CN221053233U

CN221053233U - Built-in fitting positioner

Info

Publication number: CN221053233U
Application number: CN202322759912.4U
Authority: CN
Inventors: 李茂光; 刘志周; 李诚睿
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-10-16
Filing date: 2023-10-16
Publication date: 2024-05-31
Anticipated expiration: 2033-10-16

Abstract

The utility model provides an embedded part positioning device, which relates to the technical field of building construction and comprises the following components: a first connection frame; the outer part of the first connecting frame is symmetrically and slidingly connected with two first supporting seats; the top end surfaces of the two first supporting seats are fixedly connected with a first vertical plate; the front parts of the two first supporting seats are respectively provided with a second connecting frame; the front parts of the two second connecting frames are both connected with a second supporting seat in a sliding way; the top end surfaces of the two second supporting seats are fixedly connected with a second vertical plate; the two second vertical plates are aligned with the positions of the two first vertical plates respectively. According to the utility model, all the components of the embedded part positioning device are detachably connected, and after the embedded part positioning device is transported or used, workers can split all the components of the embedded part positioning device, so that the problem that the embedded part positioning device is inconvenient to transport and store by the workers after transportation or use is completed is solved.

Description

Built-in fitting positioner

Technical Field

The utility model relates to the technical field of building construction, in particular to an embedded part positioning device.

Background

In the process of building engineering construction, in order to facilitate the lap joint of a building structure and simultaneously facilitate the installation and fixation of a foundation of external engineering equipment, a plate-type embedded part is usually required to be embedded in advance, a worker usually uses an embedded part positioning device in order to ensure that the plate-type embedded part is embedded at a designated position, and the embedded part positioning device commonly used in the market is usually composed of a support frame and a vertical plate.

For example: the utility model with the application number of CN202320456494.9 discloses an embedded part positioning auxiliary device, which specifically comprises a supporting frame, an embedded steel plate and an embedded pipe, wherein a first bolt is embedded and connected to one side of the inside of the embedded steel plate, an embedded pipe is embedded and connected to the bottom of the first bolt, a second bolt is embedded and connected to one side of the inside of the embedded steel plate, an embedded bolt is embedded and connected to the bottom of the second bolt, a gradienter is embedded and connected to one side of the inside of the embedded steel plate, a scale mark is embedded and connected to the inside of the gradienter, a chute is embedded and connected to the inside of the supporting frame, an adjusting bolt is embedded and connected to the inside of the chute, the adjusting bolt improves the moving stability of a fixed plate, improves the working efficiency by arranging an auxiliary mechanism, and improves the integral strength of the embedded structure, a bearing is convenient for rotating a threaded rod, and changes the length in a sleeve, and the embedded steel plates with different sizes can be subjected to auxiliary positioning by arranging a positioning mechanism, and the flexibility and the functionality of a device main body are improved.

However, with respect to the existing conventional embedded part positioning device, the supporting frame of the existing embedded part positioning device is usually welded into an integral frame-shaped structure, the volume is usually large, a large amount of area is required to be occupied, and after transportation or use is completed, the embedded part positioning device is inconvenient for workers to transport and store and is inconvenient to use.

Disclosure of utility model

In view of the above, the present utility model provides an embedded part positioning device, which has a first limiting insert, a second limiting insert, a connecting fixture block and a connecting clamping seat, wherein the first limiting insert, the second limiting insert, the connecting fixture block and the connecting clamping seat are convenient for a worker to disassemble the embedded part positioning device, the fixing of the first supporting seat and the second supporting seat can be respectively released by rotating a first control bolt and a second control bolt, the worker can take out the first supporting seat and the second supporting seat at the moment, the fixing frame drives the connecting fixture block to move by pulling the fixing frame, the connecting fixture block on the other side can move simultaneously by matching a transmission rack and a transmission gear in the moving process of the connecting fixture block, the fixing between the first supporting seat and the second connecting frame is slowly released along with the moving of the two connecting fixture blocks, the worker can detach the first supporting seat and the second connecting frame at the moment, the second connecting frame is convenient to detach and the connecting clamping seat is enabled to slide in the connecting seat and stretch a reset spring at the moment, the worker can slowly detach the auxiliary seat along with the sliding of the connecting fixture seat, and the auxiliary seat can be convenient to detach and detach the auxiliary seat.

The utility model provides an embedded part positioning device, which specifically comprises: a first connection frame; the outer part of the first connecting frame is symmetrically and slidingly connected with two first supporting seats; the top end surfaces of the two first supporting seats are fixedly connected with a first vertical plate; the front parts of the two first supporting seats are respectively provided with a second connecting frame; the front parts of the two second connecting frames are both connected with a second supporting seat in a sliding way; the top end surfaces of the two second supporting seats are fixedly connected with a second vertical plate; the two second vertical plates are aligned with the positions of the two first vertical plates respectively; the inner sides of the two first supporting seats and the inner sides of the two second supporting seats are fixedly connected with a connecting seat; an auxiliary seat is inserted in each of the four connecting seats.

Optionally, two first mounting grooves are symmetrically formed at the rear part of the first connecting frame; a group of first limiting jacks are formed in the front end faces of the two first mounting grooves; the rear parts of the two first supporting seats are respectively connected with a first control bolt in a threaded manner; the tail ends of the two first control bolts are fixedly connected with a first connecting plate; the two first connecting plates are respectively and slidably connected in the two first mounting grooves; the front parts of the two first connecting plates are fixedly connected with a first limiting plug block in the middle; the two first limiting plug blocks are respectively inserted into the two groups of first limiting plug holes.

Optionally, the outer sides of the front parts of the two second connecting frames are provided with a second mounting groove; a group of second limiting jacks are formed in the inner sides of the two second mounting grooves; the outer sides of the two second supporting seats are respectively connected with a second control bolt in a threaded manner; the tail ends of the two second control bolts are fixedly connected with a second connecting plate; the two second connecting plates are respectively and slidably connected in the two second mounting grooves; the inner sides of the two second connecting plates are fixedly connected with a second limiting plug block in the middle; the two second limiting plug blocks are respectively inserted into the two second limiting plug holes.

Optionally, the front parts of the two first supporting seats are both connected with a group of connecting clamping blocks in a sliding way; the front parts of the two groups of connecting clamping blocks are respectively inserted into the two second connecting frames; the rear parts of the outer sides of the two groups of connecting clamping blocks are fixedly connected with a group of supporting springs; the tail ends of the two groups of supporting springs are respectively and fixedly connected in the two first supporting seats; the front parts of the outer sides of the two groups of connecting clamping blocks are fixedly connected with a group of fixing frames; the bottom end surfaces of the two groups of fixing frames are fixedly connected with a group of transmission racks; the lower parts of the front end surfaces of the two first supporting seats are respectively and rotatably connected with a transmission gear; the two groups of transmission racks are respectively meshed with the two transmission gears.

Optionally, the top end surfaces of the four auxiliary seats are fixedly connected with a control screw; the four control screws are externally connected with a lifting column through threads; the four lifting columns are distributed in a rectangular array shape.

Optionally, one connecting clamping seat is slidably connected in each of the four connecting seats; the tail ends of the four connecting clamping seats are respectively inserted into the four auxiliary seats; a group of reset springs are fixedly connected to the outer sides of the four connecting clamping seats; the tail ends of the four groups of reset springs are respectively and fixedly connected to the outer sides of the four connecting seats.

Advantageous effects

Through rotating first control bolt and second control bolt, can remove the fixed of first supporting seat and second supporting seat respectively, the staff can stimulate first supporting seat and second supporting seat and remove this moment, adjusts built-in fitting positioner's length and width, makes built-in fitting positioner can fix a position the board-like built-in fitting of equidimension not, the effectual usability that has increased built-in fitting positioner.

After the plate-type embedded part is positioned, a worker can rotate the lifting column to enable the lifting column to lift along the control screw, the plate-type embedded part is driven to lift through the lifting of the lifting column, the worker is convenient to adjust the embedded depth of the plate-type embedded part, the operation is simple and quick, and the practicability of the embedded part positioning device is effectively improved.

According to the utility model, the components are detachably connected, and after the embedded part positioning device is transported or used, workers can split the components of the embedded part positioning device, so that the occupied area of the embedded part positioning device is reduced, the embedded part positioning device is convenient to carry and store, and the convenience of the embedded part positioning device is effectively improved.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the drawings of the embodiments will be briefly described below.

In the drawings:

FIG. 1 is a schematic diagram of an axial structure of the present utility model.

Fig. 2 is a schematic cross-sectional view of a first support base of the present utility model.

Fig. 3 is an enlarged schematic view of the structure of fig. 2 at a in accordance with the present utility model.

Fig. 4 is a schematic cross-sectional view of a second support base of the present utility model.

Fig. 5 is an enlarged schematic view of the structure of fig. 4 at B according to the present utility model.

Fig. 6 is a schematic diagram of the left-hand isometric structure of the utility model.

Fig. 7 is an enlarged schematic view of the structure of fig. 6 at C according to the present utility model.

Fig. 8 is a schematic cross-sectional view of the lifting column of the present utility model.

List of reference numerals

1. A first connection frame; 101. a first support base; 102. a first mounting groove; 103. a first limiting jack; 104. a first control bolt; 105. a first connection plate; 106. the first limiting plug block; 107. a first vertical plate; 108. a second connecting frame; 109. connecting a clamping block; 110. a support spring; 111. a fixing frame; 112. a drive rack; 113. a transmission gear; 114. a second support base; 115. a second mounting groove; 116. a second limiting jack; 117. a second control bolt; 118. a second connecting plate; 119. the second limiting plug block; 120. a connecting seat; 121. an auxiliary seat; 122. the connecting clamping seat; 123. a return spring; 124. a control screw; 125. lifting columns; 126. and a second vertical plate.

Description of the embodiments

In order to make the objects, aspects and advantages of the technical solution of the present utility model more clear, the technical solution of the embodiment of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present utility model. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples

An embedded part positioning device, as shown in fig. 1-7, comprises: a first connecting frame 1;

The outer part of the first connecting frame 1 is symmetrically and slidingly connected with two first supporting seats 101; the top end surfaces of the two first supporting seats 101 are fixedly connected with a first vertical plate 107; the front parts of the two first supporting seats 101 are provided with a second connecting frame 108; a second support base 114 is slidably connected to the front portions of the two second connection frames 108; a second vertical plate 126 is fixedly connected to the top end surfaces of the two second supporting seats 114; the two second vertical plates 126 are aligned with the positions of the two first vertical plates 107, respectively; a connecting seat 120 is fixedly connected to the inner sides of the two first supporting seats 101 and the inner sides of the two second supporting seats 114; an auxiliary seat 121 is inserted into each of the four connecting seats 120.

Two first mounting grooves 102 are symmetrically formed in the rear portion of the first connecting frame 1; a group of first limiting jacks 103 are formed on the front end surfaces of the two first mounting grooves 102; the rear parts of the two first supporting seats 101 are respectively connected with a first control bolt 104 in a threaded manner; the tail ends of the two first control bolts 104 are fixedly connected with a first connecting plate 105; the two first connecting plates 105 are respectively and slidably connected in the two first mounting grooves 102; the front parts of the two first connecting plates 105 are fixedly connected with a first limiting plug block 106 in the middle; the two first limiting plug blocks 106 are respectively inserted into the two groups of first limiting plug holes 103.

The outer sides of the front parts of the two second connecting frames 108 are provided with a second mounting groove 115; a group of second limiting jacks 116 are formed on the inner sides of the two second mounting grooves 115; a second control bolt 117 is screwed on the outer sides of the two second supporting seats 114; the tail ends of the two second control bolts 117 are fixedly connected with a second connecting plate 118; the two second connecting plates 118 are respectively slidably connected in the two second mounting grooves 115; a second limiting plug 119 is fixedly connected to the inner sides of the two second connecting plates 118 in the middle; the two second limiting plug blocks 119 are respectively plugged into the two second limiting plug holes 116.

The front parts of the two first supporting seats 101 are respectively connected with a group of connecting clamping blocks 109 in a sliding manner; the front parts of the two groups of connecting clamping blocks 109 are respectively inserted into the two second connecting frames 108; the outer rear parts of the two groups of connecting clamping blocks 109 are fixedly connected with a group of supporting springs 110; the tail ends of the two groups of supporting springs 110 are respectively fixedly connected in the two first supporting seats 101; the front parts of the outer sides of the two groups of connecting clamping blocks 109 are fixedly connected with a group of fixing frames 111; the bottom end surfaces of the two groups of fixing frames 111 are fixedly connected with a group of transmission racks 112; the lower parts of the front end surfaces of the two first supporting seats 101 are respectively and rotatably connected with a transmission gear 113; the two sets of drive racks 112 are respectively meshed with two drive gears 113.

Specific use and action of the embodiment: the first control bolt 104 is rotated to drive the first connecting plate 105 to slide in the first mounting groove 102, the first limiting plug block 106 is separated from the first limiting jack 103 through the sliding of the first connecting plate 105, at the moment, a worker can pull the first supporting seat 101 to move to adjust the width of the embedded part positioning device, after the adjustment is finished, the worker only needs to reversely rotate the first control bolt 104 to enable the first limiting plug block 106 to be inserted into the first limiting jack 103 aligned with the first limiting plug block, then after the first limiting plug block 106 is separated from the first limiting jack 103, the worker can take the first supporting seat 101 off the first connecting frame 1 to facilitate the disassembly and assembly of the first supporting seat 101, and the second connecting plate 118 is driven to slide in the second mounting groove 115 through the rotation of the second control bolt 117, the second limiting plug 119 is separated from the second limiting jack 116 through the sliding of the second connecting plate 118, at the moment, a worker can pull the second supporting seat 114 to move, the length of the embedded part positioning device is adjusted, after the adjustment is finished, the worker can fix the position of the second supporting seat 114 only by reversely rotating the second control bolt 117 to enable the second limiting plug 119 to be inserted into the second limiting jack 116 aligned with the second limiting plug 119, then after the second limiting plug 119 is separated from the second limiting jack 116, the worker can take the second supporting seat 114 off the second connecting frame 108, the second supporting seat 114 is convenient to disassemble and assemble, after the embedded part positioning device is finished, the worker can pull the fixing frame 111, the fixing frame 111 drives the connecting clamping block 109 to move, in the moving process of the connecting clamping block 109, the worker can move through the cooperation of the transmission rack 112 and the transmission gear 113, the connecting clamping blocks 109 on the other side are moved simultaneously, the fixing between the first supporting seat 101 and the second connecting frame 108 is slowly released along with the movement of the two connecting clamping blocks 109, and at the moment, a worker can separate the first supporting seat 101 from the second connecting frame 108, so that the second connecting frame 108 can be conveniently detached.

Examples

On the basis of the first embodiment, as shown in fig. 2 and 8, the method includes: the top end surfaces of the four auxiliary seats 121 are fixedly connected with a control screw 124; a lifting column 125 is connected to the outer parts of the four control screws 124 in a threaded manner; the four lifting columns 125 are distributed in a rectangular array.

A connecting clamping seat 122 is slidably connected in each of the four connecting seats 120; the tail ends of the four connecting clamping seats 122 are respectively inserted into the four auxiliary seats 121; a group of return springs 123 are fixedly connected to the outer sides of the four connecting clamping seats 122; the ends of the four sets of return springs 123 are fixedly connected to the outer sides of the four connection seats 120, respectively.

Specific use and action of the embodiment: after the board-type embedded part is positioned through the first vertical plate 107 and the second vertical plate 126, a worker can rotate the lifting column 125 to enable the lifting column to lift along the control screw 124, the well positioned board-type embedded part is driven to lift through the lifting of the lifting column 125, the embedded depth of the board-type embedded part is adjusted, after the embedded part positioning device is used, the worker can pull the connecting clamping seat 122 to enable the connecting clamping seat 122 to slide in the connecting seat 120 and stretch the reset spring 123, the worker can slowly separate from the auxiliary seat 121 along with the sliding of the connecting clamping seat 122, and the worker can take down the auxiliary seat 121 at the moment to facilitate the disassembly and assembly of the auxiliary seat 121.

Claims

1. The embedded part positioning device comprises a first connecting frame (1); two first supporting seats (101) are symmetrically and slidingly connected to the outer part of the first connecting frame (1); the top end surfaces of the two first supporting seats (101) are fixedly connected with a first vertical plate (107); the method is characterized in that: the front parts of the two first supporting seats (101) are respectively provided with a second connecting frame (108); the front parts of the two second connecting frames (108) are respectively connected with a second supporting seat (114) in a sliding way; the top end surfaces of the two second supporting seats (114) are fixedly connected with a second vertical plate (126); the two second vertical plates (126) are aligned with the positions of the two first vertical plates (107) respectively; the inner sides of the two first supporting seats (101) and the inner sides of the two second supporting seats (114) are fixedly connected with a connecting seat (120); an auxiliary seat (121) is inserted into each of the four connecting seats (120).

2. The embedment positioning device of claim 1, wherein: two first mounting grooves (102) are symmetrically formed in the rear portion of the first connecting frame (1); a group of first limiting jacks (103) are respectively formed on the front end surfaces of the two first mounting grooves (102); the rear parts of the two first supporting seats (101) are respectively connected with a first control bolt (104) in a threaded manner; the tail ends of the two first control bolts (104) are fixedly connected with a first connecting plate (105); the two first connecting plates (105) are respectively and slidably connected in the two first mounting grooves (102); the front parts of the two first connecting plates (105) are fixedly connected with a first limiting plug block (106) in the middle; the two first limiting plug blocks (106) are respectively inserted into the two groups of first limiting plug holes (103).

3. The embedment positioning device of claim 1, wherein: the outer sides of the front parts of the two second connecting frames (108) are respectively provided with a second mounting groove (115); a group of second limiting jacks (116) are respectively formed on the inner sides of the two second mounting grooves (115); the outer sides of the two second supporting seats (114) are respectively connected with a second control bolt (117) in a threaded manner; the tail ends of the two second control bolts (117) are fixedly connected with a second connecting plate (118); the two second connecting plates (118) are respectively and slidably connected in the two second mounting grooves (115); the inner sides of the two second connecting plates (118) are fixedly connected with a second limiting plug block (119) in the middle; the two second limiting plug blocks (119) are respectively plugged into the two second limiting plug holes (116).

4. The embedment positioning device of claim 1, wherein: the front parts of the two first supporting seats (101) are both connected with a group of connecting clamping blocks (109) in a sliding manner; the front parts of the two groups of connecting clamping blocks (109) are respectively inserted into the two second connecting frames (108); the rear parts of the outer sides of the two groups of connecting clamping blocks (109) are fixedly connected with a group of supporting springs (110); the tail ends of the two groups of supporting springs (110) are respectively and fixedly connected in the two first supporting seats (101); the front parts of the outer sides of the two groups of connecting clamping blocks (109) are fixedly connected with a group of fixing frames (111); the bottom end surfaces of the two groups of fixing frames (111) are fixedly connected with a group of transmission racks (112); the lower parts of the front end surfaces of the two first supporting seats (101) are respectively and rotatably connected with a transmission gear (113); the two groups of transmission racks (112) are respectively meshed with the two transmission gears (113).

5. The embedment positioning device of claim 1, wherein: the top end surfaces of the four auxiliary seats (121) are fixedly connected with a control screw (124); the four control screws (124) are externally connected with a lifting column (125) in a threaded manner; the four lifting columns (125) are distributed in a rectangular array shape.

6. The embedment positioning device of claim 1, wherein: a connecting clamping seat (122) is slidably connected in each of the four connecting seats (120); the tail ends of the four connecting clamping seats (122) are respectively inserted into the four auxiliary seats (121); a group of return springs (123) are fixedly connected to the outer sides of the four connecting clamping seats (122); the tail ends of the four groups of reset springs (123) are respectively and fixedly connected to the outer sides of the four connecting seats (120).