CN219266816U - Concrete temperature control simulator - Google Patents

Abstract

The utility model relates to the technical field of concrete temperature control, in particular to a concrete temperature control simulation device, which comprises a temperature control simulation device body, wherein a display is fixedly arranged in the temperature control simulation device body, a shielding structure is arranged on the surface of the temperature control simulation device body, the shielding structure comprises an extrusion pad, the surface of the extrusion pad is in sliding connection with the temperature control simulation device body, the extrusion pad is an elastic pad, a cover plate is fixedly arranged on the surface of the extrusion pad, a trepanning is formed in the surface of the cover plate, and a long frame is in sliding connection with the inner wall of the trepanning. According to the utility model, the problem that concrete is easy to drop on a display screen of the concrete temperature control simulation device when the concrete temperature control simulation device is utilized to simulate concrete temperature control in the prior art, and the concrete dropped on the display screen is solidified on the display screen, so that the temperature data watching on the display screen by workers is influenced is solved.

Description

Concrete temperature control simulator

Technical Field

The utility model relates to the technical field of concrete temperature control, in particular to a concrete temperature control simulation device.

Background

The concrete temperature control simulation device is a device for simulating concrete temperature control, and can be used for conveniently and manually controlling the concrete temperature of a casting area site by workers, so that the concrete temperature control simulation device can reduce the waste of resources to a certain extent.

One Chinese patent with publication number of CN217385288U discloses a concrete temperature control simulation device, which has the technical scheme that: the test block assembly is used for simulating concrete and comprises a first test block and a second test block which are stacked from bottom to top; the heating assembly is used for heating the test block assembly; the cooling assembly is used for cooling the test block assembly and comprises a first cooling unit for cooling the inside of the test block assembly and/or a second cooling unit for cooling the outside of the test block assembly; the detection assembly is used for detecting the temperature difference between the inside and the outside of the test block assembly and comprises a first detection unit for detecting the room temperature, a second detection unit arranged below the first test block and a third detection unit arranged between the first test block and the second test block; and the control component is used for starting and stopping the cooling component according to the detection data of the detection component. The concrete temperature control simulation device has the advantages of simple structure, low manufacturing cost and convenient use, and can be used for researching and demonstrating the temperature drop process of concrete.

With respect to the above and related art, the inventors believe that there are often the following drawbacks: when the concrete temperature control simulation device is utilized to simulate concrete temperature control, concrete is easy to drop on a display screen of the concrete temperature control simulation device, and the concrete dropped on the display screen can be solidified on the display screen, so that the observation of temperature data on the display screen by workers is influenced.

Accordingly, the present utility model provides a concrete temperature control simulator.

Disclosure of Invention

The utility model aims to solve the problems that in the prior art, when a concrete temperature control simulation device is used for simulating concrete temperature control, concrete is easy to drop on a display screen of the concrete temperature control simulation device, and the concrete dropped on the display screen is solidified on the display screen, so that the temperature data watching on the display screen is influenced by staff.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a concrete control by temperature change analogue means, includes the control by temperature change analogue means body, the inside fixed mounting of control by temperature change analogue means body has the display, the surface of control by temperature change analogue means body is equipped with and shelters from the structure, shelter from the structure and include the extrusion pad, the surface and the control by temperature change analogue means body sliding connection of extrusion pad, the extrusion pad is the elastic pad, the surface fixed mounting of extrusion pad has the apron, the trepanning has been seted up on the surface of apron, the inner wall sliding connection of trepanning has long frame, the cross-section of long frame is "L" shape, the surface and the control by temperature change analogue means body fixed connection of long frame.

The effects achieved by the components are as follows: through setting up shielding structure, can utilize concrete control by temperature change analogue means to the concrete control by temperature change simulation time, shelter from the concrete of drip on the display screen.

Preferably, a control frame is fixedly arranged on the surface of the cover plate, and the section of the control frame is T-shaped.

The effects achieved by the components are as follows: the staff can remove the apron with the help of the control frame, has reached the effect of supplementary removal apron.

Preferably, the surface of the temperature control simulation device body is fixedly provided with a clamping plate, and the surface of the clamping plate is in sliding connection with the cover plate.

The effects achieved by the components are as follows: the cardboard can be to the apron location, has reached the effect to the apron location.

Preferably, the internal thread of control by temperature change analogue means body is connected with the bolt, the spacing groove has been seted up on the surface of control by temperature change analogue means body, the size in spacing groove and the size looks adaptation of lid.

The effects achieved by the components are as follows: the cover plate is placed on the inner wall of the limit groove, the bolt is rotated, the bolt moves to the direction close to the temperature control simulation device body by means of threads, the surface of the bolt extrudes the cover plate, and at the moment, the cover plate is fixed on the inner wall of the limit groove, so that the effect of accommodating the cover plate is achieved.

Preferably, the surface of control by temperature change analogue means body is equipped with the bearing structure, the bearing structure includes four mounting brackets, four the surface of mounting bracket all with control by temperature change analogue means body fixed connection, the cross-section of mounting bracket is "L" shape, the inside sliding connection of mounting bracket has the flitch, spacing hole has been seted up to the surface of mounting bracket, the inside threaded connection of flitch has the bolt, the surface and the inner wall sliding connection in spacing hole of bolt.

The effects achieved by the components are as follows: through setting up bearing structure, can be with control by temperature change analogue means horizontal support on rugged subaerial to make things convenient for the staff to use control by temperature change analogue means.

Preferably, lifting rods are fixedly inserted into the four stickers, sliding holes are formed in the four mounting frames, and the inner walls of the sliding holes are in sliding connection with the lifting rods.

The effects achieved by the components are as follows: the lifting rod is slid, and the flitch is driven to slide while the lifting rod slides, so that the effect of driving the flitch to slide is achieved.

Preferably, square blocks are fixedly arranged at the upper ends of the four lifting rods, and the sizes of the square blocks are larger than the sizes of the sliding holes.

The effects achieved by the components are as follows: the square block can shelter from the flitch through the lifter for the flitch can not the inside of roll-off mounting bracket, has reached the inside effect of restriction flitch roll-off mounting bracket.

To sum up:

1. according to the utility model, when the temperature control simulation device is needed, the cover plate is sleeved on the long frame by the control frame, the extrusion pad on the cover plate is positioned on the surface of the temperature control simulation device, the cover plate is positioned on the surface of the clamping plate, the extrusion pad extrudes the temperature control simulation device by using elasticity, so that the cover plate is fixed on the long frame, when the temperature control simulation device is used, the cover plate can shield concrete dropping on the display screen, and by arranging the shielding structure, concrete dropping on the display screen can be shielded when the concrete temperature control simulation device is used for simulating concrete temperature control.

2. In the utility model, when the temperature control simulation device is positioned on the uneven ground, the temperature control simulation device is firstly horizontally arranged, then the flitch is slid by utilizing the square block and the lifting rod, the surface of the flitch is contacted with the ground after the flitch slides for a certain distance, then the mounting frame and the flitch are fixed by virtue of the bolts, and at the moment, the mounting frame and the flitch horizontally support the temperature control simulation device on the uneven ground, and the temperature control simulation device can be horizontally supported on the uneven ground by arranging the bearing structure, so that the temperature control simulation device is convenient for workers to use.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is an enlarged view of the utility model at A of FIG. 1;

FIG. 3 is a schematic view of the partial structure of FIG. 1 according to the present utility model;

FIG. 4 is an enlarged view of the utility model at B of FIG. 3;

fig. 5 is an enlarged view of fig. 3 at C in accordance with the present utility model.

Legend description: 1. a temperature control simulation device body; 2. a display; 3. a shielding structure; 31. a cover plate; 32. a squeeze pad; 33. a clamping plate; 34. a control rack; 35. a long frame; 36. trepanning; 37. a limit groove; 38. a bolt; 4. a load bearing structure; 41. pasting a board; 42. a mounting frame; 43. a limiting hole; 44. a plug pin; 45. a slide hole; 46. a lifting rod; 47. square blocks.

Detailed Description

Referring to fig. 1, the present utility model provides a technical solution: the utility model provides a concrete control by temperature change analogue means, including control by temperature change analogue means body 1, the inside fixed mounting of control by temperature change analogue means body 1 has display 2, and the surface of control by temperature change analogue means body 1 is equipped with and shelters from structure 3, through setting up and shelters from structure 3, can shelter from the concrete that drips on the display screen when utilizing the control by temperature change analogue means to control by temperature change analogue means, and the surface of control by temperature change analogue means body 1 is equipped with bearing structure 4, through setting up bearing structure 4, can be with control by temperature change analogue means horizontal support subaerial at unevenness to make things convenient for the staff to use control by temperature change analogue means.

The specific arrangement and function of the shielding structure 3 and the carrying structure 4 will be described in detail below.

Referring to fig. 3, 4 and 5, in this embodiment: the shielding structure 3 comprises a pressing pad 32, the surface of the pressing pad 32 is in sliding connection with the temperature control simulation device body 1, the pressing pad 32 is an elastic pad, a cover plate 31 is fixedly arranged on the surface of the pressing pad 32, a sleeve hole 36 is formed in the surface of the cover plate 31, a long frame 35 is slidably connected to the inner wall of the sleeve hole 36, the cross section of the long frame 35 is L-shaped, and the surface of the long frame 35 is fixedly connected with the temperature control simulation device body 1. The control frame 34 is fixedly arranged on the surface of the cover plate 31, the cross section of the control frame 34 is in a T shape, and a worker can move the cover plate 31 by means of the control frame 34, so that the effect of assisting in moving the cover plate 31 is achieved. The cardboard 33 is fixed mounting on the surface of control by temperature change analogue means body 1, and the surface and the apron 31 sliding connection of cardboard 33, cardboard 33 can fix a position apron 31, have reached the effect to apron 31 location. The inside threaded connection of control by temperature change analogue means body 1 has bolt 38, and spacing groove 37 has been seted up on the surface of control by temperature change analogue means body 1, and the size of spacing groove 37 and the size looks adaptation of apron 31 put apron 31 at the inner wall of spacing groove 37, then rotate bolt 38, and bolt 38 moves to the direction that is close to control by temperature change analogue means body 1 with the help of the screw thread, and the surface extrusion apron 31 of bolt 38, and apron 31 is fixed at the inner wall of spacing groove 37 at this moment, has reached the effect of accomodating apron 31.

Referring to fig. 2, specifically, the carrying structure 4 includes four mounting frames 42, the surfaces of the four mounting frames 42 are fixedly connected with the temperature control simulation device body 1, the section of each mounting frame 42 is in an L shape, a flitch 41 is slidably connected in the mounting frame 42, a limiting hole 43 is formed in the surface of each mounting frame 42, a bolt 44 is in threaded connection with the inner side of each flitch 41, and the surface of each bolt 44 is slidably connected with the inner wall of each limiting hole 43. Lifting rods 46 are fixedly inserted into the four flitch plates 41, sliding holes 45 are formed in the four mounting frames 42, the inner walls of the sliding holes 45 are in sliding connection with the lifting rods 46, the lifting rods 46 are slid, and the flitch plates 41 are driven to slide while the lifting rods 46 slide, so that the effect of driving the flitch plates 41 to slide is achieved. The square block 47 is fixedly installed at the upper ends of the four lifting rods 46, the size of the square block 47 is larger than that of the sliding hole 45, the square block 47 can shield the flitch 41 through the lifting rods 46, so that the flitch 41 cannot slide out of the inside of the mounting frame 42, and the effect of limiting the flitch 41 to slide out of the inside of the mounting frame 42 is achieved.

When the temperature control simulation device is needed, the cover plate 31 is sleeved on the long frame 35 by the control frame 34, the extrusion pad 32 on the cover plate 31 is positioned on the surface of the temperature control simulation device, the cover plate 31 is positioned on the surface of the clamping plate 33, the extrusion pad 32 extrudes the temperature control simulation device by using elasticity, the cover plate 31 is fixed on the long frame 35, when the temperature control simulation device is used at the moment, the cover plate 31 can shield concrete dropped on the display screen, when the temperature control simulation device is not needed, the cover plate 31 is placed on the inner wall of the limiting groove 37, then the bolt 38 is rotated, the bolt 38 moves towards the direction close to the temperature control simulation device body 1 by means of threads, the surface of the bolt 38 extrudes the cover plate 31, the cover plate 31 is fixed on the inner wall of the limiting groove 37, the effect of storing the cover plate 31 is achieved, and the shielding structure 3 is arranged to shield concrete dropped on the display screen when the temperature control simulation of the concrete is performed by the concrete temperature control simulation device.

When the temperature control simulation device is located on uneven ground, the temperature control simulation device is firstly horizontally arranged, then the square block 47 is slid downwards, the square block 47 is slid downwards and drives the lifting rod 46 to slide, the lifting rod 46 is slid and drives the flitch 41 to slide, after the flitch 41 slides a certain distance, the surface of the flitch 41 is contacted with the ground, then the bolt 44 is rotated, the bolt 44 moves towards the direction close to the flitch 41 by means of threads, after the bolt 44 moves a certain distance, the surface of the bolt 44 presses the mounting frame 42, at the moment, the mounting frame 42 and the flitch 41 are fixed, and at the moment, the mounting frame 42 and the flitch 41 support the temperature control simulation device horizontally on the uneven ground.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

Claims (7)

1. Concrete control by temperature change analogue means, including control by temperature change analogue means body (1), its characterized in that: the inside fixed mounting of control by temperature change analogue means body (1) has display (2), the surface of control by temperature change analogue means body (1) is equipped with and shelters from structure (3), shelter from structure (3) including extrusion pad (32), the surface and the control by temperature change analogue means body (1) sliding connection of extrusion pad (32), extrusion pad (32) are the elastic pad, the fixed surface of extrusion pad (32) installs apron (31), trepanning (36) have been seted up on the surface of apron (31), the inner wall sliding connection of trepanning (36) has long frame (35), the cross-section of long frame (35) is "L" shape, the surface and the control by temperature change analogue means body (1) fixed connection of long frame (35).

2. The concrete temperature control simulation device according to claim 1, wherein: the surface of the cover plate (31) is fixedly provided with a control frame (34), and the cross section of the control frame (34) is T-shaped.

3. The concrete temperature control simulation device according to claim 1, wherein: the surface of the temperature control simulation device body (1) is fixedly provided with a clamping plate (33), and the surface of the clamping plate (33) is in sliding connection with the cover plate (31).

4. The concrete temperature control simulation device according to claim 1, wherein: the temperature control simulation device is characterized in that a bolt (38) is connected with the inner thread of the temperature control simulation device body (1), a limiting groove (37) is formed in the surface of the temperature control simulation device body (1), and the size of the limiting groove (37) is matched with the size of the cover plate (31).

5. The concrete temperature control simulation device according to claim 1, wherein: the surface of control by temperature change analogue means body (1) is equipped with bears structure (4), bear structure (4) including four mounting brackets (42), four the surface of mounting bracket (42) all with control by temperature change analogue means body (1) fixed connection, the cross-section of mounting bracket (42) is "L" shape, the inside sliding connection of mounting bracket (42) has flitch (41), spacing hole (43) have been seted up on the surface of mounting bracket (42), the internal thread connection of flitch (41) has bolt (44), the surface and the inner wall sliding connection of spacing hole (43) of bolt (44).

6. The concrete temperature control simulator of claim 5, wherein: lifting rods (46) are fixedly inserted into the four pasting plates (41), sliding holes (45) are formed in the four mounting frames (42), and the inner walls of the sliding holes (45) are in sliding connection with the lifting rods (46).

7. The concrete temperature control simulator of claim 6, wherein: square blocks (47) are fixedly arranged at the upper ends of the four lifting rods (46), and the size of each square block (47) is larger than that of each sliding hole (45).

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