CN211279055U - Positioning system of concrete tower tube mold - Google Patents

Abstract

The utility model belongs to the technical field of the technique of a concrete tower section of thick bamboo and specifically relates to a positioning system of concrete tower section of thick bamboo mould is related to, and concrete tower section of thick bamboo mould is provided with first connecting plate including top mould and centre form on the centre form, be provided with the second connecting plate on the top mould, and positioning system is including connecting the positioner between top mould and centre form, and positioner is including setting up first setting element and setting on the centre form are in second setting element on the top mould, first setting element can match with the second setting element and merge the messenger first connecting plate and second connecting plate are aligned mutually. The utility model discloses have the effect that has accurate mounted position when guaranteeing that the top mould is installed on the centre form.

Description

Positioning system of concrete tower tube mold

Technical Field

The utility model belongs to the technical field of the technique of a concrete tower section of thick bamboo and specifically relates to a positioning system of concrete tower section of thick bamboo mould is related to.

Background

At present, the concrete tower barrel is formed by pouring concrete, and a mould of the concrete tower barrel needs to be connected together before the concrete is poured.

The mould of the concrete tower drum comprises a top mould, an inner mould and an outer mould, wherein the top mould is arranged on the upper surfaces of the inner mould and the outer mould, a space exists between the inner mould and the outer mould, and concrete is injected into the space between the inner mould and the outer mould to complete the pouring work of the concrete tower drum.

When the top die is installed on the upper surface of the inner die, if the accurate installation position cannot be guaranteed, the position of the top die on the inner die is deviated, so that the concrete tower barrel deforms to cause a product to be unqualified in the concrete pouring process.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a positioning system of concrete tower section of thick bamboo mould, it has the effect of guaranteeing that there is accurate mounted position when the cope die is installed on the centre form.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme: the utility model provides a positioning system of concrete tower section of thick bamboo mould, concrete tower section of thick bamboo mould includes top mould and centre form, be provided with first connecting plate on the centre form, be provided with the second connecting plate on the top mould, positioning system is including connecting the positioner between top mould and centre form, positioner is including setting up first locating element and setting on the centre form are in second setting element on the top mould, first locating element can match with the second setting element and make first connecting plate and second connecting plate are aligned.

Through adopting above-mentioned technical scheme, first connecting plate sets up on the centre form, and the second connecting plate sets up on the centre form, and when centre form and centre form were connected, the first setting element of setting on the centre form and the cooperation of the second setting element of setting on the centre form made first connecting plate and second connecting plate align, and it has the effect of guaranteeing that there is accurate mounted position when the centre form is installed on the centre form.

The utility model discloses further set up to: the first positioning piece is a positioning rod, and the second positioning piece is a positioning hole matched with the positioning rod.

By adopting the technical scheme, when the top die is connected with the inner die, the positioning rod is inserted into the positioning hole, so that the top die and the inner die have accurate installation positions when being connected.

The utility model discloses further set up to: the first positioning piece is a positioning groove, and the second positioning piece is a positioning piece matched with the positioning groove.

By adopting the technical scheme, when the top die is connected with the inner die, the positioning block is inserted into the positioning groove, so that the top die and the inner die have accurate installation positions when being connected.

The utility model discloses further set up to: the bottom of constant head tank is equipped with the recess, fixedly connected with can attract in the recess the magnet of locating piece, the material of locating piece is the steel.

Through adopting above-mentioned technical scheme, the magnet attraction locating piece in the constant head tank can make the locating piece insert the constant head tank fast and accomplish the location work of top mould and centre form.

The utility model discloses further set up to: the first connecting plate and the second connecting plate are connected through bolts penetrating through the first connecting plate and the second connecting plate.

Through adopting above-mentioned technical scheme, the bolt passes first connecting plate and second connecting plate and then with top mould and centre form fastening connection.

The utility model discloses further set up to: the top die comprises a first annular rod and a second annular rod, wherein the second annular rod is located on the upper side of the first annular rod and supports the vertical rod through a plurality of with the first annular rod, the top die further comprises a third annular rod and a fourth annular rod, the fourth annular rod is located on the upper side of the third annular rod and supports the vertical rod through a plurality of, the diameter of the third annular rod is larger than that of the first annular rod, the diameter of the fourth annular rod is larger than that of the second annular rod, and the second annular rod and the fourth annular rod are supported through a plurality of to be fixedly connected with a transverse rod.

Through adopting above-mentioned technical scheme, support montant fixed connection through a plurality of between first annular pole and the second annular pole, also support montant fixed connection through a plurality of between third annular pole and the fourth annular pole, a plurality of support horizontal pole of fixedly connected with between second annular pole and the fourth annular pole, the structure that the ejector die set to the pole is connected saves the preparation material and operating personnel holds third annular pole or fourth annular pole easy control on the ejector die when the installation ejector die.

The utility model discloses further set up to: the top die comprises a first annular rod and a second annular rod, wherein the second annular rod is located on the upper side of the first annular rod and supports the vertical rod through a plurality of with the first annular rod, the top die further comprises a third annular rod and a fourth annular rod, the fourth annular rod is located on the upper side of the third annular rod and supports the vertical rod through a plurality of, the diameter of the third annular rod is larger than that of the first annular rod, the diameter of the fourth annular rod is larger than that of the second annular rod, and the second annular rod and the fourth annular rod are supported through a plurality of to be fixedly connected with a transverse rod.

Through adopting above-mentioned technical scheme, support montant fixed connection through a plurality of between first annular pole and the second annular pole, also support montant fixed connection through a plurality of between third annular pole and the fourth annular pole, a plurality of support horizontal pole of fixedly connected with between second annular pole and the fourth annular pole, the structure that the ejector die set to the pole is connected saves the preparation material and operating personnel holds third annular pole or fourth annular pole easy control on the ejector die when the installation ejector die.

The utility model discloses further set up to: the inner die is characterized in that a plurality of first connecting plates are horizontally distributed at intervals and fixed on the inner wall of the upper side of the inner die, the number of the second connecting plates corresponds to that of the first connecting plates, the second connecting plates are horizontally distributed at intervals and fixed on the inner wall of the first annular rod, the positioning rod is vertically placed and fixedly connected at the middle position of the first connecting plate, and the positioning hole is arranged at the middle position, corresponding to the positioning rod, of the second connecting plate.

Through adopting above-mentioned technical scheme, first connecting plate and centre form upside inner wall fixed connection, second connecting plate and first annular pole inner wall fixed connection, locating lever fixed connection is in the intermediate position of first connecting plate, and the locating hole setting is at the intermediate position of second connecting plate, and during top mould and centre form were connected, the locating lever inserted the locating hole, and first connecting plate and second connecting plate align, have accurate mounted position when making top mould and centre form connect.

The utility model discloses further set up to: the positioning grooves are formed in the upper side of the inner die, the cross-sectional areas of the positioning blocks are gradually reduced along the direction of the positioning grooves, the positioning blocks are distributed at intervals and fixedly connected to the lower side of the first annular rod, and the number of the positioning grooves corresponds to the number of the positioning blocks.

Through adopting above-mentioned technical scheme, when the top mould is connected with the centre form, the setting that the locating piece sectional area reduces gradually along the direction of constant head tank makes the locating piece get into the constant head tank more easily, and the constant head tank setting is at the upside of centre form, and locating piece fixed connection makes first annular pole have definite hookup location and then makes first connecting plate and second connecting plate align and have accurate hookup location when making top mould and centre form connect on the centre form at the downside of first annular pole.

The utility model discloses further set up to: and a supporting inclined rod is fixedly connected between the third annular rod and the fourth annular rod, and a plurality of fixing plates are fixedly connected between the first annular rod and the third annular rod.

Through adopting above-mentioned technical scheme, support the down tube and can strengthen the stability between third annular pole and the fourth annular pole, the stability between first annular pole and the third annular pole can be strengthened to the fixed plate.

To sum up, the utility model discloses a beneficial technological effect does:

1. the first positioning piece on the inner die is matched with the second positioning piece on the top die, so that the effect of ensuring accurate installation position when the top die is installed on the inner die is achieved;

2. the magnet in the positioning groove attracts the positioning block, so that the positioning block can be quickly inserted into the positioning groove to complete the positioning work when the top die and the inner die are connected;

3. the top die is arranged in a rod connection structure, so that manufacturing materials are saved, and an operator can hold the third annular rod or the fourth annular rod on the top die to control the top die easily when installing the top die.

Drawings

FIG. 1 is a schematic structural diagram of the first embodiment;

FIG. 2 is a schematic diagram of a positioning rod according to an embodiment;

FIG. 3 is a schematic view showing a positioning hole according to one embodiment;

FIG. 4 is a schematic structural view of the second embodiment;

FIG. 5 is a schematic view showing the connection between the positioning block and the top mold in the second embodiment;

FIG. 6 is a schematic view showing a positioning block according to the second embodiment;

FIG. 7 is a schematic view showing a positioning groove according to the second embodiment;

FIG. 8 is a schematic view of a magnet according to a second embodiment;

FIG. 9 is a schematic view showing the connection between the positioning block and the positioning groove in the second embodiment.

Reference numerals: 1. carrying out top die; 11. a first annular rod; 111. a second connecting plate; 1111. positioning holes; 1112. bolt holes; 112. positioning blocks; 1121. a wear layer; 12. a second annular rod; 13. supporting the vertical rod; 14. a third annular rod; 15. a fourth annular rod; 16. a support rail; 17. supporting the diagonal rods; 18. a fixing plate; 181. reserving a hole; 2. an inner mold; 21. a first connecting plate; 211. positioning a rod; 22. positioning a groove; 221. a groove; 222. and a magnet.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows: as shown in fig. 1 and fig. 2, for the utility model discloses a positioning system of concrete tower section of thick bamboo mould, the mould is including top mould 1 and centre form 2 that the cooperation was used, and positioner sets up in the junction of top mould 1 and centre form 2.

Be provided with the level on the centre form 2 and place and four first connecting plate 21 of interval distribution, be provided with the level on the top mould 1 and place and four second connecting plate 111 of interval distribution, first connecting plate 21 is the same with second connecting plate 111 size. The positioning device comprises a first positioning piece arranged on the inner die 2 and a second positioning piece arranged on the top die 1, and the first positioning piece can be matched with the second positioning piece to align the first connecting plate 21 and the second connecting plate 111, so that the top die 1 has an accurate installation position when being installed on the inner die 2.

The top die 1 comprises a first annular rod 11 and a second annular rod 12 which have the same diameter, the diameter of the inner wall of the first annular rod 11 is the same as that of the inner wall of the inner die 2, and the second annular rod 12 is located on the upper side of the first annular rod 11 and is fixedly connected with the first annular rod 11 through a plurality of supporting vertical rods 13. The top die 1 further comprises a third annular rod 14 and a fourth annular rod 15, the diameters of the third annular rod 14 and the fourth annular rod 15 are larger than those of the first annular rod 11, the third annular rod 14 and the fourth annular rod 15 are the same in diameter, the fourth annular rod 15 is located on the upper side of the third annular rod 14, and the third annular rod 14 and the fourth annular rod 15 are fixedly connected through a plurality of supporting vertical rods 13. The second annular rod 12 and the fourth annular rod 15 are fixedly connected through a plurality of support cross bars 16.

A plurality of supporting inclined rods 17 are fixedly connected between the first annular rod 11 and the second annular rod 12, supporting inclined rods 17 are also fixedly connected between the third annular rod 14 and the fourth annular rod 15, and the supporting inclined rods 17 are used for respectively enhancing the stability of connection between the first annular rod 11 and the second annular rod 12 and between the third annular rod 14 and the fourth annular rod 15.

A plurality of fixing plates 18 are fixedly connected between the first ring-shaped rod 11 and the third ring-shaped rod 14, and the fixing plates 18 are disposed below and opposite to the support cross-bar 16. The fixing plate 18 can reinforce the stability between the first and third annular bars 11 and 14. The middle position of the fixing plate 18 is provided with a preformed hole 181, in the process of pouring concrete, a pulling rod is inserted into the preformed hole 181, and the pulling rod is pulled out from the preformed hole 181 after the concrete is solidified.

As shown in fig. 2 and 3, the four first connecting plates 21 are fixedly connected to the inner wall of the upper side of the inner mold 2, and the first positioning member is a vertically-arranged circular positioning rod 211 fixedly connected to the middle position of the first connecting plate 21. The four second connecting plates 111 are fixedly connected with the inner wall of the first annular rod 11, and the second positioning piece is a positioning hole 1111 which is fixedly connected with the middle position of the second connecting plate 111 and is opposite to the positioning rod 211.

When the top die 1 (see fig. 1) is connected to the inner die 2, the top die 1 is first connected to the fourth ring rod 15 by a hoisting device (conventional art) and is hoisted to move slowly above the inner die 2. An operator stands on a platform (not shown) overlapped at the middle of the inner die 2 to hold the top die 1, so that the positioning rods 211 on the first connecting plate 21 are inserted into the positioning holes 1111 of the second connecting plate 111 during the descending process of the top die 1, and the first ring-shaped rods 11 are overlapped above the inner die 2. The positions of the first connecting plate 21 and the positioning rod 211 on the inner die 2 are fixed, the positions of the second connecting plate 111 and the positioning hole 1111 on the first ring rod 11 are also fixed, when the top die 1 is connected with the inner die 2, the positioning rod 211 is inserted into the positioning hole 1111 (refer to fig. 1), and the first connecting plate 21 and the second connecting plate 111 are aligned to enable the top die 1 and the inner die 2 to have accurate installation positions.

The positioning rod 211 is provided with a conical upper side, and the conical arrangement makes the positioning rod 211 easier to insert into the positioning hole 1111.

Bolt holes 1112 are formed in two sides of the positioning rod 211 on the first connecting plate 21, and the bolt holes 1112 are formed in two sides of the positioning hole 1111 on the second connecting plate 111. When the top die 1 is mounted on the inner die 2, the first connecting plate 21 contacts the second connecting plate 111, and bolts are fastened through the bolt holes 1112 on the first connecting plate 21 and the second connecting plate 111 to fasten and connect the top die 1 and the inner die 2 together (see fig. 1).

The top mold 1 is provided in a bar-connected structure, saving manufacturing materials and allowing an operator to easily control by holding the third ring bar 14 or the fourth ring bar 15 on the top mold 1 during the process of mounting and dismounting the top mold 1.

The implementation principle of the embodiment is as follows: when the top die 1 is required to be connected with the inner die 2, the top die 1 is lifted by the lifting device to slowly move above the inner die 2, and an operator inserts the positioning rod 211 on the first connecting plate 21 into the positioning hole 1111 of the second connecting plate 111 to ensure that the top die 1 and the inner die 2 have accurate connection positions. Bolts pass through the bolt holes 1112 on the first connecting plate 21 and the second connecting plate 111 to fasten the top die 1 and the inner die 2.

When the top die 1 needs to be separated from the inner die 2, the bolts in the bolt holes 1112 are unscrewed, and the top die 1 is lifted away from the inner die 2 by the lifting device.

Example two: as shown in fig. 4 and 5, a positioning system for a concrete tower mold is different from the first embodiment in that the second positioning member is four positioning blocks 112 (see fig. 6) made of steel material and arranged at intervals and fixedly connected to the lower side of the first annular rod 11. Wherein, when the positioning blocks 112 are uniformly distributed, the positioning effect is optimal.

As shown in fig. 7 and 8, the first positioning element is four positioning grooves 22 provided on the upper surface of the inner mold 2 and corresponding to the positioning blocks 112 (see fig. 9), the shapes of the positioning grooves 22 are the same as the shapes of the positioning blocks 112, the cross-sectional area of the positioning blocks 112 gradually decreases along the direction of the positioning grooves 22, and specifically, the positioning blocks 112 may be any one of a frustum, a pyramid, or a cone. Furthermore, the bottom of the positioning groove 22 is provided with a groove 221, a magnet 222 is fixedly connected in the groove 221, and the upper surface of the magnet 222 and the bottom surface of the positioning groove 22 are in the same plane.

As shown in fig. 4, when the top die 1 is connected to the inner die 2, the top die 1 is first connected to the fourth ring rod 15 by a hoisting device (conventional art) and is slowly moved above the inner die 2 by hoisting. An operator stands on a platform (not shown) overlapped at the middle of the inner die 2 to hold the top die 1, so that the positioning block 112 on the top die 1 is inserted into the positioning groove 22 (refer to fig. 9) on the inner die 2 in the descending process of the top die 1, and the first annular rod 11 is overlapped above the inner die 2 at the moment. The position of the positioning groove 22 on the inner die 2 is fixed, the position of the positioning block 112 on the first annular rod 11 is also fixed, when the top die 1 is connected with the inner die 2, the positioning block 112 is inserted into the positioning groove 22, the first connecting plate 21 and the second connecting plate 111 are aligned to enable the top die 1 and the inner die 2 to have accurate connecting positions, and then bolts penetrate through bolt holes 1112 of the first connecting plate 21 and the second connecting plate 111 to be fastened so as to fasten and connect the top die 1 and the inner die 2 into a whole.

As shown in fig. 9, in the process of inserting the positioning block 112 into the positioning slot 22, a side of the positioning block 112 away from the first annular rod 11 (refer to fig. 4) first enters the positioning slot 22, and the area of contact between the positioning block 112 and the first annular rod 11 is larger than the area of the side of the positioning block 112 away from the first annular rod 11, so that the positioning block 112 is more easily inserted into the positioning slot 22.

The magnet 222 in the positioning groove 22 attracts the positioning block 112, so that the positioning block 112 can be quickly inserted into the positioning groove 22 to complete the positioning operation when the top mold 1 (see fig. 4) and the inner mold 2 are connected.

As shown in fig. 4 and 9, when the top die 1 needs to be separated from the inner die 2, the bolts in the bolt holes 1112 are unscrewed, the top die 1 is lifted away from the inner die 2 by the lifting device, and the positioning block 112 is pulled out of the positioning groove 22. In the process of repeatedly mounting and dismounting the top die 1 and the inner die 2, the surface of the positioning block 112 is worn, and the positioning accuracy of the positioning block 112 inserted into the positioning groove 22 is affected after the surface is worn. The surface of the positioning block 112 is provided with a wear-resistant layer 1121 (refer to fig. 6), which effectively prevents the surface of the positioning block 112 from being worn, and ensures the positioning accuracy of the positioning block 112 inserted into the positioning slot 22.

The implementation principle of the embodiment is as follows: when the top die 1 and the inner die 2 need to be connected, the top die 1 is lifted by the lifting device and slowly moves above the inner die 2, and an operator inserts the positioning block 112 into the positioning groove 22 to ensure that the top die 1 and the inner die 2 have accurate connection positions. Bolts penetrate through the bolt holes 1112 on the first connecting plate 21 and the second connecting plate 111 to fixedly connect the top die 1 and the inner die 2 into a whole.

When the top die 1 needs to be separated from the inner die 2, the bolts in the bolt holes 1112 are unscrewed, and the top die 1 is lifted away from the inner die 2 by the lifting device.

Example three: the utility model discloses can adopt in embodiment one the locating lever 211 insert in the locating hole 1111 and in embodiment two the locating piece 112 insert in the constant head tank 22 the mode that the two combines realize the dual locate function when top mould 1 and centre form 2 are connected jointly, make the positioning effect better, the precision is higher.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a positioning system of concrete tower section of thick bamboo mould, concrete tower section of thick bamboo mould includes top mould (1) and centre form (2), its characterized in that: be provided with first connecting plate (21) on centre form (2), be provided with second connecting plate (111) on top mould (1), positioning system is including connecting the positioner between top mould (1) and centre form (2), positioner is including setting up first locating element on centre form (2) is in with the setting second locating element on the top mould (1), first locating element can match with the second locating element and make first connecting plate (21) and second connecting plate (111) are aligned.

2. A concrete tower drum mold positioning system as recited in claim 1, wherein: the first positioning piece is a positioning rod (211), and the second positioning piece is a positioning hole (1111) matched with the positioning rod (211).

3. A concrete tower drum mold positioning system as recited in claim 1, wherein: the first positioning piece is a positioning groove (22), and the second positioning piece is a positioning block (112) matched with the positioning groove (22).

4. A concrete tower drum mold positioning system as recited in claim 3, wherein: the bottom of the positioning groove (22) is provided with a groove (221), a magnet (222) capable of attracting the positioning block (112) is fixedly connected in the groove (221), and the positioning block (112) is made of steel.

5. A concrete tower drum mold positioning system as recited in claim 1, wherein: the first connecting plate (21) is connected with the second connecting plate (111) through bolts penetrating through the first connecting plate and the second connecting plate.

6. A concrete tower drum mold positioning system as recited in claim 2, wherein: top mould (1) include first annular pole (11) and be located first annular pole (11) upside and support montant (13) fixed connection's second annular pole (12) through a plurality of with first annular pole (11), top mould (1) still includes third annular pole (14) and be located the upside of third annular pole (14) and support montant (13) fixed connection's fourth annular pole (15) through a plurality of, and the diameter of third annular pole (14) is greater than first annular pole (11), and the diameter of fourth annular pole (15) is greater than second annular pole (12), supports horizontal pole (16) fixed connection through a plurality of between second annular pole (12) and the fourth annular pole (15).

7. A concrete tower drum mold positioning system as recited in claim 3, wherein: top mould (1) include first annular pole (11) and be located first annular pole (11) upside and support montant (13) fixed connection's second annular pole (12) through a plurality of with first annular pole (11), top mould (1) still includes third annular pole (14) and be located the upside of third annular pole (14) and support montant (13) fixed connection's fourth annular pole (15) through a plurality of, and the diameter of third annular pole (14) is greater than first annular pole (11), and the diameter of fourth annular pole (15) is greater than second annular pole (12), supports horizontal pole (16) fixed connection through a plurality of between second annular pole (12) and the fourth annular pole (15).

8. A concrete tower drum mold positioning system according to claim 6, wherein: a plurality of first connecting plate (21) horizontal interval distribution and fix on interior mould (2) upside inner wall, the quantity of second connecting plate (111) corresponds first connecting plate (21), second connecting plate (111) horizontal interval distribution and fix on first annular pole (11) inner wall, the vertical intermediate position of placing fixed connection at first connecting plate (21) of locating lever (211), locating hole (1111) set up on second connecting plate (111) with the intermediate position that locating lever (211) correspond.

9. A concrete tower drum mold positioning system as recited in claim 7, wherein: the positioning grooves (22) are formed in the upper side of the inner die (2), the cross-sectional areas of the positioning blocks (112) are gradually reduced along the direction of the positioning grooves (22), the positioning blocks (112) are distributed at intervals and fixedly connected to the lower side of the first annular rod (11), and the number of the positioning grooves (22) corresponds to the number of the positioning blocks (112).

10. A concrete tower drum mold positioning system as recited in claim 7, wherein: a supporting inclined rod (17) is fixedly connected between the third annular rod (14) and the fourth annular rod (15), and a plurality of fixing plates (18) are fixedly connected between the first annular rod (11) and the third annular rod (14).

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