the concrete into the discharge pipe 15, and simultaneously, the normal discharge of concrete is promoted, wherein when the casting of concrete is carried out on the mould templates with different sizes, the plunger type air cylinder 36 can be controlled to extend according to the size of the mould templates to drive the prefabricated part mould 30 to rise, when the prefabricated part mould 30 rises higher, the separation size of the two groups of plugging plates 20 between the interiors of the discharge pipes 15 is enlarged, meanwhile, the discharge amount of the concrete can be enlarged, and the casting efficiency of the mould templates with different sizes can be ensured, so that the adjustment of the size of a discharge hole according to the size of the mould templates can be facilitated through the cooperation operation among the feeding device 1, the casting mechanism 2 and the conveying device 3, thereby improving the efficiency of concrete injection into the inside of the template mold and simultaneously ensuring the production efficiency of prefabricated components with different sizes.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Pouring device of adjustable prefabricated component template, including loading attachment (1), pouring mechanism (2) and conveyor (3), conveyor (3) fixed mounting is in the bottom center of pouring mechanism (2), loading attachment (1) fixed connection is pouring the side terminal surface of mechanism (2), its characterized in that: the feeding device is characterized in that a first supporting frame (8) is fixedly arranged in the feeding device (1), a first driving motor (5) is fixedly arranged on one side of the top of the first supporting frame (8), a first rolling shaft (4) is fixedly connected to the center of one end face of the first driving motor (5), a second driving motor (7) is fixedly arranged on the outer surface of the upper part of the first supporting frame (8), a second rolling shaft (6) is fixedly connected to the center of one end face of the second driving motor (7), second traction ropes (9) are wound on the outer surfaces of two ends of the second rolling shaft (6), a first traction rope (13) is wound on the outer surface of the middle of the first rolling shaft (4), a limiting frame (10) is clamped on the outer surface of the first supporting frame (8) in a sliding mode, a limiting rotating shaft (11) is clamped in the inner portion of the limiting frame (10), and a feeding hopper (12) is welded on the outer surface of the middle of the limiting shaft (11).

The inside fixed mounting of pouring mechanism (2) has concrete storage case (16), the bottom both sides welding of concrete storage case (16) have second braced frame (14), the bottom surface center welding of concrete storage case (16) has row material pipe (15), the top center fixed mounting of concrete storage case (16) has third driving motor (17), aggregate chamber (19) have been seted up to the inside of concrete storage case (16), the bottom center fixedly connected with spiral feed shaft (18) of third driving motor (17), the equal symmetrical welding of both sides surface of row material pipe (15) has spacing cardboard (26), the surface of row material pipe (15) just is located the center department rotation joint between spacing cardboard (26) has transfer line (29), the one end surface welding of transfer line (29) has first drive gear (21), the other end surface welding of transfer line (29) has second drive gear (27), the surface bottom the surface of first drive gear (21) is meshed and is connected with first pinion rack (25), the surface engagement of first gear (21) has first pinion (28) and second pinion (28) to be connected with first pinion rack (25), the vibrating device is characterized in that a vibrator (22) is fixedly arranged on the outer surface of the bottom of the discharging pipe (15), vibrating bars (24) are symmetrically and fixedly connected to the bottom of the vibrator (22), and a reset spring (23) is sleeved on the outer surface of the upper portion of each vibrating bar (24).

2. The casting device of the adjustable prefabricated component formwork according to claim 1, wherein: the inside fixed mounting of conveyor (3) has support base (38), the middle part surface of support base (38) has cup jointed conveyer belt (33), prefabricated component mould (30) have evenly been placed to the upper surface of conveyer belt (33), the one end side fixed mounting of support base (38) has driving motor (34), the one end another side fixed mounting of support base (38) has electric cabinet (32), the equal fixed mounting in middle part both sides edge of support base (38) has plunger cylinder (36), the top fixedly connected with pressure-bearing diaphragm (37) of plunger cylinder (36), the equal fixedly connected with spacing inserted bar (35) in pressure-bearing diaphragm (37) both ends bottom surface, the top center welding of pressure-bearing diaphragm (37) has drive pinion rack (31).

3. The casting device of the adjustable prefabricated component formwork according to claim 2, wherein: one end fixed connection of second haulage rope (9) is in the one end surface of spacing (10), the one end fixed connection of first haulage rope (13) is at last one end top center of hopper (12), the bottom surface sliding conflict of hopper (12) is connected at the surface of first braced frame (8).

4. A casting device for an adjustable prefabricated component form according to claim 3, characterized in that: the concrete storage box is characterized in that a receiving hopper is arranged in the center of the top of the rear end face of the concrete storage box (16), a third driving motor (17) is connected with the inner center of the discharge pipe (15) in an inserting mode through a spiral feeding shaft (18) at the bottom end, a first transmission toothed plate (25) and a second transmission toothed plate (28) are connected with the outer surface of the discharge pipe (15) in a sliding mode through a plugging plate (20), and the first transmission toothed plate (25) and the second transmission toothed plate (28) are connected with the outer surface of the discharge pipe (15) in a sliding mode through a limiting clamping plate (26).

5. The casting device of the adjustable prefabricated component formwork as claimed in claim 4, wherein: limiting lantern rings are welded on the outer surfaces of two sides of the bottom of the discharging pipe (15), and the vibrating rod (24) is in sliding insertion connection with the outer surface of the bottom of the discharging pipe (15) through the limiting lantern rings.

6. The casting device of the adjustable prefabricated component formwork as claimed in claim 5, wherein: the driving toothed plate (31) is meshed and connected with the outer surface of the transmission rod (29) through a second transmission gear (27), and connecting clamping plates are arranged on two sides of the top of the prefabricated part die (30).

7. The casting device of the adjustable prefabricated component formwork as claimed in claim 6, wherein: the plunger cylinder (36) is movably connected with the connecting clamping plate through a pressure-bearing transverse plate (37) at the top, the concrete storage box (16) is fixedly connected with the outer surfaces of the two side edges of the supporting base (38) through a second supporting frame (14) at the bottom, and a trowelling plate is welded on the outer surface of the bottom of the second supporting frame (14).